shithub: h264bsd

Download patch

ref: 4e6482e168b7476774e983121f8762016cd45d07
author: Sam Leitch <sam.leitch@calgaryscientific.com>
date: Wed Nov 27 10:07:35 EST 2013

Initial commit

diff: cannot open b/src//null: file does not exist: 'b/src//null' diff: cannot open b/win//null: file does not exist: 'b/win//null'
--- /dev/null
+++ b/.gitignore
@@ -1,0 +1,5 @@
+win/Debug/
+win/Release/
+win/_ReSharper.h264bsd/
+win/ipch/
+win/*.sdf
--- /dev/null
+++ b/README.md
@@ -1,0 +1,12 @@
+# h264bsd
+
+This is a software-based library that was extracted from the Android project with the intention of being used elsewhere.
+
+The only modification that have been made are to remove the top-level API and add an opaque pointer for encoder storage.
+
+The intention is to provide a simple H.264 decoder that can be easily invoked from [ffi](http://en.wikipedia.org/wiki/Foreign_function_interface) systems. 
+
+## Directories
+
+*src* Contains the modified source.
+*win* Contains Visual Studio project files for building.
--- /dev/null
+++ b/src/basetype.h
@@ -1,0 +1,53 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+
+#ifndef BASETYPE_H_INCLUDED
+#define BASETYPE_H_INCLUDED
+
+
+#ifdef __arm
+#define VOLATILE volatile
+#else
+#define VOLATILE
+#endif
+
+typedef unsigned char   u8;
+typedef signed char     i8;
+typedef unsigned short  u16;
+typedef signed short    i16;
+typedef unsigned int    u32;
+typedef signed int      i32;
+
+#if defined(VC1SWDEC_16BIT) || defined(MP4ENC_ARM11)
+typedef unsigned short  u16x;
+typedef signed short    i16x;
+#else
+typedef unsigned int    u16x;
+typedef signed int      i16x;
+#endif
+
+
+#ifndef NULL
+#ifdef  __cplusplus
+#define NULL 0
+#else
+#define NULL ((void *)0)
+#endif
+#endif
+
+#endif  /* BASETYPE_H_INCLUDED */
--- /dev/null
+++ b/src/h264bsd_byte_stream.c
@@ -1,0 +1,238 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          ExtractNalUnit
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_byte_stream.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+#define BYTE_STREAM_ERROR  0xFFFFFFFF
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function name: ExtractNalUnit
+
+        Functional description:
+            Extracts one NAL unit from the byte stream buffer. Removes
+            emulation prevention bytes if present. The original stream buffer
+            is used directly and is therefore modified if emulation prevention
+            bytes are present in the stream.
+
+            Stream buffer is assumed to contain either exactly one NAL unit
+            and nothing else, or one or more NAL units embedded in byte
+            stream format described in the Annex B of the standard. Function
+            detects which one is used based on the first bytes in the buffer.
+
+        Inputs:
+            pByteStream     pointer to byte stream buffer
+            len             length of the stream buffer (in bytes)
+
+        Outputs:
+            pStrmData       stream information is stored here
+            readBytes       number of bytes "consumed" from the stream buffer
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      error in byte stream
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdExtractNalUnit(u8 *pByteStream, u32 len, strmData_t *pStrmData,
+    u32 *readBytes)
+{
+
+/* Variables */
+
+    u32 i, tmp;
+    u32 byteCount,initByteCount;
+    u32 zeroCount;
+    u8  byte;
+    u32 hasEmulation = HANTRO_FALSE;
+    u32 invalidStream = HANTRO_FALSE;
+    u8 *readPtr, *writePtr;
+
+/* Code */
+
+    ASSERT(pByteStream);
+    ASSERT(len);
+    ASSERT(len < BYTE_STREAM_ERROR);
+    ASSERT(pStrmData);
+
+    /* byte stream format if starts with 0x000001 or 0x000000 */
+    if (len > 3 && pByteStream[0] == 0x00 && pByteStream[1] == 0x00 &&
+        (pByteStream[2]&0xFE) == 0x00)
+    {
+        /* search for NAL unit start point, i.e. point after first start code
+         * prefix in the stream */
+        zeroCount = byteCount = 2;
+        readPtr = pByteStream + 2;
+        /*lint -e(716) while(1) used consciously */
+        while (1)
+        {
+            byte = *readPtr++;
+            byteCount++;
+
+            if (byteCount == len)
+            {
+                /* no start code prefix found -> error */
+                *readBytes = len;
+                return(HANTRO_NOK);
+            }
+
+            if (!byte)
+                zeroCount++;
+            else if ((byte == 0x01) && (zeroCount >= 2))
+                break;
+            else
+                zeroCount = 0;
+        }
+
+        initByteCount = byteCount;
+
+        /* determine size of the NAL unit. Search for next start code prefix
+         * or end of stream and ignore possible trailing zero bytes */
+        zeroCount = 0;
+        /*lint -e(716) while(1) used consciously */
+        while (1)
+        {
+            byte = *readPtr++;
+            byteCount++;
+            if (!byte)
+                zeroCount++;
+
+            if ( (byte == 0x03) && (zeroCount == 2) )
+            {
+                hasEmulation = HANTRO_TRUE;
+            }
+
+            if ( (byte == 0x01) && (zeroCount >= 2 ) )
+            {
+                pStrmData->strmBuffSize =
+                    byteCount - initByteCount - zeroCount - 1;
+                zeroCount -= MIN(zeroCount, 3);
+                break;
+            }
+            else if (byte)
+            {
+                if (zeroCount >= 3)
+                    invalidStream = HANTRO_TRUE;
+                zeroCount = 0;
+            }
+
+            if (byteCount == len)
+            {
+                pStrmData->strmBuffSize = byteCount - initByteCount - zeroCount;
+                break;
+            }
+
+        }
+    }
+    /* separate NAL units as input -> just set stream params */
+    else
+    {
+        initByteCount = 0;
+        zeroCount = 0;
+        pStrmData->strmBuffSize = len;
+        hasEmulation = HANTRO_TRUE;
+    }
+
+    pStrmData->pStrmBuffStart    = pByteStream + initByteCount;
+    pStrmData->pStrmCurrPos      = pStrmData->pStrmBuffStart;
+    pStrmData->bitPosInWord      = 0;
+    pStrmData->strmBuffReadBits  = 0;
+
+    /* return number of bytes "consumed" */
+    *readBytes = pStrmData->strmBuffSize + initByteCount + zeroCount;
+
+    if (invalidStream)
+    {
+        return(HANTRO_NOK);
+    }
+
+    /* remove emulation prevention bytes before rbsp processing */
+    if (hasEmulation)
+    {
+        tmp = pStrmData->strmBuffSize;
+        readPtr = writePtr = pStrmData->pStrmBuffStart;
+        zeroCount = 0;
+        for (i = tmp; i--;)
+        {
+            if ((zeroCount == 2) && (*readPtr == 0x03))
+            {
+                /* emulation prevention byte shall be followed by one of the
+                 * following bytes: 0x00, 0x01, 0x02, 0x03. This implies that
+                 * emulation prevention 0x03 byte shall not be the last byte
+                 * of the stream. */
+                if ( (i == 0) || (*(readPtr+1) > 0x03) )
+                    return(HANTRO_NOK);
+
+                /* do not write emulation prevention byte */
+                readPtr++;
+                zeroCount = 0;
+            }
+            else
+            {
+                /* NAL unit shall not contain byte sequences 0x000000,
+                 * 0x000001 or 0x000002 */
+                if ( (zeroCount == 2) && (*readPtr <= 0x02) )
+                    return(HANTRO_NOK);
+
+                if (*readPtr == 0)
+                    zeroCount++;
+                else
+                    zeroCount = 0;
+
+                *writePtr++ = *readPtr++;
+            }
+        }
+
+        /* (readPtr - writePtr) indicates number of "removed" emulation
+         * prevention bytes -> subtract from stream buffer size */
+        pStrmData->strmBuffSize -= (u32)(readPtr - writePtr);
+    }
+
+    return(HANTRO_OK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_byte_stream.h
@@ -1,0 +1,55 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_BYTE_STREAM_H
+#define H264SWDEC_BYTE_STREAM_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdExtractNalUnit(u8 *pByteStream, u32 len, strmData_t *pStrmData,
+    u32 *readBytes);
+
+#endif /* #ifdef H264SWDEC_BYTE_STREAM_H */
+
--- /dev/null
+++ b/src/h264bsd_cavlc.c
@@ -1,0 +1,917 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          DecodeCoeffToken
+          DecodeLevelPrefix
+          DecodeTotalZeros
+          DecodeRunBefore
+          DecodeResidualBlockCavlc
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_cavlc.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* Following descriptions use term "information field" to represent combination
+ * of certain decoded symbol value and the length of the corresponding variable
+ * length code word. For example, total_zeros information field consists of
+ * 4 bits symbol value (bits [4,7]) along with four bits to represent length
+ * of the VLC code word (bits [0,3]) */
+
+/* macro to obtain length of the coeff token information field, bits [0,4]  */
+#define LENGTH_TC(vlc) ((vlc) & 0x1F)
+/* macro to obtain length of the other information fields, bits [0,3] */
+#define LENGTH(vlc) ((vlc) & 0xF)
+/* macro to obtain code word from the information fields, bits [4,7] */
+#define INFO(vlc) (((vlc) >> 4) & 0xF)  /* 4 MSB bits contain information */
+/* macro to obtain trailing ones from the coeff token information word,
+ * bits [5,10] */
+#define TRAILING_ONES(coeffToken) ((coeffToken>>5) & 0x3F)
+/* macro to obtain total coeff from the coeff token information word,
+ * bits [11,15] */
+#define TOTAL_COEFF(coeffToken) (((coeffToken) >> 11) & 0x1F)
+
+#define VLC_NOT_FOUND 0xFFFFFFFEU
+
+/* VLC tables for coeff_token. Because of long codes (max. 16 bits) some of the
+ * tables have been splitted into multiple separate tables. Each array/table
+ * element has the following structure:
+ * [5 bits for tot.coeff.] [6 bits for tr.ones] [5 bits for VLC length]
+ * If there is a 0x0000 value, it means that there is not corresponding VLC
+ * codeword for that index. */
+
+/* VLC lengths up to 6 bits, 0 <= nC < 2 */
+static const u16 coeffToken0_0[32] = {
+    0x0000,0x0000,0x0000,0x2066,0x1026,0x0806,0x1865,0x1865,
+    0x1043,0x1043,0x1043,0x1043,0x1043,0x1043,0x1043,0x1043,
+    0x0822,0x0822,0x0822,0x0822,0x0822,0x0822,0x0822,0x0822,
+    0x0822,0x0822,0x0822,0x0822,0x0822,0x0822,0x0822,0x0822};
+
+/* VLC lengths up to 10 bits, 0 <= nC < 2 */
+static const u16 coeffToken0_1[48] = {
+    0x0000,0x0000,0x0000,0x0000,0x406a,0x304a,0x282a,0x200a,
+    0x3869,0x3869,0x2849,0x2849,0x2029,0x2029,0x1809,0x1809,
+    0x3068,0x3068,0x3068,0x3068,0x2048,0x2048,0x2048,0x2048,
+    0x1828,0x1828,0x1828,0x1828,0x1008,0x1008,0x1008,0x1008,
+    0x2867,0x2867,0x2867,0x2867,0x2867,0x2867,0x2867,0x2867,
+    0x1847,0x1847,0x1847,0x1847,0x1847,0x1847,0x1847,0x1847};
+
+/* VLC lengths up to 14 bits, 0 <= nC < 2 */
+static const u16 coeffToken0_2[56] = {
+    0x606e,0x584e,0x502e,0x500e,0x586e,0x504e,0x482e,0x480e,
+    0x400d,0x400d,0x484d,0x484d,0x402d,0x402d,0x380d,0x380d,
+    0x506d,0x506d,0x404d,0x404d,0x382d,0x382d,0x300d,0x300d,
+    0x486b,0x486b,0x486b,0x486b,0x486b,0x486b,0x486b,0x486b,
+    0x384b,0x384b,0x384b,0x384b,0x384b,0x384b,0x384b,0x384b,
+    0x302b,0x302b,0x302b,0x302b,0x302b,0x302b,0x302b,0x302b,
+    0x280b,0x280b,0x280b,0x280b,0x280b,0x280b,0x280b,0x280b};
+
+/* VLC lengths up to 16 bits, 0 <= nC < 2 */
+static const u16 coeffToken0_3[32] = {
+    0x0000,0x0000,0x682f,0x682f,0x8010,0x8050,0x8030,0x7810,
+    0x8070,0x7850,0x7830,0x7010,0x7870,0x7050,0x7030,0x6810,
+    0x706f,0x706f,0x684f,0x684f,0x602f,0x602f,0x600f,0x600f,
+    0x686f,0x686f,0x604f,0x604f,0x582f,0x582f,0x580f,0x580f};
+
+/* VLC lengths up to 6 bits, 2 <= nC < 4 */
+static const u16 coeffToken2_0[32] = {
+    0x0000,0x0000,0x0000,0x0000,0x3866,0x2046,0x2026,0x1006,
+    0x3066,0x1846,0x1826,0x0806,0x2865,0x2865,0x1025,0x1025,
+    0x2064,0x2064,0x2064,0x2064,0x1864,0x1864,0x1864,0x1864,
+    0x1043,0x1043,0x1043,0x1043,0x1043,0x1043,0x1043,0x1043};
+
+/* VLC lengths up to 9 bits, 2 <= nC < 4 */
+static const u16 coeffToken2_1[32] = {
+    0x0000,0x0000,0x0000,0x0000,0x4869,0x3849,0x3829,0x3009,
+    0x2808,0x2808,0x3048,0x3048,0x3028,0x3028,0x2008,0x2008,
+    0x4067,0x4067,0x4067,0x4067,0x2847,0x2847,0x2847,0x2847,
+    0x2827,0x2827,0x2827,0x2827,0x1807,0x1807,0x1807,0x1807};
+
+/* VLC lengths up to 14 bits, 2 <= nC < 4 */
+static const u16 coeffToken2_2[128] = {
+    0x0000,0x0000,0x786d,0x786d,0x806e,0x804e,0x802e,0x800e,
+    0x782e,0x780e,0x784e,0x702e,0x704d,0x704d,0x700d,0x700d,
+    0x706d,0x706d,0x684d,0x684d,0x682d,0x682d,0x680d,0x680d,
+    0x686d,0x686d,0x604d,0x604d,0x602d,0x602d,0x600d,0x600d,
+    0x580c,0x580c,0x580c,0x580c,0x584c,0x584c,0x584c,0x584c,
+    0x582c,0x582c,0x582c,0x582c,0x500c,0x500c,0x500c,0x500c,
+    0x606c,0x606c,0x606c,0x606c,0x504c,0x504c,0x504c,0x504c,
+    0x502c,0x502c,0x502c,0x502c,0x480c,0x480c,0x480c,0x480c,
+    0x586b,0x586b,0x586b,0x586b,0x586b,0x586b,0x586b,0x586b,
+    0x484b,0x484b,0x484b,0x484b,0x484b,0x484b,0x484b,0x484b,
+    0x482b,0x482b,0x482b,0x482b,0x482b,0x482b,0x482b,0x482b,
+    0x400b,0x400b,0x400b,0x400b,0x400b,0x400b,0x400b,0x400b,
+    0x506b,0x506b,0x506b,0x506b,0x506b,0x506b,0x506b,0x506b,
+    0x404b,0x404b,0x404b,0x404b,0x404b,0x404b,0x404b,0x404b,
+    0x402b,0x402b,0x402b,0x402b,0x402b,0x402b,0x402b,0x402b,
+    0x380b,0x380b,0x380b,0x380b,0x380b,0x380b,0x380b,0x380b};
+
+/* VLC lengths up to 6 bits, 4 <= nC < 8 */
+static const u16 coeffToken4_0[64] = {
+    0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,
+    0x1806,0x3846,0x3826,0x1006,0x4866,0x3046,0x3026,0x0806,
+    0x2825,0x2825,0x2845,0x2845,0x2025,0x2025,0x2045,0x2045,
+    0x1825,0x1825,0x4065,0x4065,0x1845,0x1845,0x1025,0x1025,
+    0x3864,0x3864,0x3864,0x3864,0x3064,0x3064,0x3064,0x3064,
+    0x2864,0x2864,0x2864,0x2864,0x2064,0x2064,0x2064,0x2064,
+    0x1864,0x1864,0x1864,0x1864,0x1044,0x1044,0x1044,0x1044,
+    0x0824,0x0824,0x0824,0x0824,0x0004,0x0004,0x0004,0x0004};
+
+/* VLC lengths up to 10 bits, 4 <= nC < 8 */
+static const u16 coeffToken4_1[128] = {
+    0x0000,0x800a,0x806a,0x804a,0x802a,0x780a,0x786a,0x784a,
+    0x782a,0x700a,0x706a,0x704a,0x702a,0x680a,0x6829,0x6829,
+    0x6009,0x6009,0x6849,0x6849,0x6029,0x6029,0x5809,0x5809,
+    0x6869,0x6869,0x6049,0x6049,0x5829,0x5829,0x5009,0x5009,
+    0x6068,0x6068,0x6068,0x6068,0x5848,0x5848,0x5848,0x5848,
+    0x5028,0x5028,0x5028,0x5028,0x4808,0x4808,0x4808,0x4808,
+    0x5868,0x5868,0x5868,0x5868,0x5048,0x5048,0x5048,0x5048,
+    0x4828,0x4828,0x4828,0x4828,0x4008,0x4008,0x4008,0x4008,
+    0x3807,0x3807,0x3807,0x3807,0x3807,0x3807,0x3807,0x3807,
+    0x3007,0x3007,0x3007,0x3007,0x3007,0x3007,0x3007,0x3007,
+    0x4847,0x4847,0x4847,0x4847,0x4847,0x4847,0x4847,0x4847,
+    0x2807,0x2807,0x2807,0x2807,0x2807,0x2807,0x2807,0x2807,
+    0x5067,0x5067,0x5067,0x5067,0x5067,0x5067,0x5067,0x5067,
+    0x4047,0x4047,0x4047,0x4047,0x4047,0x4047,0x4047,0x4047,
+    0x4027,0x4027,0x4027,0x4027,0x4027,0x4027,0x4027,0x4027,
+    0x2007,0x2007,0x2007,0x2007,0x2007,0x2007,0x2007,0x2007};
+
+/* fixed 6 bit length VLC, nC <= 8 */
+static const u16 coeffToken8[64] = {
+    0x0806,0x0826,0x0000,0x0006,0x1006,0x1026,0x1046,0x0000,
+    0x1806,0x1826,0x1846,0x1866,0x2006,0x2026,0x2046,0x2066,
+    0x2806,0x2826,0x2846,0x2866,0x3006,0x3026,0x3046,0x3066,
+    0x3806,0x3826,0x3846,0x3866,0x4006,0x4026,0x4046,0x4066,
+    0x4806,0x4826,0x4846,0x4866,0x5006,0x5026,0x5046,0x5066,
+    0x5806,0x5826,0x5846,0x5866,0x6006,0x6026,0x6046,0x6066,
+    0x6806,0x6826,0x6846,0x6866,0x7006,0x7026,0x7046,0x7066,
+    0x7806,0x7826,0x7846,0x7866,0x8006,0x8026,0x8046,0x8066};
+
+/* VLC lengths up to 3 bits, nC == -1 */
+static const u16 coeffTokenMinus1_0[8] = {
+    0x0000,0x1043,0x0002,0x0002,0x0821,0x0821,0x0821,0x0821};
+
+/* VLC lengths up to 8 bits, nC == -1 */
+static const u16 coeffTokenMinus1_1[32] = {
+    0x2067,0x2067,0x2048,0x2028,0x1847,0x1847,0x1827,0x1827,
+    0x2006,0x2006,0x2006,0x2006,0x1806,0x1806,0x1806,0x1806,
+    0x1006,0x1006,0x1006,0x1006,0x1866,0x1866,0x1866,0x1866,
+    0x1026,0x1026,0x1026,0x1026,0x0806,0x0806,0x0806,0x0806};
+
+/* VLC tables for total_zeros. One table containing longer code, totalZeros_1,
+ * has been broken into two separate tables. Table elements have the
+ * following structure:
+ * [4 bits for info] [4 bits for VLC length] */
+
+/* VLC lengths up to 5 bits */
+static const u8 totalZeros_1_0[32] = {
+    0x00,0x00,0x65,0x55,0x44,0x44,0x34,0x34,
+    0x23,0x23,0x23,0x23,0x13,0x13,0x13,0x13,
+    0x01,0x01,0x01,0x01,0x01,0x01,0x01,0x01,
+    0x01,0x01,0x01,0x01,0x01,0x01,0x01,0x01};
+
+/* VLC lengths up to 9 bits */
+static const u8 totalZeros_1_1[32] = {
+    0x00,0xf9,0xe9,0xd9,0xc8,0xc8,0xb8,0xb8,
+    0xa7,0xa7,0xa7,0xa7,0x97,0x97,0x97,0x97,
+    0x86,0x86,0x86,0x86,0x86,0x86,0x86,0x86,
+    0x76,0x76,0x76,0x76,0x76,0x76,0x76,0x76};
+
+static const u8 totalZeros_2[64] = {
+    0xe6,0xd6,0xc6,0xb6,0xa5,0xa5,0x95,0x95,
+    0x84,0x84,0x84,0x84,0x74,0x74,0x74,0x74,
+    0x64,0x64,0x64,0x64,0x54,0x54,0x54,0x54,
+    0x43,0x43,0x43,0x43,0x43,0x43,0x43,0x43,
+    0x33,0x33,0x33,0x33,0x33,0x33,0x33,0x33,
+    0x23,0x23,0x23,0x23,0x23,0x23,0x23,0x23,
+    0x13,0x13,0x13,0x13,0x13,0x13,0x13,0x13,
+    0x03,0x03,0x03,0x03,0x03,0x03,0x03,0x03};
+
+static const u8 totalZeros_3[64] = {
+    0xd6,0xb6,0xc5,0xc5,0xa5,0xa5,0x95,0x95,
+    0x84,0x84,0x84,0x84,0x54,0x54,0x54,0x54,
+    0x44,0x44,0x44,0x44,0x04,0x04,0x04,0x04,
+    0x73,0x73,0x73,0x73,0x73,0x73,0x73,0x73,
+    0x63,0x63,0x63,0x63,0x63,0x63,0x63,0x63,
+    0x33,0x33,0x33,0x33,0x33,0x33,0x33,0x33,
+    0x23,0x23,0x23,0x23,0x23,0x23,0x23,0x23,
+    0x13,0x13,0x13,0x13,0x13,0x13,0x13,0x13};
+
+static const u8 totalZeros_4[32] = {
+    0xc5,0xb5,0xa5,0x05,0x94,0x94,0x74,0x74,
+    0x34,0x34,0x24,0x24,0x83,0x83,0x83,0x83,
+    0x63,0x63,0x63,0x63,0x53,0x53,0x53,0x53,
+    0x43,0x43,0x43,0x43,0x13,0x13,0x13,0x13};
+
+static const u8 totalZeros_5[32] = {
+    0xb5,0x95,0xa4,0xa4,0x84,0x84,0x24,0x24,
+    0x14,0x14,0x04,0x04,0x73,0x73,0x73,0x73,
+    0x63,0x63,0x63,0x63,0x53,0x53,0x53,0x53,
+    0x43,0x43,0x43,0x43,0x33,0x33,0x33,0x33};
+
+static const u8 totalZeros_6[64] = {
+    0xa6,0x06,0x15,0x15,0x84,0x84,0x84,0x84,
+    0x93,0x93,0x93,0x93,0x93,0x93,0x93,0x93,
+    0x73,0x73,0x73,0x73,0x73,0x73,0x73,0x73,
+    0x63,0x63,0x63,0x63,0x63,0x63,0x63,0x63,
+    0x53,0x53,0x53,0x53,0x53,0x53,0x53,0x53,
+    0x43,0x43,0x43,0x43,0x43,0x43,0x43,0x43,
+    0x33,0x33,0x33,0x33,0x33,0x33,0x33,0x33,
+    0x23,0x23,0x23,0x23,0x23,0x23,0x23,0x23};
+
+static const u8 totalZeros_7[64] = {
+    0x96,0x06,0x15,0x15,0x74,0x74,0x74,0x74,
+    0x83,0x83,0x83,0x83,0x83,0x83,0x83,0x83,
+    0x63,0x63,0x63,0x63,0x63,0x63,0x63,0x63,
+    0x43,0x43,0x43,0x43,0x43,0x43,0x43,0x43,
+    0x33,0x33,0x33,0x33,0x33,0x33,0x33,0x33,
+    0x23,0x23,0x23,0x23,0x23,0x23,0x23,0x23,
+    0x52,0x52,0x52,0x52,0x52,0x52,0x52,0x52,
+    0x52,0x52,0x52,0x52,0x52,0x52,0x52,0x52};
+
+static const u8 totalZeros_8[64] = {
+    0x86,0x06,0x25,0x25,0x14,0x14,0x14,0x14,
+    0x73,0x73,0x73,0x73,0x73,0x73,0x73,0x73,
+    0x63,0x63,0x63,0x63,0x63,0x63,0x63,0x63,
+    0x33,0x33,0x33,0x33,0x33,0x33,0x33,0x33,
+    0x52,0x52,0x52,0x52,0x52,0x52,0x52,0x52,
+    0x52,0x52,0x52,0x52,0x52,0x52,0x52,0x52,
+    0x42,0x42,0x42,0x42,0x42,0x42,0x42,0x42,
+    0x42,0x42,0x42,0x42,0x42,0x42,0x42,0x42};
+
+static const u8 totalZeros_9[64] = {
+    0x16,0x06,0x75,0x75,0x24,0x24,0x24,0x24,
+    0x53,0x53,0x53,0x53,0x53,0x53,0x53,0x53,
+    0x62,0x62,0x62,0x62,0x62,0x62,0x62,0x62,
+    0x62,0x62,0x62,0x62,0x62,0x62,0x62,0x62,
+    0x42,0x42,0x42,0x42,0x42,0x42,0x42,0x42,
+    0x42,0x42,0x42,0x42,0x42,0x42,0x42,0x42,
+    0x32,0x32,0x32,0x32,0x32,0x32,0x32,0x32,
+    0x32,0x32,0x32,0x32,0x32,0x32,0x32,0x32};
+
+static const u8 totalZeros_10[32] = {
+    0x15,0x05,0x64,0x64,0x23,0x23,0x23,0x23,
+    0x52,0x52,0x52,0x52,0x52,0x52,0x52,0x52,
+    0x42,0x42,0x42,0x42,0x42,0x42,0x42,0x42,
+    0x32,0x32,0x32,0x32,0x32,0x32,0x32,0x32};
+
+static const u8 totalZeros_11[16] = {
+    0x04,0x14,0x23,0x23,0x33,0x33,0x53,0x53,
+    0x41,0x41,0x41,0x41,0x41,0x41,0x41,0x41};
+
+static const u8 totalZeros_12[16] = {
+    0x04,0x14,0x43,0x43,0x22,0x22,0x22,0x22,
+    0x31,0x31,0x31,0x31,0x31,0x31,0x31,0x31};
+
+static const u8 totalZeros_13[8] = {0x03,0x13,0x32,0x32,0x21,0x21,0x21,0x21};
+
+static const u8 totalZeros_14[4] = {0x02,0x12,0x21,0x21};
+
+/* VLC tables for run_before. Table elements have the following structure:
+ * [4 bits for info] [4bits for VLC length]
+ */
+
+static const u8 runBefore_6[8] = {0x13,0x23,0x43,0x33,0x63,0x53,0x02,0x02};
+
+static const u8 runBefore_5[8] = {0x53,0x43,0x33,0x23,0x12,0x12,0x02,0x02};
+
+static const u8 runBefore_4[8] = {0x43,0x33,0x22,0x22,0x12,0x12,0x02,0x02};
+
+static const u8 runBefore_3[4] = {0x32,0x22,0x12,0x02};
+
+static const u8 runBefore_2[4] = {0x22,0x12,0x01,0x01};
+
+static const u8 runBefore_1[2] = {0x11,0x01};
+
+/* following four macros are used to handle stream buffer "cache" in the CAVLC
+ * decoding function */
+
+/* macro to initialize stream buffer cache, fills the buffer (32 bits) */
+#define BUFFER_INIT(value, bits) \
+{ \
+    bits = 32; \
+    value = h264bsdShowBits32(pStrmData); \
+}
+
+/* macro to read numBits bits from the buffer, bits will be written to
+ * outVal. Refills the buffer if not enough bits left */
+#define BUFFER_SHOW(value, bits, outVal, numBits) \
+{ \
+    if (bits < (numBits)) \
+    { \
+        if(h264bsdFlushBits(pStrmData,32-bits) == END_OF_STREAM) \
+            return(HANTRO_NOK); \
+        value = h264bsdShowBits32(pStrmData); \
+        bits = 32; \
+    } \
+    (outVal) = value >> (32 - (numBits)); \
+}
+
+/* macro to flush numBits bits from the buffer */
+#define BUFFER_FLUSH(value, bits, numBits) \
+{ \
+    value <<= (numBits); \
+    bits -= (numBits); \
+}
+
+/* macro to read and flush  numBits bits from the buffer, bits will be written
+ * to outVal. Refills the buffer if not enough bits left */
+#define BUFFER_GET(value, bits, outVal, numBits) \
+{ \
+    if (bits < (numBits)) \
+    { \
+        if(h264bsdFlushBits(pStrmData,32-bits) == END_OF_STREAM) \
+            return(HANTRO_NOK); \
+        value = h264bsdShowBits32(pStrmData); \
+        bits = 32; \
+    } \
+    (outVal) = value >> (32 - (numBits)); \
+    value <<= (numBits); \
+    bits -= (numBits); \
+}
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 DecodeCoeffToken(u32 bits, u32 nc);
+
+static u32 DecodeLevelPrefix(u32 bits);
+
+static u32 DecodeTotalZeros(u32 bits, u32 totalCoeff, u32 isChromaDC);
+
+static u32 DecodeRunBefore(u32 bits,u32 zerosLeft);
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeCoeffToken
+
+        Functional description:
+          Function to decode coeff_token information field from the stream.
+
+        Inputs:
+          u32 bits                  next 16 stream bits
+          u32 nc                    nC, see standard for details
+
+        Outputs:
+          u32  information field (11 bits for value, 5 bits for length)
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeCoeffToken(u32 bits, u32 nc)
+{
+
+/* Variables */
+
+    u32 value;
+
+/* Code */
+
+    /* standard defines that nc for decoding of chroma dc coefficients is -1,
+     * represented by u32 here -> -1 maps to 2^32 - 1 */
+    ASSERT(nc <= 16 || nc == (u32)(-1));
+
+    if (nc < 2)
+    {
+        if (bits >= 0x8000)
+        {
+            value = 0x0001;
+        }
+        else if (bits >= 0x0C00)
+            value = coeffToken0_0[bits >> 10];
+        else if (bits >= 0x0100)
+            value = coeffToken0_1[bits >> 6];
+        else if (bits >= 0x0020)
+            value = coeffToken0_2[(bits>>2)-8];
+        else
+            value = coeffToken0_3[bits];
+    }
+    else if (nc < 4)
+    {
+        if (bits >= 0x8000)
+        {
+            value = bits & 0x4000 ? 0x0002 : 0x0822;
+        }
+        else if (bits >= 0x1000)
+            value = coeffToken2_0[bits >> 10];
+        else if (bits >= 0x0200)
+            value = coeffToken2_1[bits >> 7];
+        else
+            value = coeffToken2_2[bits>>2];
+    }
+    else if (nc < 8)
+    {
+        value = coeffToken4_0[bits >> 10];
+        if (!value)
+            value = coeffToken4_1[bits>>6];
+    }
+    else if (nc <= 16)
+    {
+        value = coeffToken8[bits>>10];
+    }
+    else
+    {
+        value = coeffTokenMinus1_0[bits >> 13];
+        if (!value)
+            value = coeffTokenMinus1_1[bits>>8];
+    }
+
+    return(value);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeLevelPrefix
+
+        Functional description:
+          Function to decode level_prefix information field from the stream
+
+        Inputs:
+          u32 bits      next 16 stream bits
+
+        Outputs:
+          u32  level_prefix information field or VLC_NOT_FOUND
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeLevelPrefix(u32 bits)
+{
+
+/* Variables */
+
+    u32 numZeros;
+
+/* Code */
+
+    if (bits >= 0x8000)
+        numZeros = 0;
+    else if (bits >= 0x4000)
+        numZeros = 1;
+    else if (bits >= 0x2000)
+        numZeros = 2;
+    else if (bits >= 0x1000)
+        numZeros = 3;
+    else if (bits >= 0x0800)
+        numZeros = 4;
+    else if (bits >= 0x0400)
+        numZeros = 5;
+    else if (bits >= 0x0200)
+        numZeros = 6;
+    else if (bits >= 0x0100)
+        numZeros = 7;
+    else if (bits >= 0x0080)
+        numZeros = 8;
+    else if (bits >= 0x0040)
+        numZeros = 9;
+    else if (bits >= 0x0020)
+        numZeros = 10;
+    else if (bits >= 0x0010)
+        numZeros = 11;
+    else if (bits >= 0x0008)
+        numZeros = 12;
+    else if (bits >= 0x0004)
+        numZeros = 13;
+    else if (bits >= 0x0002)
+        numZeros = 14;
+    else if (bits >= 0x0001)
+        numZeros = 15;
+    else /* more than 15 zeros encountered which is an error */
+        return(VLC_NOT_FOUND);
+
+    return(numZeros);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeTotalZeros
+
+        Functional description:
+          Function to decode total_zeros information field from the stream
+
+        Inputs:
+          u32 bits                  next 9 stream bits
+          u32 totalCoeff            total number of coefficients for the block
+                                    being decoded
+          u32 isChromaDC           flag to indicate chroma DC block
+
+        Outputs:
+          u32  information field (4 bits value, 4 bits length)
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeTotalZeros(u32 bits, u32 totalCoeff, u32 isChromaDC)
+{
+
+/* Variables */
+
+    u32 value = 0x0;
+
+/* Code */
+
+    ASSERT(totalCoeff);
+
+    if (!isChromaDC)
+    {
+        ASSERT(totalCoeff < 16);
+        switch (totalCoeff)
+        {
+            case 1:
+                value = totalZeros_1_0[bits >> 4];
+                if (!value)
+                    value = totalZeros_1_1[bits];
+                break;
+
+            case 2:
+                value = totalZeros_2[bits >> 3];
+                break;
+
+            case 3:
+                value = totalZeros_3[bits >> 3];
+                break;
+
+            case 4:
+                value = totalZeros_4[bits >> 4];
+                break;
+
+            case 5:
+                value = totalZeros_5[bits >> 4];
+                break;
+
+            case 6:
+                value = totalZeros_6[bits >> 3];
+                break;
+
+            case 7:
+                value = totalZeros_7[bits >> 3];
+                break;
+
+            case 8:
+                value = totalZeros_8[bits >> 3];
+                break;
+
+            case 9:
+                value = totalZeros_9[bits >> 3];
+                break;
+
+            case 10:
+                value = totalZeros_10[bits >> 4];
+                break;
+
+            case 11:
+                value = totalZeros_11[bits >> 5];
+                break;
+
+            case 12:
+                value = totalZeros_12[bits >> 5];
+                break;
+
+            case 13:
+                value = totalZeros_13[bits >> 6];
+                break;
+
+            case 14:
+                value = totalZeros_14[bits >> 7];
+                break;
+
+            default: /* case 15 */
+                value = (bits >> 8) ? 0x11 : 0x01;
+                break;
+        }
+    }
+    else
+    {
+        ASSERT(totalCoeff < 4);
+        bits >>= 6;
+        if (bits > 3)
+            value = 0x01;
+        else
+        {
+            if (totalCoeff == 3)
+                value = 0x11;
+            else if (bits > 1)
+            {
+                value = 0x12;
+            }
+            else if (totalCoeff == 2)
+                value = 0x22;
+            else if (bits)
+                value = 0x23;
+            else
+                value = 0x33;
+        }
+    }
+
+    return(value);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeRunBefore
+
+        Functional description:
+          Function to decode run_before information field from the stream
+
+        Inputs:
+          u32 bits                  next 11 stream bits
+          u32 zerosLeft             number of zeros left for the current block
+
+        Outputs:
+          u32  information field (4 bits value, 4 bits length)
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeRunBefore(u32 bits, u32 zerosLeft)
+{
+
+/* Variables */
+
+    u32 value = 0x0;
+
+/* Code */
+
+    switch (zerosLeft)
+    {
+        case 1:
+            value = runBefore_1[bits>>10];
+            break;
+
+        case 2:
+            value = runBefore_2[bits>>9];
+            break;
+
+        case 3:
+            value = runBefore_3[bits>>9];
+            break;
+
+        case 4:
+            value = runBefore_4[bits>>8];
+            break;
+
+        case 5:
+            value = runBefore_5[bits>>8];
+            break;
+
+        case 6:
+            value = runBefore_6[bits>>8];
+            break;
+
+        default:
+            if (bits >= 0x100)
+                value = ((7-(bits>>8))<<4)+0x3;
+            else if (bits >= 0x80)
+                value = 0x74;
+            else if (bits >= 0x40)
+                value = 0x85;
+            else if (bits >= 0x20)
+                value = 0x96;
+            else if (bits >= 0x10)
+                value = 0xa7;
+            else if (bits >= 0x8)
+                value = 0xb8;
+            else if (bits >= 0x4)
+                value = 0xc9;
+            else if (bits >= 0x2)
+                value = 0xdA;
+            else if (bits)
+                value = 0xeB;
+            if (INFO(value) > zerosLeft)
+                value = 0;
+            break;
+    }
+
+    return(value);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeResidualBlockCavlc
+
+        Functional description:
+          Function to decode one CAVLC coded block. This corresponds to
+          syntax elements residual_block_cavlc() in the standard.
+
+        Inputs:
+          pStrmData             pointer to stream data structure
+          nc                    nC value
+          maxNumCoeff           maximum number of residual coefficients
+
+        Outputs:
+          coeffLevel            stores decoded coefficient levels
+
+        Returns:
+          numCoeffs             on bits [4,11] if successful
+          coeffMap              on bits [16,31] if successful, this is bit map
+                                where each bit indicates if the corresponding
+                                coefficient was zero (0) or non-zero (1)
+          HANTRO_NOK            end of stream or error in stream
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeResidualBlockCavlc(
+  strmData_t *pStrmData,
+  i32 *coeffLevel,
+  i32 nc,
+  u32 maxNumCoeff)
+{
+
+/* Variables */
+
+    u32 i, tmp, totalCoeff, trailingOnes, suffixLength, levelPrefix;
+    u32 levelSuffix, zerosLeft, bit;
+    i32 level[16];
+    u32 run[16];
+    /* stream "cache" */
+    u32 bufferValue;
+    u32 bufferBits;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(coeffLevel);
+    ASSERT(nc > -2);
+    ASSERT(maxNumCoeff == 4 || maxNumCoeff == 15 || maxNumCoeff == 16);
+    ASSERT(VLC_NOT_FOUND != END_OF_STREAM);
+
+    /* assume that coeffLevel array has been "cleaned" by caller */
+
+    BUFFER_INIT(bufferValue, bufferBits);
+
+    /*lint -e774 disable lint warning on always false comparison */
+    BUFFER_SHOW(bufferValue, bufferBits, bit, 16);
+    /*lint +e774 */
+    tmp = DecodeCoeffToken(bit, (u32)nc);
+    if (!tmp)
+        return(HANTRO_NOK);
+    BUFFER_FLUSH(bufferValue, bufferBits, LENGTH_TC(tmp));
+
+    totalCoeff = TOTAL_COEFF(tmp);
+    if (totalCoeff > maxNumCoeff)
+        return(HANTRO_NOK);
+    trailingOnes = TRAILING_ONES(tmp);
+
+    if (totalCoeff != 0)
+    {
+        i = 0;
+        /* nonzero coefficients: +/- 1 */
+        if (trailingOnes)
+        {
+            BUFFER_GET(bufferValue, bufferBits, bit, trailingOnes);
+            tmp = 1 << (trailingOnes - 1);
+            for (; tmp; i++)
+            {
+                level[i] = bit & tmp ? -1 : 1;
+                tmp >>= 1;
+            }
+        }
+
+        /* other levels */
+        if (totalCoeff > 10 && trailingOnes < 3)
+            suffixLength = 1;
+        else
+            suffixLength = 0;
+
+        for (; i < totalCoeff; i++)
+        {
+            BUFFER_SHOW(bufferValue, bufferBits, bit, 16);
+            levelPrefix = DecodeLevelPrefix(bit);
+            if (levelPrefix == VLC_NOT_FOUND)
+                return(HANTRO_NOK);
+            BUFFER_FLUSH(bufferValue, bufferBits, levelPrefix+1);
+
+            if (levelPrefix < 14)
+                tmp = suffixLength;
+            else if (levelPrefix == 14)
+            {
+                tmp = suffixLength ? suffixLength : 4;
+            }
+            else
+            {
+                /* setting suffixLength to 1 here corresponds to adding 15
+                 * to levelCode value if levelPrefix == 15 and
+                 * suffixLength == 0 */
+                if (!suffixLength)
+                    suffixLength = 1;
+                tmp = 12;
+            }
+
+            if (suffixLength)
+                levelPrefix <<= suffixLength;
+
+            if (tmp)
+            {
+                BUFFER_GET(bufferValue, bufferBits, levelSuffix, tmp);
+                levelPrefix += levelSuffix;
+            }
+
+            tmp = levelPrefix;
+
+            if (i == trailingOnes && trailingOnes < 3)
+                tmp += 2;
+
+            level[i] = (tmp+2)>>1;
+
+            if (suffixLength == 0)
+                suffixLength = 1;
+
+            if ((level[i] > (3 << (suffixLength - 1))) && suffixLength < 6)
+                suffixLength++;
+
+            if (tmp & 0x1)
+                level[i] = -level[i];
+        }
+
+        /* zero runs */
+        if (totalCoeff < maxNumCoeff)
+        {
+            BUFFER_SHOW(bufferValue, bufferBits, bit,9);
+            zerosLeft = DecodeTotalZeros(bit, totalCoeff,
+                                        (u32)(maxNumCoeff == 4));
+            if (!zerosLeft)
+                return(HANTRO_NOK);
+            BUFFER_FLUSH(bufferValue, bufferBits, LENGTH(zerosLeft));
+            zerosLeft = INFO(zerosLeft);
+        }
+        else
+            zerosLeft = 0;
+
+        for (i = 0; i < totalCoeff - 1; i++)
+        {
+            if (zerosLeft > 0)
+            {
+                BUFFER_SHOW(bufferValue, bufferBits, bit,11);
+                tmp = DecodeRunBefore(bit, zerosLeft);
+                if (!tmp)
+                    return(HANTRO_NOK);
+                BUFFER_FLUSH(bufferValue, bufferBits, LENGTH(tmp));
+                run[i] = INFO(tmp);
+                zerosLeft -= run[i]++;
+            }
+            else
+            {
+                run[i] = 1;
+            }
+        }
+
+        /* combining level and run, levelSuffix variable used to hold coeffMap,
+         * i.e. bit map indicating which coefficients had non-zero value. */
+
+        /*lint -esym(771,level,run) level and run are always initialized */
+        tmp = zerosLeft;
+        coeffLevel[tmp] = level[totalCoeff-1];
+        levelSuffix = 1 << tmp;
+        for (i = totalCoeff-1; i--;)
+        {
+            tmp += run[i];
+            levelSuffix |= 1 << tmp;
+            coeffLevel[tmp] = level[i];
+        }
+
+    }
+    else
+        levelSuffix = 0;
+
+    if (h264bsdFlushBits(pStrmData, 32-bufferBits) != HANTRO_OK)
+        return(HANTRO_NOK);
+
+    return((totalCoeff << 4) | (levelSuffix << 16));
+}
+
--- /dev/null
+++ b/src/h264bsd_cavlc.h
@@ -1,0 +1,59 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_CAVLC_H
+#define H264SWDEC_CAVLC_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeResidualBlockCavlc(
+  strmData_t *pStrmData,
+  i32 *coeffLevel,
+  i32 nc,
+  u32 maxNumCoeff);
+
+#endif /* #ifdef H264SWDEC_CAVLC_H */
+
--- /dev/null
+++ b/src/h264bsd_cfg.h
@@ -1,0 +1,62 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_CFG_H
+#define H264SWDEC_CFG_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include <stdlib.h>
+#include <memory.h>
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+#define MAX_NUM_REF_PICS 16
+#define MAX_NUM_SLICE_GROUPS 8
+#define MAX_NUM_SEQ_PARAM_SETS 32
+#define MAX_NUM_PIC_PARAM_SETS 256
+
+#define _ERROR_PRINT
+#define _DEBUG_PRINT
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+#endif /* #ifdef H264SWDEC_CFG_H */
+
--- /dev/null
+++ b/src/h264bsd_conceal.c
@@ -1,0 +1,627 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdConceal
+          ConcealMb
+          Transform
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_conceal.h"
+#include "h264bsd_util.h"
+#include "h264bsd_reconstruct.h"
+#include "h264bsd_dpb.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*lint -e702 disable lint warning on right shift of signed quantity */
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 ConcealMb(mbStorage_t *pMb, image_t *currImage, u32 row, u32 col,
+    u32 sliceType, u8 *data);
+
+static void Transform(i32 *data);
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdConceal
+
+        Functional description:
+            Perform error concealment for a picture. Two types of concealment
+            is performed based on sliceType:
+                1) copy from previous picture for P-slices.
+                2) concealment from neighbour pixels for I-slices
+
+            I-type concealment is based on ideas presented by Jarno Tulkki.
+            The concealment algorithm determines frequency domain coefficients
+            from the neighbour pixels, applies integer transform (the same
+            transform used in the residual processing) and uses the results as
+            pixel values for concealed macroblocks. Transform produces 4x4
+            array and one pixel value has to be used for 4x4 luma blocks and
+            2x2 chroma blocks.
+
+            Similar concealment is performed for whole picture (the choise
+            of the type is based on last successfully decoded slice header of
+            the picture but it is handled by the calling function). It is
+            acknowledged that this may result in wrong type of concealment
+            when a picture contains both types of slices. However,
+            determination of slice type macroblock-by-macroblock cannot
+            be done due to the fact that it is impossible to know to which
+            slice each corrupted (not successfully decoded) macroblock
+            belongs.
+
+            The error concealment is started by searching the first propoerly
+            decoded macroblock and concealing the row containing the macroblock
+            in question. After that all macroblocks above the row in question
+            are concealed. Finally concealment of rows below is performed.
+            The order of concealment for 4x4 picture where macroblock 9 is the
+            first properly decoded one is as follows (properly decoded
+            macroblocks marked with 'x', numbers indicating the order of
+            concealment):
+
+               4  6  8 10
+               3  5  7  9
+               1  x  x  2
+              11 12 13 14
+
+            If all macroblocks of the picture are lost, the concealment is
+            copy of previous picture for P-type and setting the image to
+            constant gray (pixel value 128) for I-type.
+
+            Concealment sets quantization parameter of the concealed
+            macroblocks to value 40 and macroblock type to intra to enable
+            deblocking filter to smooth the edges of the concealed areas.
+
+        Inputs:
+            pStorage        pointer to storage structure
+            currImage       pointer to current image structure
+            sliceType       type of the slice
+
+        Outputs:
+            currImage       concealed macroblocks will be written here
+
+        Returns:
+            HANTRO_OK
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdConceal(storage_t *pStorage, image_t *currImage, u32 sliceType)
+{
+
+/* Variables */
+
+    u32 i, j;
+    u32 row, col;
+    u32 width, height;
+    u8 *refData;
+    mbStorage_t *mb;
+
+/* Code */
+
+    ASSERT(pStorage);
+    ASSERT(currImage);
+
+    DEBUG(("Concealing %s slice\n", IS_I_SLICE(sliceType) ?
+            "intra" : "inter"));
+
+    width = currImage->width;
+    height = currImage->height;
+    refData = NULL;
+    /* use reference picture with smallest available index */
+    if (IS_P_SLICE(sliceType) || (pStorage->intraConcealmentFlag != 0))
+    {
+        i = 0;
+        do
+        {
+            refData = h264bsdGetRefPicData(pStorage->dpb, i);
+            i++;
+            if (i >= 16)
+                break;
+        } while (refData == NULL);
+    }
+
+    i = row = col = 0;
+    /* find first properly decoded macroblock -> start point for concealment */
+    while (i < pStorage->picSizeInMbs && !pStorage->mb[i].decoded)
+    {
+        i++;
+        col++;
+        if (col == width)
+        {
+            row++;
+            col = 0;
+        }
+    }
+
+    /* whole picture lost -> copy previous or set grey */
+    if (i == pStorage->picSizeInMbs)
+    {
+        if ( (IS_I_SLICE(sliceType) && (pStorage->intraConcealmentFlag == 0)) ||
+             refData == NULL)
+            memset(currImage->data, 128, width*height*384);
+        else
+            memcpy(currImage->data, refData, width*height*384);
+
+        pStorage->numConcealedMbs = pStorage->picSizeInMbs;
+
+        /* no filtering if whole picture concealed */
+        for (i = 0; i < pStorage->picSizeInMbs; i++)
+            pStorage->mb[i].disableDeblockingFilterIdc = 1;
+
+        return(HANTRO_OK);
+    }
+
+    /* start from the row containing the first correct macroblock, conceal the
+     * row in question, all rows above that row and then continue downwards */
+    mb = pStorage->mb + row * width;
+    for (j = col; j--;)
+    {
+        ConcealMb(mb+j, currImage, row, j, sliceType, refData);
+        mb[j].decoded = 1;
+        pStorage->numConcealedMbs++;
+    }
+    for (j = col + 1; j < width; j++)
+    {
+        if (!mb[j].decoded)
+        {
+            ConcealMb(mb+j, currImage, row, j, sliceType, refData);
+            mb[j].decoded = 1;
+            pStorage->numConcealedMbs++;
+        }
+    }
+    /* if previous row(s) could not be concealed -> conceal them now */
+    if (row)
+    {
+        for (j = 0; j < width; j++)
+        {
+            i = row - 1;
+            mb = pStorage->mb + i*width + j;
+            do
+            {
+                ConcealMb(mb, currImage, i, j, sliceType, refData);
+                mb->decoded = 1;
+                pStorage->numConcealedMbs++;
+                mb -= width;
+            } while(i--);
+        }
+    }
+
+    /* process rows below the one containing the first correct macroblock */
+    for (i = row + 1; i < height; i++)
+    {
+        mb = pStorage->mb + i * width;
+
+        for (j = 0; j < width; j++)
+        {
+            if (!mb[j].decoded)
+            {
+                ConcealMb(mb+j, currImage, i, j, sliceType, refData);
+                mb[j].decoded = 1;
+                pStorage->numConcealedMbs++;
+            }
+        }
+    }
+
+    return(HANTRO_OK);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function name: ConcealMb
+
+        Functional description:
+            Perform error concealment for one macroblock, location of the
+            macroblock in the picture indicated by row and col
+
+------------------------------------------------------------------------------*/
+
+u32 ConcealMb(mbStorage_t *pMb, image_t *currImage, u32 row, u32 col,
+    u32 sliceType, u8 *refData)
+{
+
+/* Variables */
+
+    u32 i, j, comp;
+    u32 hor, ver;
+    u32 mbNum;
+    u32 width, height;
+    u8 *mbPos;
+    u8 data[384];
+    u8 *pData;
+    i32 tmp;
+    i32 firstPhase[16];
+    i32 *pTmp;
+    /* neighbours above, below, left and right */
+    i32 a[4], b[4], l[4], r[4];
+    u32 A, B, L, R;
+#ifdef H264DEC_OMXDL
+    u8 fillBuff[32*21 + 15 + 32];
+    u8 *pFill;
+#endif
+/* Code */
+
+    ASSERT(pMb);
+    ASSERT(!pMb->decoded);
+    ASSERT(currImage);
+    ASSERT(col < currImage->width);
+    ASSERT(row < currImage->height);
+
+#ifdef H264DEC_OMXDL
+    pFill = ALIGN(fillBuff, 16);
+#endif
+    width = currImage->width;
+    height = currImage->height;
+    mbNum = row * width + col;
+
+    h264bsdSetCurrImageMbPointers(currImage, mbNum);
+
+    mbPos = currImage->data + row * 16 * width * 16 + col * 16;
+    A = B = L = R = HANTRO_FALSE;
+
+    /* set qpY to 40 to enable some filtering in deblocking (stetson value) */
+    pMb->qpY = 40;
+    pMb->disableDeblockingFilterIdc = 0;
+    /* mbType set to intra to perform filtering despite the values of other
+     * boundary strength determination fields */
+    pMb->mbType = I_4x4;
+    pMb->filterOffsetA = 0;
+    pMb->filterOffsetB = 0;
+    pMb->chromaQpIndexOffset = 0;
+
+    if (IS_I_SLICE(sliceType))
+        memset(data, 0, sizeof(data));
+    else
+    {
+        mv_t mv = {0,0};
+        image_t refImage;
+        refImage.width = width;
+        refImage.height = height;
+        refImage.data = refData;
+        if (refImage.data)
+        {
+#ifndef H264DEC_OMXDL
+            h264bsdPredictSamples(data, &mv, &refImage, col*16, row*16,
+                0, 0, 16, 16);
+#else
+            h264bsdPredictSamples(data, &mv, &refImage,
+                    ((row*16) + ((col*16)<<16)),
+                    0x00001010, pFill);
+#endif
+            h264bsdWriteMacroblock(currImage, data);
+
+            return(HANTRO_OK);
+        }
+        else
+            memset(data, 0, sizeof(data));
+    }
+
+    memset(firstPhase, 0, sizeof(firstPhase));
+
+    /* counter for number of neighbours used */
+    j = 0;
+    hor = ver = 0;
+    if (row && (pMb-width)->decoded)
+    {
+        A = HANTRO_TRUE;
+        pData = mbPos - width*16;
+        a[0] = *pData++; a[0] += *pData++; a[0] += *pData++; a[0] += *pData++;
+        a[1] = *pData++; a[1] += *pData++; a[1] += *pData++; a[1] += *pData++;
+        a[2] = *pData++; a[2] += *pData++; a[2] += *pData++; a[2] += *pData++;
+        a[3] = *pData++; a[3] += *pData++; a[3] += *pData++; a[3] += *pData++;
+        j++;
+        hor++;
+        firstPhase[0] += a[0] + a[1] + a[2] + a[3];
+        firstPhase[1] += a[0] + a[1] - a[2] - a[3];
+    }
+    if ((row != height - 1) && (pMb+width)->decoded)
+    {
+        B = HANTRO_TRUE;
+        pData = mbPos + 16*width*16;
+        b[0] = *pData++; b[0] += *pData++; b[0] += *pData++; b[0] += *pData++;
+        b[1] = *pData++; b[1] += *pData++; b[1] += *pData++; b[1] += *pData++;
+        b[2] = *pData++; b[2] += *pData++; b[2] += *pData++; b[2] += *pData++;
+        b[3] = *pData++; b[3] += *pData++; b[3] += *pData++; b[3] += *pData++;
+        j++;
+        hor++;
+        firstPhase[0] += b[0] + b[1] + b[2] + b[3];
+        firstPhase[1] += b[0] + b[1] - b[2] - b[3];
+    }
+    if (col && (pMb-1)->decoded)
+    {
+        L = HANTRO_TRUE;
+        pData = mbPos - 1;
+        l[0] = pData[0]; l[0] += pData[16*width];
+        l[0] += pData[32*width]; l[0] += pData[48*width];
+        pData += 64*width;
+        l[1] = pData[0]; l[1] += pData[16*width];
+        l[1] += pData[32*width]; l[1] += pData[48*width];
+        pData += 64*width;
+        l[2] = pData[0]; l[2] += pData[16*width];
+        l[2] += pData[32*width]; l[2] += pData[48*width];
+        pData += 64*width;
+        l[3] = pData[0]; l[3] += pData[16*width];
+        l[3] += pData[32*width]; l[3] += pData[48*width];
+        j++;
+        ver++;
+        firstPhase[0] += l[0] + l[1] + l[2] + l[3];
+        firstPhase[4] += l[0] + l[1] - l[2] - l[3];
+    }
+    if ((col != width - 1) && (pMb+1)->decoded)
+    {
+        R = HANTRO_TRUE;
+        pData = mbPos + 16;
+        r[0] = pData[0]; r[0] += pData[16*width];
+        r[0] += pData[32*width]; r[0] += pData[48*width];
+        pData += 64*width;
+        r[1] = pData[0]; r[1] += pData[16*width];
+        r[1] += pData[32*width]; r[1] += pData[48*width];
+        pData += 64*width;
+        r[2] = pData[0]; r[2] += pData[16*width];
+        r[2] += pData[32*width]; r[2] += pData[48*width];
+        pData += 64*width;
+        r[3] = pData[0]; r[3] += pData[16*width];
+        r[3] += pData[32*width]; r[3] += pData[48*width];
+        j++;
+        ver++;
+        firstPhase[0] += r[0] + r[1] + r[2] + r[3];
+        firstPhase[4] += r[0] + r[1] - r[2] - r[3];
+    }
+
+    /* at least one properly decoded neighbour available */
+    ASSERT(j);
+
+    /*lint -esym(644,l,r,a,b) variable initialized above */
+    if (!hor && L && R)
+        firstPhase[1] = (l[0]+l[1]+l[2]+l[3]-r[0]-r[1]-r[2]-r[3]) >> 5;
+    else if (hor)
+        firstPhase[1] >>= (3+hor);
+
+    if (!ver && A && B)
+        firstPhase[4] = (a[0]+a[1]+a[2]+a[3]-b[0]-b[1]-b[2]-b[3]) >> 5;
+    else if (ver)
+        firstPhase[4] >>= (3+ver);
+
+    switch (j)
+    {
+        case 1:
+            firstPhase[0] >>= 4;
+            break;
+
+        case 2:
+            firstPhase[0] >>= 5;
+            break;
+
+        case 3:
+            /* approximate (firstPhase[0]*4/3)>>6 */
+            firstPhase[0] = (21 * firstPhase[0]) >> 10;
+            break;
+
+        default: /* 4 */
+            firstPhase[0] >>= 6;
+            break;
+
+    }
+
+
+    Transform(firstPhase);
+
+    for (i = 0, pData = data, pTmp = firstPhase; i < 256;)
+    {
+        tmp = pTmp[(i & 0xF)>>2];
+        /*lint -e734 CLIP1 macro results in value that fits into 8 bits */
+        *pData++ = CLIP1(tmp);
+        /*lint +e734 */
+
+        i++;
+        if (!(i & 0x3F))
+            pTmp += 4;
+    }
+
+    /* chroma components */
+    mbPos = currImage->data + width * height * 256 +
+       row * 8 * width * 8 + col * 8;
+    for (comp = 0; comp < 2; comp++)
+    {
+
+        memset(firstPhase, 0, sizeof(firstPhase));
+
+        /* counter for number of neighbours used */
+        j = 0;
+        hor = ver = 0;
+        if (A)
+        {
+            pData = mbPos - width*8;
+            a[0] = *pData++; a[0] += *pData++;
+            a[1] = *pData++; a[1] += *pData++;
+            a[2] = *pData++; a[2] += *pData++;
+            a[3] = *pData++; a[3] += *pData++;
+            j++;
+            hor++;
+            firstPhase[0] += a[0] + a[1] + a[2] + a[3];
+            firstPhase[1] += a[0] + a[1] - a[2] - a[3];
+        }
+        if (B)
+        {
+            pData = mbPos + 8*width*8;
+            b[0] = *pData++; b[0] += *pData++;
+            b[1] = *pData++; b[1] += *pData++;
+            b[2] = *pData++; b[2] += *pData++;
+            b[3] = *pData++; b[3] += *pData++;
+            j++;
+            hor++;
+            firstPhase[0] += b[0] + b[1] + b[2] + b[3];
+            firstPhase[1] += b[0] + b[1] - b[2] - b[3];
+        }
+        if (L)
+        {
+            pData = mbPos - 1;
+            l[0] = pData[0]; l[0] += pData[8*width];
+            pData += 16*width;
+            l[1] = pData[0]; l[1] += pData[8*width];
+            pData += 16*width;
+            l[2] = pData[0]; l[2] += pData[8*width];
+            pData += 16*width;
+            l[3] = pData[0]; l[3] += pData[8*width];
+            j++;
+            ver++;
+            firstPhase[0] += l[0] + l[1] + l[2] + l[3];
+            firstPhase[4] += l[0] + l[1] - l[2] - l[3];
+        }
+        if (R)
+        {
+            pData = mbPos + 8;
+            r[0] = pData[0]; r[0] += pData[8*width];
+            pData += 16*width;
+            r[1] = pData[0]; r[1] += pData[8*width];
+            pData += 16*width;
+            r[2] = pData[0]; r[2] += pData[8*width];
+            pData += 16*width;
+            r[3] = pData[0]; r[3] += pData[8*width];
+            j++;
+            ver++;
+            firstPhase[0] += r[0] + r[1] + r[2] + r[3];
+            firstPhase[4] += r[0] + r[1] - r[2] - r[3];
+        }
+        if (!hor && L && R)
+            firstPhase[1] = (l[0]+l[1]+l[2]+l[3]-r[0]-r[1]-r[2]-r[3]) >> 4;
+        else if (hor)
+            firstPhase[1] >>= (2+hor);
+
+        if (!ver && A && B)
+            firstPhase[4] = (a[0]+a[1]+a[2]+a[3]-b[0]-b[1]-b[2]-b[3]) >> 4;
+        else if (ver)
+            firstPhase[4] >>= (2+ver);
+
+        switch (j)
+        {
+            case 1:
+                firstPhase[0] >>= 3;
+                break;
+
+            case 2:
+                firstPhase[0] >>= 4;
+                break;
+
+            case 3:
+                /* approximate (firstPhase[0]*4/3)>>5 */
+                firstPhase[0] = (21 * firstPhase[0]) >> 9;
+                break;
+
+            default: /* 4 */
+                firstPhase[0] >>= 5;
+                break;
+
+        }
+
+        Transform(firstPhase);
+
+        pData = data + 256 + comp*64;
+        for (i = 0, pTmp = firstPhase; i < 64;)
+        {
+            tmp = pTmp[(i & 0x7)>>1];
+            /*lint -e734 CLIP1 macro results in value that fits into 8 bits */
+            *pData++ = CLIP1(tmp);
+            /*lint +e734 */
+
+            i++;
+            if (!(i & 0xF))
+                pTmp += 4;
+        }
+
+        /* increment pointers for cr */
+        mbPos += width * height * 64;
+    }
+
+    h264bsdWriteMacroblock(currImage, data);
+
+    return(HANTRO_OK);
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function name: Transform
+
+        Functional description:
+            Simplified transform, assuming that only dc component and lowest
+            horizontal and lowest vertical component may be non-zero
+
+------------------------------------------------------------------------------*/
+
+void Transform(i32 *data)
+{
+
+    u32 col;
+    i32 tmp0, tmp1;
+
+    if (!data[1] && !data[4])
+    {
+        data[1]  = data[2]  = data[3]  = data[4]  = data[5]  =
+        data[6]  = data[7]  = data[8]  = data[9]  = data[10] =
+        data[11] = data[12] = data[13] = data[14] = data[15] = data[0];
+        return;
+    }
+    /* first horizontal transform for rows 0 and 1 */
+    tmp0 = data[0];
+    tmp1 = data[1];
+    data[0] = tmp0 + tmp1;
+    data[1] = tmp0 + (tmp1>>1);
+    data[2] = tmp0 - (tmp1>>1);
+    data[3] = tmp0 - tmp1;
+
+    tmp0 = data[4];
+    data[5] = tmp0;
+    data[6] = tmp0;
+    data[7] = tmp0;
+
+    /* then vertical transform */
+    for (col = 4; col--; data++)
+    {
+        tmp0 = data[0];
+        tmp1 = data[4];
+        data[0] = tmp0 + tmp1;
+        data[4] = tmp0 + (tmp1>>1);
+        data[8] = tmp0 - (tmp1>>1);
+        data[12] = tmp0 - tmp1;
+    }
+
+}
+/*lint +e702 */
+
--- /dev/null
+++ b/src/h264bsd_conceal.h
@@ -1,0 +1,55 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_CONCEAL_H
+#define H264SWDEC_CONCEAL_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_storage.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdConceal(storage_t *pStorage, image_t *currImage, u32 sliceType);
+
+#endif /* #ifdef H264SWDEC_CONCEAL_H */
+
--- /dev/null
+++ b/src/h264bsd_container.h
@@ -1,0 +1,70 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_CONTAINER_H
+#define H264SWDEC_CONTAINER_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_storage.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/* String length for tracing */
+#define H264DEC_TRACE_STR_LEN 100
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    enum {
+        UNINITIALIZED,
+        INITIALIZED,
+        NEW_HEADERS
+    } decStat;
+
+    u32 picNumber;
+    storage_t storage;
+#ifdef H264DEC_TRACE
+    char str[H264DEC_TRACE_STR_LEN];
+#endif
+} decContainer_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+#endif /* #ifdef H264SWDEC_DECCONTAINER_H */
+
--- /dev/null
+++ b/src/h264bsd_deblocking.c
@@ -1,0 +1,2426 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdFilterPicture
+          FilterVerLumaEdge
+          FilterHorLumaEdge
+          FilterHorLuma
+          FilterVerChromaEdge
+          FilterHorChromaEdge
+          FilterHorChroma
+          InnerBoundaryStrength
+          EdgeBoundaryStrength
+          GetBoundaryStrengths
+          IsSliceBoundaryOnLeft
+          IsSliceBoundaryOnTop
+          GetMbFilteringFlags
+          GetLumaEdgeThresholds
+          GetChromaEdgeThresholds
+          FilterLuma
+          FilterChroma
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_util.h"
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_deblocking.h"
+#include "h264bsd_dpb.h"
+
+#ifdef H264DEC_OMXDL
+#include "omxtypes.h"
+#include "omxVC.h"
+#include "armVC.h"
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* Switch off the following Lint messages for this file:
+ * Info 701: Shift left of signed quantity (int)
+ * Info 702: Shift right of signed quantity (int)
+ */
+/*lint -e701 -e702 */
+
+/* array of alpha values, from the standard */
+static const u8 alphas[52] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,4,4,5,6,7,8,9,10,
+    12,13,15,17,20,22,25,28,32,36,40,45,50,56,63,71,80,90,101,113,127,144,162,
+    182,203,226,255,255};
+
+/* array of beta values, from the standard */
+static const u8 betas[52] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,2,2,3,3,3,3,4,4,
+    4,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13,14,14,15,15,16,16,17,17,18,18};
+
+
+
+#ifndef H264DEC_OMXDL
+/* array of tc0 values, from the standard, each triplet corresponds to a
+ * column in the table. Indexing goes as tc0[indexA][bS-1] */
+static const u8 tc0[52][3] = {
+    {0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},
+    {0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},{0,0,0},
+    {0,0,0},{0,0,1},{0,0,1},{0,0,1},{0,0,1},{0,1,1},{0,1,1},{1,1,1},
+    {1,1,1},{1,1,1},{1,1,1},{1,1,2},{1,1,2},{1,1,2},{1,1,2},{1,2,3},
+    {1,2,3},{2,2,3},{2,2,4},{2,3,4},{2,3,4},{3,3,5},{3,4,6},{3,4,6},
+    {4,5,7},{4,5,8},{4,6,9},{5,7,10},{6,8,11},{6,8,13},{7,10,14},{8,11,16},
+    {9,12,18},{10,13,20},{11,15,23},{13,17,25}
+};
+#else
+/* array of tc0 values, from the standard, each triplet corresponds to a
+ * column in the table. Indexing goes as tc0[indexA][bS] */
+static const u8 tc0[52][5] = {
+    {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0},
+    {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0},
+    {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0},
+    {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0}, {0, 0, 0, 0, 0},
+    {0, 0, 0, 0, 0}, {0, 0, 0, 1, 0}, {0, 0, 0, 1, 0}, {0, 0, 0, 1, 0},
+    {0, 0, 0, 1, 0}, {0, 0, 1, 1, 0}, {0, 0, 1, 1, 0}, {0, 1, 1, 1, 0},
+    {0, 1, 1, 1, 0}, {0, 1, 1, 1, 0}, {0, 1, 1, 1, 0}, {0, 1, 1, 2, 0},
+    {0, 1, 1, 2, 0}, {0, 1, 1, 2, 0}, {0, 1, 1, 2, 0}, {0, 1, 2, 3, 0},
+    {0, 1, 2, 3, 0}, {0, 2, 2, 3, 0}, {0, 2, 2, 4, 0}, {0, 2, 3, 4, 0},
+    {0, 2, 3, 4, 0}, {0, 3, 3, 5, 0}, {0, 3, 4, 6, 0}, {0, 3, 4, 6, 0},
+    {0, 4, 5, 7, 0}, {0, 4, 5, 8, 0}, {0, 4, 6, 9, 0}, {0, 5, 7, 10, 0},
+    {0, 6, 8, 11, 0}, {0, 6, 8, 13, 0}, {0, 7, 10, 14, 0},
+    {0, 8, 11, 16, 0}, {0, 9, 12, 18, 0}, {0, 10, 13, 20, 0},
+    {0, 11, 15, 23, 0}, {0, 13, 17, 25, 0}
+};
+#endif
+
+
+#ifndef H264DEC_OMXDL
+/* mapping of raster scan block index to 4x4 block index */
+static const u32 mb4x4Index[16] =
+    {0, 1, 4, 5, 2, 3, 6, 7, 8, 9, 12, 13, 10, 11, 14, 15};
+
+typedef struct {
+    const u8 *tc0;
+    u32 alpha;
+    u32 beta;
+} edgeThreshold_t;
+
+typedef struct {
+    u32 top;
+    u32 left;
+} bS_t;
+
+enum { TOP = 0, LEFT = 1, INNER = 2 };
+#endif /* H264DEC_OMXDL */
+
+#define FILTER_LEFT_EDGE    0x04
+#define FILTER_TOP_EDGE     0x02
+#define FILTER_INNER_EDGE   0x01
+
+
+/* clipping table defined in intra_prediction.c */
+extern const u8 h264bsdClip[];
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 InnerBoundaryStrength(mbStorage_t *mb1, u32 i1, u32 i2);
+
+#ifndef H264DEC_OMXDL
+static u32 EdgeBoundaryStrength(mbStorage_t *mb1, mbStorage_t *mb2,
+    u32 i1, u32 i2);
+#else
+static u32 InnerBoundaryStrength2(mbStorage_t *mb1, u32 i1, u32 i2);
+static u32 EdgeBoundaryStrengthLeft(mbStorage_t *mb1, mbStorage_t *mb2);
+static u32 EdgeBoundaryStrengthTop(mbStorage_t *mb1, mbStorage_t *mb2);
+#endif
+
+static u32 IsSliceBoundaryOnLeft(mbStorage_t *mb);
+
+static u32 IsSliceBoundaryOnTop(mbStorage_t *mb);
+
+static u32 GetMbFilteringFlags(mbStorage_t *mb);
+
+#ifndef H264DEC_OMXDL
+
+static u32 GetBoundaryStrengths(mbStorage_t *mb, bS_t *bs, u32 flags);
+
+static void FilterLuma(u8 *data, bS_t *bS, edgeThreshold_t *thresholds,
+        u32 imageWidth);
+
+static void FilterChroma(u8 *cb, u8 *cr, bS_t *bS, edgeThreshold_t *thresholds,
+        u32 imageWidth);
+
+static void FilterVerLumaEdge( u8 *data, u32 bS, edgeThreshold_t *thresholds,
+        u32 imageWidth);
+static void FilterHorLumaEdge( u8 *data, u32 bS, edgeThreshold_t *thresholds,
+        i32 imageWidth);
+static void FilterHorLuma( u8 *data, u32 bS, edgeThreshold_t *thresholds,
+        i32 imageWidth);
+
+static void FilterVerChromaEdge( u8 *data, u32 bS, edgeThreshold_t *thresholds,
+  u32 imageWidth);
+static void FilterHorChromaEdge( u8 *data, u32 bS, edgeThreshold_t *thresholds,
+  i32 imageWidth);
+static void FilterHorChroma( u8 *data, u32 bS, edgeThreshold_t *thresholds,
+  i32 imageWidth);
+
+static void GetLumaEdgeThresholds(
+  edgeThreshold_t *thresholds,
+  mbStorage_t *mb,
+  u32 filteringFlags);
+
+static void GetChromaEdgeThresholds(
+  edgeThreshold_t *thresholds,
+  mbStorage_t *mb,
+  u32 filteringFlags,
+  i32 chromaQpIndexOffset);
+
+#else /* H264DEC_OMXDL */
+
+static u32 GetBoundaryStrengths(mbStorage_t *mb, u8 (*bs)[16], u32 flags);
+
+static void GetLumaEdgeThresholds(
+    mbStorage_t *mb,
+    u8 (*alpha)[2],
+    u8 (*beta)[2],
+    u8 (*threshold)[16],
+    u8 (*bs)[16],
+    u32 filteringFlags );
+
+static void GetChromaEdgeThresholds(
+    mbStorage_t *mb,
+    u8 (*alpha)[2],
+    u8 (*beta)[2],
+    u8 (*threshold)[8],
+    u8 (*bs)[16],
+    u32 filteringFlags,
+    i32 chromaQpIndexOffset);
+
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: IsSliceBoundaryOnLeft
+
+        Functional description:
+            Function to determine if there is a slice boundary on the left side
+            of a macroblock.
+
+------------------------------------------------------------------------------*/
+u32 IsSliceBoundaryOnLeft(mbStorage_t *mb)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(mb && mb->mbA);
+
+    if (mb->sliceId != mb->mbA->sliceId)
+        return(HANTRO_TRUE);
+    else
+        return(HANTRO_FALSE);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: IsSliceBoundaryOnTop
+
+        Functional description:
+            Function to determine if there is a slice boundary above the
+            current macroblock.
+
+------------------------------------------------------------------------------*/
+u32 IsSliceBoundaryOnTop(mbStorage_t *mb)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(mb && mb->mbB);
+
+    if (mb->sliceId != mb->mbB->sliceId)
+        return(HANTRO_TRUE);
+    else
+        return(HANTRO_FALSE);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetMbFilteringFlags
+
+        Functional description:
+          Function to determine which edges of a macroblock has to be
+          filtered. Output is a bit-wise OR of FILTER_LEFT_EDGE,
+          FILTER_TOP_EDGE and FILTER_INNER_EDGE, depending on which edges
+          shall be filtered.
+
+------------------------------------------------------------------------------*/
+u32 GetMbFilteringFlags(mbStorage_t *mb)
+{
+
+/* Variables */
+
+    u32 flags = 0;
+
+/* Code */
+
+    ASSERT(mb);
+
+    /* nothing will be filtered if disableDeblockingFilterIdc == 1 */
+    if (mb->disableDeblockingFilterIdc != 1)
+    {
+        flags |= FILTER_INNER_EDGE;
+
+        /* filterLeftMbEdgeFlag, left mb is MB_A */
+        if (mb->mbA &&
+            ((mb->disableDeblockingFilterIdc != 2) ||
+             !IsSliceBoundaryOnLeft(mb)))
+            flags |= FILTER_LEFT_EDGE;
+
+        /* filterTopMbEdgeFlag */
+        if (mb->mbB &&
+            ((mb->disableDeblockingFilterIdc != 2) ||
+             !IsSliceBoundaryOnTop(mb)))
+            flags |= FILTER_TOP_EDGE;
+    }
+
+    return(flags);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: InnerBoundaryStrength
+
+        Functional description:
+            Function to calculate boundary strength value bs for an inner
+            edge of a macroblock. Macroblock type is checked before this is
+            called -> no intra mb condition here.
+
+------------------------------------------------------------------------------*/
+u32 InnerBoundaryStrength(mbStorage_t *mb1, u32 ind1, u32 ind2)
+{
+    i32 tmp1, tmp2;
+    i32 mv1, mv2, mv3, mv4;
+
+    tmp1 = mb1->totalCoeff[ind1];
+    tmp2 = mb1->totalCoeff[ind2];
+    mv1 = mb1->mv[ind1].hor;
+    mv2 = mb1->mv[ind2].hor;
+    mv3 = mb1->mv[ind1].ver;
+    mv4 = mb1->mv[ind2].ver;
+
+    if (tmp1 || tmp2)
+    {
+        return 2;
+    }
+    else if ( ((u32)ABS(mv1 - mv2) >= 4) || ((u32)ABS(mv3 - mv4) >= 4) ||
+              (mb1->refAddr[ind1 >> 2] != mb1->refAddr[ind2 >> 2]) )
+    {
+        return 1;
+    }
+    else
+        return 0;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: InnerBoundaryStrength2
+
+        Functional description:
+            Function to calculate boundary strength value bs for an inner
+            edge of a macroblock. The function is the same as
+            InnerBoundaryStrength but without checking totalCoeff.
+
+------------------------------------------------------------------------------*/
+u32 InnerBoundaryStrength2(mbStorage_t *mb1, u32 ind1, u32 ind2)
+{
+    i32 tmp1, tmp2, tmp3, tmp4;
+
+    tmp1 = mb1->mv[ind1].hor;
+    tmp2 = mb1->mv[ind2].hor;
+    tmp3 = mb1->mv[ind1].ver;
+    tmp4 = mb1->mv[ind2].ver;
+
+    if ( ((u32)ABS(tmp1 - tmp2) >= 4) || ((u32)ABS(tmp3 - tmp4) >= 4) ||
+         (mb1->refAddr[ind1 >> 2] != mb1->refAddr[ind2 >> 2]))
+    {
+        return 1;
+    }
+    else
+        return 0;
+}
+#ifndef H264DEC_OMXDL
+/*------------------------------------------------------------------------------
+
+    Function: EdgeBoundaryStrength
+
+        Functional description:
+            Function to calculate boundary strength value bs for left- or
+            top-most edge of a macroblock. Macroblock types are checked
+            before this is called -> no intra mb conditions here.
+
+------------------------------------------------------------------------------*/
+u32 EdgeBoundaryStrength(mbStorage_t *mb1, mbStorage_t *mb2,
+    u32 ind1, u32 ind2)
+{
+
+    if (mb1->totalCoeff[ind1] || mb2->totalCoeff[ind2])
+    {
+        return 2;
+    }
+    else if ((mb1->refAddr[ind1 >> 2] != mb2->refAddr[ind2 >> 2]) ||
+             ((u32)ABS(mb1->mv[ind1].hor - mb2->mv[ind2].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[ind1].ver - mb2->mv[ind2].ver) >= 4))
+    {
+        return 1;
+    }
+    else
+        return 0;
+}
+
+#else /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: EdgeBoundaryStrengthTop
+
+        Functional description:
+            Function to calculate boundary strength value bs for
+            top-most edge of a macroblock. Macroblock types are checked
+            before this is called -> no intra mb conditions here.
+
+------------------------------------------------------------------------------*/
+u32 EdgeBoundaryStrengthTop(mbStorage_t *mb1, mbStorage_t *mb2)
+{
+    u32 topBs = 0;
+    u32 tmp1, tmp2, tmp3, tmp4;
+
+    tmp1 = mb1->totalCoeff[0];
+    tmp2 = mb2->totalCoeff[10];
+    tmp3 = mb1->totalCoeff[1];
+    tmp4 = mb2->totalCoeff[11];
+    if (tmp1 || tmp2)
+    {
+        topBs = 2<<0;
+    }
+    else if (((u32)ABS(mb1->mv[0].hor - mb2->mv[10].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[0].ver - mb2->mv[10].ver) >= 4) ||
+             (mb1->refAddr[0] != mb2->refAddr[10 >> 2]))
+    {
+        topBs = 1<<0;
+    }
+    tmp1 = mb1->totalCoeff[4];
+    tmp2 = mb2->totalCoeff[14];
+    if (tmp3 || tmp4)
+    {
+        topBs += 2<<8;
+    }
+    else if (((u32)ABS(mb1->mv[1].hor - mb2->mv[11].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[1].ver - mb2->mv[11].ver) >= 4) ||
+             (mb1->refAddr[0] != mb2->refAddr[11 >> 2]))
+    {
+        topBs += 1<<8;
+    }
+    tmp3 = mb1->totalCoeff[5];
+    tmp4 = mb2->totalCoeff[15];
+    if (tmp1 || tmp2)
+    {
+        topBs += 2<<16;
+    }
+    else if (((u32)ABS(mb1->mv[4].hor - mb2->mv[14].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[4].ver - mb2->mv[14].ver) >= 4) ||
+             (mb1->refAddr[4 >> 2] != mb2->refAddr[14 >> 2]))
+    {
+        topBs += 1<<16;
+    }
+    if (tmp3 || tmp4)
+    {
+        topBs += 2<<24;
+    }
+    else if (((u32)ABS(mb1->mv[5].hor - mb2->mv[15].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[5].ver - mb2->mv[15].ver) >= 4) ||
+             (mb1->refAddr[5 >> 2] != mb2->refAddr[15 >> 2]))
+    {
+        topBs += 1<<24;
+    }
+
+    return topBs;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: EdgeBoundaryStrengthLeft
+
+        Functional description:
+            Function to calculate boundary strength value bs for left-
+            edge of a macroblock. Macroblock types are checked
+            before this is called -> no intra mb conditions here.
+
+------------------------------------------------------------------------------*/
+u32 EdgeBoundaryStrengthLeft(mbStorage_t *mb1, mbStorage_t *mb2)
+{
+    u32 leftBs = 0;
+    u32 tmp1, tmp2, tmp3, tmp4;
+
+    tmp1 = mb1->totalCoeff[0];
+    tmp2 = mb2->totalCoeff[5];
+    tmp3 = mb1->totalCoeff[2];
+    tmp4 = mb2->totalCoeff[7];
+
+    if (tmp1 || tmp2)
+    {
+        leftBs = 2<<0;
+    }
+    else if (((u32)ABS(mb1->mv[0].hor - mb2->mv[5].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[0].ver - mb2->mv[5].ver) >= 4) ||
+             (mb1->refAddr[0] != mb2->refAddr[5 >> 2]))
+    {
+        leftBs = 1<<0;
+    }
+    tmp1 = mb1->totalCoeff[8];
+    tmp2 = mb2->totalCoeff[13];
+    if (tmp3 || tmp4)
+    {
+        leftBs += 2<<8;
+    }
+    else if (((u32)ABS(mb1->mv[2].hor - mb2->mv[7].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[2].ver - mb2->mv[7].ver) >= 4) ||
+             (mb1->refAddr[0] != mb2->refAddr[7 >> 2]))
+    {
+        leftBs += 1<<8;
+    }
+    tmp3 = mb1->totalCoeff[10];
+    tmp4 = mb2->totalCoeff[15];
+    if (tmp1 || tmp2)
+    {
+        leftBs += 2<<16;
+    }
+    else if (((u32)ABS(mb1->mv[8].hor - mb2->mv[13].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[8].ver - mb2->mv[13].ver) >= 4) ||
+             (mb1->refAddr[8 >> 2] != mb2->refAddr[13 >> 2]))
+    {
+        leftBs += 1<<16;
+    }
+    if (tmp3 || tmp4)
+    {
+        leftBs += 2<<24;
+    }
+    else if (((u32)ABS(mb1->mv[10].hor - mb2->mv[15].hor) >= 4) ||
+             ((u32)ABS(mb1->mv[10].ver - mb2->mv[15].ver) >= 4) ||
+             (mb1->refAddr[10 >> 2] != mb2->refAddr[15 >> 2]))
+    {
+        leftBs += 1<<24;
+    }
+
+    return leftBs;
+}
+#endif /* H264DEC_OMXDL */
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFilterPicture
+
+        Functional description:
+          Perform deblocking filtering for a picture. Filter does not copy
+          the original picture anywhere but filtering is performed directly
+          on the original image. Parameters controlling the filtering process
+          are computed based on information in macroblock structures of the
+          filtered macroblock, macroblock above and macroblock on the left of
+          the filtered one.
+
+        Inputs:
+          image         pointer to image to be filtered
+          mb            pointer to macroblock data structure of the top-left
+                        macroblock of the picture
+
+        Outputs:
+          image         filtered image stored here
+
+        Returns:
+          none
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_OMXDL
+void h264bsdFilterPicture(
+  image_t *image,
+  mbStorage_t *mb)
+{
+
+/* Variables */
+
+    u32 flags;
+    u32 picSizeInMbs, mbRow, mbCol;
+    u32 picWidthInMbs;
+    u8 *data;
+    mbStorage_t *pMb;
+    bS_t bS[16];
+    edgeThreshold_t thresholds[3];
+
+/* Code */
+
+    ASSERT(image);
+    ASSERT(mb);
+    ASSERT(image->data);
+    ASSERT(image->width);
+    ASSERT(image->height);
+
+    picWidthInMbs = image->width;
+    data = image->data;
+    picSizeInMbs = picWidthInMbs * image->height;
+
+    pMb = mb;
+
+    for (mbRow = 0, mbCol = 0; mbRow < image->height; pMb++)
+    {
+        flags = GetMbFilteringFlags(pMb);
+
+        if (flags)
+        {
+            /* GetBoundaryStrengths function returns non-zero value if any of
+             * the bS values for the macroblock being processed was non-zero */
+            if (GetBoundaryStrengths(pMb, bS, flags))
+            {
+                /* luma */
+                GetLumaEdgeThresholds(thresholds, pMb, flags);
+                data = image->data + mbRow * picWidthInMbs * 256 + mbCol * 16;
+
+                FilterLuma((u8*)data, bS, thresholds, picWidthInMbs*16);
+
+                /* chroma */
+                GetChromaEdgeThresholds(thresholds, pMb, flags,
+                    pMb->chromaQpIndexOffset);
+                data = image->data + picSizeInMbs * 256 +
+                    mbRow * picWidthInMbs * 64 + mbCol * 8;
+
+                FilterChroma((u8*)data, data + 64*picSizeInMbs, bS,
+                        thresholds, picWidthInMbs*8);
+
+            }
+        }
+
+        mbCol++;
+        if (mbCol == picWidthInMbs)
+        {
+            mbCol = 0;
+            mbRow++;
+        }
+    }
+
+}
+
+int sample = 0;
+unsigned int hashA = 0;
+unsigned int hashB = 0;
+unsigned int hashC = 0;
+unsigned int hashD = 0;
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterVerLumaEdge
+
+        Functional description:
+            Filter one vertical 4-pixel luma edge.
+
+------------------------------------------------------------------------------*/
+void FilterVerLumaEdge(
+  u8 *data,
+  u32 bS,
+  edgeThreshold_t *thresholds,
+  u32 imageWidth)
+{
+
+/* Variables */
+
+    i32 delta, tc, tmp;
+    u32 i;
+    i32 p0, q0, p1, q1, p2, q2;
+    u32 tmpFlag;
+    const u8 *clp = h264bsdClip + 512;
+
+    u32 alpha = thresholds->alpha;
+    u32 beta = thresholds->beta;
+    i32 val;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS && bS <= 4);
+    ASSERT(thresholds);
+
+    if (bS < 4)
+    {
+        tc = thresholds->tc0[bS-1];
+        tmp = tc;
+        for (i = 4; i; i--, data += imageWidth)
+        {
+            p1 = data[-2]; p0 = data[-1];
+            q0 = data[0]; q1 = data[1];
+
+            if ( ((u32)ABS(p0 - q0) < alpha) &&
+                 ((u32)ABS(p1 - p0) < beta)  &&
+                 ((u32)ABS(q1 - q0) < beta) )
+            {
+                p2 = data[-3];
+                q2 = data[2];
+
+                if ((u32)ABS(p2 - p0) < beta)
+                {
+                    val = (p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)) >> 1;
+                    data[-2] = (p1 + CLIP3(-tc, tc, val));
+                    tmp++;
+                }
+
+                if ((u32)ABS(q2 - q0) < beta)
+                {
+                    val = (q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)) >> 1;
+                    data[1] = (q1 + CLIP3(-tc, tc, val));
+                    tmp++;
+                }
+
+                val = (((q0 - p0) << 2) + (p1 - q1) + 4) >> 3;
+                delta = CLIP3(-tmp, tmp, val);
+
+                p0 = clp[p0 + delta];
+                q0 = clp[q0 - delta];
+                tmp = tc;
+                data[-1] = p0;
+                data[ 0] = q0;
+            }
+            // hashA += data[-2] + data[-1] + data[0] + data[1];
+        }
+    }
+    else
+    {
+        for (i = 4; i; i--, data += imageWidth)
+        {
+            p1 = data[-2]; p0 = data[-1];
+            q0 = data[0]; q1 = data[1];
+            if ( ((u32)ABS(p0-q0) < alpha) &&
+                 ((u32)ABS(p1-p0) < beta)  &&
+                 ((u32)ABS(q1-q0) < beta) )
+            {
+                tmpFlag = ((u32)ABS(p0 - q0) < ((alpha >> 2) +2)) ? HANTRO_TRUE : HANTRO_FALSE;
+
+                p2 = data[-3];
+                q2 = data[2];
+
+                if (tmpFlag && (u32)ABS(p2-p0) < beta)
+                {
+                    tmp = p1 + p0 + q0;
+                    data[-1] = ((p2 + 2 * tmp + q1 + 4) >> 3);
+                    data[-2] = ((p2 + tmp + 2) >> 2);
+                    data[-3] = ((2 * data[-4] + 3 * p2 + tmp + 4) >> 3);
+                }
+                else
+                    data[-1] = (2 * p1 + p0 + q1 + 2) >> 2;
+
+                if (tmpFlag && (u32)ABS(q2-q0) < beta)
+                {
+                    tmp = p0 + q0 + q1;
+                    data[0] = ((p1 + 2 * tmp + q2 + 4) >> 3);
+                    data[1] = ((tmp + q2 + 2) >> 2);
+                    data[2] = ((2 * data[3] + 3 * q2 + tmp + 4) >> 3);
+                }
+                else
+                    data[0] = ((2 * q1 + q0 + p1 + 2) >> 2);
+            }
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterHorLumaEdge
+
+        Functional description:
+            Filter one horizontal 4-pixel luma edge
+
+------------------------------------------------------------------------------*/
+void FilterHorLumaEdge(
+  u8 *data,
+  u32 bS,
+  edgeThreshold_t *thresholds,
+  i32 imageWidth)
+{
+
+/* Variables */
+
+    i32 delta, tc, tmp;
+    u32 i;
+    u8 p0, q0, p1, q1, p2, q2;
+    const u8 *clp = h264bsdClip + 512;
+    i32 val;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS < 4);
+    ASSERT(thresholds);
+
+//    if (sample ++ % (1024 * 128) == 0) {
+//        printf("Hash A: %d, Hash B: %d\n", hashA, hashB);
+//    }
+
+    tc = thresholds->tc0[bS-1];
+    tmp = tc;
+    for (i = 4; i; i--, data++)
+    {
+        p1 = data[-imageWidth*2]; p0 = data[-imageWidth];
+        q0 = data[0]; q1 = data[imageWidth];
+        if ( ((u32)ABS(p0-q0) < thresholds->alpha) &&
+             ((u32)ABS(p1-p0) < thresholds->beta)  &&
+             ((u32)ABS(q1-q0) < thresholds->beta) )
+        {
+            p2 = data[-imageWidth*3];
+
+            if ((u32)ABS(p2-p0) < thresholds->beta)
+            {
+                val = (p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)) >> 1;
+                data[-imageWidth*2] = (p1 + CLIP3(-tc, tc, val));
+                tmp++;
+            }
+
+            q2 = data[imageWidth*2];
+
+            if ((u32)ABS(q2-q0) < thresholds->beta)
+            {
+                val = (q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)) >> 1;
+                data[imageWidth] = (q1 + CLIP3(-tc, tc, val));
+                tmp++;
+            }
+
+            val = ((((q0 - p0) << 2) + (p1 - q1) + 4) >> 3);
+            delta = CLIP3(-tmp, tmp, val);
+
+            p0 = clp[p0 + delta];
+            q0 = clp[q0 - delta];
+            tmp = tc;
+            data[-imageWidth] = p0;
+            data[  0] = q0;
+        }
+
+        // hashB += data[-imageWidth*2] + data[-imageWidth] + data[0] + data[imageWidth];
+    }
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterHorLuma
+
+        Functional description:
+            Filter all four successive horizontal 4-pixel luma edges. This can
+            be done when bS is equal to all four edges.
+
+------------------------------------------------------------------------------*/
+void FilterHorLuma(
+  u8 *data,
+  u32 bS,
+  edgeThreshold_t *thresholds,
+  i32 imageWidth)
+{
+/* Variables */
+
+    i32 delta, tc, tmp;
+    u32 i;
+    i32 p0, q0, p1, q1, p2, q2;
+    u32 tmpFlag;
+    const u8 *clp = h264bsdClip + 512;
+    u32 alpha = thresholds->alpha;
+    u32 beta = thresholds->beta;
+    i32 val;
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS <= 4);
+    ASSERT(thresholds);
+
+//    if (sample ++ % (1024 * 64) == 0) {
+//        printf("Hash A: %d, Hash B: %d\n", hashA, hashB);
+//    }
+
+    if (bS < 4)
+    {
+        tc = thresholds->tc0[bS-1];
+        tmp = tc;
+        for (i = 16; i; i--, data++)
+        {
+            p1 = data[-imageWidth*2]; p0 = data[-imageWidth];
+            q0 = data[0]; q1 = data[imageWidth];
+            if ( ((u32)ABS(p0 - q0) < alpha) &&
+                 ((u32)ABS(p1 - p0) < beta)  &&
+                 ((u32)ABS(q1 - q0) < beta) )
+            {
+                p2 = data[-imageWidth*3];
+
+                if ((u32)ABS(p2 - p0) < beta)
+                {
+                    val = (p2 + ((p0 + q0 + 1) >> 1) - (p1 << 1)) >> 1;
+                    data[-imageWidth*2] = (u8)(p1 + CLIP3(-tc, tc, val));
+                    tmp++;
+                }
+
+                q2 = data[imageWidth*2];
+
+                if ((u32)ABS(q2-q0) < beta)
+                {
+                    val = (q2 + ((p0 + q0 + 1) >> 1) - (q1 << 1)) >> 1;
+                    data[imageWidth] = (u8)(q1 + CLIP3(-tc, tc, val));
+                    tmp++;
+                }
+
+                val = ((((q0 - p0) << 2) + (p1 - q1) + 4) >> 3);
+                delta = CLIP3(-tmp, tmp, val);
+
+                p0 = clp[p0 + delta];
+                q0 = clp[q0 - delta];
+                tmp = tc;
+                data[-imageWidth] = p0;
+                data[  0] = q0;
+            }
+        }
+    }
+    else
+    {
+        for (i = 16; i; i--, data++)
+        {
+            p1 = data[-imageWidth*2]; p0 = data[-imageWidth];
+            q0 = data[0]; q1 = data[imageWidth];
+            if ( ((u32)ABS(p0 - q0) < alpha) &&
+                 ((u32)ABS(p1 - p0) < beta)  &&
+                 ((u32)ABS(q1 - q0) < beta) )
+            {
+                tmpFlag = ((u32)ABS(p0 - q0) < ((alpha >> 2) +2))
+                            ? HANTRO_TRUE : HANTRO_FALSE;
+
+                p2 = data[-imageWidth*3];
+                q2 = data[imageWidth*2];
+
+                if (tmpFlag && (u32)ABS(p2 - p0) < beta)
+                {
+                    tmp = p1 + p0 + q0;
+                    data[-imageWidth] = (u8)((p2 + 2 * tmp + q1 + 4) >> 3);
+                    data[-imageWidth*2] = (u8)((p2 + tmp + 2) >> 2);
+                    data[-imageWidth*3] = (u8)((2 * data[-imageWidth*4] +
+                                           3 * p2 + tmp + 4) >> 3);
+                }
+                else
+                    data[-imageWidth] = (u8)((2 * p1 + p0 + q1 + 2) >> 2);
+
+                if (tmpFlag && (u32)ABS(q2 - q0) < beta)
+                {
+                    tmp = p0 + q0 + q1;
+                    data[ 0] = (u8)((p1 + 2 * tmp + q2 + 4) >> 3);
+                    data[imageWidth] = (u8)((tmp + q2 + 2) >> 2);
+                    data[imageWidth*2] = (u8)((2 * data[imageWidth*3] +
+                                          3 * q2 + tmp + 4) >> 3);
+                }
+                else
+                    data[0] = (2 * q1 + q0 + p1 + 2) >> 2;
+            }
+        }
+    }
+
+    // hashA += data[-imageWidth*2] + data[-imageWidth] + data[0] + data[imageWidth];
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterVerChromaEdge
+
+        Functional description:
+            Filter one vertical 2-pixel chroma edge
+
+------------------------------------------------------------------------------*/
+void FilterVerChromaEdge(
+  u8 *data,
+  u32 bS,
+  edgeThreshold_t *thresholds,
+  u32 width)
+{
+
+/* Variables */
+
+    i32 delta, tc;
+    u8 p0, q0, p1, q1;
+    const u8 *clp = h264bsdClip + 512;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS <= 4);
+    ASSERT(thresholds);
+
+    p1 = data[-2]; p0 = data[-1];
+    q0 = data[0]; q1 = data[1];
+    if ( ((u32)ABS(p0-q0) < thresholds->alpha) &&
+         ((u32)ABS(p1-p0) < thresholds->beta)  &&
+         ((u32)ABS(q1-q0) < thresholds->beta) )
+    {
+        if (bS < 4)
+        {
+            tc = thresholds->tc0[bS-1] + 1;
+            delta = CLIP3(-tc, tc, ((((q0 - p0) << 2) +
+                      (p1 - q1) + 4) >> 3));
+            p0 = clp[p0 + delta];
+            q0 = clp[q0 - delta];
+            data[-1] = p0;
+            data[ 0] = q0;
+        }
+        else
+        {
+            data[-1] = (2 * p1 + p0 + q1 + 2) >> 2;
+            data[ 0] = (2 * q1 + q0 + p1 + 2) >> 2;
+        }
+    }
+    data += width;
+    p1 = data[-2]; p0 = data[-1];
+    q0 = data[0]; q1 = data[1];
+    if ( ((u32)ABS(p0-q0) < thresholds->alpha) &&
+         ((u32)ABS(p1-p0) < thresholds->beta)  &&
+         ((u32)ABS(q1-q0) < thresholds->beta) )
+    {
+        if (bS < 4)
+        {
+            tc = thresholds->tc0[bS-1] + 1;
+            delta = CLIP3(-tc, tc, ((((q0 - p0) << 2) +
+                      (p1 - q1) + 4) >> 3));
+            p0 = clp[p0 + delta];
+            q0 = clp[q0 - delta];
+            data[-1] = p0;
+            data[ 0] = q0;
+        }
+        else
+        {
+            data[-1] = (2 * p1 + p0 + q1 + 2) >> 2;
+            data[ 0] = (2 * q1 + q0 + p1 + 2) >> 2;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterHorChromaEdge
+
+        Functional description:
+            Filter one horizontal 2-pixel chroma edge
+
+------------------------------------------------------------------------------*/
+void FilterHorChromaEdge(
+  u8 *data,
+  u32 bS,
+  edgeThreshold_t *thresholds,
+  i32 width)
+{
+
+/* Variables */
+
+    i32 delta, tc;
+    u32 i;
+    u8 p0, q0, p1, q1;
+    const u8 *clp = h264bsdClip + 512;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS < 4);
+    ASSERT(thresholds);
+
+    tc = thresholds->tc0[bS-1] + 1;
+    for (i = 2; i; i--, data++)
+    {
+        p1 = data[-width*2]; p0 = data[-width];
+        q0 = data[0]; q1 = data[width];
+        if ( ((u32)ABS(p0-q0) < thresholds->alpha) &&
+             ((u32)ABS(p1-p0) < thresholds->beta)  &&
+             ((u32)ABS(q1-q0) < thresholds->beta) )
+        {
+            delta = CLIP3(-tc, tc, ((((q0 - p0) << 2) +
+                      (p1 - q1) + 4) >> 3));
+            p0 = clp[p0 + delta];
+            q0 = clp[q0 - delta];
+            data[-width] = p0;
+            data[  0] = q0;
+        }
+    }
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterHorChroma
+
+        Functional description:
+            Filter all four successive horizontal 2-pixel chroma edges. This
+            can be done if bS is equal for all four edges.
+
+------------------------------------------------------------------------------*/
+void FilterHorChroma(
+  u8 *data,
+  u32 bS,
+  edgeThreshold_t *thresholds,
+  i32 width)
+{
+
+/* Variables */
+
+    i32 delta, tc;
+    u32 i;
+    u8 p0, q0, p1, q1;
+    const u8 *clp = h264bsdClip + 512;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS <= 4);
+    ASSERT(thresholds);
+
+    if (bS < 4)
+    {
+        tc = thresholds->tc0[bS-1] + 1;
+        for (i = 8; i; i--, data++)
+        {
+            p1 = data[-width*2]; p0 = data[-width];
+            q0 = data[0]; q1 = data[width];
+            if ( ((u32)ABS(p0-q0) < thresholds->alpha) &&
+                 ((u32)ABS(p1-p0) < thresholds->beta)  &&
+                 ((u32)ABS(q1-q0) < thresholds->beta) )
+            {
+                delta = CLIP3(-tc, tc, ((((q0 - p0) << 2) +
+                          (p1 - q1) + 4) >> 3));
+                p0 = clp[p0 + delta];
+                q0 = clp[q0 - delta];
+                data[-width] = p0;
+                data[  0] = q0;
+            }
+        }
+    }
+    else
+    {
+        for (i = 8; i; i--, data++)
+        {
+            p1 = data[-width*2]; p0 = data[-width];
+            q0 = data[0]; q1 = data[width];
+            if ( ((u32)ABS(p0-q0) < thresholds->alpha) &&
+                 ((u32)ABS(p1-p0) < thresholds->beta)  &&
+                 ((u32)ABS(q1-q0) < thresholds->beta) )
+            {
+                    data[-width] = (2 * p1 + p0 + q1 + 2) >> 2;
+                    data[  0] = (2 * q1 + q0 + p1 + 2) >> 2;
+            }
+        }
+    }
+
+}
+
+
+void GetBoundaryStrengthsA(mbStorage_t *mb, bS_t *bS) {
+    bS[4].top = mb->totalCoeff[2] || mb->totalCoeff[0] ? 2 : 0;
+    bS[5].top = mb->totalCoeff[3] || mb->totalCoeff[1] ? 2 : 0;
+    bS[6].top = mb->totalCoeff[6] || mb->totalCoeff[4] ? 2 : 0;
+    bS[7].top = mb->totalCoeff[7] || mb->totalCoeff[5] ? 2 : 0;
+    bS[8].top = mb->totalCoeff[8] || mb->totalCoeff[2] ? 2 : 0;
+    bS[9].top = mb->totalCoeff[9] || mb->totalCoeff[3] ? 2 : 0;
+    bS[10].top = mb->totalCoeff[12] || mb->totalCoeff[6] ? 2 : 0;
+    bS[11].top = mb->totalCoeff[13] || mb->totalCoeff[7] ? 2 : 0;
+    bS[12].top = mb->totalCoeff[10] || mb->totalCoeff[8] ? 2 : 0;
+    bS[13].top = mb->totalCoeff[11] || mb->totalCoeff[9] ? 2 : 0;
+    bS[14].top = mb->totalCoeff[14] || mb->totalCoeff[12] ? 2 : 0;
+    bS[15].top = mb->totalCoeff[15] || mb->totalCoeff[13] ? 2 : 0;
+
+    bS[1].left = mb->totalCoeff[1] || mb->totalCoeff[0] ? 2 : 0;
+    bS[2].left = mb->totalCoeff[4] || mb->totalCoeff[1] ? 2 : 0;
+    bS[3].left = mb->totalCoeff[5] || mb->totalCoeff[4] ? 2 : 0;
+    bS[5].left = mb->totalCoeff[3] || mb->totalCoeff[2] ? 2 : 0;
+    bS[6].left = mb->totalCoeff[6] || mb->totalCoeff[3] ? 2 : 0;
+    bS[7].left = mb->totalCoeff[7] || mb->totalCoeff[6] ? 2 : 0;
+    bS[9].left = mb->totalCoeff[9] || mb->totalCoeff[8] ? 2 : 0;
+    bS[10].left = mb->totalCoeff[12] || mb->totalCoeff[9] ? 2 : 0;
+    bS[11].left = mb->totalCoeff[13] || mb->totalCoeff[12] ? 2 : 0;
+    bS[13].left = mb->totalCoeff[11] || mb->totalCoeff[10] ? 2 : 0;
+    bS[14].left = mb->totalCoeff[14] || mb->totalCoeff[11] ? 2 : 0;
+    bS[15].left = mb->totalCoeff[15] || mb->totalCoeff[14] ? 2 : 0;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetBoundaryStrengths
+
+        Functional description:
+            Function to calculate boundary strengths for all edges of a
+            macroblock. Function returns HANTRO_TRUE if any of the bS values for
+            the macroblock had non-zero value, HANTRO_FALSE otherwise.
+
+------------------------------------------------------------------------------*/
+u32 GetBoundaryStrengths(mbStorage_t *mb, bS_t *bS, u32 flags)
+{
+
+/* Variables */
+
+    /* this flag is set HANTRO_TRUE as soon as any boundary strength value is
+     * non-zero */
+    u32 nonZeroBs = HANTRO_FALSE;
+
+/* Code */
+
+    ASSERT(mb);
+    ASSERT(bS);
+    ASSERT(flags);
+
+//    if (sample ++ % (1024 * 128) == 0) {
+//        printf("Hash A: %d, Hash B: %d, Hash C: %d, Hash D: %d\n", hashA, hashB, hashC, hashD);
+//    }
+
+    /* top edges */
+    if (flags & FILTER_TOP_EDGE)
+    {
+        if (IS_INTRA_MB(*mb) || IS_INTRA_MB(*mb->mbB))
+        {
+            bS[0].top = bS[1].top = bS[2].top = bS[3].top = 4;
+            nonZeroBs = HANTRO_TRUE;
+        }
+        else
+        {
+            bS[0].top = EdgeBoundaryStrength(mb, mb->mbB, 0, 10);
+            bS[1].top = EdgeBoundaryStrength(mb, mb->mbB, 1, 11);
+            bS[2].top = EdgeBoundaryStrength(mb, mb->mbB, 4, 14);
+            bS[3].top = EdgeBoundaryStrength(mb, mb->mbB, 5, 15);
+            if (bS[0].top || bS[1].top || bS[2].top || bS[3].top)
+                nonZeroBs = HANTRO_TRUE;
+        }
+    }
+    else
+    {
+        bS[0].top = bS[1].top = bS[2].top = bS[3].top = 0;
+    }
+
+    /* left edges */
+    if (flags & FILTER_LEFT_EDGE)
+    {
+        if (IS_INTRA_MB(*mb) || IS_INTRA_MB(*mb->mbA))
+        {
+            bS[0].left = bS[4].left = bS[8].left = bS[12].left = 4;
+            nonZeroBs = HANTRO_TRUE;
+        }
+        else
+        {
+            bS[0].left = EdgeBoundaryStrength(mb, mb->mbA, 0, 5);
+            bS[4].left = EdgeBoundaryStrength(mb, mb->mbA, 2, 7);
+            bS[8].left = EdgeBoundaryStrength(mb, mb->mbA, 8, 13);
+            bS[12].left = EdgeBoundaryStrength(mb, mb->mbA, 10, 15);
+            if (!nonZeroBs &&
+                (bS[0].left || bS[4].left || bS[8].left || bS[12].left))
+                nonZeroBs = HANTRO_TRUE;
+        }
+    }
+    else
+    {
+        bS[0].left = bS[4].left = bS[8].left = bS[12].left = 0;
+    }
+
+    /* inner edges */
+    if (IS_INTRA_MB(*mb))
+    {
+        bS[4].top  = bS[5].top  = bS[6].top  = bS[7].top  =
+        bS[8].top  = bS[9].top  = bS[10].top = bS[11].top =
+        bS[12].top = bS[13].top = bS[14].top = bS[15].top = 3;
+
+        bS[1].left  = bS[2].left  = bS[3].left  =
+        bS[5].left  = bS[6].left  = bS[7].left  =
+        bS[9].left  = bS[10].left = bS[11].left =
+        bS[13].left = bS[14].left = bS[15].left = 3;
+        nonZeroBs = HANTRO_TRUE;
+    }
+    else
+    {
+        /* 16x16 inter mb -> ref addresses or motion vectors cannot differ,
+         * only check if either of the blocks contain coefficients */
+        if (h264bsdNumMbPart(mb->mbType) == 1)
+        {
+            GetBoundaryStrengthsA(mb, bS);
+        }
+        /* 16x8 inter mb -> ref addresses and motion vectors can be different
+         * only for the middle horizontal edge, for the other top edges it is
+         * enough to check whether the blocks contain coefficients or not. The
+         * same applies to all internal left edges. */
+        else if (mb->mbType == P_L0_L0_16x8)
+        {
+            bS[4].top = mb->totalCoeff[2] || mb->totalCoeff[0] ? 2 : 0;
+            bS[5].top = mb->totalCoeff[3] || mb->totalCoeff[1] ? 2 : 0;
+            bS[6].top = mb->totalCoeff[6] || mb->totalCoeff[4] ? 2 : 0;
+            bS[7].top = mb->totalCoeff[7] || mb->totalCoeff[5] ? 2 : 0;
+            bS[12].top = mb->totalCoeff[10] || mb->totalCoeff[8] ? 2 : 0;
+            bS[13].top = mb->totalCoeff[11] || mb->totalCoeff[9] ? 2 : 0;
+            bS[14].top = mb->totalCoeff[14] || mb->totalCoeff[12] ? 2 : 0;
+            bS[15].top = mb->totalCoeff[15] || mb->totalCoeff[13] ? 2 : 0;
+            bS[8].top = InnerBoundaryStrength(mb, 8, 2);
+            bS[9].top = InnerBoundaryStrength(mb, 9, 3);
+            bS[10].top = InnerBoundaryStrength(mb, 12, 6);
+            bS[11].top = InnerBoundaryStrength(mb, 13, 7);
+
+            bS[1].left = mb->totalCoeff[1] || mb->totalCoeff[0] ? 2 : 0;
+            bS[2].left = mb->totalCoeff[4] || mb->totalCoeff[1] ? 2 : 0;
+            bS[3].left = mb->totalCoeff[5] || mb->totalCoeff[4] ? 2 : 0;
+            bS[5].left = mb->totalCoeff[3] || mb->totalCoeff[2] ? 2 : 0;
+            bS[6].left = mb->totalCoeff[6] || mb->totalCoeff[3] ? 2 : 0;
+            bS[7].left = mb->totalCoeff[7] || mb->totalCoeff[6] ? 2 : 0;
+            bS[9].left = mb->totalCoeff[9] || mb->totalCoeff[8] ? 2 : 0;
+            bS[10].left = mb->totalCoeff[12] || mb->totalCoeff[9] ? 2 : 0;
+            bS[11].left = mb->totalCoeff[13] || mb->totalCoeff[12] ? 2 : 0;
+            bS[13].left = mb->totalCoeff[11] || mb->totalCoeff[10] ? 2 : 0;
+            bS[14].left = mb->totalCoeff[14] || mb->totalCoeff[11] ? 2 : 0;
+            bS[15].left = mb->totalCoeff[15] || mb->totalCoeff[14] ? 2 : 0;
+        }
+        /* 8x16 inter mb -> ref addresses and motion vectors can be different
+         * only for the middle vertical edge, for the other left edges it is
+         * enough to check whether the blocks contain coefficients or not. The
+         * same applies to all internal top edges. */
+        else if (mb->mbType == P_L0_L0_8x16)
+        {
+            bS[4].top = mb->totalCoeff[2] || mb->totalCoeff[0] ? 2 : 0;
+            bS[5].top = mb->totalCoeff[3] || mb->totalCoeff[1] ? 2 : 0;
+            bS[6].top = mb->totalCoeff[6] || mb->totalCoeff[4] ? 2 : 0;
+            bS[7].top = mb->totalCoeff[7] || mb->totalCoeff[5] ? 2 : 0;
+            bS[8].top = mb->totalCoeff[8] || mb->totalCoeff[2] ? 2 : 0;
+            bS[9].top = mb->totalCoeff[9] || mb->totalCoeff[3] ? 2 : 0;
+            bS[10].top = mb->totalCoeff[12] || mb->totalCoeff[6] ? 2 : 0;
+            bS[11].top = mb->totalCoeff[13] || mb->totalCoeff[7] ? 2 : 0;
+            bS[12].top = mb->totalCoeff[10] || mb->totalCoeff[8] ? 2 : 0;
+            bS[13].top = mb->totalCoeff[11] || mb->totalCoeff[9] ? 2 : 0;
+            bS[14].top = mb->totalCoeff[14] || mb->totalCoeff[12] ? 2 : 0;
+            bS[15].top = mb->totalCoeff[15] || mb->totalCoeff[13] ? 2 : 0;
+
+            bS[1].left = mb->totalCoeff[1] || mb->totalCoeff[0] ? 2 : 0;
+            bS[3].left = mb->totalCoeff[5] || mb->totalCoeff[4] ? 2 : 0;
+            bS[5].left = mb->totalCoeff[3] || mb->totalCoeff[2] ? 2 : 0;
+            bS[7].left = mb->totalCoeff[7] || mb->totalCoeff[6] ? 2 : 0;
+            bS[9].left = mb->totalCoeff[9] || mb->totalCoeff[8] ? 2 : 0;
+            bS[11].left = mb->totalCoeff[13] || mb->totalCoeff[12] ? 2 : 0;
+            bS[13].left = mb->totalCoeff[11] || mb->totalCoeff[10] ? 2 : 0;
+            bS[15].left = mb->totalCoeff[15] || mb->totalCoeff[14] ? 2 : 0;
+            bS[2].left = InnerBoundaryStrength(mb, 4, 1);
+            bS[6].left = InnerBoundaryStrength(mb, 6, 3);
+            bS[10].left = InnerBoundaryStrength(mb, 12, 9);
+            bS[14].left = InnerBoundaryStrength(mb, 14, 11);
+        }
+        else
+        {
+            bS[4].top = InnerBoundaryStrength(mb, mb4x4Index[4], mb4x4Index[0]);
+            bS[5].top = InnerBoundaryStrength(mb, mb4x4Index[5], mb4x4Index[1]);
+            bS[6].top = InnerBoundaryStrength(mb, mb4x4Index[6], mb4x4Index[2]);
+            bS[7].top = InnerBoundaryStrength(mb, mb4x4Index[7], mb4x4Index[3]);
+            bS[8].top = InnerBoundaryStrength(mb, mb4x4Index[8], mb4x4Index[4]);
+            bS[9].top = InnerBoundaryStrength(mb, mb4x4Index[9], mb4x4Index[5]);
+            bS[10].top = InnerBoundaryStrength(mb, mb4x4Index[10], mb4x4Index[6]);
+            bS[11].top = InnerBoundaryStrength(mb, mb4x4Index[11], mb4x4Index[7]);
+            bS[12].top = InnerBoundaryStrength(mb, mb4x4Index[12], mb4x4Index[8]);
+            bS[13].top = InnerBoundaryStrength(mb, mb4x4Index[13], mb4x4Index[9]);
+            bS[14].top = InnerBoundaryStrength(mb, mb4x4Index[14], mb4x4Index[10]);
+            bS[15].top = InnerBoundaryStrength(mb, mb4x4Index[15], mb4x4Index[11]);
+
+            bS[1].left = InnerBoundaryStrength(mb, mb4x4Index[1], mb4x4Index[0]);
+            bS[2].left = InnerBoundaryStrength(mb, mb4x4Index[2], mb4x4Index[1]);
+            bS[3].left = InnerBoundaryStrength(mb, mb4x4Index[3], mb4x4Index[2]);
+            bS[5].left = InnerBoundaryStrength(mb, mb4x4Index[5], mb4x4Index[4]);
+            bS[6].left = InnerBoundaryStrength(mb, mb4x4Index[6], mb4x4Index[5]);
+            bS[7].left = InnerBoundaryStrength(mb, mb4x4Index[7], mb4x4Index[6]);
+            bS[9].left = InnerBoundaryStrength(mb, mb4x4Index[9], mb4x4Index[8]);
+            bS[10].left = InnerBoundaryStrength(mb, mb4x4Index[10], mb4x4Index[9]);
+            bS[11].left = InnerBoundaryStrength(mb, mb4x4Index[11], mb4x4Index[10]);
+            bS[13].left = InnerBoundaryStrength(mb, mb4x4Index[13], mb4x4Index[12]);
+            bS[14].left = InnerBoundaryStrength(mb, mb4x4Index[14], mb4x4Index[13]);
+            bS[15].left = InnerBoundaryStrength(mb, mb4x4Index[15], mb4x4Index[14]);
+        }
+        if (!nonZeroBs &&
+            (bS[4].top || bS[5].top || bS[6].top || bS[7].top ||
+             bS[8].top || bS[9].top || bS[10].top || bS[11].top ||
+             bS[12].top || bS[13].top || bS[14].top || bS[15].top ||
+             bS[1].left || bS[2].left || bS[3].left ||
+             bS[5].left || bS[6].left || bS[7].left ||
+             bS[9].left || bS[10].left || bS[11].left ||
+             bS[13].left || bS[14].left || bS[15].left))
+            nonZeroBs = HANTRO_TRUE;
+    }
+
+    return(nonZeroBs);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetLumaEdgeThresholds
+
+        Functional description:
+            Compute alpha, beta and tc0 thresholds for inner, left and top
+            luma edges of a macroblock.
+
+------------------------------------------------------------------------------*/
+void GetLumaEdgeThresholds(
+  edgeThreshold_t *thresholds,
+  mbStorage_t *mb,
+  u32 filteringFlags)
+{
+
+/* Variables */
+
+    u32 indexA, indexB;
+    u32 qpAv, qp, qpTmp;
+
+/* Code */
+
+    ASSERT(thresholds);
+    ASSERT(mb);
+
+    qp = mb->qpY;
+
+    indexA = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetA);
+    indexB = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetB);
+
+    thresholds[INNER].alpha = alphas[indexA];
+    thresholds[INNER].beta = betas[indexB];
+    thresholds[INNER].tc0 = tc0[indexA];
+
+    if (filteringFlags & FILTER_TOP_EDGE)
+    {
+        qpTmp = mb->mbB->qpY;
+        if (qpTmp != qp)
+        {
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            thresholds[TOP].alpha = alphas[indexA];
+            thresholds[TOP].beta = betas[indexB];
+            thresholds[TOP].tc0 = tc0[indexA];
+        }
+        else
+        {
+            thresholds[TOP].alpha = thresholds[INNER].alpha;
+            thresholds[TOP].beta = thresholds[INNER].beta;
+            thresholds[TOP].tc0 = thresholds[INNER].tc0;
+        }
+    }
+    if (filteringFlags & FILTER_LEFT_EDGE)
+    {
+        qpTmp = mb->mbA->qpY;
+        if (qpTmp != qp)
+        {
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            thresholds[LEFT].alpha = alphas[indexA];
+            thresholds[LEFT].beta = betas[indexB];
+            thresholds[LEFT].tc0 = tc0[indexA];
+        }
+        else
+        {
+            thresholds[LEFT].alpha = thresholds[INNER].alpha;
+            thresholds[LEFT].beta = thresholds[INNER].beta;
+            thresholds[LEFT].tc0 = thresholds[INNER].tc0;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetChromaEdgeThresholds
+
+        Functional description:
+            Compute alpha, beta and tc0 thresholds for inner, left and top
+            chroma edges of a macroblock.
+
+------------------------------------------------------------------------------*/
+void GetChromaEdgeThresholds(
+  edgeThreshold_t *thresholds,
+  mbStorage_t *mb,
+  u32 filteringFlags,
+  i32 chromaQpIndexOffset)
+{
+
+/* Variables */
+
+    u32 indexA, indexB;
+    u32 qpAv, qp, qpTmp;
+
+/* Code */
+
+    ASSERT(thresholds);
+    ASSERT(mb);
+
+    qp = mb->qpY;
+    qp = h264bsdQpC[CLIP3(0, 51, (i32)qp + chromaQpIndexOffset)];
+
+    indexA = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetA);
+    indexB = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetB);
+
+    thresholds[INNER].alpha = alphas[indexA];
+    thresholds[INNER].beta = betas[indexB];
+    thresholds[INNER].tc0 = tc0[indexA];
+
+    if (filteringFlags & FILTER_TOP_EDGE)
+    {
+        qpTmp = mb->mbB->qpY;
+        if (qpTmp != mb->qpY)
+        {
+            qpTmp = h264bsdQpC[CLIP3(0, 51, (i32)qpTmp + chromaQpIndexOffset)];
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            thresholds[TOP].alpha = alphas[indexA];
+            thresholds[TOP].beta = betas[indexB];
+            thresholds[TOP].tc0 = tc0[indexA];
+        }
+        else
+        {
+            thresholds[TOP].alpha = thresholds[INNER].alpha;
+            thresholds[TOP].beta = thresholds[INNER].beta;
+            thresholds[TOP].tc0 = thresholds[INNER].tc0;
+        }
+    }
+    if (filteringFlags & FILTER_LEFT_EDGE)
+    {
+        qpTmp = mb->mbA->qpY;
+        if (qpTmp != mb->qpY)
+        {
+            qpTmp = h264bsdQpC[CLIP3(0, 51, (i32)qpTmp + chromaQpIndexOffset)];
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            thresholds[LEFT].alpha = alphas[indexA];
+            thresholds[LEFT].beta = betas[indexB];
+            thresholds[LEFT].tc0 = tc0[indexA];
+        }
+        else
+        {
+            thresholds[LEFT].alpha = thresholds[INNER].alpha;
+            thresholds[LEFT].beta = thresholds[INNER].beta;
+            thresholds[LEFT].tc0 = thresholds[INNER].tc0;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterLuma
+
+        Functional description:
+            Function to filter all luma edges of a macroblock
+
+------------------------------------------------------------------------------*/
+void FilterLuma(
+  u8 *data,
+  bS_t *bS,
+  edgeThreshold_t *thresholds,
+  u32 width)
+{
+
+/* Variables */
+
+    u32 vblock;
+    bS_t *tmp;
+    u8 *ptr;
+    u32 offset;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(bS);
+    ASSERT(thresholds);
+
+    ptr = data;
+    tmp = bS;
+
+    offset  = TOP;
+
+    /* loop block rows, perform filtering for all vertical edges of the block
+     * row first, then filter each horizontal edge of the row */
+    for (vblock = 4; vblock--;)
+    {
+        /* only perform filtering if bS is non-zero, first of the four
+         * FilterVerLumaEdge handles the left edge of the macroblock, others
+         * filter inner edges */
+        if (tmp[0].left)
+            FilterVerLumaEdge(ptr, tmp[0].left, thresholds + LEFT, width);
+        if (tmp[1].left)
+            FilterVerLumaEdge(ptr+4, tmp[1].left, thresholds + INNER, width);
+        if (tmp[2].left)
+            FilterVerLumaEdge(ptr+8, tmp[2].left, thresholds + INNER, width);
+        if (tmp[3].left)
+            FilterVerLumaEdge(ptr+12, tmp[3].left, thresholds + INNER, width);
+
+        /* if bS is equal for all horizontal edges of the row -> perform
+         * filtering with FilterHorLuma, otherwise use FilterHorLumaEdge for
+         * each edge separately. offset variable indicates top macroblock edge
+         * on the first loop round, inner edge for the other rounds */
+        if (tmp[0].top == tmp[1].top && tmp[1].top == tmp[2].top &&
+            tmp[2].top == tmp[3].top)
+        {
+            if(tmp[0].top)
+                FilterHorLuma(ptr, tmp[0].top, thresholds + offset, (i32)width);
+        }
+        else
+        {
+            if(tmp[0].top)
+                FilterHorLumaEdge(ptr, tmp[0].top, thresholds+offset,
+                    (i32)width);
+            if(tmp[1].top)
+                FilterHorLumaEdge(ptr+4, tmp[1].top, thresholds+offset,
+                    (i32)width);
+            if(tmp[2].top)
+                FilterHorLumaEdge(ptr+8, tmp[2].top, thresholds+offset,
+                    (i32)width);
+            if(tmp[3].top)
+                FilterHorLumaEdge(ptr+12, tmp[3].top, thresholds+offset,
+                    (i32)width);
+        }
+
+        /* four pixel rows ahead, i.e. next row of 4x4-blocks */
+        ptr += width*4;
+        tmp += 4;
+        offset = INNER;
+    }
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FilterChroma
+
+        Functional description:
+            Function to filter all chroma edges of a macroblock
+
+------------------------------------------------------------------------------*/
+void FilterChroma(
+  u8 *dataCb,
+  u8 *dataCr,
+  bS_t *bS,
+  edgeThreshold_t *thresholds,
+  u32 width)
+{
+
+/* Variables */
+
+    u32 vblock;
+    bS_t *tmp;
+    u32 offset;
+
+/* Code */
+
+    ASSERT(dataCb);
+    ASSERT(dataCr);
+    ASSERT(bS);
+    ASSERT(thresholds);
+
+    tmp = bS;
+    offset = TOP;
+
+    /* loop block rows, perform filtering for all vertical edges of the block
+     * row first, then filter each horizontal edge of the row */
+    for (vblock = 0; vblock < 2; vblock++)
+    {
+        /* only perform filtering if bS is non-zero, first two of the four
+         * FilterVerChromaEdge calls handle the left edge of the macroblock,
+         * others filter the inner edge. Note that as chroma uses bS values
+         * determined for luma edges, each bS is used only for 2 pixels of
+         * a 4-pixel edge */
+        if (tmp[0].left)
+        {
+            FilterVerChromaEdge(dataCb, tmp[0].left, thresholds + LEFT, width);
+            FilterVerChromaEdge(dataCr, tmp[0].left, thresholds + LEFT, width);
+        }
+        if (tmp[4].left)
+        {
+            FilterVerChromaEdge(dataCb+2*width, tmp[4].left, thresholds + LEFT,
+                width);
+            FilterVerChromaEdge(dataCr+2*width, tmp[4].left, thresholds + LEFT,
+                width);
+        }
+        if (tmp[2].left)
+        {
+            FilterVerChromaEdge(dataCb+4, tmp[2].left, thresholds + INNER,
+                width);
+            FilterVerChromaEdge(dataCr+4, tmp[2].left, thresholds + INNER,
+                width);
+        }
+        if (tmp[6].left)
+        {
+            FilterVerChromaEdge(dataCb+2*width+4, tmp[6].left,
+                thresholds + INNER, width);
+            FilterVerChromaEdge(dataCr+2*width+4, tmp[6].left,
+                thresholds + INNER, width);
+        }
+
+        /* if bS is equal for all horizontal edges of the row -> perform
+         * filtering with FilterHorChroma, otherwise use FilterHorChromaEdge
+         * for each edge separately. offset variable indicates top macroblock
+         * edge on the first loop round, inner edge for the second */
+        if (tmp[0].top == tmp[1].top && tmp[1].top == tmp[2].top &&
+            tmp[2].top == tmp[3].top)
+        {
+            if(tmp[0].top)
+            {
+                FilterHorChroma(dataCb, tmp[0].top, thresholds+offset,
+                    (i32)width);
+                FilterHorChroma(dataCr, tmp[0].top, thresholds+offset,
+                    (i32)width);
+            }
+        }
+        else
+        {
+            if (tmp[0].top)
+            {
+                FilterHorChromaEdge(dataCb, tmp[0].top, thresholds+offset,
+                    (i32)width);
+                FilterHorChromaEdge(dataCr, tmp[0].top, thresholds+offset,
+                    (i32)width);
+            }
+            if (tmp[1].top)
+            {
+                FilterHorChromaEdge(dataCb+2, tmp[1].top, thresholds+offset,
+                    (i32)width);
+                FilterHorChromaEdge(dataCr+2, tmp[1].top, thresholds+offset,
+                    (i32)width);
+            }
+            if (tmp[2].top)
+            {
+                FilterHorChromaEdge(dataCb+4, tmp[2].top, thresholds+offset,
+                    (i32)width);
+                FilterHorChromaEdge(dataCr+4, tmp[2].top, thresholds+offset,
+                    (i32)width);
+            }
+            if (tmp[3].top)
+            {
+                FilterHorChromaEdge(dataCb+6, tmp[3].top, thresholds+offset,
+                    (i32)width);
+                FilterHorChromaEdge(dataCr+6, tmp[3].top, thresholds+offset,
+                    (i32)width);
+            }
+        }
+
+        tmp += 8;
+        dataCb += width*4;
+        dataCr += width*4;
+        offset = INNER;
+    }
+}
+
+#else /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFilterPicture
+
+        Functional description:
+          Perform deblocking filtering for a picture. Filter does not copy
+          the original picture anywhere but filtering is performed directly
+          on the original image. Parameters controlling the filtering process
+          are computed based on information in macroblock structures of the
+          filtered macroblock, macroblock above and macroblock on the left of
+          the filtered one.
+
+        Inputs:
+          image         pointer to image to be filtered
+          mb            pointer to macroblock data structure of the top-left
+                        macroblock of the picture
+
+        Outputs:
+          image         filtered image stored here
+
+        Returns:
+          none
+
+------------------------------------------------------------------------------*/
+
+/*lint --e{550} Symbol not accessed */
+void h264bsdFilterPicture(
+  image_t *image,
+  mbStorage_t *mb)
+{
+
+/* Variables */
+
+    u32 flags;
+    u32 picSizeInMbs, mbRow, mbCol;
+    u32 picWidthInMbs;
+    u8 *data;
+    mbStorage_t *pMb;
+    u8 bS[2][16];
+    u8 thresholdLuma[2][16];
+    u8 thresholdChroma[2][8];
+    u8 alpha[2][2];
+    u8 beta[2][2];
+    OMXResult res;
+
+/* Code */
+
+    ASSERT(image);
+    ASSERT(mb);
+    ASSERT(image->data);
+    ASSERT(image->width);
+    ASSERT(image->height);
+
+    picWidthInMbs = image->width;
+    data = image->data;
+    picSizeInMbs = picWidthInMbs * image->height;
+
+    pMb = mb;
+
+    for (mbRow = 0, mbCol = 0; mbRow < image->height; pMb++)
+    {
+        flags = GetMbFilteringFlags(pMb);
+
+        if (flags)
+        {
+            /* GetBoundaryStrengths function returns non-zero value if any of
+             * the bS values for the macroblock being processed was non-zero */
+            if (GetBoundaryStrengths(pMb, bS, flags))
+            {
+
+                /* Luma */
+                GetLumaEdgeThresholds(pMb,alpha,beta,thresholdLuma,bS,flags);
+                data = image->data + mbRow * picWidthInMbs * 256 + mbCol * 16;
+
+                res = omxVCM4P10_FilterDeblockingLuma_VerEdge_I( data,
+                                                (OMX_S32)(picWidthInMbs*16),
+                                                (const OMX_U8*)alpha,
+                                                (const OMX_U8*)beta,
+                                                (const OMX_U8*)thresholdLuma,
+                                                (const OMX_U8*)bS );
+
+                res = omxVCM4P10_FilterDeblockingLuma_HorEdge_I( data,
+                                                (OMX_S32)(picWidthInMbs*16),
+                                                (const OMX_U8*)alpha+2,
+                                                (const OMX_U8*)beta+2,
+                                                (const OMX_U8*)thresholdLuma+16,
+                                                (const OMX_U8*)bS+16 );
+                /* Cb */
+                GetChromaEdgeThresholds(pMb, alpha, beta, thresholdChroma,
+                                        bS, flags, pMb->chromaQpIndexOffset);
+                data = image->data + picSizeInMbs * 256 +
+                    mbRow * picWidthInMbs * 64 + mbCol * 8;
+
+                res = omxVCM4P10_FilterDeblockingChroma_VerEdge_I( data,
+                                              (OMX_S32)(picWidthInMbs*8),
+                                              (const OMX_U8*)alpha,
+                                              (const OMX_U8*)beta,
+                                              (const OMX_U8*)thresholdChroma,
+                                              (const OMX_U8*)bS );
+                res = omxVCM4P10_FilterDeblockingChroma_HorEdge_I( data,
+                                              (OMX_S32)(picWidthInMbs*8),
+                                              (const OMX_U8*)alpha+2,
+                                              (const OMX_U8*)beta+2,
+                                              (const OMX_U8*)thresholdChroma+8,
+                                              (const OMX_U8*)bS+16 );
+                /* Cr */
+                data += (picSizeInMbs * 64);
+                res = omxVCM4P10_FilterDeblockingChroma_VerEdge_I( data,
+                                              (OMX_S32)(picWidthInMbs*8),
+                                              (const OMX_U8*)alpha,
+                                              (const OMX_U8*)beta,
+                                              (const OMX_U8*)thresholdChroma,
+                                              (const OMX_U8*)bS );
+                res = omxVCM4P10_FilterDeblockingChroma_HorEdge_I( data,
+                                              (OMX_S32)(picWidthInMbs*8),
+                                              (const OMX_U8*)alpha+2,
+                                              (const OMX_U8*)beta+2,
+                                              (const OMX_U8*)thresholdChroma+8,
+                                              (const OMX_U8*)bS+16 );
+            }
+        }
+
+        mbCol++;
+        if (mbCol == picWidthInMbs)
+        {
+            mbCol = 0;
+            mbRow++;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetBoundaryStrengths
+
+        Functional description:
+            Function to calculate boundary strengths for all edges of a
+            macroblock. Function returns HANTRO_TRUE if any of the bS values for
+            the macroblock had non-zero value, HANTRO_FALSE otherwise.
+
+------------------------------------------------------------------------------*/
+u32 GetBoundaryStrengths(mbStorage_t *mb, u8 (*bS)[16], u32 flags)
+{
+
+/* Variables */
+
+    /* this flag is set HANTRO_TRUE as soon as any boundary strength value is
+     * non-zero */
+    u32 nonZeroBs = HANTRO_FALSE;
+    u32 *pTmp;
+    u32 tmp1, tmp2, isIntraMb;
+
+/* Code */
+
+    ASSERT(mb);
+    ASSERT(bS);
+    ASSERT(flags);
+
+    isIntraMb = IS_INTRA_MB(*mb);
+
+    /* top edges */
+    pTmp = (u32*)&bS[1][0];
+    if (flags & FILTER_TOP_EDGE)
+    {
+        if (isIntraMb || IS_INTRA_MB(*mb->mbB))
+        {
+            *pTmp = 0x04040404;
+            nonZeroBs = HANTRO_TRUE;
+        }
+        else
+        {
+            *pTmp = EdgeBoundaryStrengthTop(mb, mb->mbB);
+            if (*pTmp)
+                nonZeroBs = HANTRO_TRUE;
+        }
+    }
+    else
+    {
+        *pTmp = 0;
+    }
+
+    /* left edges */
+    pTmp = (u32*)&bS[0][0];
+    if (flags & FILTER_LEFT_EDGE)
+    {
+        if (isIntraMb || IS_INTRA_MB(*mb->mbA))
+        {
+            /*bS[0][0] = bS[0][1] = bS[0][2] = bS[0][3] = 4;*/
+            *pTmp = 0x04040404;
+            nonZeroBs = HANTRO_TRUE;
+        }
+        else
+        {
+            *pTmp = EdgeBoundaryStrengthLeft(mb, mb->mbA);
+            if (!nonZeroBs && *pTmp)
+                nonZeroBs = HANTRO_TRUE;
+        }
+    }
+    else
+    {
+        *pTmp = 0;
+    }
+
+    /* inner edges */
+    if (isIntraMb)
+    {
+        pTmp++;
+        *pTmp++ = 0x03030303;
+        *pTmp++ = 0x03030303;
+        *pTmp++ = 0x03030303;
+        pTmp++;
+        *pTmp++ = 0x03030303;
+        *pTmp++ = 0x03030303;
+        *pTmp = 0x03030303;
+
+        nonZeroBs = HANTRO_TRUE;
+    }
+    else
+    {
+        pTmp = (u32*)mb->totalCoeff;
+
+        /* 16x16 inter mb -> ref addresses or motion vectors cannot differ,
+         * only check if either of the blocks contain coefficients */
+        if (h264bsdNumMbPart(mb->mbType) == 1)
+        {
+            tmp1 = *pTmp++;
+            tmp2 = *pTmp++;
+            bS[1][4]  = (tmp1 & 0x00FF00FF) ? 2 : 0; /* [2]  || [0] */
+            bS[1][5]  = (tmp1 & 0xFF00FF00) ? 2 : 0; /* [3]  || [1] */
+            bS[0][4]  = (tmp1 & 0x0000FFFF) ? 2 : 0; /* [1]  || [0] */
+            bS[0][5]  = (tmp1 & 0xFFFF0000) ? 2 : 0; /* [3]  || [2] */
+
+            tmp1 = *pTmp++;
+            bS[1][6]  = (tmp2 & 0x00FF00FF) ? 2 : 0; /* [6]  || [4] */
+            bS[1][7]  = (tmp2 & 0xFF00FF00) ? 2 : 0; /* [7]  || [5] */
+            bS[0][12] = (tmp2 & 0x0000FFFF) ? 2 : 0; /* [5]  || [4] */
+            bS[0][13] = (tmp2 & 0xFFFF0000) ? 2 : 0; /* [7]  || [6] */
+            tmp2 = *pTmp;
+            bS[1][12] = (tmp1 & 0x00FF00FF) ? 2 : 0; /* [10] || [8] */
+            bS[1][13] = (tmp1 & 0xFF00FF00) ? 2 : 0; /* [11] || [9] */
+            bS[0][6]  = (tmp1 & 0x0000FFFF) ? 2 : 0; /* [9]  || [8] */
+            bS[0][7]  = (tmp1 & 0xFFFF0000) ? 2 : 0; /* [11] || [10] */
+
+            bS[1][14] = (tmp2 & 0x00FF00FF) ? 2 : 0; /* [14] || [12] */
+            bS[1][15] = (tmp2 & 0xFF00FF00) ? 2 : 0; /* [15] || [13] */
+            bS[0][14] = (tmp2 & 0x0000FFFF) ? 2 : 0; /* [13] || [12] */
+            bS[0][15] = (tmp2 & 0xFFFF0000) ? 2 : 0; /* [15] || [14] */
+
+            {
+            u32 tmp3, tmp4;
+
+            tmp1 = mb->totalCoeff[8];
+            tmp2 = mb->totalCoeff[2];
+            tmp3 = mb->totalCoeff[9];
+            tmp4 = mb->totalCoeff[3];
+
+            bS[1][8] = tmp1 || tmp2 ? 2 : 0;
+            tmp1 = mb->totalCoeff[12];
+            tmp2 = mb->totalCoeff[6];
+            bS[1][9] = tmp3 || tmp4 ? 2 : 0;
+            tmp3 = mb->totalCoeff[13];
+            tmp4 = mb->totalCoeff[7];
+            bS[1][10] = tmp1 || tmp2 ? 2 : 0;
+            tmp1 = mb->totalCoeff[4];
+            tmp2 = mb->totalCoeff[1];
+            bS[1][11] = tmp3 || tmp4 ? 2 : 0;
+            tmp3 = mb->totalCoeff[6];
+            tmp4 = mb->totalCoeff[3];
+            bS[0][8] = tmp1 || tmp2 ? 2 : 0;
+            tmp1 = mb->totalCoeff[12];
+            tmp2 = mb->totalCoeff[9];
+            bS[0][9] = tmp3 || tmp4 ? 2 : 0;
+            tmp3 = mb->totalCoeff[14];
+            tmp4 = mb->totalCoeff[11];
+            bS[0][10] = tmp1 || tmp2 ? 2 : 0;
+            bS[0][11] = tmp3 || tmp4 ? 2 : 0;
+            }
+        }
+
+        /* 16x8 inter mb -> ref addresses and motion vectors can be different
+         * only for the middle horizontal edge, for the other top edges it is
+         * enough to check whether the blocks contain coefficients or not. The
+         * same applies to all internal left edges. */
+        else if (mb->mbType == P_L0_L0_16x8)
+        {
+            tmp1 = *pTmp++;
+            tmp2 = *pTmp++;
+            bS[1][4]  = (tmp1 & 0x00FF00FF) ? 2 : 0; /* [2]  || [0] */
+            bS[1][5]  = (tmp1 & 0xFF00FF00) ? 2 : 0; /* [3]  || [1] */
+            bS[0][4]  = (tmp1 & 0x0000FFFF) ? 2 : 0; /* [1]  || [0] */
+            bS[0][5]  = (tmp1 & 0xFFFF0000) ? 2 : 0; /* [3]  || [2] */
+            tmp1 = *pTmp++;
+            bS[1][6]  = (tmp2 & 0x00FF00FF) ? 2 : 0; /* [6]  || [4] */
+            bS[1][7]  = (tmp2 & 0xFF00FF00) ? 2 : 0; /* [7]  || [5] */
+            bS[0][12] = (tmp2 & 0x0000FFFF) ? 2 : 0; /* [5]  || [4] */
+            bS[0][13] = (tmp2 & 0xFFFF0000) ? 2 : 0; /* [7]  || [6] */
+            tmp2 = *pTmp;
+            bS[1][12] = (tmp1 & 0x00FF00FF) ? 2 : 0; /* [10] || [8] */
+            bS[1][13] = (tmp1 & 0xFF00FF00) ? 2 : 0; /* [11] || [9] */
+            bS[0][6]  = (tmp1 & 0x0000FFFF) ? 2 : 0; /* [9]  || [8] */
+            bS[0][7]  = (tmp1 & 0xFFFF0000) ? 2 : 0; /* [11] || [10] */
+
+            bS[1][14] = (tmp2 & 0x00FF00FF) ? 2 : 0; /* [14] || [12] */
+            bS[1][15] = (tmp2 & 0xFF00FF00) ? 2 : 0; /* [15] || [13] */
+            bS[0][14] = (tmp2 & 0x0000FFFF) ? 2 : 0; /* [13] || [12] */
+            bS[0][15] = (tmp2 & 0xFFFF0000) ? 2 : 0; /* [15] || [14] */
+
+            bS[1][8] = (u8)InnerBoundaryStrength(mb, 8, 2);
+            bS[1][9] = (u8)InnerBoundaryStrength(mb, 9, 3);
+            bS[1][10] = (u8)InnerBoundaryStrength(mb, 12, 6);
+            bS[1][11] = (u8)InnerBoundaryStrength(mb, 13, 7);
+
+            {
+            u32 tmp3, tmp4;
+
+            tmp1 = mb->totalCoeff[4];
+            tmp2 = mb->totalCoeff[1];
+            tmp3 = mb->totalCoeff[6];
+            tmp4 = mb->totalCoeff[3];
+            bS[0][8] = tmp1 || tmp2 ? 2 : 0;
+            tmp1 = mb->totalCoeff[12];
+            tmp2 = mb->totalCoeff[9];
+            bS[0][9] = tmp3 || tmp4 ? 2 : 0;
+            tmp3 = mb->totalCoeff[14];
+            tmp4 = mb->totalCoeff[11];
+            bS[0][10] = tmp1 || tmp2 ? 2 : 0;
+            bS[0][11] = tmp3 || tmp4 ? 2 : 0;
+            }
+        }
+        /* 8x16 inter mb -> ref addresses and motion vectors can be different
+         * only for the middle vertical edge, for the other left edges it is
+         * enough to check whether the blocks contain coefficients or not. The
+         * same applies to all internal top edges. */
+        else if (mb->mbType == P_L0_L0_8x16)
+        {
+            tmp1 = *pTmp++;
+            tmp2 = *pTmp++;
+            bS[1][4]  = (tmp1 & 0x00FF00FF) ? 2 : 0; /* [2]  || [0] */
+            bS[1][5]  = (tmp1 & 0xFF00FF00) ? 2 : 0; /* [3]  || [1] */
+            bS[0][4]  = (tmp1 & 0x0000FFFF) ? 2 : 0; /* [1]  || [0] */
+            bS[0][5]  = (tmp1 & 0xFFFF0000) ? 2 : 0; /* [3]  || [2] */
+            tmp1 = *pTmp++;
+            bS[1][6]  = (tmp2 & 0x00FF00FF) ? 2 : 0; /* [6]  || [4] */
+            bS[1][7]  = (tmp2 & 0xFF00FF00) ? 2 : 0; /* [7]  || [5] */
+            bS[0][12] = (tmp2 & 0x0000FFFF) ? 2 : 0; /* [5]  || [4] */
+            bS[0][13] = (tmp2 & 0xFFFF0000) ? 2 : 0; /* [7]  || [6] */
+            tmp2 = *pTmp;
+            bS[1][12] = (tmp1 & 0x00FF00FF) ? 2 : 0; /* [10] || [8] */
+            bS[1][13] = (tmp1 & 0xFF00FF00) ? 2 : 0; /* [11] || [9] */
+            bS[0][6]  = (tmp1 & 0x0000FFFF) ? 2 : 0; /* [9]  || [8] */
+            bS[0][7]  = (tmp1 & 0xFFFF0000) ? 2 : 0; /* [11] || [10] */
+
+            bS[1][14] = (tmp2 & 0x00FF00FF) ? 2 : 0; /* [14] || [12] */
+            bS[1][15] = (tmp2 & 0xFF00FF00) ? 2 : 0; /* [15] || [13] */
+            bS[0][14] = (tmp2 & 0x0000FFFF) ? 2 : 0; /* [13] || [12] */
+            bS[0][15] = (tmp2 & 0xFFFF0000) ? 2 : 0; /* [15] || [14] */
+
+            bS[0][8] = (u8)InnerBoundaryStrength(mb, 4, 1);
+            bS[0][9] = (u8)InnerBoundaryStrength(mb, 6, 3);
+            bS[0][10] = (u8)InnerBoundaryStrength(mb, 12, 9);
+            bS[0][11] = (u8)InnerBoundaryStrength(mb, 14, 11);
+
+            {
+            u32 tmp3, tmp4;
+
+            tmp1 = mb->totalCoeff[8];
+            tmp2 = mb->totalCoeff[2];
+            tmp3 = mb->totalCoeff[9];
+            tmp4 = mb->totalCoeff[3];
+            bS[1][8] = tmp1 || tmp2 ? 2 : 0;
+            tmp1 = mb->totalCoeff[12];
+            tmp2 = mb->totalCoeff[6];
+            bS[1][9] = tmp3 || tmp4 ? 2 : 0;
+            tmp3 = mb->totalCoeff[13];
+            tmp4 = mb->totalCoeff[7];
+            bS[1][10] = tmp1 || tmp2 ? 2 : 0;
+            bS[1][11] = tmp3 || tmp4 ? 2 : 0;
+            }
+        }
+        else
+        {
+            tmp1 = *pTmp++;
+            bS[1][4] = (tmp1 & 0x00FF00FF) ? 2 : (u8)InnerBoundaryStrength2(mb, 2, 0);
+            bS[1][5] = (tmp1 & 0xFF00FF00) ? 2 : (u8)InnerBoundaryStrength2(mb, 3, 1);
+            bS[0][4] = (tmp1 & 0x0000FFFF) ? 2 : (u8)InnerBoundaryStrength2(mb, 1, 0);
+            bS[0][5] = (tmp1 & 0xFFFF0000) ? 2 : (u8)InnerBoundaryStrength2(mb, 3, 2);
+            tmp1 = *pTmp++;
+            bS[1][6]  = (tmp1 & 0x00FF00FF) ? 2 : (u8)InnerBoundaryStrength2(mb, 6, 4);
+            bS[1][7]  = (tmp1 & 0xFF00FF00) ? 2 : (u8)InnerBoundaryStrength2(mb, 7, 5);
+            bS[0][12] = (tmp1 & 0x0000FFFF) ? 2 : (u8)InnerBoundaryStrength2(mb, 5, 4);
+            bS[0][13] = (tmp1 & 0xFFFF0000) ? 2 : (u8)InnerBoundaryStrength2(mb, 7, 6);
+            tmp1 = *pTmp++;
+            bS[1][12] = (tmp1 & 0x00FF00FF) ? 2 : (u8)InnerBoundaryStrength2(mb, 10, 8);
+            bS[1][13] = (tmp1 & 0xFF00FF00) ? 2 : (u8)InnerBoundaryStrength2(mb, 11, 9);
+            bS[0][6]  = (tmp1 & 0x0000FFFF) ? 2 : (u8)InnerBoundaryStrength2(mb, 9, 8);
+            bS[0][7]  = (tmp1 & 0xFFFF0000) ? 2 : (u8)InnerBoundaryStrength2(mb, 11, 10);
+            tmp1 = *pTmp;
+            bS[1][14] = (tmp1 & 0x00FF00FF) ? 2 : (u8)InnerBoundaryStrength2(mb, 14, 12);
+            bS[1][15] = (tmp1 & 0xFF00FF00) ? 2 : (u8)InnerBoundaryStrength2(mb, 15, 13);
+            bS[0][14] = (tmp1 & 0x0000FFFF) ? 2 : (u8)InnerBoundaryStrength2(mb, 13, 12);
+            bS[0][15] = (tmp1 & 0xFFFF0000) ? 2 : (u8)InnerBoundaryStrength2(mb, 15, 14);
+
+            bS[1][8] = (u8)InnerBoundaryStrength(mb, 8, 2);
+            bS[1][9] = (u8)InnerBoundaryStrength(mb, 9, 3);
+            bS[1][10] = (u8)InnerBoundaryStrength(mb, 12, 6);
+            bS[1][11] = (u8)InnerBoundaryStrength(mb, 13, 7);
+
+            bS[0][8] = (u8)InnerBoundaryStrength(mb, 4, 1);
+            bS[0][9] = (u8)InnerBoundaryStrength(mb, 6, 3);
+            bS[0][10] = (u8)InnerBoundaryStrength(mb, 12, 9);
+            bS[0][11] = (u8)InnerBoundaryStrength(mb, 14, 11);
+        }
+        pTmp = (u32*)&bS[0][0];
+        if (!nonZeroBs && (pTmp[1] || pTmp[2] || pTmp[3] ||
+                           pTmp[5] || pTmp[6] || pTmp[7]) )
+        {
+            nonZeroBs = HANTRO_TRUE;
+        }
+    }
+
+    return(nonZeroBs);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetLumaEdgeThresholds
+
+        Functional description:
+            Compute alpha, beta and tc0 thresholds for inner, left and top
+            luma edges of a macroblock.
+
+------------------------------------------------------------------------------*/
+void GetLumaEdgeThresholds(
+    mbStorage_t *mb,
+    u8 (*alpha)[2],
+    u8 (*beta)[2],
+    u8 (*threshold)[16],
+    u8 (*bs)[16],
+    u32 filteringFlags )
+{
+
+/* Variables */
+
+    u32 indexA, indexB;
+    u32 qpAv, qp, qpTmp;
+    u32 i;
+
+/* Code */
+
+    ASSERT(threshold);
+    ASSERT(bs);
+    ASSERT(beta);
+    ASSERT(alpha);
+    ASSERT(mb);
+
+    qp = mb->qpY;
+
+    indexA = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetA);
+    indexB = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetB);
+
+    /* Internal edge values */
+    alpha[0][1] = alphas[indexA];
+    alpha[1][1] = alphas[indexA];
+    alpha[1][0] = alphas[indexA];
+    alpha[0][0] = alphas[indexA];
+    beta[0][1] = betas[indexB];
+    beta[1][1] = betas[indexB];
+    beta[1][0] = betas[indexB];
+    beta[0][0] = betas[indexB];
+
+    /* vertical scan order */
+    for (i = 0; i < 2; i++)
+    {
+        u32 t1, t2;
+
+        t1 = bs[i][0];
+        t2 = bs[i][1];
+        threshold[i][0]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][2];
+        threshold[i][1]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][3];
+        threshold[i][2]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][4];
+        threshold[i][3]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][5];
+        threshold[i][4]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][6];
+        threshold[i][5]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][7];
+        threshold[i][6]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][8];
+        threshold[i][7]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][9];
+        threshold[i][8]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][10];
+        threshold[i][9]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][11];
+        threshold[i][10] = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][12];
+        threshold[i][11] = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][13];
+        threshold[i][12] = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][14];
+        threshold[i][13] = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][15];
+        threshold[i][14] = (t1) ? tc0[indexA][t1] : 0;
+        threshold[i][15] = (t2) ? tc0[indexA][t2] : 0;
+    }
+
+    if (filteringFlags & FILTER_TOP_EDGE)
+    {
+        qpTmp = mb->mbB->qpY;
+        if (qpTmp != qp)
+        {
+            u32 t1, t2, t3, t4;
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            alpha[1][0] = alphas[indexA];
+            beta[1][0] = betas[indexB];
+            t1 = bs[1][0];
+            t2 = bs[1][1];
+            t3 = bs[1][2];
+            t4 = bs[1][3];
+            threshold[1][0] = (t1 && (t1 < 4)) ? tc0[indexA][t1] : 0;
+            threshold[1][1] = (t2 && (t2 < 4)) ? tc0[indexA][t2] : 0;
+            threshold[1][2] = (t3 && (t3 < 4)) ? tc0[indexA][t3] : 0;
+            threshold[1][3] = (t4 && (t4 < 4)) ? tc0[indexA][t4] : 0;
+        }
+    }
+    if (filteringFlags & FILTER_LEFT_EDGE)
+    {
+        qpTmp = mb->mbA->qpY;
+        if (qpTmp != qp)
+        {
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            alpha[0][0] = alphas[indexA];
+            beta[0][0] = betas[indexB];
+            threshold[0][0] = (bs[0][0] && (bs[0][0] < 4)) ? tc0[indexA][bs[0][0]] : 0;
+            threshold[0][1] = (bs[0][1] && (bs[0][1] < 4)) ? tc0[indexA][bs[0][1]] : 0;
+            threshold[0][2] = (bs[0][2] && (bs[0][2] < 4)) ? tc0[indexA][bs[0][2]] : 0;
+            threshold[0][3] = (bs[0][3] && (bs[0][3] < 4)) ? tc0[indexA][bs[0][3]] : 0;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetChromaEdgeThresholds
+
+        Functional description:
+            Compute alpha, beta and tc0 thresholds for inner, left and top
+            chroma edges of a macroblock.
+
+------------------------------------------------------------------------------*/
+void GetChromaEdgeThresholds(
+    mbStorage_t *mb,
+    u8 (*alpha)[2],
+    u8 (*beta)[2],
+    u8 (*threshold)[8],
+    u8 (*bs)[16],
+    u32 filteringFlags,
+    i32 chromaQpIndexOffset)
+{
+
+/* Variables */
+
+    u32 indexA, indexB;
+    u32 qpAv, qp, qpTmp;
+    u32 i;
+
+/* Code */
+
+    ASSERT(threshold);
+    ASSERT(bs);
+    ASSERT(beta);
+    ASSERT(alpha);
+    ASSERT(mb);
+    ASSERT(mb);
+
+    qp = mb->qpY;
+    qp = h264bsdQpC[CLIP3(0, 51, (i32)qp + chromaQpIndexOffset)];
+
+    indexA = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetA);
+    indexB = (u32)CLIP3(0, 51, (i32)qp + mb->filterOffsetB);
+
+    alpha[0][1] = alphas[indexA];
+    alpha[1][1] = alphas[indexA];
+    alpha[1][0] = alphas[indexA];
+    alpha[0][0] = alphas[indexA];
+    beta[0][1] = betas[indexB];
+    beta[1][1] = betas[indexB];
+    beta[1][0] = betas[indexB];
+    beta[0][0] = betas[indexB];
+
+    for (i = 0; i < 2; i++)
+    {
+        u32 t1, t2;
+
+        t1 = bs[i][0];
+        t2 = bs[i][1];
+        threshold[i][0]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][2];
+        threshold[i][1]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][3];
+        threshold[i][2]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][8];
+        threshold[i][3]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][9];
+        threshold[i][4]  = (t1) ? tc0[indexA][t1] : 0;
+        t1 = bs[i][10];
+        threshold[i][5]  = (t2) ? tc0[indexA][t2] : 0;
+        t2 = bs[i][11];
+        threshold[i][6]  = (t1) ? tc0[indexA][t1] : 0;
+        threshold[i][7]  = (t2) ? tc0[indexA][t2] : 0;
+    }
+
+    if (filteringFlags & FILTER_TOP_EDGE)
+    {
+        qpTmp = mb->mbB->qpY;
+        if (qpTmp != mb->qpY)
+        {
+            u32 t1, t2, t3, t4;
+            qpTmp = h264bsdQpC[CLIP3(0, 51, (i32)qpTmp + chromaQpIndexOffset)];
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            alpha[1][0] = alphas[indexA];
+            beta[1][0] = betas[indexB];
+
+            t1 = bs[1][0];
+            t2 = bs[1][1];
+            t3 = bs[1][2];
+            t4 = bs[1][3];
+            threshold[1][0] = (t1) ? tc0[indexA][t1] : 0;
+            threshold[1][1] = (t2) ? tc0[indexA][t2] : 0;
+            threshold[1][2] = (t3) ? tc0[indexA][t3] : 0;
+            threshold[1][3] = (t4) ? tc0[indexA][t4] : 0;
+        }
+    }
+    if (filteringFlags & FILTER_LEFT_EDGE)
+    {
+        qpTmp = mb->mbA->qpY;
+        if (qpTmp != mb->qpY)
+        {
+
+            qpTmp = h264bsdQpC[CLIP3(0, 51, (i32)qpTmp + chromaQpIndexOffset)];
+            qpAv = (qp + qpTmp + 1) >> 1;
+
+            indexA = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetA);
+            indexB = (u32)CLIP3(0, 51, (i32)qpAv + mb->filterOffsetB);
+
+            alpha[0][0] = alphas[indexA];
+            beta[0][0] = betas[indexB];
+            threshold[0][0] = (bs[0][0]) ? tc0[indexA][bs[0][0]] : 0;
+            threshold[0][1] = (bs[0][1]) ? tc0[indexA][bs[0][1]] : 0;
+            threshold[0][2] = (bs[0][2]) ? tc0[indexA][bs[0][2]] : 0;
+            threshold[0][3] = (bs[0][3]) ? tc0[indexA][bs[0][3]] : 0;
+        }
+    }
+
+}
+
+#endif /* H264DEC_OMXDL */
+
+/*lint +e701 +e702 */
+
--- /dev/null
+++ b/src/h264bsd_deblocking.h
@@ -1,0 +1,57 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_DEBLOCKING_H
+#define H264SWDEC_DEBLOCKING_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_image.h"
+#include "h264bsd_macroblock_layer.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+void h264bsdFilterPicture(
+  image_t *image,
+  mbStorage_t *mb);
+
+#endif /* #ifdef H264SWDEC_DEBLOCKING_H */
+
--- /dev/null
+++ b/src/h264bsd_decoder.c
@@ -1,0 +1,1008 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdInit
+          h264bsdDecode
+          h264bsdShutdown
+          h264bsdCurrentImage
+          h264bsdNextOutputPicture
+          h264bsdPicWidth
+          h264bsdPicHeight
+          h264bsdFlushBuffer
+          h264bsdCheckValidParamSets
+          h264bsdVideoRange
+          h264bsdMatrixCoefficients
+          h264bsdCroppingParams
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_decoder.h"
+#include "h264bsd_nal_unit.h"
+#include "h264bsd_byte_stream.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_pic_param_set.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_slice_data.h"
+#include "h264bsd_neighbour.h"
+#include "h264bsd_util.h"
+#include "h264bsd_dpb.h"
+#include "h264bsd_deblocking.h"
+#include "h264bsd_conceal.h"
+#include "h264bsd_storage.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdInit
+
+        Functional description:
+            Initialize the decoder.
+
+        Inputs:
+            noOutputReordering  flag to indicate the decoder that it does not
+                                have to perform reordering of display images.
+
+        Outputs:
+            pStorage            pointer to initialized storage structure
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdInit(storage_t *pStorage, u32 noOutputReordering)
+{
+
+/* Variables */
+    u32 size;
+/* Code */
+
+    ASSERT(pStorage);
+
+    h264bsdInitStorage(pStorage);
+
+    /* allocate mbLayer to be next multiple of 64 to enable use of
+     * specific NEON optimized "memset" for clearing the structure */
+    size = (sizeof(macroblockLayer_t) + 63) & ~0x3F;
+
+    pStorage->mbLayer = (macroblockLayer_t*)malloc(size);
+    if (!pStorage->mbLayer)
+        return HANTRO_NOK;
+
+    if (noOutputReordering)
+        pStorage->noReordering = HANTRO_TRUE;
+
+    return HANTRO_OK;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDecode
+
+        Functional description:
+            Decode a NAL unit. This function calls other modules to perform
+            tasks like
+                * extract and decode NAL unit from the byte stream
+                * decode parameter sets
+                * decode slice header and slice data
+                * conceal errors in the picture
+                * perform deblocking filtering
+
+            This function contains top level control logic of the decoder.
+
+        Inputs:
+            pStorage        pointer to storage data structure
+            byteStrm        pointer to stream buffer given by application
+            len             length of the buffer in bytes
+            picId           identifier for a picture, assigned by the
+                            application
+
+        Outputs:
+            readBytes       number of bytes read from the stream is stored
+                            here
+
+        Returns:
+            H264BSD_RDY             decoding finished, nothing special
+            H264BSD_PIC_RDY         decoding of a picture finished
+            H264BSD_HDRS_RDY        param sets activated, information like
+                                    picture dimensions etc can be read
+            H264BSD_ERROR           error in decoding
+            H264BSD_PARAM_SET_ERROR serius error in decoding, failed to
+                                    activate param sets
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecode(storage_t *pStorage, u8 *byteStrm, u32 len, u32 picId,
+    u32 *readBytes)
+{
+
+/* Variables */
+
+    u32 tmp, ppsId, spsId;
+    i32 picOrderCnt;
+    nalUnit_t nalUnit;
+    seqParamSet_t seqParamSet;
+    picParamSet_t picParamSet;
+    strmData_t strm;
+    u32 accessUnitBoundaryFlag = HANTRO_FALSE;
+    u32 picReady = HANTRO_FALSE;
+
+/* Code */
+
+    ASSERT(pStorage);
+    ASSERT(byteStrm);
+    ASSERT(len);
+    ASSERT(readBytes);
+
+    /* if previous buffer was not finished and same pointer given -> skip NAL
+     * unit extraction */
+    if (pStorage->prevBufNotFinished && byteStrm == pStorage->prevBufPointer)
+    {
+        strm = pStorage->strm[0];
+        strm.pStrmCurrPos = strm.pStrmBuffStart;
+        strm.strmBuffReadBits = strm.bitPosInWord = 0;
+        *readBytes = pStorage->prevBytesConsumed;
+    }
+    else
+    {
+        tmp = h264bsdExtractNalUnit(byteStrm, len, &strm, readBytes);
+        if (tmp != HANTRO_OK)
+        {
+            EPRINT("BYTE_STREAM");
+            return(H264BSD_ERROR);
+        }
+        /* store stream */
+        pStorage->strm[0] = strm;
+        pStorage->prevBytesConsumed = *readBytes;
+        pStorage->prevBufPointer = byteStrm;
+    }
+    pStorage->prevBufNotFinished = HANTRO_FALSE;
+
+    tmp = h264bsdDecodeNalUnit(&strm, &nalUnit);
+    if (tmp != HANTRO_OK)
+    {
+        EPRINT("NAL_UNIT");
+        return(H264BSD_ERROR);
+    }
+
+    /* Discard unspecified, reserved, SPS extension and auxiliary picture slices */
+    if(nalUnit.nalUnitType == 0 || nalUnit.nalUnitType >= 13)
+    {
+        DEBUG(("DISCARDED NAL (UNSPECIFIED, REGISTERED, SPS ext or AUX slice)\n"));
+        return(H264BSD_RDY);
+    }
+
+    tmp = h264bsdCheckAccessUnitBoundary(
+      &strm,
+      &nalUnit,
+      pStorage,
+      &accessUnitBoundaryFlag);
+    if (tmp != HANTRO_OK)
+    {
+        EPRINT("ACCESS UNIT BOUNDARY CHECK");
+        if (tmp == PARAM_SET_ERROR)
+            return(H264BSD_PARAM_SET_ERROR);
+        else
+            return(H264BSD_ERROR);
+    }
+
+    if ( accessUnitBoundaryFlag )
+    {
+        DEBUG(("Access unit boundary\n"));
+        /* conceal if picture started and param sets activated */
+        if (pStorage->picStarted && pStorage->activeSps != NULL)
+        {
+            DEBUG(("CONCEALING..."));
+
+            /* return error if second phase of
+             * initialization is not completed */
+            if (pStorage->pendingActivation)
+            {
+                EPRINT("Pending activation not completed");
+                return (H264BSD_ERROR);
+            }
+
+            if (!pStorage->validSliceInAccessUnit)
+            {
+                pStorage->currImage->data =
+                    h264bsdAllocateDpbImage(pStorage->dpb);
+                h264bsdInitRefPicList(pStorage->dpb);
+                tmp = h264bsdConceal(pStorage, pStorage->currImage, P_SLICE);
+            }
+            else
+                tmp = h264bsdConceal(pStorage, pStorage->currImage,
+                    pStorage->sliceHeader->sliceType);
+
+            picReady = HANTRO_TRUE;
+
+            /* current NAL unit should be decoded on next activation -> set
+             * readBytes to 0 */
+            *readBytes = 0;
+            pStorage->prevBufNotFinished = HANTRO_TRUE;
+            DEBUG(("...DONE\n"));
+        }
+        else
+        {
+            pStorage->validSliceInAccessUnit = HANTRO_FALSE;
+        }
+        pStorage->skipRedundantSlices = HANTRO_FALSE;
+    }
+
+    if (!picReady)
+    {
+        switch (nalUnit.nalUnitType)
+        {
+            case NAL_SEQ_PARAM_SET:
+                DEBUG(("SEQ PARAM SET\n"));
+                tmp = h264bsdDecodeSeqParamSet(&strm, &seqParamSet);
+                if (tmp != HANTRO_OK)
+                {
+                    EPRINT("SEQ_PARAM_SET");
+                    FREE(seqParamSet.offsetForRefFrame);
+                    FREE(seqParamSet.vuiParameters);
+                    return(H264BSD_ERROR);
+                }
+                tmp = h264bsdStoreSeqParamSet(pStorage, &seqParamSet);
+                break;
+
+            case NAL_PIC_PARAM_SET:
+                DEBUG(("PIC PARAM SET\n"));
+                tmp = h264bsdDecodePicParamSet(&strm, &picParamSet);
+                if (tmp != HANTRO_OK)
+                {
+                    EPRINT("PIC_PARAM_SET");
+                    FREE(picParamSet.runLength);
+                    FREE(picParamSet.topLeft);
+                    FREE(picParamSet.bottomRight);
+                    FREE(picParamSet.sliceGroupId);
+                    return(H264BSD_ERROR);
+                }
+                tmp = h264bsdStorePicParamSet(pStorage, &picParamSet);
+                break;
+
+            case NAL_CODED_SLICE_IDR:
+                DEBUG(("IDR "));
+                /* fall through */
+            case NAL_CODED_SLICE:
+                DEBUG(("SLICE HEADER\n"));
+
+                /* picture successfully finished and still decoding same old
+                 * access unit -> no need to decode redundant slices */
+                if (pStorage->skipRedundantSlices)
+                    return(H264BSD_RDY);
+
+                pStorage->picStarted = HANTRO_TRUE;
+
+                if (h264bsdIsStartOfPicture(pStorage))
+                {
+                    pStorage->numConcealedMbs = 0;
+                    pStorage->currentPicId    = picId;
+
+                    tmp = h264bsdCheckPpsId(&strm, &ppsId);
+                    ASSERT(tmp == HANTRO_OK);
+                    /* store old activeSpsId and return headers ready
+                     * indication if activeSps changes */
+                    spsId = pStorage->activeSpsId;
+                    tmp = h264bsdActivateParamSets(pStorage, ppsId,
+                            IS_IDR_NAL_UNIT(&nalUnit) ?
+                            HANTRO_TRUE : HANTRO_FALSE);
+                    if (tmp != HANTRO_OK)
+                    {
+                        EPRINT("Param set activation");
+                        pStorage->activePpsId = MAX_NUM_PIC_PARAM_SETS;
+                        pStorage->activePps = NULL;
+                        pStorage->activeSpsId = MAX_NUM_SEQ_PARAM_SETS;
+                        pStorage->activeSps = NULL;
+                        pStorage->pendingActivation = HANTRO_FALSE;
+
+                        if(tmp == MEMORY_ALLOCATION_ERROR)
+                        {
+                            return H264BSD_MEMALLOC_ERROR;
+                        }
+                        else
+                            return(H264BSD_PARAM_SET_ERROR);
+                    }
+
+                    if (spsId != pStorage->activeSpsId)
+                    {
+                        seqParamSet_t *oldSPS = NULL;
+                        seqParamSet_t *newSPS = pStorage->activeSps;
+                        u32 noOutputOfPriorPicsFlag = 1;
+
+                        if(pStorage->oldSpsId < MAX_NUM_SEQ_PARAM_SETS)
+                        {
+                            oldSPS = pStorage->sps[pStorage->oldSpsId];
+                        }
+
+                        *readBytes = 0;
+                        pStorage->prevBufNotFinished = HANTRO_TRUE;
+
+
+                        if(nalUnit.nalUnitType == NAL_CODED_SLICE_IDR)
+                        {
+                            tmp =
+                            h264bsdCheckPriorPicsFlag(&noOutputOfPriorPicsFlag,
+                                                          &strm, newSPS,
+                                                          pStorage->activePps,
+                                                          nalUnit.nalUnitType);
+                        }
+                        else
+                        {
+                            tmp = HANTRO_NOK;
+                        }
+
+                        if((tmp != HANTRO_OK) ||
+                           (noOutputOfPriorPicsFlag != 0) ||
+                           (pStorage->dpb->noReordering) ||
+                           (oldSPS == NULL) ||
+                           (oldSPS->picWidthInMbs != newSPS->picWidthInMbs) ||
+                           (oldSPS->picHeightInMbs != newSPS->picHeightInMbs) ||
+                           (oldSPS->maxDpbSize != newSPS->maxDpbSize))
+                        {
+                            pStorage->dpb->flushed = 0;
+                        }
+                        else
+                        {
+                            h264bsdFlushDpb(pStorage->dpb);
+                        }
+
+                        pStorage->oldSpsId = pStorage->activeSpsId;
+
+                        return(H264BSD_HDRS_RDY);
+                    }
+                }
+
+                /* return error if second phase of
+                 * initialization is not completed */
+                if (pStorage->pendingActivation)
+                {
+                    EPRINT("Pending activation not completed");
+                    return (H264BSD_ERROR);
+                }
+                tmp = h264bsdDecodeSliceHeader(&strm, pStorage->sliceHeader + 1,
+                    pStorage->activeSps, pStorage->activePps, &nalUnit);
+                if (tmp != HANTRO_OK)
+                {
+                    EPRINT("SLICE_HEADER");
+                    return(H264BSD_ERROR);
+                }
+                if (h264bsdIsStartOfPicture(pStorage))
+                {
+                    if (!IS_IDR_NAL_UNIT(&nalUnit))
+                    {
+                        tmp = h264bsdCheckGapsInFrameNum(pStorage->dpb,
+                            pStorage->sliceHeader[1].frameNum,
+                            nalUnit.nalRefIdc != 0 ?
+                            HANTRO_TRUE : HANTRO_FALSE,
+                            pStorage->activeSps->
+                            gapsInFrameNumValueAllowedFlag);
+                        if (tmp != HANTRO_OK)
+                        {
+                            EPRINT("Gaps in frame num");
+                            return(H264BSD_ERROR);
+                        }
+                    }
+                    pStorage->currImage->data =
+                        h264bsdAllocateDpbImage(pStorage->dpb);
+                }
+
+                /* store slice header to storage if successfully decoded */
+                pStorage->sliceHeader[0] = pStorage->sliceHeader[1];
+                pStorage->validSliceInAccessUnit = HANTRO_TRUE;
+                pStorage->prevNalUnit[0] = nalUnit;
+
+                h264bsdComputeSliceGroupMap(pStorage,
+                    pStorage->sliceHeader->sliceGroupChangeCycle);
+
+                h264bsdInitRefPicList(pStorage->dpb);
+                tmp = h264bsdReorderRefPicList(pStorage->dpb,
+                    &pStorage->sliceHeader->refPicListReordering,
+                    pStorage->sliceHeader->frameNum,
+                    pStorage->sliceHeader->numRefIdxL0Active);
+                if (tmp != HANTRO_OK)
+                {
+                    EPRINT("Reordering");
+                    return(H264BSD_ERROR);
+                }
+
+                DEBUG(("SLICE DATA, FIRST %d\n",
+                        pStorage->sliceHeader->firstMbInSlice));
+                tmp = h264bsdDecodeSliceData(&strm, pStorage,
+                    pStorage->currImage, pStorage->sliceHeader);
+                if (tmp != HANTRO_OK)
+                {
+                    EPRINT("SLICE_DATA");
+                    h264bsdMarkSliceCorrupted(pStorage,
+                        pStorage->sliceHeader->firstMbInSlice);
+                    return(H264BSD_ERROR);
+                }
+
+                if (h264bsdIsEndOfPicture(pStorage))
+                {
+                    picReady = HANTRO_TRUE;
+                    pStorage->skipRedundantSlices = HANTRO_TRUE;
+                }
+                break;
+
+            case NAL_SEI:
+                DEBUG(("SEI MESSAGE, NOT DECODED"));
+                break;
+
+            default:
+                DEBUG(("NOT IMPLEMENTED YET %d\n",nalUnit.nalUnitType));
+        }
+    }
+
+    if (picReady)
+    {
+        h264bsdFilterPicture(pStorage->currImage, pStorage->mb);
+
+        h264bsdResetStorage(pStorage);
+
+         picOrderCnt = h264bsdDecodePicOrderCnt(pStorage->poc,
+            pStorage->activeSps, pStorage->sliceHeader, pStorage->prevNalUnit);
+
+        if (pStorage->validSliceInAccessUnit)
+        {
+            if (pStorage->prevNalUnit->nalRefIdc)
+            {
+                tmp = h264bsdMarkDecRefPic(pStorage->dpb,
+                    &pStorage->sliceHeader->decRefPicMarking,
+                    pStorage->currImage, pStorage->sliceHeader->frameNum,
+                    picOrderCnt,
+                    IS_IDR_NAL_UNIT(pStorage->prevNalUnit) ?
+                    HANTRO_TRUE : HANTRO_FALSE,
+                    pStorage->currentPicId, pStorage->numConcealedMbs);
+            }
+            /* non-reference picture, just store for possible display
+             * reordering */
+            else
+            {
+                tmp = h264bsdMarkDecRefPic(pStorage->dpb, NULL,
+                    pStorage->currImage, pStorage->sliceHeader->frameNum,
+                    picOrderCnt,
+                    IS_IDR_NAL_UNIT(pStorage->prevNalUnit) ?
+                    HANTRO_TRUE : HANTRO_FALSE,
+                    pStorage->currentPicId, pStorage->numConcealedMbs);
+            }
+        }
+
+        pStorage->picStarted = HANTRO_FALSE;
+        pStorage->validSliceInAccessUnit = HANTRO_FALSE;
+
+        return(H264BSD_PIC_RDY);
+    }
+    else
+        return(H264BSD_RDY);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdShutdown
+
+        Functional description:
+            Shutdown a decoder instance. Function frees all the memories
+            allocated for the decoder instance.
+
+        Inputs:
+            pStorage    pointer to storage data structure
+
+        Returns:
+            none
+
+
+------------------------------------------------------------------------------*/
+
+void h264bsdShutdown(storage_t *pStorage)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    for (i = 0; i < MAX_NUM_SEQ_PARAM_SETS; i++)
+    {
+        if (pStorage->sps[i])
+        {
+            FREE(pStorage->sps[i]->offsetForRefFrame);
+            FREE(pStorage->sps[i]->vuiParameters);
+            FREE(pStorage->sps[i]);
+        }
+    }
+
+    for (i = 0; i < MAX_NUM_PIC_PARAM_SETS; i++)
+    {
+        if (pStorage->pps[i])
+        {
+            FREE(pStorage->pps[i]->runLength);
+            FREE(pStorage->pps[i]->topLeft);
+            FREE(pStorage->pps[i]->bottomRight);
+            FREE(pStorage->pps[i]->sliceGroupId);
+            FREE(pStorage->pps[i]);
+        }
+    }
+
+    FREE(pStorage->mbLayer);
+    FREE(pStorage->mb);
+    FREE(pStorage->sliceGroupMap);
+
+    h264bsdFreeDpb(pStorage->dpb);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNextOutputPicture
+
+        Functional description:
+            Get next output picture in display order.
+
+        Inputs:
+            pStorage    pointer to storage data structure
+
+        Outputs:
+            picId       identifier of the picture will be stored here
+            isIdrPic    IDR flag of the picture will be stored here
+            numErrMbs   number of concealed macroblocks in the picture
+                        will be stored here
+
+        Returns:
+            pointer to the picture data
+            NULL if no pictures available for display
+
+------------------------------------------------------------------------------*/
+
+u8* h264bsdNextOutputPicture(storage_t *pStorage, u32 *picId, u32 *isIdrPic,
+    u32 *numErrMbs)
+{
+
+/* Variables */
+
+    dpbOutPicture_t *pOut;
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    pOut = h264bsdDpbOutputPicture(pStorage->dpb);
+
+    if (pOut != NULL)
+    {
+        *picId = pOut->picId;
+        *isIdrPic = pOut->isIdr;
+        *numErrMbs = pOut->numErrMbs;
+        return (pOut->data);
+    }
+    else
+        return(NULL);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdPicWidth
+
+        Functional description:
+            Get width of the picture in macroblocks
+
+        Inputs:
+            pStorage    pointer to storage data structure
+
+        Outputs:
+            none
+
+        Returns:
+            picture width
+            0 if parameters sets not yet activated
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdPicWidth(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    if (pStorage->activeSps)
+        return(pStorage->activeSps->picWidthInMbs);
+    else
+        return(0);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdPicHeight
+
+        Functional description:
+            Get height of the picture in macroblocks
+
+        Inputs:
+            pStorage    pointer to storage data structure
+
+        Outputs:
+            none
+
+        Returns:
+            picture width
+            0 if parameters sets not yet activated
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdPicHeight(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    if (pStorage->activeSps)
+        return(pStorage->activeSps->picHeightInMbs);
+    else
+        return(0);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFlushBuffer
+
+        Functional description:
+            Flush the decoded picture buffer, see dpb.c for details
+
+        Inputs:
+            pStorage    pointer to storage data structure
+
+------------------------------------------------------------------------------*/
+
+void h264bsdFlushBuffer(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    h264bsdFlushDpb(pStorage->dpb);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckValidParamSets
+
+        Functional description:
+            Check if any valid parameter set combinations (SPS/PPS) exists.
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Returns:
+            1       at least one valid SPS/PPS combination found
+            0       no valid param set combinations found
+
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckValidParamSets(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    return(h264bsdValidParamSets(pStorage) == HANTRO_OK ? 1 : 0);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdVideoRange
+
+        Functional description:
+            Get value of video_full_range_flag received in the VUI data.
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Returns:
+            1   video_full_range_flag received and value is 1
+            0   otherwise
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdVideoRange(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    if (pStorage->activeSps && pStorage->activeSps->vuiParametersPresentFlag &&
+        pStorage->activeSps->vuiParameters &&
+        pStorage->activeSps->vuiParameters->videoSignalTypePresentFlag &&
+        pStorage->activeSps->vuiParameters->videoFullRangeFlag)
+        return(1);
+    else /* default value of video_full_range_flag is 0 */
+        return(0);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdMatrixCoefficients
+
+        Functional description:
+            Get value of matrix_coefficients received in the VUI data
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            value of matrix_coefficients if received
+            2   otherwise (this is the default value)
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdMatrixCoefficients(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    if (pStorage->activeSps && pStorage->activeSps->vuiParametersPresentFlag &&
+        pStorage->activeSps->vuiParameters &&
+        pStorage->activeSps->vuiParameters->videoSignalTypePresentFlag &&
+        pStorage->activeSps->vuiParameters->colourDescriptionPresentFlag)
+        return(pStorage->activeSps->vuiParameters->matrixCoefficients);
+    else /* default unspecified */
+        return(2);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: hh264bsdCroppingParams
+
+        Functional description:
+            Get cropping parameters of the active SPS
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            croppingFlag    flag indicating if cropping params present is
+                            stored here
+            leftOffset      cropping left offset in pixels is stored here
+            width           width of the image after cropping is stored here
+            topOffset       cropping top offset in pixels is stored here
+            height          height of the image after cropping is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdCroppingParams(storage_t *pStorage, u32 *croppingFlag,
+    u32 *leftOffset, u32 *width, u32 *topOffset, u32 *height)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    if (pStorage->activeSps && pStorage->activeSps->frameCroppingFlag)
+    {
+        *croppingFlag = 1;
+        *leftOffset = 2 * pStorage->activeSps->frameCropLeftOffset;
+        *width = 16 * pStorage->activeSps->picWidthInMbs -
+                 2 * (pStorage->activeSps->frameCropLeftOffset +
+                      pStorage->activeSps->frameCropRightOffset);
+        *topOffset = 2 * pStorage->activeSps->frameCropTopOffset;
+        *height = 16 * pStorage->activeSps->picHeightInMbs -
+                  2 * (pStorage->activeSps->frameCropTopOffset +
+                       pStorage->activeSps->frameCropBottomOffset);
+    }
+    else
+    {
+        *croppingFlag = 0;
+        *leftOffset = 0;
+        *width = 0;
+        *topOffset = 0;
+        *height = 0;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdSampleAspectRatio
+
+        Functional description:
+            Get aspect ratio received in the VUI data
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            sarWidth    sample aspect ratio height
+            sarHeight   sample aspect ratio width
+
+------------------------------------------------------------------------------*/
+
+void h264bsdSampleAspectRatio(storage_t *pStorage, u32 *sarWidth, u32 *sarHeight)
+{
+
+/* Variables */
+    u32 w = 1;
+    u32 h = 1;
+/* Code */
+
+    ASSERT(pStorage);
+
+
+    if (pStorage->activeSps &&
+        pStorage->activeSps->vuiParametersPresentFlag &&
+        pStorage->activeSps->vuiParameters &&
+        pStorage->activeSps->vuiParameters->aspectRatioPresentFlag )
+    {
+        switch (pStorage->activeSps->vuiParameters->aspectRatioIdc)
+        {
+            case ASPECT_RATIO_UNSPECIFIED:  w =   0; h =  0; break;
+            case ASPECT_RATIO_1_1:          w =   1; h =  1; break;
+            case ASPECT_RATIO_12_11:        w =  12; h = 11; break;
+            case ASPECT_RATIO_10_11:        w =  10; h = 11; break;
+            case ASPECT_RATIO_16_11:        w =  16; h = 11; break;
+            case ASPECT_RATIO_40_33:        w =  40; h = 33; break;
+            case ASPECT_RATIO_24_11:        w =  24; h = 11; break;
+            case ASPECT_RATIO_20_11:        w =  20; h = 11; break;
+            case ASPECT_RATIO_32_11:        w =  32; h = 11; break;
+            case ASPECT_RATIO_80_33:        w =  80; h = 33; break;
+            case ASPECT_RATIO_18_11:        w =  18; h = 11; break;
+            case ASPECT_RATIO_15_11:        w =  15; h = 11; break;
+            case ASPECT_RATIO_64_33:        w =  64; h = 33; break;
+            case ASPECT_RATIO_160_99:       w = 160; h = 99; break;
+            case ASPECT_RATIO_EXTENDED_SAR:
+                w = pStorage->activeSps->vuiParameters->sarWidth;
+                h = pStorage->activeSps->vuiParameters->sarHeight;
+                if ((w == 0) || (h == 0))
+                    w = h = 0;
+                break;
+            default:
+                w = 0;
+                h = 0;
+                break;
+        }
+    }
+
+    /* set aspect ratio*/
+    *sarWidth = w;
+    *sarHeight = h;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdProfile
+
+        Functional description:
+            Get profile information from active SPS
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            profile   current profile
+
+------------------------------------------------------------------------------*/
+u32 h264bsdProfile(storage_t *pStorage)
+{
+    if (pStorage->activeSps)
+        return pStorage->activeSps->profileIdc;
+    else
+        return 0;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdAlloc
+
+        Functional description:
+            Allocate storage for a decoder
+
+        Inputs:
+            none
+
+        Outputs:
+            none
+
+        Returns:
+            pStorage            pointer to uninitialized storage structure
+
+------------------------------------------------------------------------------*/
+
+storage_t* h264bsdAlloc()
+{
+    return (storage_t*)malloc(sizeof(storage_t));
+}
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdFree
+
+        Functional description:
+            Free storage for a decoder
+
+        Inputs:
+            pStorage            pointer to storage structure
+
+        Outputs:
+            none
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdFree(storage_t *pStorage)
+{
+    free(pStorage);
+}
--- /dev/null
+++ b/src/h264bsd_decoder.h
@@ -1,0 +1,88 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_DECODER_H
+#define H264SWDEC_DECODER_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/* enumerated return values of the functions */
+enum {
+    H264BSD_RDY,
+    H264BSD_PIC_RDY,
+    H264BSD_HDRS_RDY,
+    H264BSD_ERROR,
+    H264BSD_PARAM_SET_ERROR,
+    H264BSD_MEMALLOC_ERROR
+};
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct storage storage_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdInit(storage_t *pStorage, u32 noOutputReordering);
+u32 h264bsdDecode(storage_t *pStorage, u8 *byteStrm, u32 len, u32 picId,
+    u32 *readBytes);
+void h264bsdShutdown(storage_t *pStorage);
+
+u8* h264bsdNextOutputPicture(storage_t *pStorage, u32 *picId, u32 *isIdrPic,
+    u32 *numErrMbs);
+
+u32 h264bsdPicWidth(storage_t *pStorage);
+u32 h264bsdPicHeight(storage_t *pStorage);
+u32 h264bsdVideoRange(storage_t *pStorage);
+u32 h264bsdMatrixCoefficients(storage_t *pStorage);
+void h264bsdCroppingParams(storage_t *pStorage, u32 *croppingFlag,
+    u32 *left, u32 *width, u32 *top, u32 *height);
+void h264bsdSampleAspectRatio(storage_t *pStorage,
+                              u32 *sarWidth, u32 *sarHeight);
+u32 h264bsdCheckValidParamSets(storage_t *pStorage);
+
+void h264bsdFlushBuffer(storage_t *pStorage);
+
+u32 h264bsdProfile(storage_t *pStorage);
+
+storage_t* h264bsdAlloc();
+void h264bsdFree(storage_t *pStorage);
+
+#endif /* #ifdef H264SWDEC_DECODER_H */
+
--- /dev/null
+++ b/src/h264bsd_dpb.c
@@ -1,0 +1,1585 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          ComparePictures
+          h264bsdReorderRefPicList
+          Mmcop1
+          Mmcop2
+          Mmcop3
+          Mmcop4
+          Mmcop5
+          Mmcop6
+          h264bsdMarkDecRefPic
+          h264bsdGetRefPicData
+          h264bsdAllocateDpbImage
+          SlidingWindowRefPicMarking
+          h264bsdInitDpb
+          h264bsdResetDpb
+          h264bsdInitRefPicList
+          FindDpbPic
+          SetPicNums
+          h264bsdCheckGapsInFrameNum
+          FindSmallestPicOrderCnt
+          OutputPicture
+          h264bsdDpbOutputPicture
+          h264bsdFlushDpb
+          h264bsdFreeDpb
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_cfg.h"
+#include "h264bsd_dpb.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_image.h"
+#include "h264bsd_util.h"
+#include "basetype.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* macros to determine picture status. Note that IS_SHORT_TERM macro returns
+ * true also for non-existing pictures because non-existing pictures are
+ * regarded short term pictures according to H.264 standard */
+#define IS_REFERENCE(a) ((a).status)
+#define IS_EXISTING(a) ((a).status > NON_EXISTING)
+#define IS_SHORT_TERM(a) \
+    ((a).status == NON_EXISTING || (a).status == SHORT_TERM)
+#define IS_LONG_TERM(a) ((a).status == LONG_TERM)
+
+/* macro to set a picture unused for reference */
+#define SET_UNUSED(a) (a).status = UNUSED;
+
+#define MAX_NUM_REF_IDX_L0_ACTIVE 16
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static i32 ComparePictures(const void *ptr1, const void *ptr2);
+
+static u32 Mmcop1(dpbStorage_t *dpb, u32 currPicNum, u32 differenceOfPicNums);
+
+static u32 Mmcop2(dpbStorage_t *dpb, u32 longTermPicNum);
+
+static u32 Mmcop3(dpbStorage_t *dpb, u32 currPicNum, u32 differenceOfPicNums,
+    u32 longTermFrameIdx);
+
+static u32 Mmcop4(dpbStorage_t *dpb, u32 maxLongTermFrameIdx);
+
+static u32 Mmcop5(dpbStorage_t *dpb);
+
+static u32 Mmcop6(dpbStorage_t *dpb, u32 frameNum, i32 picOrderCnt,
+    u32 longTermFrameIdx);
+
+static u32 SlidingWindowRefPicMarking(dpbStorage_t *dpb);
+
+static i32 FindDpbPic(dpbStorage_t *dpb, i32 picNum, u32 isShortTerm);
+
+static void SetPicNums(dpbStorage_t *dpb, u32 currFrameNum);
+
+static dpbPicture_t* FindSmallestPicOrderCnt(dpbStorage_t *dpb);
+
+static u32 OutputPicture(dpbStorage_t *dpb);
+
+static void ShellSort(dpbPicture_t *pPic, u32 num);
+
+/*------------------------------------------------------------------------------
+
+    Function: ComparePictures
+
+        Functional description:
+            Function to compare dpb pictures, used by the ShellSort() function.
+            Order of the pictures after sorting shall be as follows:
+                1) short term reference pictures starting with the largest
+                   picNum
+                2) long term reference pictures starting with the smallest
+                   longTermPicNum
+                3) pictures unused for reference but needed for display
+                4) other pictures
+
+        Returns:
+            -1      pic 1 is greater than pic 2
+             0      equal from comparison point of view
+             1      pic 2 is greater then pic 1
+
+------------------------------------------------------------------------------*/
+
+static i32 ComparePictures(const void *ptr1, const void *ptr2)
+{
+
+/* Variables */
+
+    dpbPicture_t *pic1, *pic2;
+
+/* Code */
+
+    ASSERT(ptr1);
+    ASSERT(ptr2);
+
+    pic1 = (dpbPicture_t*)ptr1;
+    pic2 = (dpbPicture_t*)ptr2;
+
+    /* both are non-reference pictures, check if needed for display */
+    if (!IS_REFERENCE(*pic1) && !IS_REFERENCE(*pic2))
+    {
+        if (pic1->toBeDisplayed && !pic2->toBeDisplayed)
+            return(-1);
+        else if (!pic1->toBeDisplayed && pic2->toBeDisplayed)
+            return(1);
+        else
+            return(0);
+    }
+    /* only pic 1 needed for reference -> greater */
+    else if (!IS_REFERENCE(*pic2))
+        return(-1);
+    /* only pic 2 needed for reference -> greater */
+    else if (!IS_REFERENCE(*pic1))
+        return(1);
+    /* both are short term reference pictures -> check picNum */
+    else if (IS_SHORT_TERM(*pic1) && IS_SHORT_TERM(*pic2))
+    {
+        if (pic1->picNum > pic2->picNum)
+            return(-1);
+        else if (pic1->picNum < pic2->picNum)
+            return(1);
+        else
+            return(0);
+    }
+    /* only pic 1 is short term -> greater */
+    else if (IS_SHORT_TERM(*pic1))
+        return(-1);
+    /* only pic 2 is short term -> greater */
+    else if (IS_SHORT_TERM(*pic2))
+        return(1);
+    /* both are long term reference pictures -> check picNum (contains the
+     * longTermPicNum */
+    else
+    {
+        if (pic1->picNum > pic2->picNum)
+            return(1);
+        else if (pic1->picNum < pic2->picNum)
+            return(-1);
+        else
+            return(0);
+    }
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdReorderRefPicList
+
+        Functional description:
+            Function to perform reference picture list reordering based on
+            reordering commands received in the slice header. See details
+            of the process in the H.264 standard.
+
+        Inputs:
+            dpb             pointer to dpb storage structure
+            order           pointer to reordering commands
+            currFrameNum    current frame number
+            numRefIdxActive number of active reference indices for current
+                            picture
+
+        Outputs:
+            dpb             'list' field of the structure reordered
+
+        Returns:
+            HANTRO_OK      success
+            HANTRO_NOK     if non-existing pictures referred to in the
+                           reordering commands
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdReorderRefPicList(
+  dpbStorage_t *dpb,
+  refPicListReordering_t *order,
+  u32 currFrameNum,
+  u32 numRefIdxActive)
+{
+
+/* Variables */
+
+    u32 i, j, k, picNumPred, refIdx;
+    i32 picNum, picNumNoWrap, index;
+    u32 isShortTerm;
+
+/* Code */
+
+    ASSERT(order);
+    ASSERT(currFrameNum <= dpb->maxFrameNum);
+    ASSERT(numRefIdxActive <= MAX_NUM_REF_IDX_L0_ACTIVE);
+
+    /* set dpb picture numbers for sorting */
+    SetPicNums(dpb, currFrameNum);
+
+    if (!order->refPicListReorderingFlagL0)
+        return(HANTRO_OK);
+
+    refIdx     = 0;
+    picNumPred = currFrameNum;
+
+    i = 0;
+    while (order->command[i].reorderingOfPicNumsIdc < 3)
+    {
+        /* short term */
+        if (order->command[i].reorderingOfPicNumsIdc < 2)
+        {
+            if (order->command[i].reorderingOfPicNumsIdc == 0)
+            {
+                picNumNoWrap =
+                    (i32)picNumPred - (i32)order->command[i].absDiffPicNum;
+                if (picNumNoWrap < 0)
+                    picNumNoWrap += (i32)dpb->maxFrameNum;
+            }
+            else
+            {
+                picNumNoWrap =
+                    (i32)(picNumPred + order->command[i].absDiffPicNum);
+                if (picNumNoWrap >= (i32)dpb->maxFrameNum)
+                    picNumNoWrap -= (i32)dpb->maxFrameNum;
+            }
+            picNumPred = (u32)picNumNoWrap;
+            picNum = picNumNoWrap;
+            if ((u32)picNumNoWrap > currFrameNum)
+                picNum -= (i32)dpb->maxFrameNum;
+            isShortTerm = HANTRO_TRUE;
+        }
+        /* long term */
+        else
+        {
+            picNum = (i32)order->command[i].longTermPicNum;
+            isShortTerm = HANTRO_FALSE;
+
+        }
+        /* find corresponding picture from dpb */
+        index = FindDpbPic(dpb, picNum, isShortTerm);
+        if (index < 0 || !IS_EXISTING(dpb->buffer[index]))
+            return(HANTRO_NOK);
+
+        /* shift pictures */
+        for (j = numRefIdxActive; j > refIdx; j--)
+            dpb->list[j] = dpb->list[j-1];
+        /* put picture into the list */
+        dpb->list[refIdx++] = &dpb->buffer[index];
+        /* remove later references to the same picture */
+        for (j = k = refIdx; j <= numRefIdxActive; j++)
+            if(dpb->list[j] != &dpb->buffer[index])
+                dpb->list[k++] = dpb->list[j];
+
+        i++;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Mmcop1
+
+        Functional description:
+            Function to mark a short-term reference picture unused for
+            reference, memory_management_control_operation equal to 1
+
+        Returns:
+            HANTRO_OK      success
+            HANTRO_NOK     failure, picture does not exist in the buffer
+
+------------------------------------------------------------------------------*/
+
+static u32 Mmcop1(dpbStorage_t *dpb, u32 currPicNum, u32 differenceOfPicNums)
+{
+
+/* Variables */
+
+    i32 index, picNum;
+
+/* Code */
+
+    ASSERT(currPicNum < dpb->maxFrameNum);
+
+    picNum = (i32)currPicNum - (i32)differenceOfPicNums;
+
+    index = FindDpbPic(dpb, picNum, HANTRO_TRUE);
+    if (index < 0)
+        return(HANTRO_NOK);
+
+    SET_UNUSED(dpb->buffer[index]);
+    dpb->numRefFrames--;
+    if (!dpb->buffer[index].toBeDisplayed)
+        dpb->fullness--;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Mmcop2
+
+        Functional description:
+            Function to mark a long-term reference picture unused for
+            reference, memory_management_control_operation equal to 2
+
+        Returns:
+            HANTRO_OK      success
+            HANTRO_NOK     failure, picture does not exist in the buffer
+
+------------------------------------------------------------------------------*/
+
+static u32 Mmcop2(dpbStorage_t *dpb, u32 longTermPicNum)
+{
+
+/* Variables */
+
+    i32 index;
+
+/* Code */
+
+    index = FindDpbPic(dpb, (i32)longTermPicNum, HANTRO_FALSE);
+    if (index < 0)
+        return(HANTRO_NOK);
+
+    SET_UNUSED(dpb->buffer[index]);
+    dpb->numRefFrames--;
+    if (!dpb->buffer[index].toBeDisplayed)
+        dpb->fullness--;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Mmcop3
+
+        Functional description:
+            Function to assing a longTermFrameIdx to a short-term reference
+            frame (i.e. to change it to a long-term reference picture),
+            memory_management_control_operation equal to 3
+
+        Returns:
+            HANTRO_OK      success
+            HANTRO_NOK     failure, short-term picture does not exist in the
+                           buffer or is a non-existing picture, or invalid
+                           longTermFrameIdx given
+
+------------------------------------------------------------------------------*/
+
+static u32 Mmcop3(dpbStorage_t *dpb, u32 currPicNum, u32 differenceOfPicNums,
+    u32 longTermFrameIdx)
+{
+
+/* Variables */
+
+    i32 index, picNum;
+    u32 i;
+
+/* Code */
+
+    ASSERT(dpb);
+    ASSERT(currPicNum < dpb->maxFrameNum);
+
+    if ( (dpb->maxLongTermFrameIdx == NO_LONG_TERM_FRAME_INDICES) ||
+         (longTermFrameIdx > dpb->maxLongTermFrameIdx) )
+        return(HANTRO_NOK);
+
+    /* check if a long term picture with the same longTermFrameIdx already
+     * exist and remove it if necessary */
+    for (i = 0; i < dpb->maxRefFrames; i++)
+        if (IS_LONG_TERM(dpb->buffer[i]) &&
+          (u32)dpb->buffer[i].picNum == longTermFrameIdx)
+        {
+            SET_UNUSED(dpb->buffer[i]);
+            dpb->numRefFrames--;
+            if (!dpb->buffer[i].toBeDisplayed)
+                dpb->fullness--;
+            break;
+        }
+
+    picNum = (i32)currPicNum - (i32)differenceOfPicNums;
+
+    index = FindDpbPic(dpb, picNum, HANTRO_TRUE);
+    if (index < 0)
+        return(HANTRO_NOK);
+    if (!IS_EXISTING(dpb->buffer[index]))
+        return(HANTRO_NOK);
+
+    dpb->buffer[index].status = LONG_TERM;
+    dpb->buffer[index].picNum = (i32)longTermFrameIdx;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Mmcop4
+
+        Functional description:
+            Function to set maxLongTermFrameIdx,
+            memory_management_control_operation equal to 4
+
+        Returns:
+            HANTRO_OK      success
+
+------------------------------------------------------------------------------*/
+
+static u32 Mmcop4(dpbStorage_t *dpb, u32 maxLongTermFrameIdx)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    dpb->maxLongTermFrameIdx = maxLongTermFrameIdx;
+
+    for (i = 0; i < dpb->maxRefFrames; i++)
+        if (IS_LONG_TERM(dpb->buffer[i]) &&
+          ( ((u32)dpb->buffer[i].picNum > maxLongTermFrameIdx) ||
+            (dpb->maxLongTermFrameIdx == NO_LONG_TERM_FRAME_INDICES) ) )
+        {
+            SET_UNUSED(dpb->buffer[i]);
+            dpb->numRefFrames--;
+            if (!dpb->buffer[i].toBeDisplayed)
+                dpb->fullness--;
+        }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Mmcop5
+
+        Functional description:
+            Function to mark all reference pictures unused for reference and
+            set maxLongTermFrameIdx to NO_LONG_TERM_FRAME_INDICES,
+            memory_management_control_operation equal to 5. Function flushes
+            the buffer and places all pictures that are needed for display into
+            the output buffer.
+
+        Returns:
+            HANTRO_OK      success
+
+------------------------------------------------------------------------------*/
+
+static u32 Mmcop5(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    for (i = 0; i < 16; i++)
+    {
+        if (IS_REFERENCE(dpb->buffer[i]))
+        {
+            SET_UNUSED(dpb->buffer[i]);
+            if (!dpb->buffer[i].toBeDisplayed)
+                dpb->fullness--;
+        }
+    }
+
+    /* output all pictures */
+    while (OutputPicture(dpb) == HANTRO_OK)
+        ;
+    dpb->numRefFrames = 0;
+    dpb->maxLongTermFrameIdx = NO_LONG_TERM_FRAME_INDICES;
+    dpb->prevRefFrameNum = 0;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Mmcop6
+
+        Functional description:
+            Function to assign longTermFrameIdx to the current picture,
+            memory_management_control_operation equal to 6
+
+        Returns:
+            HANTRO_OK      success
+            HANTRO_NOK     invalid longTermFrameIdx or no room for current
+                           picture in the buffer
+
+------------------------------------------------------------------------------*/
+
+static u32 Mmcop6(dpbStorage_t *dpb, u32 frameNum, i32 picOrderCnt,
+    u32 longTermFrameIdx)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(frameNum < dpb->maxFrameNum);
+
+    if ( (dpb->maxLongTermFrameIdx == NO_LONG_TERM_FRAME_INDICES) ||
+         (longTermFrameIdx > dpb->maxLongTermFrameIdx) )
+        return(HANTRO_NOK);
+
+    /* check if a long term picture with the same longTermFrameIdx already
+     * exist and remove it if necessary */
+    for (i = 0; i < dpb->maxRefFrames; i++)
+        if (IS_LONG_TERM(dpb->buffer[i]) &&
+          (u32)dpb->buffer[i].picNum == longTermFrameIdx)
+        {
+            SET_UNUSED(dpb->buffer[i]);
+            dpb->numRefFrames--;
+            if (!dpb->buffer[i].toBeDisplayed)
+                dpb->fullness--;
+            break;
+        }
+
+    if (dpb->numRefFrames < dpb->maxRefFrames)
+    {
+        dpb->currentOut->frameNum = frameNum;
+        dpb->currentOut->picNum   = (i32)longTermFrameIdx;
+        dpb->currentOut->picOrderCnt = picOrderCnt;
+        dpb->currentOut->status   = LONG_TERM;
+        if (dpb->noReordering)
+            dpb->currentOut->toBeDisplayed = HANTRO_FALSE;
+        else
+            dpb->currentOut->toBeDisplayed = HANTRO_TRUE;
+        dpb->numRefFrames++;
+        dpb->fullness++;
+        return(HANTRO_OK);
+    }
+    /* if there is no room, return an error */
+    else
+        return(HANTRO_NOK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdMarkDecRefPic
+
+        Functional description:
+            Function to perform reference picture marking process. This
+            function should be called both for reference and non-reference
+            pictures.  Non-reference pictures shall have mark pointer set to
+            NULL.
+
+        Inputs:
+            dpb         pointer to the DPB data structure
+            mark        pointer to reference picture marking commands
+            image       pointer to current picture to be placed in the buffer
+            frameNum    frame number of the current picture
+            picOrderCnt picture order count for the current picture
+            isIdr       flag to indicate if the current picture is an
+                        IDR picture
+            currentPicId    identifier for the current picture, from the
+                            application, stored along with the picture
+            numErrMbs       number of concealed macroblocks in the current
+                            picture, stored along with the picture
+
+        Outputs:
+            dpb         'buffer' modified, possible output frames placed into
+                        'outBuf'
+
+        Returns:
+            HANTRO_OK   success
+            HANTRO_NOK  failure
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdMarkDecRefPic(
+  dpbStorage_t *dpb,
+  decRefPicMarking_t *mark,
+  image_t *image,
+  u32 frameNum,
+  i32 picOrderCnt,
+  u32 isIdr,
+  u32 currentPicId,
+  u32 numErrMbs)
+{
+
+/* Variables */
+
+    u32 i, status;
+    u32 markedAsLongTerm;
+    u32 toBeDisplayed;
+
+/* Code */
+
+    ASSERT(dpb);
+    ASSERT(mark || !isIdr);
+    ASSERT(!isIdr || (frameNum == 0 && picOrderCnt == 0));
+    ASSERT(frameNum < dpb->maxFrameNum);
+
+    if (image->data != dpb->currentOut->data)
+    {
+        EPRINT("TRYING TO MARK NON-ALLOCATED IMAGE");
+        return(HANTRO_NOK);
+    }
+
+    dpb->lastContainsMmco5 = HANTRO_FALSE;
+    status = HANTRO_OK;
+
+    toBeDisplayed = dpb->noReordering ? HANTRO_FALSE : HANTRO_TRUE;
+
+    /* non-reference picture, stored for display reordering purposes */
+    if (mark == NULL)
+    {
+        dpb->currentOut->status = UNUSED;
+        dpb->currentOut->frameNum = frameNum;
+        dpb->currentOut->picNum = (i32)frameNum;
+        dpb->currentOut->picOrderCnt = picOrderCnt;
+        dpb->currentOut->toBeDisplayed = toBeDisplayed;
+        if (!dpb->noReordering)
+            dpb->fullness++;
+    }
+    /* IDR picture */
+    else if (isIdr)
+    {
+
+        /* h264bsdCheckGapsInFrameNum not called for IDR pictures -> have to
+         * reset numOut and outIndex here */
+        dpb->numOut = dpb->outIndex = 0;
+
+        /* flush the buffer */
+        Mmcop5(dpb);
+        /* if noOutputOfPriorPicsFlag was set -> the pictures preceding the
+         * IDR picture shall not be output -> set output buffer empty */
+        if (mark->noOutputOfPriorPicsFlag || dpb->noReordering)
+        {
+            dpb->numOut = 0;
+            dpb->outIndex = 0;
+        }
+
+        if (mark->longTermReferenceFlag)
+        {
+            dpb->currentOut->status = LONG_TERM;
+            dpb->maxLongTermFrameIdx = 0;
+        }
+        else
+        {
+            dpb->currentOut->status = SHORT_TERM;
+            dpb->maxLongTermFrameIdx = NO_LONG_TERM_FRAME_INDICES;
+        }
+        dpb->currentOut->frameNum  = 0;
+        dpb->currentOut->picNum    = 0;
+        dpb->currentOut->picOrderCnt = 0;
+        dpb->currentOut->toBeDisplayed = toBeDisplayed;
+        dpb->fullness = 1;
+        dpb->numRefFrames = 1;
+    }
+    /* reference picture */
+    else
+    {
+        markedAsLongTerm = HANTRO_FALSE;
+        if (mark->adaptiveRefPicMarkingModeFlag)
+        {
+            i = 0;
+            while (mark->operation[i].memoryManagementControlOperation)
+            {
+                switch (mark->operation[i].memoryManagementControlOperation)
+                {
+                    case 1:
+                        status = Mmcop1(
+                          dpb,
+                          frameNum,
+                          mark->operation[i].differenceOfPicNums);
+                        break;
+
+                    case 2:
+                        status = Mmcop2(dpb, mark->operation[i].longTermPicNum);
+                        break;
+
+                    case 3:
+                        status =  Mmcop3(
+                          dpb,
+                          frameNum,
+                          mark->operation[i].differenceOfPicNums,
+                          mark->operation[i].longTermFrameIdx);
+                        break;
+
+                    case 4:
+                        status = Mmcop4(
+                          dpb,
+                          mark->operation[i].maxLongTermFrameIdx);
+                        break;
+
+                    case 5:
+                        status = Mmcop5(dpb);
+                        dpb->lastContainsMmco5 = HANTRO_TRUE;
+                        frameNum = 0;
+                        break;
+
+                    case 6:
+                        status = Mmcop6(
+                          dpb,
+                          frameNum,
+                          picOrderCnt,
+                          mark->operation[i].longTermFrameIdx);
+                        if (status == HANTRO_OK)
+                            markedAsLongTerm = HANTRO_TRUE;
+                        break;
+
+                    default: /* invalid memory management control operation */
+                        status = HANTRO_NOK;
+                        break;
+                }
+                if (status != HANTRO_OK)
+                {
+                    break;
+                }
+                i++;
+            }
+        }
+        else
+        {
+            status = SlidingWindowRefPicMarking(dpb);
+        }
+        /* if current picture was not marked as long-term reference by
+         * memory management control operation 6 -> mark current as short
+         * term and insert it into dpb (if there is room) */
+        if (!markedAsLongTerm)
+        {
+            if (dpb->numRefFrames < dpb->maxRefFrames)
+            {
+                dpb->currentOut->frameNum = frameNum;
+                dpb->currentOut->picNum   = (i32)frameNum;
+                dpb->currentOut->picOrderCnt = picOrderCnt;
+                dpb->currentOut->status   = SHORT_TERM;
+                dpb->currentOut->toBeDisplayed = toBeDisplayed;
+                dpb->fullness++;
+                dpb->numRefFrames++;
+            }
+            /* no room */
+            else
+            {
+                status = HANTRO_NOK;
+            }
+        }
+    }
+
+    dpb->currentOut->isIdr = isIdr;
+    dpb->currentOut->picId = currentPicId;
+    dpb->currentOut->numErrMbs = numErrMbs;
+
+    /* dpb was initialized to not to reorder the pictures -> output current
+     * picture immediately */
+    if (dpb->noReordering)
+    {
+        ASSERT(dpb->numOut == 0);
+        ASSERT(dpb->outIndex == 0);
+        dpb->outBuf[dpb->numOut].data  = dpb->currentOut->data;
+        dpb->outBuf[dpb->numOut].isIdr = dpb->currentOut->isIdr;
+        dpb->outBuf[dpb->numOut].picId = dpb->currentOut->picId;
+        dpb->outBuf[dpb->numOut].numErrMbs = dpb->currentOut->numErrMbs;
+        dpb->numOut++;
+    }
+    else
+    {
+        /* output pictures if buffer full */
+        while (dpb->fullness > dpb->dpbSize)
+        {
+            i = OutputPicture(dpb);
+            ASSERT(i == HANTRO_OK);
+        }
+    }
+
+    /* sort dpb */
+    ShellSort(dpb->buffer, dpb->dpbSize+1);
+
+    return(status);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdGetRefPicData
+
+        Functional description:
+            Function to get reference picture data from the reference picture
+            list
+
+        Returns:
+            pointer to desired reference picture data
+            NULL if invalid index or non-existing picture referred
+
+------------------------------------------------------------------------------*/
+
+u8* h264bsdGetRefPicData(dpbStorage_t *dpb, u32 index)
+{
+
+/* Variables */
+
+/* Code */
+
+    if(index > 16 || dpb->list[index] == NULL)
+        return(NULL);
+    else if(!IS_EXISTING(*dpb->list[index]))
+        return(NULL);
+    else
+        return(dpb->list[index]->data);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdAllocateDpbImage
+
+        Functional description:
+            function to allocate memory for a image. This function does not
+            really allocate any memory but reserves one of the buffer
+            positions for decoding of current picture
+
+        Returns:
+            pointer to memory area for the image
+
+
+------------------------------------------------------------------------------*/
+
+u8* h264bsdAllocateDpbImage(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT( !dpb->buffer[dpb->dpbSize].toBeDisplayed &&
+            !IS_REFERENCE(dpb->buffer[dpb->dpbSize]) );
+    ASSERT(dpb->fullness <=  dpb->dpbSize);
+
+    dpb->currentOut = dpb->buffer + dpb->dpbSize;
+
+    return(dpb->currentOut->data);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: SlidingWindowRefPicMarking
+
+        Functional description:
+            Function to perform sliding window refence picture marking process.
+
+        Outputs:
+            HANTRO_OK      success
+            HANTRO_NOK     failure, no short-term reference frame found that
+                           could be marked unused
+
+
+------------------------------------------------------------------------------*/
+
+static u32 SlidingWindowRefPicMarking(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    i32 index, picNum;
+    u32 i;
+
+/* Code */
+
+    if (dpb->numRefFrames < dpb->maxRefFrames)
+    {
+        return(HANTRO_OK);
+    }
+    else
+    {
+        index = -1;
+        picNum = 0;
+        /* find the oldest short term picture */
+        for (i = 0; i < dpb->numRefFrames; i++)
+            if (IS_SHORT_TERM(dpb->buffer[i]))
+                if (dpb->buffer[i].picNum < picNum || index == -1)
+                {
+                    index = (i32)i;
+                    picNum = dpb->buffer[i].picNum;
+                }
+        if (index >= 0)
+        {
+            SET_UNUSED(dpb->buffer[index]);
+            dpb->numRefFrames--;
+            if (!dpb->buffer[index].toBeDisplayed)
+                dpb->fullness--;
+
+            return(HANTRO_OK);
+        }
+    }
+
+    return(HANTRO_NOK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInitDpb
+
+        Functional description:
+            Function to initialize DPB. Reserves memories for the buffer,
+            reference picture list and output buffer. dpbSize indicates
+            the maximum DPB size indicated by the levelIdc in the stream.
+            If noReordering flag is FALSE the DPB stores dpbSize pictures
+            for display reordering purposes. On the other hand, if the
+            flag is TRUE the DPB only stores maxRefFrames reference pictures
+            and outputs all the pictures immediately.
+
+        Inputs:
+            picSizeInMbs    picture size in macroblocks
+            dpbSize         size of the DPB (number of pictures)
+            maxRefFrames    max number of reference frames
+            maxFrameNum     max frame number
+            noReordering    flag to indicate that DPB does not have to
+                            prepare to reorder frames for display
+
+        Outputs:
+            dpb             pointer to dpb data storage
+
+        Returns:
+            HANTRO_OK       success
+            MEMORY_ALLOCATION_ERROR if memory allocation failed
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdInitDpb(
+  dpbStorage_t *dpb,
+  u32 picSizeInMbs,
+  u32 dpbSize,
+  u32 maxRefFrames,
+  u32 maxFrameNum,
+  u32 noReordering)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(picSizeInMbs);
+    ASSERT(maxRefFrames <= MAX_NUM_REF_PICS);
+    ASSERT(maxRefFrames <= dpbSize);
+    ASSERT(maxFrameNum);
+    ASSERT(dpbSize);
+
+    dpb->maxLongTermFrameIdx = NO_LONG_TERM_FRAME_INDICES;
+    dpb->maxRefFrames        = MAX(maxRefFrames, 1);
+    if (noReordering)
+        dpb->dpbSize         = dpb->maxRefFrames;
+    else
+        dpb->dpbSize         = dpbSize;
+    dpb->maxFrameNum         = maxFrameNum;
+    dpb->noReordering        = noReordering;
+    dpb->fullness            = 0;
+    dpb->numRefFrames        = 0;
+    dpb->prevRefFrameNum     = 0;
+
+    ALLOCATE(dpb->buffer, MAX_NUM_REF_IDX_L0_ACTIVE + 1, dpbPicture_t);
+    if (dpb->buffer == NULL)
+        return(MEMORY_ALLOCATION_ERROR);
+    memset(dpb->buffer, 0,
+            (MAX_NUM_REF_IDX_L0_ACTIVE + 1)*sizeof(dpbPicture_t));
+    for (i = 0; i < dpb->dpbSize + 1; i++)
+    {
+        /* Allocate needed amount of memory, which is:
+         * image size + 32 + 15, where 32 cames from the fact that in ARM OpenMax
+         * DL implementation Functions may read beyond the end of an array,
+         * by a maximum of 32 bytes. And +15 cames for the need to align memory
+         * to 16-byte boundary */
+        ALLOCATE(dpb->buffer[i].pAllocatedData, (picSizeInMbs*384 + 32+15), u8);
+        if (dpb->buffer[i].pAllocatedData == NULL)
+            return(MEMORY_ALLOCATION_ERROR);
+
+        dpb->buffer[i].data = ALIGN(dpb->buffer[i].pAllocatedData, 16);
+    }
+
+    ALLOCATE(dpb->list, MAX_NUM_REF_IDX_L0_ACTIVE + 1, dpbPicture_t*);
+    ALLOCATE(dpb->outBuf, dpb->dpbSize+1, dpbOutPicture_t);
+
+    if (dpb->list == NULL || dpb->outBuf == NULL)
+        return(MEMORY_ALLOCATION_ERROR);
+
+    memset(dpb->list, 0,
+            ((MAX_NUM_REF_IDX_L0_ACTIVE + 1) * sizeof(dpbPicture_t*)) );
+
+    dpb->numOut = dpb->outIndex = 0;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdResetDpb
+
+        Functional description:
+            Function to reset DPB. This function should be called when an IDR
+            slice (other than the first) activates new sequence parameter set.
+            Function calls h264bsdFreeDpb to free old allocated memories and
+            h264bsdInitDpb to re-initialize the DPB. Same inputs, outputs and
+            returns as for h264bsdInitDpb.
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdResetDpb(
+  dpbStorage_t *dpb,
+  u32 picSizeInMbs,
+  u32 dpbSize,
+  u32 maxRefFrames,
+  u32 maxFrameNum,
+  u32 noReordering)
+{
+
+/* Code */
+
+    ASSERT(picSizeInMbs);
+    ASSERT(maxRefFrames <= MAX_NUM_REF_PICS);
+    ASSERT(maxRefFrames <= dpbSize);
+    ASSERT(maxFrameNum);
+    ASSERT(dpbSize);
+
+    h264bsdFreeDpb(dpb);
+
+    return h264bsdInitDpb(dpb, picSizeInMbs, dpbSize, maxRefFrames,
+                          maxFrameNum, noReordering);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInitRefPicList
+
+        Functional description:
+            Function to initialize reference picture list. Function just
+            sets pointers in the list according to pictures in the buffer.
+            The buffer is assumed to contain pictures sorted according to
+            what the H.264 standard says about initial reference picture list.
+
+        Inputs:
+            dpb     pointer to dpb data structure
+
+        Outputs:
+            dpb     'list' field initialized
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInitRefPicList(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    for (i = 0; i < dpb->numRefFrames; i++)
+        dpb->list[i] = &dpb->buffer[i];
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FindDpbPic
+
+        Functional description:
+            Function to find a reference picture from the buffer. The picture
+            to be found is identified by picNum and isShortTerm flag.
+
+        Returns:
+            index of the picture in the buffer
+            -1 if the specified picture was not found in the buffer
+
+------------------------------------------------------------------------------*/
+
+static i32 FindDpbPic(dpbStorage_t *dpb, i32 picNum, u32 isShortTerm)
+{
+
+/* Variables */
+
+    u32 i = 0;
+    u32 found = HANTRO_FALSE;
+
+/* Code */
+
+    if (isShortTerm)
+    {
+        while (i < dpb->maxRefFrames && !found)
+        {
+            if (IS_SHORT_TERM(dpb->buffer[i]) &&
+              dpb->buffer[i].picNum == picNum)
+                found = HANTRO_TRUE;
+            else
+                i++;
+        }
+    }
+    else
+    {
+        ASSERT(picNum >= 0);
+        while (i < dpb->maxRefFrames && !found)
+        {
+            if (IS_LONG_TERM(dpb->buffer[i]) &&
+              dpb->buffer[i].picNum == picNum)
+                found = HANTRO_TRUE;
+            else
+                i++;
+        }
+    }
+
+    if (found)
+        return((i32)i);
+    else
+        return(-1);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: SetPicNums
+
+        Functional description:
+            Function to set picNum values for short-term pictures in the
+            buffer. Numbering of pictures is based on frame numbers and as
+            frame numbers are modulo maxFrameNum -> frame numbers of older
+            pictures in the buffer may be bigger than the currFrameNum.
+            picNums will be set so that current frame has the largest picNum
+            and all the short-term frames in the buffer will get smaller picNum
+            representing their "distance" from the current frame. This
+            function kind of maps the modulo arithmetic back to normal.
+
+------------------------------------------------------------------------------*/
+
+static void SetPicNums(dpbStorage_t *dpb, u32 currFrameNum)
+{
+
+/* Variables */
+
+    u32 i;
+    i32 frameNumWrap;
+
+/* Code */
+
+    ASSERT(dpb);
+    ASSERT(currFrameNum < dpb->maxFrameNum);
+
+    for (i = 0; i < dpb->numRefFrames; i++)
+        if (IS_SHORT_TERM(dpb->buffer[i]))
+        {
+            if (dpb->buffer[i].frameNum > currFrameNum)
+                frameNumWrap =
+                    (i32)dpb->buffer[i].frameNum - (i32)dpb->maxFrameNum;
+            else
+                frameNumWrap = (i32)dpb->buffer[i].frameNum;
+            dpb->buffer[i].picNum = frameNumWrap;
+        }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckGapsInFrameNum
+
+        Functional description:
+            Function to check gaps in frame_num and generate non-existing
+            (short term) reference pictures if necessary. This function should
+            be called only for non-IDR pictures.
+
+        Inputs:
+            dpb         pointer to dpb data structure
+            frameNum    frame number of the current picture
+            isRefPic    flag to indicate if current picture is a reference or
+                        non-reference picture
+            gapsAllowed Flag which indicates active SPS stance on whether
+                        to allow gaps
+
+        Outputs:
+            dpb         'buffer' possibly modified by inserting non-existing
+                        pictures with sliding window marking process
+
+        Returns:
+            HANTRO_OK   success
+            HANTRO_NOK  error in sliding window reference picture marking or
+                        frameNum equal to previous reference frame used for
+                        a reference picture
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckGapsInFrameNum(dpbStorage_t *dpb, u32 frameNum, u32 isRefPic,
+                               u32 gapsAllowed)
+{
+
+/* Variables */
+
+    u32 unUsedShortTermFrameNum;
+    u8 *tmp;
+
+/* Code */
+
+    ASSERT(dpb);
+    ASSERT(dpb->fullness <= dpb->dpbSize);
+    ASSERT(frameNum < dpb->maxFrameNum);
+
+    dpb->numOut = 0;
+    dpb->outIndex = 0;
+
+    if(!gapsAllowed)
+        return(HANTRO_OK);
+
+    if ( (frameNum != dpb->prevRefFrameNum) &&
+         (frameNum != ((dpb->prevRefFrameNum + 1) % dpb->maxFrameNum)))
+    {
+
+        unUsedShortTermFrameNum = (dpb->prevRefFrameNum + 1) % dpb->maxFrameNum;
+
+        /* store data pointer of last buffer position to be used as next
+         * "allocated" data pointer if last buffer position after this process
+         * contains data pointer located in outBuf (buffer placed in the output
+         * shall not be overwritten by the current picture) */
+        tmp = dpb->buffer[dpb->dpbSize].data;
+        do
+        {
+            SetPicNums(dpb, unUsedShortTermFrameNum);
+
+            if (SlidingWindowRefPicMarking(dpb) != HANTRO_OK)
+            {
+                return(HANTRO_NOK);
+            }
+
+            /* output pictures if buffer full */
+            while (dpb->fullness >= dpb->dpbSize)
+            {
+#ifdef _ASSERT_USED
+                ASSERT(!dpb->noReordering);
+                ASSERT(OutputPicture(dpb) == HANTRO_OK);
+#else
+                OutputPicture(dpb);
+#endif
+            }
+
+            /* add to end of list */
+            ASSERT( !dpb->buffer[dpb->dpbSize].toBeDisplayed &&
+                    !IS_REFERENCE(dpb->buffer[dpb->dpbSize]) );
+            dpb->buffer[dpb->dpbSize].status = NON_EXISTING;
+            dpb->buffer[dpb->dpbSize].frameNum = unUsedShortTermFrameNum;
+            dpb->buffer[dpb->dpbSize].picNum   = (i32)unUsedShortTermFrameNum;
+            dpb->buffer[dpb->dpbSize].picOrderCnt = 0;
+            dpb->buffer[dpb->dpbSize].toBeDisplayed = HANTRO_FALSE;
+            dpb->fullness++;
+            dpb->numRefFrames++;
+
+            /* sort the buffer */
+            ShellSort(dpb->buffer, dpb->dpbSize+1);
+
+            unUsedShortTermFrameNum = (unUsedShortTermFrameNum + 1) %
+                dpb->maxFrameNum;
+
+        } while (unUsedShortTermFrameNum != frameNum);
+
+        /* pictures placed in output buffer -> check that 'data' in
+         * buffer position dpbSize is not in the output buffer (this will be
+         * "allocated" by h264bsdAllocateDpbImage). If it is -> exchange data
+         * pointer with the one stored in the beginning */
+        if (dpb->numOut)
+        {
+            u32 i;
+
+            for (i = 0; i < dpb->numOut; i++)
+            {
+                if (dpb->outBuf[i].data == dpb->buffer[dpb->dpbSize].data)
+                {
+                    /* find buffer position containing data pointer stored in
+                     * tmp */
+                    for (i = 0; i < dpb->dpbSize; i++)
+                    {
+                        if (dpb->buffer[i].data == tmp)
+                        {
+                            dpb->buffer[i].data =
+                                dpb->buffer[dpb->dpbSize].data;
+                            dpb->buffer[dpb->dpbSize].data = tmp;
+                            break;
+                        }
+                    }
+                    ASSERT(i < dpb->dpbSize);
+                    break;
+                }
+            }
+        }
+    }
+    /* frameNum for reference pictures shall not be the same as for previous
+     * reference picture, otherwise accesses to pictures in the buffer cannot
+     * be solved unambiguously */
+    else if (isRefPic && frameNum == dpb->prevRefFrameNum)
+    {
+        return(HANTRO_NOK);
+    }
+
+    /* save current frame_num in prevRefFrameNum. For non-reference frame
+     * prevFrameNum is set to frame number of last non-existing frame above */
+    if (isRefPic)
+        dpb->prevRefFrameNum = frameNum;
+    else if (frameNum != dpb->prevRefFrameNum)
+    {
+        dpb->prevRefFrameNum =
+            (frameNum + dpb->maxFrameNum - 1) % dpb->maxFrameNum;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: FindSmallestPicOrderCnt
+
+        Functional description:
+            Function to find picture with smallest picture order count. This
+            will be the next picture in display order.
+
+        Returns:
+            pointer to the picture, NULL if no pictures to be displayed
+
+------------------------------------------------------------------------------*/
+
+dpbPicture_t* FindSmallestPicOrderCnt(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    u32 i;
+    i32 picOrderCnt;
+    dpbPicture_t *tmp;
+
+/* Code */
+
+    ASSERT(dpb);
+
+    picOrderCnt = 0x7FFFFFFF;
+    tmp = NULL;
+
+    for (i = 0; i <= dpb->dpbSize; i++)
+    {
+        if (dpb->buffer[i].toBeDisplayed &&
+            (dpb->buffer[i].picOrderCnt < picOrderCnt))
+        {
+            tmp = dpb->buffer + i;
+            picOrderCnt = dpb->buffer[i].picOrderCnt;
+        }
+    }
+
+    return(tmp);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: OutputPicture
+
+        Functional description:
+            Function to put next display order picture into the output buffer.
+
+        Returns:
+            HANTRO_OK      success
+            HANTRO_NOK     no pictures to display
+
+------------------------------------------------------------------------------*/
+
+u32 OutputPicture(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    dpbPicture_t *tmp;
+
+/* Code */
+
+    ASSERT(dpb);
+
+    if (dpb->noReordering)
+        return(HANTRO_NOK);
+
+    tmp = FindSmallestPicOrderCnt(dpb);
+
+    /* no pictures to be displayed */
+    if (tmp == NULL)
+        return(HANTRO_NOK);
+
+    dpb->outBuf[dpb->numOut].data  = tmp->data;
+    dpb->outBuf[dpb->numOut].isIdr = tmp->isIdr;
+    dpb->outBuf[dpb->numOut].picId = tmp->picId;
+    dpb->outBuf[dpb->numOut].numErrMbs = tmp->numErrMbs;
+    dpb->numOut++;
+
+    tmp->toBeDisplayed = HANTRO_FALSE;
+    if (!IS_REFERENCE(*tmp))
+    {
+        dpb->fullness--;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDpbOutputPicture
+
+        Functional description:
+            Function to get next display order picture from the output buffer.
+
+        Return:
+            pointer to output picture structure, NULL if no pictures to
+            display
+
+------------------------------------------------------------------------------*/
+
+dpbOutPicture_t* h264bsdDpbOutputPicture(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(dpb);
+
+    if (dpb->outIndex < dpb->numOut)
+        return(dpb->outBuf + dpb->outIndex++);
+    else
+        return(NULL);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFlushDpb
+
+        Functional description:
+            Function to flush the DPB. Function puts all pictures needed for
+            display into the output buffer. This function shall be called in
+            the end of the stream to obtain pictures buffered for display
+            re-ordering purposes.
+
+------------------------------------------------------------------------------*/
+
+void h264bsdFlushDpb(dpbStorage_t *dpb)
+{
+
+    /* don't do anything if buffer not reserved */
+    if (dpb->buffer)
+    {
+        dpb->flushed = 1;
+        /* output all pictures */
+        while (OutputPicture(dpb) == HANTRO_OK)
+            ;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFreeDpb
+
+        Functional description:
+            Function to free memories reserved for the DPB.
+
+------------------------------------------------------------------------------*/
+
+void h264bsdFreeDpb(dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(dpb);
+
+    if (dpb->buffer)
+    {
+        for (i = 0; i < dpb->dpbSize+1; i++)
+        {
+            FREE(dpb->buffer[i].pAllocatedData);
+        }
+    }
+    FREE(dpb->buffer);
+    FREE(dpb->list);
+    FREE(dpb->outBuf);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: ShellSort
+
+        Functional description:
+            Sort pictures in the buffer. Function implements Shell's method,
+            i.e. diminishing increment sort. See e.g. "Numerical Recipes in C"
+            for more information.
+
+------------------------------------------------------------------------------*/
+
+static void ShellSort(dpbPicture_t *pPic, u32 num)
+{
+
+    u32 i, j;
+    u32 step;
+    dpbPicture_t tmpPic;
+
+    step = 7;
+
+    while (step)
+    {
+        for (i = step; i < num; i++)
+        {
+            tmpPic = pPic[i];
+            j = i;
+            while (j >= step && ComparePictures(pPic + j - step, &tmpPic) > 0)
+            {
+                pPic[j] = pPic[j-step];
+                j -= step;
+            }
+            pPic[j] = tmpPic;
+        }
+        step >>= 1;
+    }
+
+}
+
--- /dev/null
+++ b/src/h264bsd_dpb.h
@@ -1,0 +1,150 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_DPB_H
+#define H264SWDEC_DPB_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_image.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/* enumeration to represent status of buffered image */
+typedef enum {
+    UNUSED = 0,
+    NON_EXISTING,
+    SHORT_TERM,
+    LONG_TERM
+} dpbPictureStatus_e;
+
+/* structure to represent a buffered picture */
+typedef struct {
+    u8 *data;           /* 16-byte aligned pointer of pAllocatedData */
+    u8 *pAllocatedData; /* allocated picture pointer; (size + 15) bytes */
+    i32 picNum;
+    u32 frameNum;
+    i32 picOrderCnt;
+    dpbPictureStatus_e status;
+    u32 toBeDisplayed;
+    u32 picId;
+    u32 numErrMbs;
+    u32 isIdr;
+} dpbPicture_t;
+
+/* structure to represent display image output from the buffer */
+typedef struct {
+    u8 *data;
+    u32 picId;
+    u32 numErrMbs;
+    u32 isIdr;
+} dpbOutPicture_t;
+
+/* structure to represent DPB */
+typedef struct {
+    dpbPicture_t *buffer;
+    dpbPicture_t **list;
+    dpbPicture_t *currentOut;
+    dpbOutPicture_t *outBuf;
+    u32 numOut;
+    u32 outIndex;
+    u32 maxRefFrames;
+    u32 dpbSize;
+    u32 maxFrameNum;
+    u32 maxLongTermFrameIdx;
+    u32 numRefFrames;
+    u32 fullness;
+    u32 prevRefFrameNum;
+    u32 lastContainsMmco5;
+    u32 noReordering;
+    u32 flushed;
+} dpbStorage_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdInitDpb(
+  dpbStorage_t *dpb,
+  u32 picSizeInMbs,
+  u32 dpbSize,
+  u32 numRefFrames,
+  u32 maxFrameNum,
+  u32 noReordering);
+
+u32 h264bsdResetDpb(
+  dpbStorage_t *dpb,
+  u32 picSizeInMbs,
+  u32 dpbSize,
+  u32 numRefFrames,
+  u32 maxFrameNum,
+  u32 noReordering);
+
+void h264bsdInitRefPicList(dpbStorage_t *dpb);
+
+u8* h264bsdAllocateDpbImage(dpbStorage_t *dpb);
+
+u8* h264bsdGetRefPicData(dpbStorage_t *dpb, u32 index);
+
+u32 h264bsdReorderRefPicList(
+  dpbStorage_t *dpb,
+  refPicListReordering_t *order,
+  u32 currFrameNum,
+  u32 numRefIdxActive);
+
+u32 h264bsdMarkDecRefPic(
+  dpbStorage_t *dpb,
+  decRefPicMarking_t *mark,
+  image_t *image,
+  u32 frameNum,
+  i32 picOrderCnt,
+  u32 isIdr,
+  u32 picId,
+  u32 numErrMbs);
+
+u32 h264bsdCheckGapsInFrameNum(dpbStorage_t *dpb, u32 frameNum, u32 isRefPic,
+                               u32 gapsAllowed);
+
+dpbOutPicture_t* h264bsdDpbOutputPicture(dpbStorage_t *dpb);
+
+void h264bsdFlushDpb(dpbStorage_t *dpb);
+
+void h264bsdFreeDpb(dpbStorage_t *dpb);
+
+#endif /* #ifdef H264SWDEC_DPB_H */
+
--- /dev/null
+++ b/src/h264bsd_image.c
@@ -1,0 +1,346 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdWriteMacroblock
+          h264bsdWriteOutputBlocks
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_image.h"
+#include "h264bsd_util.h"
+#include "h264bsd_neighbour.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* x- and y-coordinates for each block, defined in h264bsd_intra_prediction.c */
+extern const u32 h264bsdBlockX[];
+extern const u32 h264bsdBlockY[];
+
+/* clipping table, defined in h264bsd_intra_prediction.c */
+extern const u8 h264bsdClip[];
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdWriteMacroblock
+
+        Functional description:
+            Write one macroblock into the image. Both luma and chroma
+            components will be written at the same time.
+
+        Inputs:
+            data    pointer to macroblock data to be written, 256 values for
+                    luma followed by 64 values for both chroma components
+
+        Outputs:
+            image   pointer to the image where the macroblock will be written
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_NEON
+void h264bsdWriteMacroblock(image_t *image, u8 *data)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 width;
+    u32 *lum, *cb, *cr;
+    u32 *ptr;
+    u32 tmp1, tmp2;
+
+/* Code */
+
+    ASSERT(image);
+    ASSERT(data);
+    ASSERT(!((u32)data&0x3));
+
+    width = image->width;
+
+    /*lint -save -e826 lum, cb and cr used to copy 4 bytes at the time, disable
+     * "area too small" info message */
+    lum = (u32*)image->luma;
+    cb = (u32*)image->cb;
+    cr = (u32*)image->cr;
+    ASSERT(!((u32)lum&0x3));
+    ASSERT(!((u32)cb&0x3));
+    ASSERT(!((u32)cr&0x3));
+
+    ptr = (u32*)data;
+
+    width *= 4;
+    for (i = 16; i ; i--)
+    {
+        tmp1 = *ptr++;
+        tmp2 = *ptr++;
+        *lum++ = tmp1;
+        *lum++ = tmp2;
+        tmp1 = *ptr++;
+        tmp2 = *ptr++;
+        *lum++ = tmp1;
+        *lum++ = tmp2;
+        lum += width-4;
+    }
+
+    width >>= 1;
+    for (i = 8; i ; i--)
+    {
+        tmp1 = *ptr++;
+        tmp2 = *ptr++;
+        *cb++ = tmp1;
+        *cb++ = tmp2;
+        cb += width-2;
+    }
+
+    for (i = 8; i ; i--)
+    {
+        tmp1 = *ptr++;
+        tmp2 = *ptr++;
+        *cr++ = tmp1;
+        *cr++ = tmp2;
+        cr += width-2;
+    }
+
+}
+#endif
+#ifndef H264DEC_OMXDL
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdWriteOutputBlocks
+
+        Functional description:
+            Write one macroblock into the image. Prediction for the macroblock
+            and the residual are given separately and will be combined while
+            writing the data to the image
+
+        Inputs:
+            data        pointer to macroblock prediction data, 256 values for
+                        luma followed by 64 values for both chroma components
+            mbNum       number of the macroblock
+            residual    pointer to residual data, 16 16-element arrays for luma
+                        followed by 4 16-element arrays for both chroma
+                        components
+
+        Outputs:
+            image       pointer to the image where the data will be written
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdWriteOutputBlocks(image_t *image, u32 mbNum, u8 *data,
+        i32 residual[][16])
+{
+
+/* Variables */
+
+    u32 i;
+    u32 picWidth, picSize;
+    u8 *lum, *cb, *cr;
+    u8 *imageBlock;
+    u8 *tmp;
+    u32 row, col;
+    u32 block;
+    u32 x, y;
+    i32 *pRes;
+    i32 tmp1, tmp2, tmp3, tmp4;
+    const u8 *clp = h264bsdClip + 512;
+
+/* Code */
+
+    ASSERT(image);
+    ASSERT(data);
+    ASSERT(mbNum < image->width * image->height);
+    ASSERT(!((u32)data&0x3));
+
+    /* Image size in macroblocks */
+    picWidth = image->width;
+    picSize = picWidth * image->height;
+    row = mbNum / picWidth;
+    col = mbNum % picWidth;
+
+    /* Output macroblock position in output picture */
+    lum = (image->data + row * picWidth * 256 + col * 16);
+    cb = (image->data + picSize * 256 + row * picWidth * 64 + col * 8);
+    cr = (cb + picSize * 64);
+
+    picWidth *= 16;
+
+    for (block = 0; block < 16; block++)
+    {
+        x = h264bsdBlockX[block];
+        y = h264bsdBlockY[block];
+
+        pRes = residual[block];
+
+        ASSERT(pRes);
+
+        tmp = data + y*16 + x;
+        imageBlock = lum + y*picWidth + x;
+
+        ASSERT(!((u32)tmp&0x3));
+        ASSERT(!((u32)imageBlock&0x3));
+
+        if (IS_RESIDUAL_EMPTY(pRes))
+        {
+            /*lint -e826 */
+            i32 *in32 = (i32*)tmp;
+            i32 *out32 = (i32*)imageBlock;
+
+            /* Residual is zero => copy prediction block to output */
+            tmp1 = *in32;  in32 += 4;
+            tmp2 = *in32;  in32 += 4;
+            *out32 = tmp1; out32 += picWidth/4;
+            *out32 = tmp2; out32 += picWidth/4;
+            tmp1 = *in32;  in32 += 4;
+            tmp2 = *in32;
+            *out32 = tmp1; out32 += picWidth/4;
+            *out32 = tmp2;
+        }
+        else
+        {
+
+            RANGE_CHECK_ARRAY(pRes, -512, 511, 16);
+
+            /* Calculate image = prediction + residual
+             * Process four pixels in a loop */
+            for (i = 4; i; i--)
+            {
+                tmp1 = tmp[0];
+                tmp2 = *pRes++;
+                tmp3 = tmp[1];
+                tmp1 = clp[tmp1 + tmp2];
+                tmp4 = *pRes++;
+                imageBlock[0] = (u8)tmp1;
+                tmp3 = clp[tmp3 + tmp4];
+                tmp1 = tmp[2];
+                tmp2 = *pRes++;
+                imageBlock[1] = (u8)tmp3;
+                tmp1 = clp[tmp1 + tmp2];
+                tmp3 = tmp[3];
+                tmp4 = *pRes++;
+                imageBlock[2] = (u8)tmp1;
+                tmp3 = clp[tmp3 + tmp4];
+                tmp += 16;
+                imageBlock[3] = (u8)tmp3;
+                imageBlock += picWidth;
+            }
+        }
+
+    }
+
+    picWidth /= 2;
+
+    for (block = 16; block <= 23; block++)
+    {
+        x = h264bsdBlockX[block & 0x3];
+        y = h264bsdBlockY[block & 0x3];
+
+        pRes = residual[block];
+
+        ASSERT(pRes);
+
+        tmp = data + 256;
+        imageBlock = cb;
+
+        if (block >= 20)
+        {
+            imageBlock = cr;
+            tmp += 64;
+        }
+
+        tmp += y*8 + x;
+        imageBlock += y*picWidth + x;
+
+        ASSERT(!((u32)tmp&0x3));
+        ASSERT(!((u32)imageBlock&0x3));
+
+        if (IS_RESIDUAL_EMPTY(pRes))
+        {
+            /*lint -e826 */
+            i32 *in32 = (i32*)tmp;
+            i32 *out32 = (i32*)imageBlock;
+
+            /* Residual is zero => copy prediction block to output */
+            tmp1 = *in32;  in32 += 2;
+            tmp2 = *in32;  in32 += 2;
+            *out32 = tmp1; out32 += picWidth/4;
+            *out32 = tmp2; out32 += picWidth/4;
+            tmp1 = *in32;  in32 += 2;
+            tmp2 = *in32;
+            *out32 = tmp1; out32 += picWidth/4;
+            *out32 = tmp2;
+        }
+        else
+        {
+
+            RANGE_CHECK_ARRAY(pRes, -512, 511, 16);
+
+            for (i = 4; i; i--)
+            {
+                tmp1 = tmp[0];
+                tmp2 = *pRes++;
+                tmp3 = tmp[1];
+                tmp1 = clp[tmp1 + tmp2];
+                tmp4 = *pRes++;
+                imageBlock[0] = (u8)tmp1;
+                tmp3 = clp[tmp3 + tmp4];
+                tmp1 = tmp[2];
+                tmp2 = *pRes++;
+                imageBlock[1] = (u8)tmp3;
+                tmp1 = clp[tmp1 + tmp2];
+                tmp3 = tmp[3];
+                tmp4 = *pRes++;
+                imageBlock[2] = (u8)tmp1;
+                tmp3 = clp[tmp3 + tmp4];
+                tmp += 8;
+                imageBlock[3] = (u8)tmp3;
+                imageBlock += picWidth;
+            }
+        }
+    }
+
+}
+#endif /* H264DEC_OMXDL */
+
--- /dev/null
+++ b/src/h264bsd_image.h
@@ -1,0 +1,69 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_IMAGE_H
+#define H264SWDEC_IMAGE_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    u8 *data;
+    u32 width;
+    u32 height;
+    /* current MB's components */
+    u8 *luma;
+    u8 *cb;
+    u8 *cr;
+} image_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+void h264bsdWriteMacroblock(image_t *image, u8 *data);
+
+#ifndef H264DEC_OMXDL
+void h264bsdWriteOutputBlocks(image_t *image, u32 mbNum, u8 *data,
+    i32 residual[][16]);
+#endif
+
+#endif /* #ifdef H264SWDEC_IMAGE_H */
+
--- /dev/null
+++ b/src/h264bsd_inter_prediction.c
@@ -1,0 +1,1028 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdInterPrediction
+          MvPrediction16x16
+          MvPrediction16x8
+          MvPrediction8x16
+          MvPrediction8x8
+          MvPrediction
+          MedianFilter
+          GetInterNeighbour
+          GetPredictionMv
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_inter_prediction.h"
+#include "h264bsd_neighbour.h"
+#include "h264bsd_util.h"
+#include "h264bsd_reconstruct.h"
+#include "h264bsd_dpb.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    u32 available;
+    u32 refIndex;
+    mv_t mv;
+} interNeighbour_t;
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 MvPrediction16x16(mbStorage_t *pMb, mbPred_t *mbPred,
+    dpbStorage_t *dpb);
+static u32 MvPrediction16x8(mbStorage_t *pMb, mbPred_t *mbPred,
+    dpbStorage_t *dpb);
+static u32 MvPrediction8x16(mbStorage_t *pMb, mbPred_t *mbPred,
+    dpbStorage_t *dpb);
+static u32 MvPrediction8x8(mbStorage_t *pMb, subMbPred_t *subMbPred,
+    dpbStorage_t *dpb);
+static u32 MvPrediction(mbStorage_t *pMb, subMbPred_t *subMbPred,
+    u32 mbPartIdx, u32 subMbPartIdx);
+static i32 MedianFilter(i32 a, i32 b, i32 c);
+
+static void GetInterNeighbour(u32 sliceId, mbStorage_t *nMb,
+    interNeighbour_t *n, u32 index);
+static void GetPredictionMv(mv_t *mv, interNeighbour_t *a, u32 refIndex);
+
+static const neighbour_t N_A_SUB_PART[4][4][4] = {
+    { { {MB_A,5}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,5}, {MB_A,7}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,5}, {MB_CURR,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,5}, {MB_CURR,0}, {MB_A,7}, {MB_CURR,2} } },
+
+    { { {MB_CURR,1}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,1}, {MB_CURR,3}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,1}, {MB_CURR,4}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,1}, {MB_CURR,4}, {MB_CURR,3}, {MB_CURR,6} } },
+
+    { { {MB_A,13}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,13}, {MB_A,15}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,13}, {MB_CURR,8}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,13}, {MB_CURR,8}, {MB_A,15}, {MB_CURR,10} } },
+
+    { { {MB_CURR,9}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,9}, {MB_CURR,11}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,9}, {MB_CURR,12}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,9}, {MB_CURR,12}, {MB_CURR,11}, {MB_CURR,14} } } };
+
+static const neighbour_t N_B_SUB_PART[4][4][4] = {
+    { { {MB_B,10}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,10}, {MB_CURR,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,10}, {MB_B,11}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,10}, {MB_B,11}, {MB_CURR,0}, {MB_CURR,1} } },
+
+    { { {MB_B,14}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,14}, {MB_CURR,4}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,14}, {MB_B,15}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,14}, {MB_B,15}, {MB_CURR,4}, {MB_CURR,5} } },
+
+    { { {MB_CURR,2}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,2}, {MB_CURR,8}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,2}, {MB_CURR,3}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,2}, {MB_CURR,3}, {MB_CURR,8}, {MB_CURR,9} } },
+
+    { { {MB_CURR,6}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,6}, {MB_CURR,12}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,6}, {MB_CURR,7}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,6}, {MB_CURR,7}, {MB_CURR,12}, {MB_CURR,13} } } };
+
+static const neighbour_t N_C_SUB_PART[4][4][4] = {
+    { { {MB_B,14}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,14}, {MB_NA,4}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,11}, {MB_B,14}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,11}, {MB_B,14}, {MB_CURR,1}, {MB_NA,4} } },
+
+    { { {MB_C,10}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_C,10}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,15}, {MB_C,10}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,15}, {MB_C,10}, {MB_CURR,5}, {MB_NA,0} } },
+
+    { { {MB_CURR,6}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,6}, {MB_NA,12}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,3}, {MB_CURR,6}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,3}, {MB_CURR,6}, {MB_CURR,9}, {MB_NA,12} } },
+
+    { { {MB_NA,2}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_NA,2}, {MB_NA,8}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,7}, {MB_NA,2}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,7}, {MB_NA,2}, {MB_CURR,13}, {MB_NA,8} } } };
+
+static const neighbour_t N_D_SUB_PART[4][4][4] = {
+    { { {MB_D,15}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_D,15}, {MB_A,5}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_D,15}, {MB_B,10}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_D,15}, {MB_B,10}, {MB_A,5}, {MB_CURR,0} } },
+
+    { { {MB_B,11}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,11}, {MB_CURR,1}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,11}, {MB_B,14}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_B,11}, {MB_B,14}, {MB_CURR,1}, {MB_CURR,4} } },
+
+    { { {MB_A,7}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,7}, {MB_A,13}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,7}, {MB_CURR,2}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_A,7}, {MB_CURR,2}, {MB_A,13}, {MB_CURR,8} } },
+
+    { { {MB_CURR,3}, {MB_NA,0}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,3}, {MB_CURR,9}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,3}, {MB_CURR,6}, {MB_NA,0}, {MB_NA,0} },
+      { {MB_CURR,3}, {MB_CURR,6}, {MB_CURR,9}, {MB_CURR,12} } } };
+
+
+#ifdef H264DEC_OMXDL
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterPrediction
+
+        Functional description:
+          Processes one inter macroblock. Performs motion vector prediction
+          and reconstructs prediction macroblock. Writes the final macroblock
+          (prediction + residual) into the output image (currImage)
+
+        Inputs:
+          pMb           pointer to macroblock specific information
+          pMbLayer      pointer to current macroblock data from stream
+          dpb           pointer to decoded picture buffer
+          mbNum         current macroblock number
+          currImage     pointer to output image
+          data          pointer where predicted macroblock will be stored
+
+        Outputs:
+          pMb           structure is updated with current macroblock
+          currImage     current macroblock is written into image
+          data          prediction is stored here
+
+        Returns:
+          HANTRO_OK     success
+          HANTRO_NOK    error in motion vector prediction
+
+------------------------------------------------------------------------------*/
+u32 h264bsdInterPrediction(mbStorage_t *pMb, macroblockLayer_t *pMbLayer,
+    dpbStorage_t *dpb, u32 mbNum, image_t *currImage, u8 *data)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 x, y;
+    u32 colAndRow;
+    subMbPartMode_e subPartMode;
+    image_t refImage;
+    u8 fillBuff[32*21 + 15 + 32];
+    u8 *pFill;
+    u32 tmp;
+/* Code */
+
+    ASSERT(pMb);
+    ASSERT(h264bsdMbPartPredMode(pMb->mbType) == PRED_MODE_INTER);
+    ASSERT(pMbLayer);
+
+    /* 16-byte alignment */
+    pFill = ALIGN(fillBuff, 16);
+
+    /* set row bits 15:0 */
+    colAndRow = mbNum / currImage->width;
+    /*set col to bits 31:16 */
+    colAndRow += (mbNum - colAndRow * currImage->width) << 16;
+    colAndRow <<= 4;
+
+    refImage.width = currImage->width;
+    refImage.height = currImage->height;
+
+    switch (pMb->mbType)
+    {
+        case P_Skip:
+        case P_L0_16x16:
+            if (MvPrediction16x16(pMb, &pMbLayer->mbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            refImage.data = pMb->refAddr[0];
+            tmp = (0<<24) + (0<<16) + (16<<8) + 16;
+            h264bsdPredictSamples(data, pMb->mv, &refImage,
+                                    colAndRow, tmp, pFill);
+            break;
+
+        case P_L0_L0_16x8:
+            if ( MvPrediction16x8(pMb, &pMbLayer->mbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            refImage.data = pMb->refAddr[0];
+            tmp = (0<<24) + (0<<16) + (16<<8) + 8;
+            h264bsdPredictSamples(data, pMb->mv, &refImage,
+                                    colAndRow, tmp, pFill);
+
+            refImage.data = pMb->refAddr[2];
+            tmp = (0<<24) + (8<<16) + (16<<8) + 8;
+            h264bsdPredictSamples(data, pMb->mv+8, &refImage,
+                                    colAndRow, tmp, pFill);
+            break;
+
+        case P_L0_L0_8x16:
+            if ( MvPrediction8x16(pMb, &pMbLayer->mbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            refImage.data = pMb->refAddr[0];
+            tmp = (0<<24) + (0<<16) + (8<<8) + 16;
+            h264bsdPredictSamples(data, pMb->mv, &refImage,
+                                    colAndRow, tmp, pFill);
+            refImage.data = pMb->refAddr[1];
+            tmp = (8<<24) + (0<<16) + (8<<8) + 16;
+            h264bsdPredictSamples(data, pMb->mv+4, &refImage,
+                                    colAndRow, tmp, pFill);
+            break;
+
+        default: /* P_8x8 and P_8x8ref0 */
+            if ( MvPrediction8x8(pMb, &pMbLayer->subMbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            for (i = 0; i < 4; i++)
+            {
+                refImage.data = pMb->refAddr[i];
+                subPartMode =
+                    h264bsdSubMbPartMode(pMbLayer->subMbPred.subMbType[i]);
+                x = i & 0x1 ? 8 : 0;
+                y = i < 2 ? 0 : 8;
+                switch (subPartMode)
+                {
+                    case MB_SP_8x8:
+                        tmp = (x<<24) + (y<<16) + (8<<8) + 8;
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        break;
+
+                    case MB_SP_8x4:
+                        tmp = (x<<24) + (y<<16) + (8<<8) + 4;
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        tmp = (x<<24) + ((y+4)<<16) + (8<<8) + 4;
+                        h264bsdPredictSamples(data, pMb->mv+4*i+2, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        break;
+
+                    case MB_SP_4x8:
+                        tmp = (x<<24) + (y<<16) + (4<<8) + 8;
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        tmp = ((x+4)<<24) + (y<<16) + (4<<8) + 8;
+                        h264bsdPredictSamples(data, pMb->mv+4*i+1, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        break;
+
+                    default:
+                        tmp = (x<<24) + (y<<16) + (4<<8) + 4;
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        tmp = ((x+4)<<24) + (y<<16) + (4<<8) + 4;
+                        h264bsdPredictSamples(data, pMb->mv+4*i+1, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        tmp = (x<<24) + ((y+4)<<16) + (4<<8) + 4;
+                        h264bsdPredictSamples(data, pMb->mv+4*i+2, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        tmp = ((x+4)<<24) + ((y+4)<<16) + (4<<8) + 4;
+                        h264bsdPredictSamples(data, pMb->mv+4*i+3, &refImage,
+                                                    colAndRow, tmp, pFill);
+                        break;
+                }
+            }
+            break;
+    }
+
+    /* if decoded flag > 1 -> mb has already been successfully decoded and
+     * written to output -> do not write again */
+    if (pMb->decoded > 1)
+        return HANTRO_OK;
+
+    return(HANTRO_OK);
+}
+
+#else /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterPrediction
+
+        Functional description:
+          Processes one inter macroblock. Performs motion vector prediction
+          and reconstructs prediction macroblock. Writes the final macroblock
+          (prediction + residual) into the output image (currImage)
+
+        Inputs:
+          pMb           pointer to macroblock specific information
+          pMbLayer      pointer to current macroblock data from stream
+          dpb           pointer to decoded picture buffer
+          mbNum         current macroblock number
+          currImage     pointer to output image
+          data          pointer where predicted macroblock will be stored
+
+        Outputs:
+          pMb           structure is updated with current macroblock
+          currImage     current macroblock is written into image
+          data          prediction is stored here
+
+        Returns:
+          HANTRO_OK     success
+          HANTRO_NOK    error in motion vector prediction
+
+------------------------------------------------------------------------------*/
+u32 h264bsdInterPrediction(mbStorage_t *pMb, macroblockLayer_t *pMbLayer,
+    dpbStorage_t *dpb, u32 mbNum, image_t *currImage, u8 *data)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 x, y;
+    u32 row, col;
+    subMbPartMode_e subPartMode;
+    image_t refImage;
+
+/* Code */
+
+    ASSERT(pMb);
+    ASSERT(h264bsdMbPartPredMode(pMb->mbType) == PRED_MODE_INTER);
+    ASSERT(pMbLayer);
+
+    row = mbNum / currImage->width;
+    col = mbNum - row * currImage->width;
+    row *= 16;
+    col *= 16;
+
+    refImage.width = currImage->width;
+    refImage.height = currImage->height;
+
+    switch (pMb->mbType)
+    {
+        case P_Skip:
+        case P_L0_16x16:
+            if (MvPrediction16x16(pMb, &pMbLayer->mbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            refImage.data = pMb->refAddr[0];
+            h264bsdPredictSamples(data, pMb->mv, &refImage, col, row, 0, 0,
+                16, 16);
+            break;
+
+        case P_L0_L0_16x8:
+            if ( MvPrediction16x8(pMb, &pMbLayer->mbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            refImage.data = pMb->refAddr[0];
+            h264bsdPredictSamples(data, pMb->mv, &refImage, col, row, 0, 0,
+                16, 8);
+            refImage.data = pMb->refAddr[2];
+            h264bsdPredictSamples(data, pMb->mv+8, &refImage, col, row, 0, 8,
+                16, 8);
+            break;
+
+        case P_L0_L0_8x16:
+            if ( MvPrediction8x16(pMb, &pMbLayer->mbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            refImage.data = pMb->refAddr[0];
+            h264bsdPredictSamples(data, pMb->mv, &refImage, col, row, 0, 0,
+                8, 16);
+            refImage.data = pMb->refAddr[1];
+            h264bsdPredictSamples(data, pMb->mv+4, &refImage, col, row, 8, 0,
+                8, 16);
+            break;
+
+        default: /* P_8x8 and P_8x8ref0 */
+            if ( MvPrediction8x8(pMb, &pMbLayer->subMbPred, dpb) != HANTRO_OK)
+                return(HANTRO_NOK);
+            for (i = 0; i < 4; i++)
+            {
+                refImage.data = pMb->refAddr[i];
+                subPartMode =
+                    h264bsdSubMbPartMode(pMbLayer->subMbPred.subMbType[i]);
+                x = i & 0x1 ? 8 : 0;
+                y = i < 2 ? 0 : 8;
+                switch (subPartMode)
+                {
+                    case MB_SP_8x8:
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                            col, row, x, y, 8, 8);
+                        break;
+
+                    case MB_SP_8x4:
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                            col, row, x, y, 8, 4);
+                        h264bsdPredictSamples(data, pMb->mv+4*i+2, &refImage,
+                            col, row, x, y+4, 8, 4);
+                        break;
+
+                    case MB_SP_4x8:
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                            col, row, x, y, 4, 8);
+                        h264bsdPredictSamples(data, pMb->mv+4*i+1, &refImage,
+                            col, row, x+4, y, 4, 8);
+                        break;
+
+                    default:
+                        h264bsdPredictSamples(data, pMb->mv+4*i, &refImage,
+                            col, row, x, y, 4, 4);
+                        h264bsdPredictSamples(data, pMb->mv+4*i+1, &refImage,
+                            col, row, x+4, y, 4, 4);
+                        h264bsdPredictSamples(data, pMb->mv+4*i+2, &refImage,
+                            col, row, x, y+4, 4, 4);
+                        h264bsdPredictSamples(data, pMb->mv+4*i+3, &refImage,
+                            col, row, x+4, y+4, 4, 4);
+                        break;
+                }
+            }
+            break;
+    }
+
+    /* if decoded flag > 1 -> mb has already been successfully decoded and
+     * written to output -> do not write again */
+    if (pMb->decoded > 1)
+        return HANTRO_OK;
+
+    if (pMb->mbType != P_Skip)
+    {
+        h264bsdWriteOutputBlocks(currImage, mbNum, data,
+            pMbLayer->residual.level);
+    }
+    else
+    {
+        h264bsdWriteMacroblock(currImage, data);
+    }
+
+    return(HANTRO_OK);
+}
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: MvPrediction16x16
+
+        Functional description:
+            Motion vector prediction for 16x16 partition mode
+
+------------------------------------------------------------------------------*/
+
+u32 MvPrediction16x16(mbStorage_t *pMb, mbPred_t *mbPred, dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    mv_t mv;
+    mv_t mvPred;
+    interNeighbour_t a[3]; /* A, B, C */
+    u32 refIndex;
+    u8 *tmp;
+    u32 *tmpMv1, *tmpMv2;
+
+/* Code */
+
+    refIndex = mbPred->refIdxL0[0];
+
+    GetInterNeighbour(pMb->sliceId, pMb->mbA, a, 5);
+    GetInterNeighbour(pMb->sliceId, pMb->mbB, a+1, 10);
+    /*lint --e(740)  Unusual pointer cast (incompatible indirect types) */
+    tmpMv1 = (u32*)(&a[0].mv); /* we test just that both MVs are zero */
+    /*lint --e(740) */
+    tmpMv2 = (u32*)(&a[1].mv); /* i.e. a[0].mv.hor == 0 && a[0].mv.ver == 0 */
+    if (pMb->mbType == P_Skip &&
+        (!a[0].available || !a[1].available ||
+         ( a[0].refIndex == 0 && ((u32)(*tmpMv1) == 0) ) ||
+         ( a[1].refIndex == 0 && ((u32)(*tmpMv2) == 0) )))
+    {
+            mv.hor = mv.ver = 0;
+    }
+    else
+    {
+        mv = mbPred->mvdL0[0];
+        GetInterNeighbour(pMb->sliceId, pMb->mbC, a+2, 10);
+        if (!a[2].available)
+        {
+            GetInterNeighbour(pMb->sliceId, pMb->mbD, a+2, 15);
+        }
+
+        GetPredictionMv(&mvPred, a, refIndex);
+
+        mv.hor += mvPred.hor;
+        mv.ver += mvPred.ver;
+
+        /* horizontal motion vector range [-2048, 2047.75] */
+        if ((u32)(i32)(mv.hor+8192) >= (16384))
+            return(HANTRO_NOK);
+
+        /* vertical motion vector range [-512, 511.75]
+         * (smaller for low levels) */
+        if ((u32)(i32)(mv.ver+2048) >= (4096))
+            return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdGetRefPicData(dpb, refIndex);
+    if (tmp == NULL)
+        return(HANTRO_NOK);
+
+    pMb->mv[0] = pMb->mv[1] = pMb->mv[2] = pMb->mv[3] =
+    pMb->mv[4] = pMb->mv[5] = pMb->mv[6] = pMb->mv[7] =
+    pMb->mv[8] = pMb->mv[9] = pMb->mv[10] = pMb->mv[11] =
+    pMb->mv[12] = pMb->mv[13] = pMb->mv[14] = pMb->mv[15] = mv;
+
+    pMb->refPic[0] = refIndex;
+    pMb->refPic[1] = refIndex;
+    pMb->refPic[2] = refIndex;
+    pMb->refPic[3] = refIndex;
+    pMb->refAddr[0] = tmp;
+    pMb->refAddr[1] = tmp;
+    pMb->refAddr[2] = tmp;
+    pMb->refAddr[3] = tmp;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: MvPrediction16x8
+
+        Functional description:
+            Motion vector prediction for 16x8 partition mode
+
+------------------------------------------------------------------------------*/
+
+u32 MvPrediction16x8(mbStorage_t *pMb, mbPred_t *mbPred, dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    mv_t mv;
+    mv_t mvPred;
+    interNeighbour_t a[3]; /* A, B, C */
+    u32 refIndex;
+    u8 *tmp;
+
+/* Code */
+
+    mv = mbPred->mvdL0[0];
+    refIndex = mbPred->refIdxL0[0];
+
+    GetInterNeighbour(pMb->sliceId, pMb->mbB, a+1, 10);
+
+    if (a[1].refIndex == refIndex)
+        mvPred = a[1].mv;
+    else
+    {
+        GetInterNeighbour(pMb->sliceId, pMb->mbA, a, 5);
+        GetInterNeighbour(pMb->sliceId, pMb->mbC, a+2, 10);
+        if (!a[2].available)
+        {
+            GetInterNeighbour(pMb->sliceId, pMb->mbD, a+2, 15);
+        }
+
+        GetPredictionMv(&mvPred, a, refIndex);
+
+    }
+    mv.hor += mvPred.hor;
+    mv.ver += mvPred.ver;
+
+    /* horizontal motion vector range [-2048, 2047.75] */
+    if ((u32)(i32)(mv.hor+8192) >= (16384))
+        return(HANTRO_NOK);
+
+    /* vertical motion vector range [-512, 511.75] (smaller for low levels) */
+    if ((u32)(i32)(mv.ver+2048) >= (4096))
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetRefPicData(dpb, refIndex);
+    if (tmp == NULL)
+        return(HANTRO_NOK);
+
+    pMb->mv[0] = pMb->mv[1] = pMb->mv[2] = pMb->mv[3] =
+    pMb->mv[4] = pMb->mv[5] = pMb->mv[6] = pMb->mv[7] = mv;
+    pMb->refPic[0] = refIndex;
+    pMb->refPic[1] = refIndex;
+    pMb->refAddr[0] = tmp;
+    pMb->refAddr[1] = tmp;
+
+    mv = mbPred->mvdL0[1];
+    refIndex = mbPred->refIdxL0[1];
+
+    GetInterNeighbour(pMb->sliceId, pMb->mbA, a, 13);
+    if (a[0].refIndex == refIndex)
+        mvPred = a[0].mv;
+    else
+    {
+        a[1].available = HANTRO_TRUE;
+        a[1].refIndex = pMb->refPic[0];
+        a[1].mv = pMb->mv[0];
+
+        /* c is not available */
+        GetInterNeighbour(pMb->sliceId, pMb->mbA, a+2, 7);
+
+        GetPredictionMv(&mvPred, a, refIndex);
+
+    }
+    mv.hor += mvPred.hor;
+    mv.ver += mvPred.ver;
+
+    /* horizontal motion vector range [-2048, 2047.75] */
+    if ((u32)(i32)(mv.hor+8192) >= (16384))
+        return(HANTRO_NOK);
+
+    /* vertical motion vector range [-512, 511.75] (smaller for low levels) */
+    if ((u32)(i32)(mv.ver+2048) >= (4096))
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetRefPicData(dpb, refIndex);
+    if (tmp == NULL)
+        return(HANTRO_NOK);
+
+    pMb->mv[8] = pMb->mv[9] = pMb->mv[10] = pMb->mv[11] =
+    pMb->mv[12] = pMb->mv[13] = pMb->mv[14] = pMb->mv[15] = mv;
+    pMb->refPic[2] = refIndex;
+    pMb->refPic[3] = refIndex;
+    pMb->refAddr[2] = tmp;
+    pMb->refAddr[3] = tmp;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: MvPrediction8x16
+
+        Functional description:
+            Motion vector prediction for 8x16 partition mode
+
+------------------------------------------------------------------------------*/
+
+u32 MvPrediction8x16(mbStorage_t *pMb, mbPred_t *mbPred, dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    mv_t mv;
+    mv_t mvPred;
+    interNeighbour_t a[3]; /* A, B, C */
+    u32 refIndex;
+    u8 *tmp;
+
+/* Code */
+
+    mv = mbPred->mvdL0[0];
+    refIndex = mbPred->refIdxL0[0];
+
+    GetInterNeighbour(pMb->sliceId, pMb->mbA, a, 5);
+
+    if (a[0].refIndex == refIndex)
+        mvPred = a[0].mv;
+    else
+    {
+        GetInterNeighbour(pMb->sliceId, pMb->mbB, a+1, 10);
+        GetInterNeighbour(pMb->sliceId, pMb->mbB, a+2, 14);
+        if (!a[2].available)
+        {
+            GetInterNeighbour(pMb->sliceId, pMb->mbD, a+2, 15);
+        }
+
+        GetPredictionMv(&mvPred, a, refIndex);
+
+    }
+    mv.hor += mvPred.hor;
+    mv.ver += mvPred.ver;
+
+    /* horizontal motion vector range [-2048, 2047.75] */
+    if ((u32)(i32)(mv.hor+8192) >= (16384))
+        return(HANTRO_NOK);
+
+    /* vertical motion vector range [-512, 511.75] (smaller for low levels) */
+    if ((u32)(i32)(mv.ver+2048) >= (4096))
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetRefPicData(dpb, refIndex);
+    if (tmp == NULL)
+        return(HANTRO_NOK);
+
+    pMb->mv[0] = pMb->mv[1] = pMb->mv[2] = pMb->mv[3] =
+    pMb->mv[8] = pMb->mv[9] = pMb->mv[10] = pMb->mv[11] = mv;
+    pMb->refPic[0] = refIndex;
+    pMb->refPic[2] = refIndex;
+    pMb->refAddr[0] = tmp;
+    pMb->refAddr[2] = tmp;
+
+    mv = mbPred->mvdL0[1];
+    refIndex = mbPred->refIdxL0[1];
+
+    GetInterNeighbour(pMb->sliceId, pMb->mbC, a+2, 10);
+    if (!a[2].available)
+    {
+        GetInterNeighbour(pMb->sliceId, pMb->mbB, a+2, 11);
+    }
+    if (a[2].refIndex == refIndex)
+        mvPred = a[2].mv;
+    else
+    {
+        a[0].available = HANTRO_TRUE;
+        a[0].refIndex = pMb->refPic[0];
+        a[0].mv = pMb->mv[0];
+
+        GetInterNeighbour(pMb->sliceId, pMb->mbB, a+1, 14);
+
+        GetPredictionMv(&mvPred, a, refIndex);
+
+    }
+    mv.hor += mvPred.hor;
+    mv.ver += mvPred.ver;
+
+    /* horizontal motion vector range [-2048, 2047.75] */
+    if ((u32)(i32)(mv.hor+8192) >= (16384))
+        return(HANTRO_NOK);
+
+    /* vertical motion vector range [-512, 511.75] (smaller for low levels) */
+    if ((u32)(i32)(mv.ver+2048) >= (4096))
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetRefPicData(dpb, refIndex);
+    if (tmp == NULL)
+        return(HANTRO_NOK);
+
+    pMb->mv[4] = pMb->mv[5] = pMb->mv[6] = pMb->mv[7] =
+    pMb->mv[12] = pMb->mv[13] = pMb->mv[14] = pMb->mv[15] = mv;
+    pMb->refPic[1] = refIndex;
+    pMb->refPic[3] = refIndex;
+    pMb->refAddr[1] = tmp;
+    pMb->refAddr[3] = tmp;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: MvPrediction8x8
+
+        Functional description:
+            Motion vector prediction for 8x8 partition mode
+
+------------------------------------------------------------------------------*/
+
+u32 MvPrediction8x8(mbStorage_t *pMb, subMbPred_t *subMbPred, dpbStorage_t *dpb)
+{
+
+/* Variables */
+
+    u32 i, j;
+    u32 numSubMbPart;
+
+/* Code */
+
+    for (i = 0; i < 4; i++)
+    {
+        numSubMbPart = h264bsdNumSubMbPart(subMbPred->subMbType[i]);
+        pMb->refPic[i] = subMbPred->refIdxL0[i];
+        pMb->refAddr[i] = h264bsdGetRefPicData(dpb, subMbPred->refIdxL0[i]);
+        if (pMb->refAddr[i] == NULL)
+            return(HANTRO_NOK);
+        for (j = 0; j < numSubMbPart; j++)
+        {
+            if (MvPrediction(pMb, subMbPred, i, j) != HANTRO_OK)
+                return(HANTRO_NOK);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: MvPrediction
+
+        Functional description:
+            Perform motion vector prediction for sub-partition
+
+------------------------------------------------------------------------------*/
+
+u32 MvPrediction(mbStorage_t *pMb, subMbPred_t *subMbPred, u32 mbPartIdx,
+    u32 subMbPartIdx)
+{
+
+/* Variables */
+
+    mv_t mv, mvPred;
+    u32 refIndex;
+    subMbPartMode_e subMbPartMode;
+    const neighbour_t *n;
+    mbStorage_t *nMb;
+    interNeighbour_t a[3]; /* A, B, C */
+
+/* Code */
+
+    mv = subMbPred->mvdL0[mbPartIdx][subMbPartIdx];
+    subMbPartMode = h264bsdSubMbPartMode(subMbPred->subMbType[mbPartIdx]);
+    refIndex = subMbPred->refIdxL0[mbPartIdx];
+
+    n = N_A_SUB_PART[mbPartIdx][subMbPartMode]+subMbPartIdx;
+    nMb = h264bsdGetNeighbourMb(pMb, n->mb);
+    GetInterNeighbour(pMb->sliceId, nMb, a, n->index);
+
+    n = N_B_SUB_PART[mbPartIdx][subMbPartMode]+subMbPartIdx;
+    nMb = h264bsdGetNeighbourMb(pMb, n->mb);
+    GetInterNeighbour(pMb->sliceId, nMb, a+1, n->index);
+
+    n = N_C_SUB_PART[mbPartIdx][subMbPartMode]+subMbPartIdx;
+    nMb = h264bsdGetNeighbourMb(pMb, n->mb);
+    GetInterNeighbour(pMb->sliceId, nMb, a+2, n->index);
+
+    if (!a[2].available)
+    {
+        n = N_D_SUB_PART[mbPartIdx][subMbPartMode]+subMbPartIdx;
+        nMb = h264bsdGetNeighbourMb(pMb, n->mb);
+        GetInterNeighbour(pMb->sliceId, nMb, a+2, n->index);
+    }
+
+    GetPredictionMv(&mvPred, a, refIndex);
+
+    mv.hor += mvPred.hor;
+    mv.ver += mvPred.ver;
+
+    /* horizontal motion vector range [-2048, 2047.75] */
+    if (((u32)(i32)(mv.hor+8192) >= (16384)))
+        return(HANTRO_NOK);
+
+    /* vertical motion vector range [-512, 511.75] (smaller for low levels) */
+    if (((u32)(i32)(mv.ver+2048) >= (4096)))
+        return(HANTRO_NOK);
+
+    switch (subMbPartMode)
+    {
+        case MB_SP_8x8:
+            pMb->mv[4*mbPartIdx] = mv;
+            pMb->mv[4*mbPartIdx + 1] = mv;
+            pMb->mv[4*mbPartIdx + 2] = mv;
+            pMb->mv[4*mbPartIdx + 3] = mv;
+            break;
+
+        case MB_SP_8x4:
+            pMb->mv[4*mbPartIdx + 2*subMbPartIdx] = mv;
+            pMb->mv[4*mbPartIdx + 2*subMbPartIdx + 1] = mv;
+            break;
+
+        case MB_SP_4x8:
+            pMb->mv[4*mbPartIdx + subMbPartIdx] = mv;
+            pMb->mv[4*mbPartIdx + subMbPartIdx + 2] = mv;
+            break;
+
+        case MB_SP_4x4:
+            pMb->mv[4*mbPartIdx + subMbPartIdx] = mv;
+            break;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: MedianFilter
+
+        Functional description:
+            Median filtering for motion vector prediction
+
+------------------------------------------------------------------------------*/
+
+i32 MedianFilter(i32 a, i32 b, i32 c)
+{
+
+/* Variables */
+
+    i32 max,min,med;
+
+/* Code */
+
+    max = min = med = a;
+    if (b > max)
+    {
+        max = b;
+    }
+    else if (b < min)
+    {
+        min = b;
+    }
+    if (c > max)
+    {
+        med = max;
+    }
+    else if (c < min)
+    {
+        med = min;
+    }
+    else
+    {
+        med = c;
+    }
+
+    return(med);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetInterNeighbour
+
+        Functional description:
+            Get availability, reference index and motion vector of a neighbour
+
+------------------------------------------------------------------------------*/
+
+void GetInterNeighbour(u32 sliceId, mbStorage_t *nMb,
+    interNeighbour_t *n, u32 index)
+{
+
+    n->available = HANTRO_FALSE;
+    n->refIndex = 0xFFFFFFFF;
+    n->mv.hor = n->mv.ver = 0;
+
+    if (nMb && (sliceId == nMb->sliceId))
+    {
+        u32 tmp;
+        mv_t tmpMv;
+
+        tmp = nMb->mbType;
+        n->available = HANTRO_TRUE;
+        /* MbPartPredMode "inlined" */
+        if (tmp <= P_8x8ref0)
+        {
+            tmpMv = nMb->mv[index];
+            tmp = nMb->refPic[index>>2];
+            n->refIndex = tmp;
+            n->mv = tmpMv;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetPredictionMv
+
+        Functional description:
+            Compute motion vector predictor based on neighbours A, B and C
+
+------------------------------------------------------------------------------*/
+
+void GetPredictionMv(mv_t *mv, interNeighbour_t *a, u32 refIndex)
+{
+
+    if ( a[1].available || a[2].available || !a[0].available)
+    {
+        u32 isA, isB, isC;
+        isA = (a[0].refIndex == refIndex) ? HANTRO_TRUE : HANTRO_FALSE;
+        isB = (a[1].refIndex == refIndex) ? HANTRO_TRUE : HANTRO_FALSE;
+        isC = (a[2].refIndex == refIndex) ? HANTRO_TRUE : HANTRO_FALSE;
+
+        if (((u32)isA+(u32)isB+(u32)isC) != 1)
+        {
+            mv->hor = (i16)MedianFilter(a[0].mv.hor, a[1].mv.hor, a[2].mv.hor);
+            mv->ver = (i16)MedianFilter(a[0].mv.ver, a[1].mv.ver, a[2].mv.ver);
+        }
+        else if (isA)
+            *mv = a[0].mv;
+        else if (isB)
+            *mv = a[1].mv;
+        else
+            *mv = a[2].mv;
+    }
+    else
+    {
+        *mv = a[0].mv;
+    }
+
+}
+
+
--- /dev/null
+++ b/src/h264bsd_inter_prediction.h
@@ -1,0 +1,57 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_INTER_PREDICTION_H
+#define H264SWDEC_INTER_PREDICTION_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_image.h"
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_dpb.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdInterPrediction(mbStorage_t *pMb, macroblockLayer_t *pMbLayer,
+    dpbStorage_t *dpb, u32 mbNum, image_t *image, u8 *data);
+
+#endif /* #ifdef H264SWDEC_INTER_PREDICTION_H */
+
--- /dev/null
+++ b/src/h264bsd_intra_prediction.c
@@ -1,0 +1,1942 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdIntraPrediction
+          h264bsdGetNeighbourPels
+          h264bsdIntra16x16Prediction
+          h264bsdIntra4x4Prediction
+          h264bsdIntraChromaPrediction
+          h264bsdAddResidual
+          Intra16x16VerticalPrediction
+          Intra16x16HorizontalPrediction
+          Intra16x16DcPrediction
+          Intra16x16PlanePrediction
+          IntraChromaDcPrediction
+          IntraChromaHorizontalPrediction
+          IntraChromaVerticalPrediction
+          IntraChromaPlanePrediction
+          Get4x4NeighbourPels
+          Write4x4To16x16
+          Intra4x4VerticalPrediction
+          Intra4x4HorizontalPrediction
+          Intra4x4DcPrediction
+          Intra4x4DiagonalDownLeftPrediction
+          Intra4x4DiagonalDownRightPrediction
+          Intra4x4VerticalRightPrediction
+          Intra4x4HorizontalDownPrediction
+          Intra4x4VerticalLeftPrediction
+          Intra4x4HorizontalUpPrediction
+          DetermineIntra4x4PredMode
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_intra_prediction.h"
+#include "h264bsd_util.h"
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_neighbour.h"
+#include "h264bsd_image.h"
+
+#ifdef H264DEC_OMXDL
+#include "omxtypes.h"
+#include "omxVC.h"
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* Switch off the following Lint messages for this file:
+ * Info 702: Shift right of signed quantity (int)
+ */
+/*lint -e702 */
+
+
+/* x- and y-coordinates for each block */
+const u32 h264bsdBlockX[16] =
+    { 0, 4, 0, 4, 8, 12, 8, 12, 0, 4, 0, 4, 8, 12, 8, 12 };
+const u32 h264bsdBlockY[16] =
+    { 0, 0, 4, 4, 0, 0, 4, 4, 8, 8, 12, 12, 8, 8, 12, 12 };
+
+const u8 h264bsdClip[1280] =
+{
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
+    0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,
+    16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,
+    32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,
+    48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,
+    64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,
+    80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,
+    96,97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,
+    112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127,
+    128,129,130,131,132,133,134,135,136,137,138,139,140,141,142,143,
+    144,145,146,147,148,149,150,151,152,153,154,155,156,157,158,159,
+    160,161,162,163,164,165,166,167,168,169,170,171,172,173,174,175,
+    176,177,178,179,180,181,182,183,184,185,186,187,188,189,190,191,
+    192,193,194,195,196,197,198,199,200,201,202,203,204,205,206,207,
+    208,209,210,211,212,213,214,215,216,217,218,219,220,221,222,223,
+    224,225,226,227,228,229,230,231,232,233,234,235,236,237,238,239,
+    240,241,242,243,244,245,246,247,248,249,250,251,252,253,254,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
+    255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255
+};
+
+u8 *get_h264bsdClip() {
+    return (u8*)h264bsdClip;
+}
+
+#ifndef H264DEC_OMXDL
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+static void Get4x4NeighbourPels(u8 *a, u8 *l, u8 *data, u8 *above, u8 *left,
+    u32 blockNum);
+static void Intra16x16VerticalPrediction(u8 *data, u8 *above);
+static void Intra16x16HorizontalPrediction(u8 *data, u8 *left);
+static void Intra16x16DcPrediction(u8 *data, u8 *above, u8 *left,
+    u32 A, u32 B);
+static void Intra16x16PlanePrediction(u8 *data, u8 *above, u8 *left);
+static void IntraChromaDcPrediction(u8 *data, u8 *above, u8 *left,
+    u32 A, u32 B);
+static void IntraChromaHorizontalPrediction(u8 *data, u8 *left);
+static void IntraChromaVerticalPrediction(u8 *data, u8 *above);
+static void IntraChromaPlanePrediction(u8 *data, u8 *above, u8 *left);
+
+static void Intra4x4VerticalPrediction(u8 *data, u8 *above);
+static void Intra4x4HorizontalPrediction(u8 *data, u8 *left);
+static void Intra4x4DcPrediction(u8 *data, u8 *above, u8 *left, u32 A, u32 B);
+static void Intra4x4DiagonalDownLeftPrediction(u8 *data, u8 *above);
+static void Intra4x4DiagonalDownRightPrediction(u8 *data, u8 *above, u8 *left);
+static void Intra4x4VerticalRightPrediction(u8 *data, u8 *above, u8 *left);
+static void Intra4x4HorizontalDownPrediction(u8 *data, u8 *above, u8 *left);
+static void Intra4x4VerticalLeftPrediction(u8 *data, u8 *above);
+static void Intra4x4HorizontalUpPrediction(u8 *data, u8 *left);
+void h264bsdAddResidual(u8 *data, i32 *residual, u32 blockNum);
+
+static void Write4x4To16x16(u8 *data, u8 *data4x4, u32 blockNum);
+#endif /* H264DEC_OMXDL */
+
+static u32 DetermineIntra4x4PredMode(macroblockLayer_t *pMbLayer,
+    u32 available, neighbour_t *nA, neighbour_t *nB, u32 index,
+    mbStorage_t *nMbA, mbStorage_t *nMbB);
+
+
+#ifdef H264DEC_OMXDL
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIntra16x16Prediction
+
+        Functional description:
+          Perform intra 16x16 prediction mode for luma pixels and add
+          residual into prediction. The resulting luma pixels are
+          stored in macroblock array 'data'.
+
+------------------------------------------------------------------------------*/
+u32 h264bsdIntra16x16Prediction(mbStorage_t *pMb, u8 *data, u8 *ptr,
+                                u32 width, u32 constrainedIntraPred)
+{
+
+/* Variables */
+
+    u32 availableA, availableB, availableD;
+    OMXResult omxRes;
+
+/* Code */
+    ASSERT(pMb);
+    ASSERT(data);
+    ASSERT(ptr);
+    ASSERT(h264bsdPredModeIntra16x16(pMb->mbType) < 4);
+
+    availableA = h264bsdIsNeighbourAvailable(pMb, pMb->mbA);
+    if (availableA && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbA->mbType) == PRED_MODE_INTER))
+        availableA = HANTRO_FALSE;
+    availableB = h264bsdIsNeighbourAvailable(pMb, pMb->mbB);
+    if (availableB && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbB->mbType) == PRED_MODE_INTER))
+        availableB = HANTRO_FALSE;
+    availableD = h264bsdIsNeighbourAvailable(pMb, pMb->mbD);
+    if (availableD && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbD->mbType) == PRED_MODE_INTER))
+        availableD = HANTRO_FALSE;
+
+    omxRes = omxVCM4P10_PredictIntra_16x16( (ptr-1),
+                                    (ptr - width),
+                                    (ptr - width-1),
+                                    data,
+                                    (i32)width,
+                                    16,
+                                    (OMXVCM4P10Intra16x16PredMode)
+                                    h264bsdPredModeIntra16x16(pMb->mbType),
+                                    (i32)(availableB + (availableA<<1) +
+                                     (availableD<<5)) );
+    if (omxRes != OMX_Sts_NoErr)
+        return HANTRO_NOK;
+    else
+        return(HANTRO_OK);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIntra4x4Prediction
+
+        Functional description:
+          Perform intra 4x4 prediction for luma pixels and add residual
+          into prediction. The resulting luma pixels are stored in
+          macroblock array 'data'. The intra 4x4 prediction mode for each
+          block is stored in 'pMb' structure.
+
+------------------------------------------------------------------------------*/
+u32 h264bsdIntra4x4Prediction(mbStorage_t *pMb, u8 *data,
+                              macroblockLayer_t *mbLayer,
+                              u8 *ptr, u32 width,
+                              u32 constrainedIntraPred, u32 block)
+{
+
+/* Variables */
+    u32 mode;
+    neighbour_t neighbour, neighbourB;
+    mbStorage_t *nMb, *nMb2;
+    u32 availableA, availableB, availableC, availableD;
+
+    OMXResult omxRes;
+    u32 x, y;
+    u8 *l, *a, *al;
+/* Code */
+    ASSERT(pMb);
+    ASSERT(data);
+    ASSERT(mbLayer);
+    ASSERT(ptr);
+    ASSERT(pMb->intra4x4PredMode[block] < 9);
+
+    neighbour = *h264bsdNeighbour4x4BlockA(block);
+    nMb = h264bsdGetNeighbourMb(pMb, neighbour.mb);
+    availableA = h264bsdIsNeighbourAvailable(pMb, nMb);
+    if (availableA && constrainedIntraPred &&
+       ( h264bsdMbPartPredMode(nMb->mbType) == PRED_MODE_INTER) )
+    {
+        availableA = HANTRO_FALSE;
+    }
+
+    neighbourB = *h264bsdNeighbour4x4BlockB(block);
+    nMb2 = h264bsdGetNeighbourMb(pMb, neighbourB.mb);
+    availableB = h264bsdIsNeighbourAvailable(pMb, nMb2);
+    if (availableB && constrainedIntraPred &&
+       ( h264bsdMbPartPredMode(nMb2->mbType) == PRED_MODE_INTER) )
+    {
+        availableB = HANTRO_FALSE;
+    }
+
+    mode = DetermineIntra4x4PredMode(mbLayer,
+        (u32)(availableA && availableB),
+        &neighbour, &neighbourB, block, nMb, nMb2);
+    pMb->intra4x4PredMode[block] = (u8)mode;
+
+    neighbour = *h264bsdNeighbour4x4BlockC(block);
+    nMb = h264bsdGetNeighbourMb(pMb, neighbour.mb);
+    availableC = h264bsdIsNeighbourAvailable(pMb, nMb);
+    if (availableC && constrainedIntraPred &&
+       ( h264bsdMbPartPredMode(nMb->mbType) == PRED_MODE_INTER) )
+    {
+        availableC = HANTRO_FALSE;
+    }
+
+    neighbour = *h264bsdNeighbour4x4BlockD(block);
+    nMb = h264bsdGetNeighbourMb(pMb, neighbour.mb);
+    availableD = h264bsdIsNeighbourAvailable(pMb, nMb);
+    if (availableD && constrainedIntraPred &&
+       ( h264bsdMbPartPredMode(nMb->mbType) == PRED_MODE_INTER) )
+    {
+        availableD = HANTRO_FALSE;
+    }
+
+    x = h264bsdBlockX[block];
+    y = h264bsdBlockY[block];
+
+    if (y == 0)
+        a = ptr - width + x;
+    else
+        a = data-16;
+
+    if (x == 0)
+        l = ptr + y * width -1;
+    else
+    {
+        l = data-1;
+        width = 16;
+    }
+
+    if (x == 0)
+        al = l-width;
+    else
+        al = a-1;
+
+    omxRes = omxVCM4P10_PredictIntra_4x4( l,
+                                          a,
+                                          al,
+                                          data,
+                                          (i32)width,
+                                          16,
+                                          (OMXVCM4P10Intra4x4PredMode)mode,
+                                          (i32)(availableB +
+                                          (availableA<<1) +
+                                          (availableD<<5) +
+                                          (availableC<<6)) );
+    if (omxRes != OMX_Sts_NoErr)
+        return HANTRO_NOK;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIntraChromaPrediction
+
+        Functional description:
+          Perform intra prediction for chroma pixels and add residual
+          into prediction. The resulting chroma pixels are stored in 'data'.
+
+------------------------------------------------------------------------------*/
+u32 h264bsdIntraChromaPrediction(mbStorage_t *pMb, u8 *data, image_t *image,
+                                        u32 predMode, u32 constrainedIntraPred)
+{
+
+/* Variables */
+
+    u32 availableA, availableB, availableD;
+    OMXResult omxRes;
+    u8 *ptr;
+    u32 width;
+
+/* Code */
+    ASSERT(pMb);
+    ASSERT(data);
+    ASSERT(image);
+    ASSERT(predMode < 4);
+
+    availableA = h264bsdIsNeighbourAvailable(pMb, pMb->mbA);
+    if (availableA && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbA->mbType) == PRED_MODE_INTER))
+        availableA = HANTRO_FALSE;
+    availableB = h264bsdIsNeighbourAvailable(pMb, pMb->mbB);
+    if (availableB && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbB->mbType) == PRED_MODE_INTER))
+        availableB = HANTRO_FALSE;
+    availableD = h264bsdIsNeighbourAvailable(pMb, pMb->mbD);
+    if (availableD && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbD->mbType) == PRED_MODE_INTER))
+        availableD = HANTRO_FALSE;
+
+    ptr = image->cb;
+    width = image->width*8;
+
+    omxRes = omxVCM4P10_PredictIntraChroma_8x8( (ptr-1),
+                                                (ptr - width),
+                                                (ptr - width -1),
+                                                data,
+                                                (i32)width,
+                                                8,
+                                                (OMXVCM4P10IntraChromaPredMode)
+                                                predMode,
+                                                (i32)(availableB +
+                                                 (availableA<<1) +
+                                                 (availableD<<5)) );
+    if (omxRes != OMX_Sts_NoErr)
+        return HANTRO_NOK;
+
+    /* advance pointers */
+    data += 64;
+    ptr = image->cr;
+
+    omxRes = omxVCM4P10_PredictIntraChroma_8x8( (ptr-1),
+                                                (ptr - width),
+                                                (ptr - width -1),
+                                                data,
+                                                (i32)width,
+                                                8,
+                                                (OMXVCM4P10IntraChromaPredMode)
+                                                predMode,
+                                                (i32)(availableB +
+                                                 (availableA<<1) +
+                                                 (availableD<<5)) );
+    if (omxRes != OMX_Sts_NoErr)
+        return HANTRO_NOK;
+
+    return(HANTRO_OK);
+
+}
+
+
+#else /* H264DEC_OMXDL */
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIntraPrediction
+
+        Functional description:
+          Processes one intra macroblock. Performs intra prediction using
+          specified prediction mode. Writes the final macroblock
+          (prediction + residual) into the output image (image)
+
+        Inputs:
+          pMb           pointer to macroblock specific information
+          mbLayer       pointer to current macroblock data from stream
+          image         pointer to output image
+          mbNum         current macroblock number
+          constrainedIntraPred  flag specifying if neighbouring inter
+                                macroblocks are used in intra prediction
+          data          pointer where output macroblock will be stored
+
+        Outputs:
+          pMb           structure is updated with current macroblock
+          image         current macroblock is written into image
+          data          current macroblock is stored here
+
+        Returns:
+          HANTRO_OK     success
+          HANTRO_NOK    error in intra prediction
+
+------------------------------------------------------------------------------*/
+u32 h264bsdIntraPrediction(mbStorage_t *pMb, macroblockLayer_t *mbLayer,
+    image_t *image, u32 mbNum, u32 constrainedIntraPred, u8 *data)
+{
+
+/* Variables */
+
+    /* pelAbove and pelLeft contain samples above and left to the current
+     * macroblock. Above array contains also sample above-left to the current
+     * mb as well as 4 samples above-right to the current mb (latter only for
+     * luma) */
+    /* lumD + lumB + lumC + cbD + cbB + crD + crB */
+    u8 pelAbove[1 + 16 + 4 + 1 + 8 + 1 + 8];
+    /* lumA + cbA + crA */
+    u8 pelLeft[16 + 8 + 8];
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pMb);
+    ASSERT(image);
+    ASSERT(mbNum < image->width * image->height);
+    ASSERT(h264bsdMbPartPredMode(pMb->mbType) != PRED_MODE_INTER);
+
+    h264bsdGetNeighbourPels(image, pelAbove, pelLeft, mbNum);
+
+    if (h264bsdMbPartPredMode(pMb->mbType) == PRED_MODE_INTRA16x16)
+    {
+        tmp = h264bsdIntra16x16Prediction(pMb, data, mbLayer->residual.level,
+            pelAbove, pelLeft, constrainedIntraPred);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+    else
+    {
+        tmp = h264bsdIntra4x4Prediction(pMb, data, mbLayer,
+            pelAbove, pelLeft, constrainedIntraPred);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    tmp = h264bsdIntraChromaPrediction(pMb, data + 256,
+            mbLayer->residual.level+16, pelAbove + 21, pelLeft + 16,
+            mbLayer->mbPred.intraChromaPredMode, constrainedIntraPred);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* if decoded flag > 1 -> mb has already been successfully decoded and
+     * written to output -> do not write again */
+    if (pMb->decoded > 1)
+        return HANTRO_OK;
+
+    h264bsdWriteMacroblock(image, data);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdGetNeighbourPels
+
+        Functional description:
+          Get pixel values from neighbouring macroblocks into 'above'
+          and 'left' arrays.
+
+------------------------------------------------------------------------------*/
+
+void h264bsdGetNeighbourPels(image_t *image, u8 *above, u8 *left, u32 mbNum)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 width, picSize;
+    u8 *ptr, *tmp;
+    u32 row, col;
+
+/* Code */
+
+    ASSERT(image);
+    ASSERT(above);
+    ASSERT(left);
+    ASSERT(mbNum < image->width * image->height);
+
+    if (!mbNum)
+        return;
+
+    width = image->width;
+    picSize = width * image->height;
+    row = mbNum / width;
+    col = mbNum - row * width;
+
+    width *= 16;
+    ptr = image->data + row * 16 * width  + col * 16;
+
+    /* note that luma samples above-right to current macroblock do not make
+     * sense when current mb is the right-most mb in a row. Same applies to
+     * sample above-left if col is zero. However, usage of pels in prediction
+     * is controlled by neighbour availability information in actual prediction
+     * process */
+    if (row)
+    {
+        tmp = ptr - (width + 1);
+        for (i = 21; i--;)
+            *above++ = *tmp++;
+    }
+
+    if (col)
+    {
+        ptr--;
+        for (i = 16; i--; ptr+=width)
+            *left++ = *ptr;
+    }
+
+    width >>= 1;
+    ptr = image->data + picSize * 256 + row * 8 * width  + col * 8;
+
+    if (row)
+    {
+        tmp = ptr - (width + 1);
+        for (i = 9; i--;)
+            *above++ = *tmp++;
+        tmp += (picSize * 64) - 9;
+        for (i = 9; i--;)
+            *above++ = *tmp++;
+    }
+
+    if (col)
+    {
+        ptr--;
+        for (i = 8; i--; ptr+=width)
+            *left++ = *ptr;
+        ptr += (picSize * 64) - 8 * width;
+        for (i = 8; i--; ptr+=width)
+            *left++ = *ptr;
+    }
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra16x16Prediction
+
+        Functional description:
+          Perform intra 16x16 prediction mode for luma pixels and add
+          residual into prediction. The resulting luma pixels are
+          stored in macroblock array 'data'.
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIntra16x16Prediction(mbStorage_t *pMb, u8 *data, i32 residual[][16],
+                                u8 *above, u8 *left, u32 constrainedIntraPred)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 availableA, availableB, availableD;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(residual);
+    ASSERT(above);
+    ASSERT(left);
+    ASSERT(h264bsdPredModeIntra16x16(pMb->mbType) < 4);
+
+    availableA = h264bsdIsNeighbourAvailable(pMb, pMb->mbA);
+    if (availableA && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbA->mbType) == PRED_MODE_INTER))
+        availableA = HANTRO_FALSE;
+    availableB = h264bsdIsNeighbourAvailable(pMb, pMb->mbB);
+    if (availableB && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbB->mbType) == PRED_MODE_INTER))
+        availableB = HANTRO_FALSE;
+    availableD = h264bsdIsNeighbourAvailable(pMb, pMb->mbD);
+    if (availableD && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbD->mbType) == PRED_MODE_INTER))
+        availableD = HANTRO_FALSE;
+
+    switch(h264bsdPredModeIntra16x16(pMb->mbType))
+    {
+        case 0: /* Intra_16x16_Vertical */
+            if (!availableB)
+                return(HANTRO_NOK);
+            Intra16x16VerticalPrediction(data, above+1);
+            break;
+
+        case 1: /* Intra_16x16_Horizontal */
+            if (!availableA)
+                return(HANTRO_NOK);
+            Intra16x16HorizontalPrediction(data, left);
+            break;
+
+        case 2: /* Intra_16x16_DC */
+            Intra16x16DcPrediction(data, above+1, left, availableA, availableB);
+            break;
+
+        default: /* case 3: Intra_16x16_Plane */
+            if (!availableA || !availableB || !availableD)
+                return(HANTRO_NOK);
+            Intra16x16PlanePrediction(data, above+1, left);
+            break;
+    }
+    /* add residual */
+    for (i = 0; i < 16; i++)
+        h264bsdAddResidual(data, residual[i], i);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4Prediction
+
+        Functional description:
+          Perform intra 4x4 prediction for luma pixels and add residual
+          into prediction. The resulting luma pixels are stored in
+          macroblock array 'data'. The intra 4x4 prediction mode for each
+          block is stored in 'pMb' structure.
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIntra4x4Prediction(mbStorage_t *pMb, u8 *data,
+                              macroblockLayer_t *mbLayer, u8 *above,
+                              u8 *left, u32 constrainedIntraPred)
+{
+
+/* Variables */
+
+    u32 block;
+    u32 mode;
+    neighbour_t neighbour, neighbourB;
+    mbStorage_t *nMb, *nMb2;
+    u8 a[1 + 4 + 4], l[1 + 4];
+    u32 data4x4[4];
+    u32 availableA, availableB, availableC, availableD;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(mbLayer);
+    ASSERT(above);
+    ASSERT(left);
+
+    for (block = 0; block < 16; block++)
+    {
+
+        ASSERT(pMb->intra4x4PredMode[block] < 9);
+
+        neighbour = *h264bsdNeighbour4x4BlockA(block);
+        nMb = h264bsdGetNeighbourMb(pMb, neighbour.mb);
+        availableA = h264bsdIsNeighbourAvailable(pMb, nMb);
+        if (availableA && constrainedIntraPred &&
+           ( h264bsdMbPartPredMode(nMb->mbType) == PRED_MODE_INTER) )
+        {
+            availableA = HANTRO_FALSE;
+        }
+
+        neighbourB = *h264bsdNeighbour4x4BlockB(block);
+        nMb2 = h264bsdGetNeighbourMb(pMb, neighbourB.mb);
+        availableB = h264bsdIsNeighbourAvailable(pMb, nMb2);
+        if (availableB && constrainedIntraPred &&
+           ( h264bsdMbPartPredMode(nMb2->mbType) == PRED_MODE_INTER) )
+        {
+            availableB = HANTRO_FALSE;
+        }
+
+        mode = DetermineIntra4x4PredMode(mbLayer,
+            (u32)(availableA && availableB),
+            &neighbour, &neighbourB, block, nMb, nMb2);
+        pMb->intra4x4PredMode[block] = (u8)mode;
+
+        neighbour = *h264bsdNeighbour4x4BlockC(block);
+        nMb = h264bsdGetNeighbourMb(pMb, neighbour.mb);
+        availableC = h264bsdIsNeighbourAvailable(pMb, nMb);
+        if (availableC && constrainedIntraPred &&
+           ( h264bsdMbPartPredMode(nMb->mbType) == PRED_MODE_INTER) )
+        {
+            availableC = HANTRO_FALSE;
+        }
+
+        neighbour = *h264bsdNeighbour4x4BlockD(block);
+        nMb = h264bsdGetNeighbourMb(pMb, neighbour.mb);
+        availableD = h264bsdIsNeighbourAvailable(pMb, nMb);
+        if (availableD && constrainedIntraPred &&
+           ( h264bsdMbPartPredMode(nMb->mbType) == PRED_MODE_INTER) )
+        {
+            availableD = HANTRO_FALSE;
+        }
+
+        Get4x4NeighbourPels(a, l, data, above, left, block);
+
+        switch(mode)
+        {
+            case 0: /* Intra_4x4_Vertical */
+                if (!availableB)
+                    return(HANTRO_NOK);
+                Intra4x4VerticalPrediction((u8*)data4x4, a + 1);
+                break;
+            case 1: /* Intra_4x4_Horizontal */
+                if (!availableA)
+                    return(HANTRO_NOK);
+                Intra4x4HorizontalPrediction((u8*)data4x4, l + 1);
+                break;
+            case 2: /* Intra_4x4_DC */
+                Intra4x4DcPrediction((u8*)data4x4, a + 1, l + 1,
+                    availableA, availableB);
+                break;
+            case 3: /* Intra_4x4_Diagonal_Down_Left */
+                if (!availableB)
+                    return(HANTRO_NOK);
+                if (!availableC)
+                {
+                    a[5] = a[6] = a[7] = a[8] = a[4];
+                }
+                Intra4x4DiagonalDownLeftPrediction((u8*)data4x4, a + 1);
+                break;
+            case 4: /* Intra_4x4_Diagonal_Down_Right */
+                if (!availableA || !availableB || !availableD)
+                    return(HANTRO_NOK);
+                Intra4x4DiagonalDownRightPrediction((u8*)data4x4, a + 1, l + 1);
+                break;
+            case 5: /* Intra_4x4_Vertical_Right */
+                if (!availableA || !availableB || !availableD)
+                    return(HANTRO_NOK);
+                Intra4x4VerticalRightPrediction((u8*)data4x4, a + 1, l + 1);
+                break;
+            case 6: /* Intra_4x4_Horizontal_Down */
+                if (!availableA || !availableB || !availableD)
+                    return(HANTRO_NOK);
+                Intra4x4HorizontalDownPrediction((u8*)data4x4, a + 1, l + 1);
+                break;
+            case 7: /* Intra_4x4_Vertical_Left */
+                if (!availableB)
+                    return(HANTRO_NOK);
+                if (!availableC)
+                {
+                    a[5] = a[6] = a[7] = a[8] = a[4];
+                }
+                Intra4x4VerticalLeftPrediction((u8*)data4x4, a + 1);
+                break;
+            default: /* case 8 Intra_4x4_Horizontal_Up */
+                if (!availableA)
+                    return(HANTRO_NOK);
+                Intra4x4HorizontalUpPrediction((u8*)data4x4, l + 1);
+                break;
+        }
+
+        Write4x4To16x16(data, (u8*)data4x4, block);
+        h264bsdAddResidual(data, mbLayer->residual.level[block], block);
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: IntraChromaPrediction
+
+        Functional description:
+          Perform intra prediction for chroma pixels and add residual
+          into prediction. The resulting chroma pixels are stored in 'data'.
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIntraChromaPrediction(mbStorage_t *pMb, u8 *data, i32 residual[][16],
+                    u8 *above, u8 *left, u32 predMode, u32 constrainedIntraPred)
+{
+
+/* Variables */
+
+    u32 i, comp, block;
+    u32 availableA, availableB, availableD;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(residual);
+    ASSERT(above);
+    ASSERT(left);
+    ASSERT(predMode < 4);
+
+    availableA = h264bsdIsNeighbourAvailable(pMb, pMb->mbA);
+    if (availableA && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbA->mbType) == PRED_MODE_INTER))
+        availableA = HANTRO_FALSE;
+    availableB = h264bsdIsNeighbourAvailable(pMb, pMb->mbB);
+    if (availableB && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbB->mbType) == PRED_MODE_INTER))
+        availableB = HANTRO_FALSE;
+    availableD = h264bsdIsNeighbourAvailable(pMb, pMb->mbD);
+    if (availableD && constrainedIntraPred &&
+       (h264bsdMbPartPredMode(pMb->mbD->mbType) == PRED_MODE_INTER))
+        availableD = HANTRO_FALSE;
+
+    for (comp = 0, block = 16; comp < 2; comp++)
+    {
+        switch(predMode)
+        {
+            case 0: /* Intra_Chroma_DC */
+                IntraChromaDcPrediction(data, above+1, left, availableA,
+                    availableB);
+                break;
+
+            case 1: /* Intra_Chroma_Horizontal */
+                if (!availableA)
+                    return(HANTRO_NOK);
+                IntraChromaHorizontalPrediction(data, left);
+                break;
+
+            case 2: /* Intra_Chroma_Vertical */
+                if (!availableB)
+                    return(HANTRO_NOK);
+                IntraChromaVerticalPrediction(data, above+1);
+
+                break;
+
+            default: /* case 3: Intra_Chroma_Plane */
+                if (!availableA || !availableB || !availableD)
+                    return(HANTRO_NOK);
+                IntraChromaPlanePrediction(data, above+1, left);
+                break;
+        }
+        for (i = 0; i < 4; i++, block++)
+            h264bsdAddResidual(data, residual[i], block);
+
+        /* advance pointers */
+        data += 64;
+        above += 9;
+        left += 8;
+        residual += 4;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdAddResidual
+
+        Functional description:
+          Add residual of a block into prediction in macroblock array 'data'.
+          The result (residual + prediction) is stored in 'data'.
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_OMXDL
+void h264bsdAddResidual(u8 *data, i32 *residual, u32 blockNum)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 x, y;
+    u32 width;
+    i32 tmp1, tmp2, tmp3, tmp4;
+    u8 *tmp;
+    const u8 *clp = h264bsdClip + 512;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(residual);
+    ASSERT(blockNum < 16 + 4 + 4);
+
+    if (IS_RESIDUAL_EMPTY(residual))
+        return;
+
+    RANGE_CHECK_ARRAY(residual, -512, 511, 16);
+
+    if (blockNum < 16)
+    {
+        width = 16;
+        x = h264bsdBlockX[blockNum];
+        y = h264bsdBlockY[blockNum];
+    }
+    else
+    {
+        width = 8;
+        x = h264bsdBlockX[blockNum & 0x3];
+        y = h264bsdBlockY[blockNum & 0x3];
+    }
+
+    tmp = data + y*width + x;
+    for (i = 4; i; i--)
+    {
+        tmp1 = *residual++;
+        tmp2 = tmp[0];
+        tmp3 = *residual++;
+        tmp4 = tmp[1];
+
+        tmp[0] = clp[tmp1 + tmp2];
+
+        tmp1 = *residual++;
+        tmp2 = tmp[2];
+
+        tmp[1] = clp[tmp3 + tmp4];
+
+        tmp3 = *residual++;
+        tmp4 = tmp[3];
+
+        tmp1 = clp[tmp1 + tmp2];
+        tmp3 = clp[tmp3 + tmp4];
+        tmp[2] = (u8)tmp1;
+        tmp[3] = (u8)tmp3;
+
+        tmp += width;
+    }
+
+}
+#endif
+/*------------------------------------------------------------------------------
+
+    Function: Intra16x16VerticalPrediction
+
+        Functional description:
+          Perform intra 16x16 vertical prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra16x16VerticalPrediction(u8 *data, u8 *above)
+{
+
+/* Variables */
+
+    u32 i, j;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+
+    for (i = 0; i < 16; i++)
+    {
+        for (j = 0; j < 16; j++)
+        {
+            *data++ = above[j];
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra16x16HorizontalPrediction
+
+        Functional description:
+          Perform intra 16x16 horizontal prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra16x16HorizontalPrediction(u8 *data, u8 *left)
+{
+
+/* Variables */
+
+    u32 i, j;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(left);
+
+    for (i = 0; i < 16; i++)
+    {
+        for (j = 0; j < 16; j++)
+        {
+            *data++ = left[i];
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra16x16DcPrediction
+
+        Functional description:
+          Perform intra 16x16 DC prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra16x16DcPrediction(u8 *data, u8 *above, u8 *left, u32 availableA,
+    u32 availableB)
+{
+
+/* Variables */
+
+    u32 i, tmp;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    if (availableA && availableB)
+    {
+        for (i = 0, tmp = 0; i < 16; i++)
+            tmp += above[i] + left[i];
+        tmp = (tmp + 16) >> 5;
+    }
+    else if (availableA)
+    {
+        for (i = 0, tmp = 0; i < 16; i++)
+            tmp += left[i];
+        tmp = (tmp + 8) >> 4;
+    }
+    else if (availableB)
+    {
+        for (i = 0, tmp = 0; i < 16; i++)
+            tmp += above[i];
+        tmp = (tmp + 8) >> 4;
+    }
+    /* neither A nor B available */
+    else
+    {
+        tmp = 128;
+    }
+    for (i = 0; i < 256; i++)
+        data[i] = (u8)tmp;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra16x16PlanePrediction
+
+        Functional description:
+          Perform intra 16x16 plane prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra16x16PlanePrediction(u8 *data, u8 *above, u8 *left)
+{
+
+/* Variables */
+
+    u32 i, j;
+    i32 a, b, c;
+    i32 tmp;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    a = 16 * (above[15] + left[15]);
+
+    for (i = 0, b = 0; i < 8; i++)
+        b += ((i32)i + 1) * (above[8+i] - above[6-i]);
+    b = (5 * b + 32) >> 6;
+
+    for (i = 0, c = 0; i < 7; i++)
+        c += ((i32)i + 1) * (left[8+i] - left[6-i]);
+    /* p[-1,-1] has to be accessed through above pointer */
+    c += ((i32)i + 1) * (left[8+i] - above[-1]);
+    c = (5 * c + 32) >> 6;
+
+    for (i = 0; i < 16; i++)
+    {
+        for (j = 0; j < 16; j++)
+        {
+            tmp = (a + b * ((i32)j - 7) + c * ((i32)i - 7) + 16) >> 5;
+            data[i*16+j] = (u8)CLIP1(tmp);
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: IntraChromaDcPrediction
+
+        Functional description:
+          Perform intra chroma DC prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void IntraChromaDcPrediction(u8 *data, u8 *above, u8 *left, u32 availableA,
+    u32 availableB)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 tmp1, tmp2;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    /* y = 0..3 */
+    if (availableA && availableB)
+    {
+        tmp1 = above[0] + above[1] + above[2] + above[3] +
+              left[0] + left[1] + left[2] + left[3];
+        tmp1 = (tmp1 + 4) >> 3;
+        tmp2 = (above[4] + above[5] + above[6] + above[7] + 2) >> 2;
+    }
+    else if (availableB)
+    {
+        tmp1 = (above[0] + above[1] + above[2] + above[3] + 2) >> 2;
+        tmp2 = (above[4] + above[5] + above[6] + above[7] + 2) >> 2;
+    }
+    else if (availableA)
+    {
+        tmp1 = (left[0] + left[1] + left[2] + left[3] + 2) >> 2;
+        tmp2 = tmp1;
+    }
+    /* neither A nor B available */
+    else
+    {
+        tmp1 = tmp2 = 128;
+    }
+
+    ASSERT(tmp1 < 256 && tmp2 < 256);
+    for (i = 4; i--;)
+    {
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp2;
+        *data++ = (u8)tmp2;
+        *data++ = (u8)tmp2;
+        *data++ = (u8)tmp2;
+    }
+
+    /* y = 4...7 */
+    if (availableA)
+    {
+        tmp1 = (left[4] + left[5] + left[6] + left[7] + 2) >> 2;
+        if (availableB)
+        {
+            tmp2 = above[4] + above[5] + above[6] + above[7] +
+                   left[4] + left[5] + left[6] + left[7];
+            tmp2 = (tmp2 + 4) >> 3;
+        }
+        else
+            tmp2 = tmp1;
+    }
+    else if (availableB)
+    {
+        tmp1 = (above[0] + above[1] + above[2] + above[3] + 2) >> 2;
+        tmp2 = (above[4] + above[5] + above[6] + above[7] + 2) >> 2;
+    }
+    else
+    {
+        tmp1 = tmp2 = 128;
+    }
+
+    ASSERT(tmp1 < 256 && tmp2 < 256);
+    for (i = 4; i--;)
+    {
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp1;
+        *data++ = (u8)tmp2;
+        *data++ = (u8)tmp2;
+        *data++ = (u8)tmp2;
+        *data++ = (u8)tmp2;
+    }
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: IntraChromaHorizontalPrediction
+
+        Functional description:
+          Perform intra chroma horizontal prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void IntraChromaHorizontalPrediction(u8 *data, u8 *left)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(left);
+
+    for (i = 8; i--;)
+    {
+        *data++ = *left;
+        *data++ = *left;
+        *data++ = *left;
+        *data++ = *left;
+        *data++ = *left;
+        *data++ = *left;
+        *data++ = *left;
+        *data++ = *left++;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: IntraChromaVerticalPrediction
+
+        Functional description:
+          Perform intra chroma vertical prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void IntraChromaVerticalPrediction(u8 *data, u8 *above)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+
+    for (i = 8; i--;data++/*above-=8*/)
+    {
+        data[0] = *above;
+        data[8] = *above;
+        data[16] = *above;
+        data[24] = *above;
+        data[32] = *above;
+        data[40] = *above;
+        data[48] = *above;
+        data[56] = *above++;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: IntraChromaPlanePrediction
+
+        Functional description:
+          Perform intra chroma plane prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void IntraChromaPlanePrediction(u8 *data, u8 *above, u8 *left)
+{
+
+/* Variables */
+
+    u32 i;
+    i32 a, b, c;
+    i32 tmp;
+    const u8 *clp = h264bsdClip + 512;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    a = 16 * (above[7] + left[7]);
+
+    b = (above[4] - above[2]) + 2 * (above[5] - above[1])
+        + 3 * (above[6] - above[0]) + 4 * (above[7] - above[-1]);
+    b = (17 * b + 16) >> 5;
+
+    /* p[-1,-1] has to be accessed through above pointer */
+    c = (left[4] - left[2]) + 2 * (left[5] - left[1])
+        + 3 * (left[6] - left[0]) + 4 * (left[7] - above[-1]);
+    c = (17 * c + 16) >> 5;
+
+    /*a += 16;*/
+    a = a - 3 * c + 16;
+    for (i = 8; i--; a += c)
+    {
+        tmp = (a - 3 * b);
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+        tmp += b;
+        *data++ = clp[tmp>>5];
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Get4x4NeighbourPels
+
+        Functional description:
+          Get neighbouring pixels of a 4x4 block into 'a' and 'l'.
+
+------------------------------------------------------------------------------*/
+
+void Get4x4NeighbourPels(u8 *a, u8 *l, u8 *data, u8 *above, u8 *left,
+    u32 blockNum)
+{
+
+/* Variables */
+
+    u32 x, y;
+    u8 t1, t2;
+
+/* Code */
+
+    ASSERT(a);
+    ASSERT(l);
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+    ASSERT(blockNum < 16);
+
+    x = h264bsdBlockX[blockNum];
+    y = h264bsdBlockY[blockNum];
+
+    /* A and D */
+    if (x == 0)
+    {
+        t1 = left[y    ];
+        t2 = left[y + 1];
+        l[1] = t1;
+        l[2] = t2;
+        t1 = left[y + 2];
+        t2 = left[y + 3];
+        l[3] = t1;
+        l[4] = t2;
+    }
+    else
+    {
+        t1 = data[y * 16 + x - 1     ];
+        t2 = data[y * 16 + x - 1 + 16];
+        l[1] = t1;
+        l[2] = t2;
+        t1 = data[y * 16 + x - 1 + 32];
+        t2 = data[y * 16 + x - 1 + 48];
+        l[3] = t1;
+        l[4] = t2;
+    }
+
+    /* B, C and D */
+    if (y == 0)
+    {
+        t1 = above[x    ];
+        t2 = above[x    ];
+        l[0] = t1;
+        a[0] = t2;
+        t1 = above[x + 1];
+        t2 = above[x + 2];
+        a[1] = t1;
+        a[2] = t2;
+        t1 = above[x + 3];
+        t2 = above[x + 4];
+        a[3] = t1;
+        a[4] = t2;
+        t1 = above[x + 5];
+        t2 = above[x + 6];
+        a[5] = t1;
+        a[6] = t2;
+        t1 = above[x + 7];
+        t2 = above[x + 8];
+        a[7] = t1;
+        a[8] = t2;
+    }
+    else
+    {
+        t1 = data[(y - 1) * 16 + x    ];
+        t2 = data[(y - 1) * 16 + x + 1];
+        a[1] = t1;
+        a[2] = t2;
+        t1 = data[(y - 1) * 16 + x + 2];
+        t2 = data[(y - 1) * 16 + x + 3];
+        a[3] = t1;
+        a[4] = t2;
+        t1 = data[(y - 1) * 16 + x + 4];
+        t2 = data[(y - 1) * 16 + x + 5];
+        a[5] = t1;
+        a[6] = t2;
+        t1 = data[(y - 1) * 16 + x + 6];
+        t2 = data[(y - 1) * 16 + x + 7];
+        a[7] = t1;
+        a[8] = t2;
+
+        if (x == 0)
+            l[0] = a[0] = left[y-1];
+        else
+            l[0] = a[0] = data[(y - 1) * 16 + x - 1];
+    }
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4VerticalPrediction
+
+        Functional description:
+          Perform intra 4x4 vertical prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4VerticalPrediction(u8 *data, u8 *above)
+{
+
+/* Variables */
+
+    u8 t1, t2;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+
+    t1 = above[0];
+    t2 = above[1];
+    data[0] = data[4] = data[8] = data[12] = t1;
+    data[1] = data[5] = data[9] = data[13] = t2;
+    t1 = above[2];
+    t2 = above[3];
+    data[2] = data[6] = data[10] = data[14] = t1;
+    data[3] = data[7] = data[11] = data[15] = t2;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4HorizontalPrediction
+
+        Functional description:
+          Perform intra 4x4 horizontal prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4HorizontalPrediction(u8 *data, u8 *left)
+{
+
+/* Variables */
+
+    u8 t1, t2;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(left);
+
+    t1 = left[0];
+    t2 = left[1];
+    data[0] = data[1] = data[2] = data[3] = t1;
+    data[4] = data[5] = data[6] = data[7] = t2;
+    t1 = left[2];
+    t2 = left[3];
+    data[8] = data[9] = data[10] = data[11] = t1;
+    data[12] = data[13] = data[14] = data[15] = t2;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4DcPrediction
+
+        Functional description:
+          Perform intra 4x4 DC prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4DcPrediction(u8 *data, u8 *above, u8 *left, u32 availableA,
+    u32 availableB)
+{
+
+/* Variables */
+
+    u32 tmp;
+    u8 t1, t2, t3, t4;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    if (availableA && availableB)
+    {
+        t1 = above[0]; t2 = above[1]; t3 = above[2]; t4 = above[3];
+        tmp = t1 + t2 + t3 + t4;
+        t1 = left[0]; t2 = left[1]; t3 = left[2]; t4 = left[3];
+        tmp += t1 + t2 + t3 + t4;
+        tmp = (tmp + 4) >> 3;
+    }
+    else if (availableA)
+    {
+        t1 = left[0]; t2 = left[1]; t3 = left[2]; t4 = left[3];
+        tmp = (t1 + t2 + t3 + t4 + 2) >> 2;
+    }
+    else if (availableB)
+    {
+        t1 = above[0]; t2 = above[1]; t3 = above[2]; t4 = above[3];
+        tmp = (t1 + t2 + t3 + t4 + 2) >> 2;
+    }
+    else
+    {
+        tmp = 128;
+    }
+
+    ASSERT(tmp < 256);
+    data[0] = data[1] = data[2] = data[3] =
+    data[4] = data[5] = data[6] = data[7] =
+    data[8] = data[9] = data[10] = data[11] =
+    data[12] = data[13] = data[14] = data[15] = (u8)tmp;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4DiagonalDownLeftPrediction
+
+        Functional description:
+          Perform intra 4x4 diagonal down-left prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4DiagonalDownLeftPrediction(u8 *data, u8 *above)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+
+    data[ 0] = (above[0] + 2 * above[1] + above[2] + 2) >> 2;
+    data[ 1] = (above[1] + 2 * above[2] + above[3] + 2) >> 2;
+    data[ 4] = (above[1] + 2 * above[2] + above[3] + 2) >> 2;
+    data[ 2] = (above[2] + 2 * above[3] + above[4] + 2) >> 2;
+    data[ 5] = (above[2] + 2 * above[3] + above[4] + 2) >> 2;
+    data[ 8] = (above[2] + 2 * above[3] + above[4] + 2) >> 2;
+    data[ 3] = (above[3] + 2 * above[4] + above[5] + 2) >> 2;
+    data[ 6] = (above[3] + 2 * above[4] + above[5] + 2) >> 2;
+    data[ 9] = (above[3] + 2 * above[4] + above[5] + 2) >> 2;
+    data[12] = (above[3] + 2 * above[4] + above[5] + 2) >> 2;
+    data[ 7] = (above[4] + 2 * above[5] + above[6] + 2) >> 2;
+    data[10] = (above[4] + 2 * above[5] + above[6] + 2) >> 2;
+    data[13] = (above[4] + 2 * above[5] + above[6] + 2) >> 2;
+    data[11] = (above[5] + 2 * above[6] + above[7] + 2) >> 2;
+    data[14] = (above[5] + 2 * above[6] + above[7] + 2) >> 2;
+    data[15] = (above[6] + 3 * above[7] + 2) >> 2;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4DiagonalDownRightPrediction
+
+        Functional description:
+          Perform intra 4x4 diagonal down-right prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4DiagonalDownRightPrediction(u8 *data, u8 *above, u8 *left)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    data[ 0] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[ 5] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[10] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[15] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[ 1] = (above[-1] + 2 * above[0] + above[1] + 2) >> 2;
+    data[ 6] = (above[-1] + 2 * above[0] + above[1] + 2) >> 2;
+    data[11] = (above[-1] + 2 * above[0] + above[1] + 2) >> 2;
+    data[ 2] = (above[0] + 2 * above[1] + above[2] + 2) >> 2;
+    data[ 7] = (above[0] + 2 * above[1] + above[2] + 2) >> 2;
+    data[ 3] = (above[1] + 2 * above[2] + above[3] + 2) >> 2;
+    data[ 4] = (left[-1] + 2 * left[0] + left[1] + 2) >> 2;
+    data[ 9] = (left[-1] + 2 * left[0] + left[1] + 2) >> 2;
+    data[14] = (left[-1] + 2 * left[0] + left[1] + 2) >> 2;
+    data[ 8] = (left[0] + 2 * left[1] + left[2] + 2) >> 2;
+    data[13] = (left[0] + 2 * left[1] + left[2] + 2) >> 2;
+    data[12] = (left[1] + 2 * left[2] + left[3] + 2) >> 2;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4VerticalRightPrediction
+
+        Functional description:
+          Perform intra 4x4 vertical right prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4VerticalRightPrediction(u8 *data, u8 *above, u8 *left)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    data[ 0] = (above[-1] + above[0] + 1) >> 1;
+    data[ 9] = (above[-1] + above[0] + 1) >> 1;
+    data[ 5] = (above[-1] + 2 * above[0] + above[1] + 2) >> 2;
+    data[14] = (above[-1] + 2 * above[0] + above[1] + 2) >> 2;
+    data[ 4] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[13] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[ 1] = (above[0] + above[1] + 1) >> 1;
+    data[10] = (above[0] + above[1] + 1) >> 1;
+    data[ 6] = (above[0] + 2 * above[1] + above[2] + 2) >> 2;
+    data[15] = (above[0] + 2 * above[1] + above[2] + 2) >> 2;
+    data[ 2] = (above[1] + above[2] + 1) >> 1;
+    data[11] = (above[1] + above[2] + 1) >> 1;
+    data[ 7] = (above[1] + 2 * above[2] + above[3] + 2) >> 2;
+    data[ 3] = (above[2] + above[3] + 1) >> 1;
+    data[ 8] = (left[1] + 2 * left[0] + left[-1] + 2) >> 2;
+    data[12] = (left[2] + 2 * left[1] + left[0] + 2) >> 2;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4HorizontalDownPrediction
+
+        Functional description:
+          Perform intra 4x4 horizontal down prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4HorizontalDownPrediction(u8 *data, u8 *above, u8 *left)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+    ASSERT(left);
+
+    data[ 0] = (left[-1] + left[0] + 1) >> 1;
+    data[ 6] = (left[-1] + left[0] + 1) >> 1;
+    data[ 5] = (left[-1] + 2 * left[0] + left[1] + 2) >> 2;
+    data[11] = (left[-1] + 2 * left[0] + left[1] + 2) >> 2;
+    data[ 4] = (left[0] + left[1] + 1) >> 1;
+    data[10] = (left[0] + left[1] + 1) >> 1;
+    data[ 9] = (left[0] + 2 * left[1] + left[2] + 2) >> 2;
+    data[15] = (left[0] + 2 * left[1] + left[2] + 2) >> 2;
+    data[ 8] = (left[1] + left[2] + 1) >> 1;
+    data[14] = (left[1] + left[2] + 1) >> 1;
+    data[13] = (left[1] + 2 * left[2] + left[3] + 2) >> 2;
+    data[12] = (left[2] + left[3] + 1) >> 1;
+    data[ 1] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[ 7] = (above[0] + 2 * above[-1] + left[0] + 2) >> 2;
+    data[ 2] = (above[1] + 2 * above[0] + above[-1] + 2) >> 2;
+    data[ 3] = (above[2] + 2 * above[1] + above[0] + 2) >> 2;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4VerticalLeftPrediction
+
+        Functional description:
+          Perform intra 4x4 vertical left prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4VerticalLeftPrediction(u8 *data, u8 *above)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(above);
+
+    data[ 0] = (above[0] + above[1] + 1) >> 1;
+    data[ 1] = (above[1] + above[2] + 1) >> 1;
+    data[ 2] = (above[2] + above[3] + 1) >> 1;
+    data[ 3] = (above[3] + above[4] + 1) >> 1;
+    data[ 4] = (above[0] + 2 * above[1] + above[2] + 2) >> 2;
+    data[ 5] = (above[1] + 2 * above[2] + above[3] + 2) >> 2;
+    data[ 6] = (above[2] + 2 * above[3] + above[4] + 2) >> 2;
+    data[ 7] = (above[3] + 2 * above[4] + above[5] + 2) >> 2;
+    data[ 8] = (above[1] + above[2] + 1) >> 1;
+    data[ 9] = (above[2] + above[3] + 1) >> 1;
+    data[10] = (above[3] + above[4] + 1) >> 1;
+    data[11] = (above[4] + above[5] + 1) >> 1;
+    data[12] = (above[1] + 2 * above[2] + above[3] + 2) >> 2;
+    data[13] = (above[2] + 2 * above[3] + above[4] + 2) >> 2;
+    data[14] = (above[3] + 2 * above[4] + above[5] + 2) >> 2;
+    data[15] = (above[4] + 2 * above[5] + above[6] + 2) >> 2;
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: Intra4x4HorizontalUpPrediction
+
+        Functional description:
+          Perform intra 4x4 horizontal up prediction mode.
+
+------------------------------------------------------------------------------*/
+
+void Intra4x4HorizontalUpPrediction(u8 *data, u8 *left)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(left);
+
+    data[ 0] = (left[0] + left[1] + 1) >> 1;
+    data[ 1] = (left[0] + 2 * left[1] + left[2] + 2) >> 2;
+    data[ 2] = (left[1] + left[2] + 1) >> 1;
+    data[ 3] = (left[1] + 2 * left[2] + left[3] + 2) >> 2;
+    data[ 4] = (left[1] + left[2] + 1) >> 1;
+    data[ 5] = (left[1] + 2 * left[2] + left[3] + 2) >> 2;
+    data[ 6] = (left[2] + left[3] + 1) >> 1;
+    data[ 7] = (left[2] + 3 * left[3] + 2) >> 2;
+    data[ 8] = (left[2] + left[3] + 1) >> 1;
+    data[ 9] = (left[2] + 3 * left[3] + 2) >> 2;
+    data[10] = left[3];
+    data[11] = left[3];
+    data[12] = left[3];
+    data[13] = left[3];
+    data[14] = left[3];
+    data[15] = left[3];
+
+}
+
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: Write4x4To16x16
+
+        Functional description:
+          Write a 4x4 block (data4x4) into correct position
+          in 16x16 macroblock (data).
+
+------------------------------------------------------------------------------*/
+
+void Write4x4To16x16(u8 *data, u8 *data4x4, u32 blockNum)
+{
+
+/* Variables */
+
+    u32 x, y;
+    u32 *in32, *out32;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(data4x4);
+    ASSERT(blockNum < 16);
+
+    x = h264bsdBlockX[blockNum];
+    y = h264bsdBlockY[blockNum];
+
+    data += y*16+x;
+
+    ASSERT(((u32)data&0x3) == 0);
+
+    /*lint --e(826) */
+    out32 = (u32 *)data;
+    /*lint --e(826) */
+    in32 = (u32 *)data4x4;
+
+    out32[0] = *in32++;
+    out32[4] = *in32++;
+    out32[8] = *in32++;
+    out32[12] = *in32++;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DetermineIntra4x4PredMode
+
+        Functional description:
+          Returns the intra 4x4 prediction mode of a block based on the
+          neighbouring macroblocks and information parsed from stream.
+
+------------------------------------------------------------------------------*/
+
+u32 DetermineIntra4x4PredMode(macroblockLayer_t *pMbLayer,
+    u32 available, neighbour_t *nA, neighbour_t *nB, u32 index,
+    mbStorage_t *nMbA, mbStorage_t *nMbB)
+{
+
+/* Variables */
+
+    u32 mode1, mode2;
+    mbStorage_t *pMb;
+
+/* Code */
+
+    ASSERT(pMbLayer);
+
+    /* dc only prediction? */
+    if (!available)
+        mode1 = 2;
+    else
+    {
+        pMb = nMbA;
+        if (h264bsdMbPartPredMode(pMb->mbType) == PRED_MODE_INTRA4x4)
+        {
+            mode1 = pMb->intra4x4PredMode[nA->index];
+        }
+        else
+            mode1 = 2;
+
+        pMb = nMbB;
+        if (h264bsdMbPartPredMode(pMb->mbType) == PRED_MODE_INTRA4x4)
+        {
+            mode2 = pMb->intra4x4PredMode[nB->index];
+        }
+        else
+            mode2 = 2;
+
+        mode1 = MIN(mode1, mode2);
+    }
+
+    if (!pMbLayer->mbPred.prevIntra4x4PredModeFlag[index])
+    {
+        if (pMbLayer->mbPred.remIntra4x4PredMode[index] < mode1)
+        {
+            mode1 = pMbLayer->mbPred.remIntra4x4PredMode[index];
+        }
+        else
+        {
+            mode1 = pMbLayer->mbPred.remIntra4x4PredMode[index] + 1;
+        }
+    }
+
+    return(mode1);
+}
+
+
+/*lint +e702 */
+
+
--- /dev/null
+++ b/src/h264bsd_intra_prediction.h
@@ -1,0 +1,82 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_INTRA_PREDICTION_H
+#define H264SWDEC_INTRA_PREDICTION_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_image.h"
+#include "h264bsd_macroblock_layer.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_OMXDL
+u32 h264bsdIntraPrediction(mbStorage_t *pMb, macroblockLayer_t *mbLayer,
+    image_t *image, u32 mbNum, u32 constrainedIntraPred, u8 *data);
+
+u32 h264bsdIntra4x4Prediction(mbStorage_t *pMb, u8 *data,
+                              macroblockLayer_t *mbLayer,
+                              u8 *above, u8 *left, u32 constrainedIntraPred);
+u32 h264bsdIntra16x16Prediction(mbStorage_t *pMb, u8 *data, i32 residual[][16],
+    u8 *above, u8 *left, u32 constrainedIntraPred);
+
+u32 h264bsdIntraChromaPrediction(mbStorage_t *pMb, u8 *data, i32 residual[][16],
+    u8 *above, u8 *left, u32 predMode, u32 constrainedIntraPred);
+
+void h264bsdGetNeighbourPels(image_t *image, u8 *above, u8 *left, u32 mbNum);
+
+#else
+
+u32 h264bsdIntra4x4Prediction(mbStorage_t *pMb, u8 *data,
+                              macroblockLayer_t *mbLayer,
+                              u8 *pImage, u32 width,
+                              u32 constrainedIntraPred, u32 block);
+
+u32 h264bsdIntra16x16Prediction(mbStorage_t *pMb, u8 *data, u8 *pImage,
+                            u32 width, u32 constrainedIntraPred);
+
+u32 h264bsdIntraChromaPrediction(mbStorage_t *pMb, u8 *data, image_t *image,
+                                        u32 predMode, u32 constrainedIntraPred);
+
+#endif
+
+#endif /* #ifdef H264SWDEC_INTRA_PREDICTION_H */
+
--- /dev/null
+++ b/src/h264bsd_macroblock_layer.c
@@ -1,0 +1,1447 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeMacroblockLayer
+          h264bsdMbPartPredMode
+          h264bsdNumMbPart
+          h264bsdNumSubMbPart
+          DecodeMbPred
+          DecodeSubMbPred
+          DecodeResidual
+          DetermineNc
+          CbpIntra16x16
+          h264bsdPredModeIntra16x16
+          h264bsdDecodeMacroblock
+          ProcessResidual
+          h264bsdSubMbPartMode
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_util.h"
+#include "h264bsd_vlc.h"
+#include "h264bsd_cavlc.h"
+#include "h264bsd_nal_unit.h"
+#include "h264bsd_neighbour.h"
+#include "h264bsd_transform.h"
+#include "h264bsd_intra_prediction.h"
+#include "h264bsd_inter_prediction.h"
+
+#ifdef H264DEC_OMXDL
+#include "omxtypes.h"
+#include "omxVC.h"
+#include "armVC.h"
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+#ifdef H264DEC_OMXDL
+static const u32 chromaIndex[8] = { 256, 260, 288, 292, 320, 324, 352, 356 };
+static const u32 lumaIndex[16] = {   0,   4,  64,  68,
+                                     8,  12,  72,  76,
+                                   128, 132, 192, 196,
+                                   136, 140, 200, 204 };
+#endif
+/* mapping of dc coefficients array to luma blocks */
+static const u32 dcCoeffIndex[16] =
+    {0, 1, 4, 5, 2, 3, 6, 7, 8, 9, 12, 13, 10, 11, 14, 15};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 DecodeMbPred(strmData_t *pStrmData, mbPred_t *pMbPred,
+    mbType_e mbType, u32 numRefIdxActive);
+static u32 DecodeSubMbPred(strmData_t *pStrmData, subMbPred_t *pSubMbPred,
+    mbType_e mbType, u32 numRefIdxActive);
+static u32 DecodeResidual(strmData_t *pStrmData, residual_t *pResidual,
+    mbStorage_t *pMb, mbType_e mbType, u32 codedBlockPattern);
+
+#ifdef H264DEC_OMXDL
+static u32 DetermineNc(mbStorage_t *pMb, u32 blockIndex, u8 *pTotalCoeff);
+#else
+static u32 DetermineNc(mbStorage_t *pMb, u32 blockIndex, i16 *pTotalCoeff);
+#endif
+
+static u32 CbpIntra16x16(mbType_e mbType);
+#ifdef H264DEC_OMXDL
+static u32 ProcessIntra4x4Residual(mbStorage_t *pMb, u8 *data, u32 constrainedIntraPred,
+                    macroblockLayer_t *mbLayer, const u8 **pSrc, image_t *image);
+static u32 ProcessChromaResidual(mbStorage_t *pMb, u8 *data, const u8 **pSrc );
+static u32 ProcessIntra16x16Residual(mbStorage_t *pMb, u8 *data, u32 constrainedIntraPred,
+                    u32 intraChromaPredMode, const u8 **pSrc, image_t *image);
+
+
+#else
+static u32 ProcessResidual(mbStorage_t *pMb, i32 residualLevel[][16], u32 *);
+#endif
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdDecodeMacroblockLayer
+
+        Functional description:
+          Parse macroblock specific information from bit stream.
+
+        Inputs:
+          pStrmData         pointer to stream data structure
+          pMb               pointer to macroblock storage structure
+          sliceType         type of the current slice
+          numRefIdxActive   maximum reference index
+
+        Outputs:
+          pMbLayer          stores the macroblock data parsed from stream
+
+        Returns:
+          HANTRO_OK         success
+          HANTRO_NOK        end of stream or error in stream
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeMacroblockLayer(strmData_t *pStrmData,
+    macroblockLayer_t *pMbLayer, mbStorage_t *pMb, u32 sliceType,
+    u32 numRefIdxActive)
+{
+
+/* Variables */
+
+    u32 tmp, i, value;
+    i32 itmp;
+    mbPartPredMode_e partMode;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pMbLayer);
+
+#ifdef H264DEC_NEON
+    h264bsdClearMbLayer(pMbLayer, ((sizeof(macroblockLayer_t) + 63) & ~0x3F));
+#else
+    memset(pMbLayer, 0, sizeof(macroblockLayer_t));
+#endif
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+
+    if (IS_I_SLICE(sliceType))
+    {
+        if ((value + 6) > 31 || tmp != HANTRO_OK)
+            return(HANTRO_NOK);
+        pMbLayer->mbType = (mbType_e)(value + 6);
+    }
+    else
+    {
+        if ((value + 1) > 31 || tmp != HANTRO_OK)
+            return(HANTRO_NOK);
+        pMbLayer->mbType = (mbType_e)(value + 1);
+    }
+
+    if (pMbLayer->mbType == I_PCM)
+    {
+        i32 *level;
+        while( !h264bsdIsByteAligned(pStrmData) )
+        {
+            /* pcm_alignment_zero_bit */
+            tmp = h264bsdGetBits(pStrmData, 1);
+            if (tmp)
+                return(HANTRO_NOK);
+        }
+
+        level = pMbLayer->residual.level[0];
+        for (i = 0; i < 384; i++)
+        {
+            value = h264bsdGetBits(pStrmData, 8);
+            if (value == END_OF_STREAM)
+                return(HANTRO_NOK);
+            *level++ = (i32)value;
+        }
+    }
+    else
+    {
+        partMode = h264bsdMbPartPredMode(pMbLayer->mbType);
+        if ( (partMode == PRED_MODE_INTER) &&
+             (h264bsdNumMbPart(pMbLayer->mbType) == 4) )
+        {
+            tmp = DecodeSubMbPred(pStrmData, &pMbLayer->subMbPred,
+                pMbLayer->mbType, numRefIdxActive);
+        }
+        else
+        {
+            tmp = DecodeMbPred(pStrmData, &pMbLayer->mbPred,
+                pMbLayer->mbType, numRefIdxActive);
+        }
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        if (partMode != PRED_MODE_INTRA16x16)
+        {
+            tmp = h264bsdDecodeExpGolombMapped(pStrmData, &value,
+                (u32)(partMode == PRED_MODE_INTRA4x4));
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pMbLayer->codedBlockPattern = value;
+        }
+        else
+        {
+            pMbLayer->codedBlockPattern = CbpIntra16x16(pMbLayer->mbType);
+        }
+
+        if ( pMbLayer->codedBlockPattern ||
+             (partMode == PRED_MODE_INTRA16x16) )
+        {
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK || (itmp < -26) || (itmp > 25) )
+                return(HANTRO_NOK);
+            pMbLayer->mbQpDelta = itmp;
+
+            tmp = DecodeResidual(pStrmData, &pMbLayer->residual, pMb,
+                pMbLayer->mbType, pMbLayer->codedBlockPattern);
+
+            pStrmData->strmBuffReadBits =
+                (u32)(pStrmData->pStrmCurrPos - pStrmData->pStrmBuffStart) * 8 +
+                pStrmData->bitPosInWord;
+
+            if (tmp != HANTRO_OK)
+                return(tmp);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdMbPartPredMode
+
+        Functional description:
+          Returns the prediction mode of a macroblock type
+
+------------------------------------------------------------------------------*/
+
+mbPartPredMode_e h264bsdMbPartPredMode(mbType_e mbType)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    ASSERT(mbType <= 31);
+
+    if ((mbType <= P_8x8ref0))
+        return(PRED_MODE_INTER);
+    else if (mbType == I_4x4)
+        return(PRED_MODE_INTRA4x4);
+    else
+        return(PRED_MODE_INTRA16x16);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNumMbPart
+
+        Functional description:
+          Returns the amount of macroblock partitions in a macroblock type
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdNumMbPart(mbType_e mbType)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    ASSERT(h264bsdMbPartPredMode(mbType) == PRED_MODE_INTER);
+
+    switch (mbType)
+    {
+        case P_L0_16x16:
+        case P_Skip:
+            return(1);
+
+        case P_L0_L0_16x8:
+        case P_L0_L0_8x16:
+            return(2);
+
+        /* P_8x8 or P_8x8ref0 */
+        default:
+            return(4);
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNumSubMbPart
+
+        Functional description:
+          Returns the amount of sub-partitions in a sub-macroblock type
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdNumSubMbPart(subMbType_e subMbType)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    ASSERT(subMbType <= P_L0_4x4);
+
+    switch (subMbType)
+    {
+        case P_L0_8x8:
+            return(1);
+
+        case P_L0_8x4:
+        case P_L0_4x8:
+            return(2);
+
+        /* P_L0_4x4 */
+        default:
+            return(4);
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeMbPred
+
+        Functional description:
+          Parse macroblock prediction information from bit stream and store
+          in 'pMbPred'.
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeMbPred(strmData_t *pStrmData, mbPred_t *pMbPred, mbType_e mbType,
+    u32 numRefIdxActive)
+{
+
+/* Variables */
+
+    u32 tmp, i, j, value;
+    i32 itmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pMbPred);
+
+    switch (h264bsdMbPartPredMode(mbType))
+    {
+        case PRED_MODE_INTER: /* PRED_MODE_INTER */
+            if (numRefIdxActive > 1)
+            {
+                for (i = h264bsdNumMbPart(mbType), j = 0; i--;  j++)
+                {
+                    tmp = h264bsdDecodeExpGolombTruncated(pStrmData, &value,
+                        (u32)(numRefIdxActive > 2));
+                    if (tmp != HANTRO_OK || value >= numRefIdxActive)
+                        return(HANTRO_NOK);
+
+                    pMbPred->refIdxL0[j] = value;
+                }
+            }
+
+            for (i = h264bsdNumMbPart(mbType), j = 0; i--;  j++)
+            {
+                tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                pMbPred->mvdL0[j].hor = (i16)itmp;
+
+                tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                pMbPred->mvdL0[j].ver = (i16)itmp;
+            }
+            break;
+
+        case PRED_MODE_INTRA4x4:
+            for (itmp = 0, i = 0; itmp < 2; itmp++)
+            {
+                value = h264bsdShowBits32(pStrmData);
+                tmp = 0;
+                for (j = 8; j--; i++)
+                {
+                    pMbPred->prevIntra4x4PredModeFlag[i] =
+                        value & 0x80000000 ? HANTRO_TRUE : HANTRO_FALSE;
+                    value <<= 1;
+                    if (!pMbPred->prevIntra4x4PredModeFlag[i])
+                    {
+                        pMbPred->remIntra4x4PredMode[i] = value>>29;
+                        value <<= 3;
+                        tmp++;
+                    }
+                }
+                if (h264bsdFlushBits(pStrmData, 8 + 3*tmp) == END_OF_STREAM)
+                    return(HANTRO_NOK);
+            }
+            /* fall-through */
+
+        case PRED_MODE_INTRA16x16:
+            tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+            if (tmp != HANTRO_OK || value > 3)
+                return(HANTRO_NOK);
+            pMbPred->intraChromaPredMode = value;
+            break;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeSubMbPred
+
+        Functional description:
+          Parse sub-macroblock prediction information from bit stream and
+          store in 'pMbPred'.
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeSubMbPred(strmData_t *pStrmData, subMbPred_t *pSubMbPred,
+    mbType_e mbType, u32 numRefIdxActive)
+{
+
+/* Variables */
+
+    u32 tmp, i, j, value;
+    i32 itmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSubMbPred);
+    ASSERT(h264bsdMbPartPredMode(mbType) == PRED_MODE_INTER);
+
+    for (i = 0; i < 4; i++)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+        if (tmp != HANTRO_OK || value > 3)
+            return(HANTRO_NOK);
+        pSubMbPred->subMbType[i] = (subMbType_e)value;
+    }
+
+    if ( (numRefIdxActive > 1) && (mbType != P_8x8ref0) )
+    {
+        for (i = 0; i < 4; i++)
+        {
+            tmp = h264bsdDecodeExpGolombTruncated(pStrmData, &value,
+                (u32)(numRefIdxActive > 2));
+            if (tmp != HANTRO_OK || value >= numRefIdxActive)
+                return(HANTRO_NOK);
+            pSubMbPred->refIdxL0[i] = value;
+        }
+    }
+
+    for (i = 0; i < 4; i++)
+    {
+        j = 0;
+        for (value = h264bsdNumSubMbPart(pSubMbPred->subMbType[i]);
+             value--; j++)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pSubMbPred->mvdL0[i][j].hor = (i16)itmp;
+
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pSubMbPred->mvdL0[i][j].ver = (i16)itmp;
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+#ifdef H264DEC_OMXDL
+/*------------------------------------------------------------------------------
+
+    Function: DecodeResidual
+
+        Functional description:
+          Parse residual information from bit stream and store in 'pResidual'.
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeResidual(strmData_t *pStrmData, residual_t *pResidual,
+    mbStorage_t *pMb, mbType_e mbType, u32 codedBlockPattern)
+{
+
+/* Variables */
+
+    u32 i, j;
+    u32 blockCoded;
+    u32 blockIndex;
+    u32 is16x16;
+    OMX_INT nc;
+    OMXResult omxRes;
+    OMX_U8 *pPosCoefBuf;
+
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pResidual);
+
+    pPosCoefBuf = pResidual->posCoefBuf;
+
+    /* luma DC is at index 24 */
+    if (h264bsdMbPartPredMode(mbType) == PRED_MODE_INTRA16x16)
+    {
+        nc = (OMX_INT)DetermineNc(pMb, 0, pResidual->totalCoeff);
+#ifndef H264DEC_NEON
+        omxRes =  omxVCM4P10_DecodeCoeffsToPairCAVLC(
+                (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                (OMX_S32*) (&pStrmData->bitPosInWord),
+                &pResidual->totalCoeff[24],
+                &pPosCoefBuf,
+                nc,
+                16);
+#else
+        omxRes = armVCM4P10_DecodeCoeffsToPair(
+                (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                (OMX_S32*) (&pStrmData->bitPosInWord),
+                &pResidual->totalCoeff[24],
+                &pPosCoefBuf,
+                nc,
+                16);
+#endif
+        if (omxRes != OMX_Sts_NoErr)
+            return(HANTRO_NOK);
+        is16x16 = HANTRO_TRUE;
+    }
+    else
+        is16x16 = HANTRO_FALSE;
+
+    for (i = 4, blockIndex = 0; i--;)
+    {
+        /* luma cbp in bits 0-3 */
+        blockCoded = codedBlockPattern & 0x1;
+        codedBlockPattern >>= 1;
+        if (blockCoded)
+        {
+            for (j = 4; j--; blockIndex++)
+            {
+                nc = (OMX_INT)DetermineNc(pMb,blockIndex,pResidual->totalCoeff);
+                if (is16x16)
+                {
+#ifndef H264DEC_NEON
+                    omxRes =  omxVCM4P10_DecodeCoeffsToPairCAVLC(
+                            (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                            (OMX_S32*) (&pStrmData->bitPosInWord),
+                            &pResidual->totalCoeff[blockIndex],
+                            &pPosCoefBuf,
+                            nc,
+                            15);
+#else
+                    omxRes =  armVCM4P10_DecodeCoeffsToPair(
+                            (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                            (OMX_S32*) (&pStrmData->bitPosInWord),
+                            &pResidual->totalCoeff[blockIndex],
+                            &pPosCoefBuf,
+                            nc,
+                            15);
+#endif
+                }
+                else
+                {
+#ifndef H264DEC_NEON
+                    omxRes =  omxVCM4P10_DecodeCoeffsToPairCAVLC(
+                            (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                            (OMX_S32*) (&pStrmData->bitPosInWord),
+                            &pResidual->totalCoeff[blockIndex],
+                            &pPosCoefBuf,
+                            nc,
+                            16);
+#else
+                    omxRes = armVCM4P10_DecodeCoeffsToPair(
+                            (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                            (OMX_S32*) (&pStrmData->bitPosInWord),
+                            &pResidual->totalCoeff[blockIndex],
+                            &pPosCoefBuf,
+                            nc,
+                            16);
+#endif
+                }
+                if (omxRes != OMX_Sts_NoErr)
+                    return(HANTRO_NOK);
+            }
+        }
+        else
+            blockIndex += 4;
+    }
+
+    /* chroma DC block are at indices 25 and 26 */
+    blockCoded = codedBlockPattern & 0x3;
+    if (blockCoded)
+    {
+#ifndef H264DEC_NEON
+        omxRes =  omxVCM4P10_DecodeChromaDcCoeffsToPairCAVLC(
+                (const OMX_U8**) (&pStrmData->pStrmCurrPos),
+                (OMX_S32*) (&pStrmData->bitPosInWord),
+                &pResidual->totalCoeff[25],
+                &pPosCoefBuf);
+#else
+        omxRes = armVCM4P10_DecodeCoeffsToPair(
+                (const OMX_U8**) (&pStrmData->pStrmCurrPos),
+                (OMX_S32*) (&pStrmData->bitPosInWord),
+                &pResidual->totalCoeff[25],
+                &pPosCoefBuf,
+                17,
+                4);
+#endif
+        if (omxRes != OMX_Sts_NoErr)
+            return(HANTRO_NOK);
+#ifndef H264DEC_NEON
+        omxRes =  omxVCM4P10_DecodeChromaDcCoeffsToPairCAVLC(
+                (const OMX_U8**) (&pStrmData->pStrmCurrPos),
+                (OMX_S32*) (&pStrmData->bitPosInWord),
+                &pResidual->totalCoeff[26],
+                &pPosCoefBuf);
+#else
+        omxRes = armVCM4P10_DecodeCoeffsToPair(
+                (const OMX_U8**) (&pStrmData->pStrmCurrPos),
+                (OMX_S32*) (&pStrmData->bitPosInWord),
+                &pResidual->totalCoeff[26],
+                &pPosCoefBuf,
+                17,
+                4);
+#endif
+        if (omxRes != OMX_Sts_NoErr)
+            return(HANTRO_NOK);
+    }
+
+    /* chroma AC */
+    blockCoded = codedBlockPattern & 0x2;
+    if (blockCoded)
+    {
+        for (i = 8; i--;blockIndex++)
+        {
+            nc = (OMX_INT)DetermineNc(pMb, blockIndex, pResidual->totalCoeff);
+#ifndef H264DEC_NEON
+            omxRes =  omxVCM4P10_DecodeCoeffsToPairCAVLC(
+                    (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                    (OMX_S32*) (&pStrmData->bitPosInWord),
+                    &pResidual->totalCoeff[blockIndex],
+                    &pPosCoefBuf,
+                    nc,
+                    15);
+#else
+            omxRes =  armVCM4P10_DecodeCoeffsToPair(
+                    (const OMX_U8 **) (&pStrmData->pStrmCurrPos),
+                    (OMX_S32*) (&pStrmData->bitPosInWord),
+                    &pResidual->totalCoeff[blockIndex],
+                    &pPosCoefBuf,
+                    nc,
+                    15);
+#endif
+            if (omxRes != OMX_Sts_NoErr)
+                return(HANTRO_NOK);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+#else
+/*------------------------------------------------------------------------------
+
+    Function: DecodeResidual
+
+        Functional description:
+          Parse residual information from bit stream and store in 'pResidual'.
+
+------------------------------------------------------------------------------*/
+
+u32 DecodeResidual(strmData_t *pStrmData, residual_t *pResidual,
+    mbStorage_t *pMb, mbType_e mbType, u32 codedBlockPattern)
+{
+
+/* Variables */
+
+    u32 i, j, tmp;
+    i32 nc;
+    u32 blockCoded;
+    u32 blockIndex;
+    u32 is16x16;
+    i32 (*level)[16];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pResidual);
+
+    level = pResidual->level;
+
+    /* luma DC is at index 24 */
+    if (h264bsdMbPartPredMode(mbType) == PRED_MODE_INTRA16x16)
+    {
+        nc = (i32)DetermineNc(pMb, 0, pResidual->totalCoeff);
+        tmp = h264bsdDecodeResidualBlockCavlc(pStrmData, level[24], nc, 16);
+        if ((tmp & 0xF) != HANTRO_OK)
+            return(tmp);
+        pResidual->totalCoeff[24] = (tmp >> 4) & 0xFF;
+        is16x16 = HANTRO_TRUE;
+    }
+    else
+        is16x16 = HANTRO_FALSE;
+
+    for (i = 4, blockIndex = 0; i--;)
+    {
+        /* luma cbp in bits 0-3 */
+        blockCoded = codedBlockPattern & 0x1;
+        codedBlockPattern >>= 1;
+        if (blockCoded)
+        {
+            for (j = 4; j--; blockIndex++)
+            {
+                nc = (i32)DetermineNc(pMb, blockIndex, pResidual->totalCoeff);
+                if (is16x16)
+                {
+                    tmp = h264bsdDecodeResidualBlockCavlc(pStrmData,
+                        level[blockIndex] + 1, nc, 15);
+                    pResidual->coeffMap[blockIndex] = tmp >> 15;
+                }
+                else
+                {
+                    tmp = h264bsdDecodeResidualBlockCavlc(pStrmData,
+                        level[blockIndex], nc, 16);
+                    pResidual->coeffMap[blockIndex] = tmp >> 16;
+                }
+                if ((tmp & 0xF) != HANTRO_OK)
+                    return(tmp);
+                pResidual->totalCoeff[blockIndex] = (tmp >> 4) & 0xFF;
+            }
+        }
+        else
+            blockIndex += 4;
+    }
+
+    /* chroma DC block are at indices 25 and 26 */
+    blockCoded = codedBlockPattern & 0x3;
+    if (blockCoded)
+    {
+        tmp = h264bsdDecodeResidualBlockCavlc(pStrmData, level[25], -1, 4);
+        if ((tmp & 0xF) != HANTRO_OK)
+            return(tmp);
+        pResidual->totalCoeff[25] = (tmp >> 4) & 0xFF;
+        tmp = h264bsdDecodeResidualBlockCavlc(pStrmData, level[25]+4, -1, 4);
+        if ((tmp & 0xF) != HANTRO_OK)
+            return(tmp);
+        pResidual->totalCoeff[26] = (tmp >> 4) & 0xFF;
+    }
+
+    /* chroma AC */
+    blockCoded = codedBlockPattern & 0x2;
+    if (blockCoded)
+    {
+        for (i = 8; i--;blockIndex++)
+        {
+            nc = (i32)DetermineNc(pMb, blockIndex, pResidual->totalCoeff);
+            tmp = h264bsdDecodeResidualBlockCavlc(pStrmData,
+                level[blockIndex] + 1, nc, 15);
+            if ((tmp & 0xF) != HANTRO_OK)
+                return(tmp);
+            pResidual->totalCoeff[blockIndex] = (tmp >> 4) & 0xFF;
+            pResidual->coeffMap[blockIndex] = (tmp >> 15);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+#endif
+
+/*------------------------------------------------------------------------------
+
+    Function: DetermineNc
+
+        Functional description:
+          Returns the nC of a block.
+
+------------------------------------------------------------------------------*/
+#ifdef H264DEC_OMXDL
+u32 DetermineNc(mbStorage_t *pMb, u32 blockIndex, u8 *pTotalCoeff)
+#else
+u32 DetermineNc(mbStorage_t *pMb, u32 blockIndex, i16 *pTotalCoeff)
+#endif
+{
+/*lint -e702 */
+/* Variables */
+
+    u32 tmp;
+    i32 n;
+    const neighbour_t *neighbourA, *neighbourB;
+    u8 neighbourAindex, neighbourBindex;
+
+/* Code */
+
+    ASSERT(blockIndex < 24);
+
+    /* if neighbour block belongs to current macroblock totalCoeff array
+     * mbStorage has not been set/updated yet -> use pTotalCoeff */
+    neighbourA = h264bsdNeighbour4x4BlockA(blockIndex);
+    neighbourB = h264bsdNeighbour4x4BlockB(blockIndex);
+    neighbourAindex = neighbourA->index;
+    neighbourBindex = neighbourB->index;
+    if (neighbourA->mb == MB_CURR && neighbourB->mb == MB_CURR)
+    {
+        n = (pTotalCoeff[neighbourAindex] +
+             pTotalCoeff[neighbourBindex] + 1)>>1;
+    }
+    else if (neighbourA->mb == MB_CURR)
+    {
+        n = pTotalCoeff[neighbourAindex];
+        if (h264bsdIsNeighbourAvailable(pMb, pMb->mbB))
+        {
+            n = (n + pMb->mbB->totalCoeff[neighbourBindex] + 1) >> 1;
+        }
+    }
+    else if (neighbourB->mb == MB_CURR)
+    {
+        n = pTotalCoeff[neighbourBindex];
+        if (h264bsdIsNeighbourAvailable(pMb, pMb->mbA))
+        {
+            n = (n + pMb->mbA->totalCoeff[neighbourAindex] + 1) >> 1;
+        }
+    }
+    else
+    {
+        n = tmp = 0;
+        if (h264bsdIsNeighbourAvailable(pMb, pMb->mbA))
+        {
+            n = pMb->mbA->totalCoeff[neighbourAindex];
+            tmp = 1;
+        }
+        if (h264bsdIsNeighbourAvailable(pMb, pMb->mbB))
+        {
+            if (tmp)
+                n = (n + pMb->mbB->totalCoeff[neighbourBindex] + 1) >> 1;
+            else
+                n = pMb->mbB->totalCoeff[neighbourBindex];
+        }
+    }
+    return((u32)n);
+/*lint +e702 */
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: CbpIntra16x16
+
+        Functional description:
+          Returns the coded block pattern for intra 16x16 macroblock.
+
+------------------------------------------------------------------------------*/
+
+u32 CbpIntra16x16(mbType_e mbType)
+{
+
+/* Variables */
+
+    u32 cbp;
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(mbType >= I_16x16_0_0_0 && mbType <= I_16x16_3_2_1);
+
+    if (mbType >= I_16x16_0_0_1)
+        cbp = 15;
+    else
+        cbp = 0;
+
+    /* tmp is 0 for I_16x16_0_0_0 mb type */
+    /* ignore lint warning on arithmetic on enum's */
+    tmp = /*lint -e(656)*/(mbType - I_16x16_0_0_0) >> 2;
+    if (tmp > 2)
+        tmp -= 3;
+
+    cbp += tmp << 4;
+
+    return(cbp);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdPredModeIntra16x16
+
+        Functional description:
+          Returns the prediction mode for intra 16x16 macroblock.
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdPredModeIntra16x16(mbType_e mbType)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(mbType >= I_16x16_0_0_0 && mbType <= I_16x16_3_2_1);
+
+    /* tmp is 0 for I_16x16_0_0_0 mb type */
+    /* ignore lint warning on arithmetic on enum's */
+    tmp = /*lint -e(656)*/(mbType - I_16x16_0_0_0);
+
+    return(tmp & 0x3);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDecodeMacroblock
+
+        Functional description:
+          Decode one macroblock and write into output image.
+
+        Inputs:
+          pMb           pointer to macroblock specific information
+          mbLayer       pointer to current macroblock data from stream
+          currImage     pointer to output image
+          dpb           pointer to decoded picture buffer
+          qpY           pointer to slice QP
+          mbNum         current macroblock number
+          constrainedIntraPred  flag specifying if neighbouring inter
+                                macroblocks are used in intra prediction
+
+        Outputs:
+          pMb           structure is updated with current macroblock
+          currImage     decoded macroblock is written into output image
+
+        Returns:
+          HANTRO_OK     success
+          HANTRO_NOK    error in macroblock decoding
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeMacroblock(mbStorage_t *pMb, macroblockLayer_t *pMbLayer,
+    image_t *currImage, dpbStorage_t *dpb, i32 *qpY, u32 mbNum,
+    u32 constrainedIntraPredFlag, u8* data)
+{
+
+/* Variables */
+
+    u32 i, tmp;
+    mbType_e mbType;
+#ifdef H264DEC_OMXDL
+    const u8 *pSrc;
+#endif
+/* Code */
+
+    ASSERT(pMb);
+    ASSERT(pMbLayer);
+    ASSERT(currImage);
+    ASSERT(qpY && *qpY < 52);
+    ASSERT(mbNum < currImage->width*currImage->height);
+
+    mbType = pMbLayer->mbType;
+    pMb->mbType = mbType;
+
+    pMb->decoded++;
+
+    h264bsdSetCurrImageMbPointers(currImage, mbNum);
+
+    if (mbType == I_PCM)
+    {
+        u8 *pData = (u8*)data;
+#ifdef H264DEC_OMXDL
+        u8 *tot = pMb->totalCoeff;
+#else
+        i16 *tot = pMb->totalCoeff;
+#endif
+        i32 *lev = pMbLayer->residual.level[0];
+
+        pMb->qpY = 0;
+
+        /* if decoded flag > 1 -> mb has already been successfully decoded and
+         * written to output -> do not write again */
+        if (pMb->decoded > 1)
+        {
+            for (i = 24; i--;)
+                *tot++ = 16;
+            return HANTRO_OK;
+        }
+
+        for (i = 24; i--;)
+        {
+            *tot++ = 16;
+            for (tmp = 16; tmp--;)
+                *pData++ = (u8)(*lev++);
+        }
+        h264bsdWriteMacroblock(currImage, (u8*)data);
+
+        return(HANTRO_OK);
+    }
+    else
+    {
+#ifdef H264DEC_OMXDL
+        if (h264bsdMbPartPredMode(mbType) == PRED_MODE_INTER)
+        {
+            tmp = h264bsdInterPrediction(pMb, pMbLayer, dpb, mbNum,
+                currImage, (u8*)data);
+            if (tmp != HANTRO_OK) return (tmp);
+        }
+#endif
+        if (mbType != P_Skip)
+        {
+            memcpy(pMb->totalCoeff,
+                            pMbLayer->residual.totalCoeff,
+                            27*sizeof(*pMb->totalCoeff));
+
+            /* update qpY */
+            if (pMbLayer->mbQpDelta)
+            {
+                *qpY = *qpY + pMbLayer->mbQpDelta;
+                if (*qpY < 0) *qpY += 52;
+                else if (*qpY >= 52) *qpY -= 52;
+            }
+            pMb->qpY = (u32)*qpY;
+
+#ifdef H264DEC_OMXDL
+            pSrc = pMbLayer->residual.posCoefBuf;
+
+            if (h264bsdMbPartPredMode(mbType) == PRED_MODE_INTER)
+            {
+                OMXResult res;
+                u8 *p;
+                u8 *totalCoeff = pMb->totalCoeff;
+
+                for (i = 0; i < 16; i++, totalCoeff++)
+                {
+                    p = data + lumaIndex[i];
+                    if (*totalCoeff)
+                    {
+                        res = omxVCM4P10_DequantTransformResidualFromPairAndAdd(
+                                &pSrc, p, 0, p, 16, 16, *qpY, *totalCoeff);
+                        if (res != OMX_Sts_NoErr)
+                            return (HANTRO_NOK);
+                    }
+                }
+
+            }
+            else if (h264bsdMbPartPredMode(mbType) == PRED_MODE_INTRA4x4)
+            {
+                tmp = ProcessIntra4x4Residual(pMb,
+                                              data,
+                                              constrainedIntraPredFlag,
+                                              pMbLayer,
+                                              &pSrc,
+                                              currImage);
+                if (tmp != HANTRO_OK)
+                    return (tmp);
+            }
+            else if (h264bsdMbPartPredMode(mbType) == PRED_MODE_INTRA16x16)
+            {
+                tmp = ProcessIntra16x16Residual(pMb,
+                                        data,
+                                        constrainedIntraPredFlag,
+                                        pMbLayer->mbPred.intraChromaPredMode,
+                                        &pSrc,
+                                        currImage);
+                if (tmp != HANTRO_OK)
+                    return (tmp);
+            }
+
+            tmp = ProcessChromaResidual(pMb, data, &pSrc);
+
+#else
+            tmp = ProcessResidual(pMb, pMbLayer->residual.level,
+                pMbLayer->residual.coeffMap);
+#endif
+            if (tmp != HANTRO_OK)
+                return (tmp);
+        }
+        else
+        {
+            memset(pMb->totalCoeff, 0, 27*sizeof(*pMb->totalCoeff));
+            pMb->qpY = (u32)*qpY;
+        }
+#ifdef H264DEC_OMXDL
+        /* if decoded flag > 1 -> mb has already been successfully decoded and
+         * written to output -> do not write again */
+        if (pMb->decoded > 1)
+            return HANTRO_OK;
+
+        h264bsdWriteMacroblock(currImage, data);
+#else
+        if (h264bsdMbPartPredMode(mbType) != PRED_MODE_INTER)
+        {
+            tmp = h264bsdIntraPrediction(pMb, pMbLayer, currImage, mbNum,
+                constrainedIntraPredFlag, (u8*)data);
+            if (tmp != HANTRO_OK) return (tmp);
+        }
+        else
+        {
+            tmp = h264bsdInterPrediction(pMb, pMbLayer, dpb, mbNum,
+                currImage, (u8*)data);
+            if (tmp != HANTRO_OK) return (tmp);
+        }
+#endif
+    }
+
+    return HANTRO_OK;
+}
+
+
+#ifdef H264DEC_OMXDL
+
+/*------------------------------------------------------------------------------
+
+    Function: ProcessChromaResidual
+
+        Functional description:
+          Process the residual data of chroma with
+          inverse quantization and inverse transform.
+
+------------------------------------------------------------------------------*/
+u32 ProcessChromaResidual(mbStorage_t *pMb, u8 *data, const u8 **pSrc )
+{
+    u32 i;
+    u32 chromaQp;
+    i16 *pDc;
+    i16 dc[4 + 4] = {0,0,0,0,0,0,0,0};
+    u8 *totalCoeff;
+    OMXResult result;
+    u8 *p;
+
+    /* chroma DC processing. First chroma dc block is block with index 25 */
+    chromaQp =
+        h264bsdQpC[CLIP3(0, 51, (i32)pMb->qpY + pMb->chromaQpIndexOffset)];
+
+    if (pMb->totalCoeff[25])
+    {
+        pDc = dc;
+        result = omxVCM4P10_TransformDequantChromaDCFromPair(
+                pSrc,
+                pDc,
+                (i32)chromaQp);
+        if (result != OMX_Sts_NoErr)
+            return (HANTRO_NOK);
+    }
+    if (pMb->totalCoeff[26])
+    {
+        pDc = dc+4;
+        result = omxVCM4P10_TransformDequantChromaDCFromPair(
+                pSrc,
+                pDc,
+                (i32)chromaQp);
+        if (result != OMX_Sts_NoErr)
+            return (HANTRO_NOK);
+    }
+
+    pDc = dc;
+    totalCoeff = pMb->totalCoeff + 16;
+    for (i = 0; i < 8; i++, pDc++, totalCoeff++)
+    {
+        /* chroma prediction */
+        if (*totalCoeff || *pDc)
+        {
+            p = data + chromaIndex[i];
+            result = omxVCM4P10_DequantTransformResidualFromPairAndAdd(
+                    pSrc,
+                    p,
+                    pDc,
+                    p,
+                    8,
+                    8,
+                    (i32)chromaQp,
+                    *totalCoeff);
+            if (result != OMX_Sts_NoErr)
+                return (HANTRO_NOK);
+        }
+    }
+
+    return(HANTRO_OK);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: ProcessIntra16x16Residual
+
+        Functional description:
+          Process the residual data of luma with
+          inverse quantization and inverse transform.
+
+------------------------------------------------------------------------------*/
+u32 ProcessIntra16x16Residual(mbStorage_t *pMb,
+                              u8 *data,
+                              u32 constrainedIntraPred,
+                              u32 intraChromaPredMode,
+                              const u8** pSrc,
+                              image_t *image)
+{
+    u32 i;
+    i16 *pDc;
+    i16 dc[16] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
+    u8 *totalCoeff;
+    OMXResult result;
+    u8 *p;
+
+    totalCoeff = pMb->totalCoeff;
+
+    if (totalCoeff[24])
+    {
+        pDc = dc;
+        result = omxVCM4P10_TransformDequantLumaDCFromPair(
+                    pSrc,
+                    pDc,
+                    (i32)pMb->qpY);
+        if (result != OMX_Sts_NoErr)
+            return (HANTRO_NOK);
+    }
+    /* Intra 16x16 pred */
+    if (h264bsdIntra16x16Prediction(pMb, data, image->luma,
+                            image->width*16, constrainedIntraPred) != HANTRO_OK)
+        return(HANTRO_NOK);
+    for (i = 0; i < 16; i++, totalCoeff++)
+    {
+        p = data + lumaIndex[i];
+        pDc = &dc[dcCoeffIndex[i]];
+        if (*totalCoeff || *pDc)
+        {
+            result = omxVCM4P10_DequantTransformResidualFromPairAndAdd(
+                    pSrc,
+                    p,
+                    pDc,
+                    p,
+                    16,
+                    16,
+                    (i32)pMb->qpY,
+                    *totalCoeff);
+            if (result != OMX_Sts_NoErr)
+                return (HANTRO_NOK);
+        }
+    }
+
+    if (h264bsdIntraChromaPrediction(pMb, data + 256,
+                image,
+                intraChromaPredMode,
+                constrainedIntraPred) != HANTRO_OK)
+        return(HANTRO_NOK);
+
+    return HANTRO_OK;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: ProcessIntra4x4Residual
+
+        Functional description:
+          Process the residual data of luma with
+          inverse quantization and inverse transform.
+
+------------------------------------------------------------------------------*/
+u32 ProcessIntra4x4Residual(mbStorage_t *pMb,
+                            u8 *data,
+                            u32 constrainedIntraPred,
+                            macroblockLayer_t *mbLayer,
+                            const u8 **pSrc,
+                            image_t *image)
+{
+    u32 i;
+    u8 *totalCoeff;
+    OMXResult result;
+    u8 *p;
+
+    totalCoeff = pMb->totalCoeff;
+
+    for (i = 0; i < 16; i++, totalCoeff++)
+    {
+        p = data + lumaIndex[i];
+        if (h264bsdIntra4x4Prediction(pMb, p, mbLayer, image->luma,
+                    image->width*16, constrainedIntraPred, i) != HANTRO_OK)
+            return(HANTRO_NOK);
+
+        if (*totalCoeff)
+        {
+            result = omxVCM4P10_DequantTransformResidualFromPairAndAdd(
+                    pSrc,
+                    p,
+                    NULL,
+                    p,
+                    16,
+                    16,
+                    (i32)pMb->qpY,
+                    *totalCoeff);
+            if (result != OMX_Sts_NoErr)
+                return (HANTRO_NOK);
+        }
+    }
+
+    if (h264bsdIntraChromaPrediction(pMb, data + 256,
+                image,
+                mbLayer->mbPred.intraChromaPredMode,
+                constrainedIntraPred) != HANTRO_OK)
+        return(HANTRO_NOK);
+
+    return HANTRO_OK;
+}
+
+#else /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: ProcessResidual
+
+        Functional description:
+          Process the residual data of one macroblock with
+          inverse quantization and inverse transform.
+
+------------------------------------------------------------------------------*/
+
+u32 ProcessResidual(mbStorage_t *pMb, i32 residualLevel[][16], u32 *coeffMap)
+{
+
+/* Variables */
+
+    u32 i;
+    u32 chromaQp;
+    i32 (*blockData)[16];
+    i32 (*blockDc)[16];
+    i16 *totalCoeff;
+    i32 *chromaDc;
+    const u32 *dcCoeffIdx;
+
+/* Code */
+
+    ASSERT(pMb);
+    ASSERT(residualLevel);
+
+    /* set pointers to DC coefficient blocks */
+    blockDc = residualLevel + 24;
+
+    blockData = residualLevel;
+    totalCoeff = pMb->totalCoeff;
+    if (h264bsdMbPartPredMode(pMb->mbType) == PRED_MODE_INTRA16x16)
+    {
+        if (totalCoeff[24])
+        {
+            h264bsdProcessLumaDc(*blockDc, pMb->qpY);
+        }
+        dcCoeffIdx = dcCoeffIndex;
+
+        for (i = 16; i--; blockData++, totalCoeff++, coeffMap++)
+        {
+            /* set dc coefficient of luma block */
+            (*blockData)[0] = (*blockDc)[*dcCoeffIdx++];
+            if ((*blockData)[0] || *totalCoeff)
+            {
+                if (h264bsdProcessBlock(*blockData, pMb->qpY, 1, *coeffMap) !=
+                    HANTRO_OK)
+                    return(HANTRO_NOK);
+            }
+            else
+                MARK_RESIDUAL_EMPTY(*blockData);
+        }
+    }
+    else
+    {
+        for (i = 16; i--; blockData++, totalCoeff++, coeffMap++)
+        {
+            if (*totalCoeff)
+            {
+                if (h264bsdProcessBlock(*blockData, pMb->qpY, 0, *coeffMap) !=
+                    HANTRO_OK)
+                    return(HANTRO_NOK);
+            }
+            else
+                MARK_RESIDUAL_EMPTY(*blockData);
+        }
+    }
+
+    /* chroma DC processing. First chroma dc block is block with index 25 */
+    chromaQp =
+        h264bsdQpC[CLIP3(0, 51, (i32)pMb->qpY + pMb->chromaQpIndexOffset)];
+    if (pMb->totalCoeff[25] || pMb->totalCoeff[26])
+        h264bsdProcessChromaDc(residualLevel[25], chromaQp);
+    chromaDc = residualLevel[25];
+    for (i = 8; i--; blockData++, totalCoeff++, coeffMap++)
+    {
+        /* set dc coefficient of chroma block */
+        (*blockData)[0] = *chromaDc++;
+        if ((*blockData)[0] || *totalCoeff)
+        {
+            if (h264bsdProcessBlock(*blockData, chromaQp, 1,*coeffMap) !=
+                HANTRO_OK)
+                return(HANTRO_NOK);
+        }
+        else
+            MARK_RESIDUAL_EMPTY(*blockData);
+    }
+
+    return(HANTRO_OK);
+}
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdSubMbPartMode
+
+        Functional description:
+          Returns the macroblock's sub-partition mode.
+
+------------------------------------------------------------------------------*/
+
+subMbPartMode_e h264bsdSubMbPartMode(subMbType_e subMbType)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    ASSERT(subMbType < 4);
+
+    return((subMbPartMode_e)subMbType);
+
+}
+
+
--- /dev/null
+++ b/src/h264bsd_macroblock_layer.h
@@ -1,0 +1,213 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_MACROBLOCK_LAYER_H
+#define H264SWDEC_MACROBLOCK_LAYER_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_image.h"
+#include "h264bsd_dpb.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/* Macro to determine if a mb is an intra mb */
+#define IS_INTRA_MB(a) ((a).mbType > 5)
+
+/* Macro to determine if a mb is an I_PCM mb */
+#define IS_I_PCM_MB(a) ((a).mbType == 31)
+
+typedef enum {
+    P_Skip          = 0,
+    P_L0_16x16      = 1,
+    P_L0_L0_16x8    = 2,
+    P_L0_L0_8x16    = 3,
+    P_8x8           = 4,
+    P_8x8ref0       = 5,
+    I_4x4           = 6,
+    I_16x16_0_0_0   = 7,
+    I_16x16_1_0_0   = 8,
+    I_16x16_2_0_0   = 9,
+    I_16x16_3_0_0   = 10,
+    I_16x16_0_1_0   = 11,
+    I_16x16_1_1_0   = 12,
+    I_16x16_2_1_0   = 13,
+    I_16x16_3_1_0   = 14,
+    I_16x16_0_2_0   = 15,
+    I_16x16_1_2_0   = 16,
+    I_16x16_2_2_0   = 17,
+    I_16x16_3_2_0   = 18,
+    I_16x16_0_0_1   = 19,
+    I_16x16_1_0_1   = 20,
+    I_16x16_2_0_1   = 21,
+    I_16x16_3_0_1   = 22,
+    I_16x16_0_1_1   = 23,
+    I_16x16_1_1_1   = 24,
+    I_16x16_2_1_1   = 25,
+    I_16x16_3_1_1   = 26,
+    I_16x16_0_2_1   = 27,
+    I_16x16_1_2_1   = 28,
+    I_16x16_2_2_1   = 29,
+    I_16x16_3_2_1   = 30,
+    I_PCM           = 31
+} mbType_e;
+
+typedef enum {
+    P_L0_8x8 = 0,
+    P_L0_8x4 = 1,
+    P_L0_4x8 = 2,
+    P_L0_4x4 = 3
+} subMbType_e;
+
+typedef enum {
+    MB_P_16x16 = 0,
+    MB_P_16x8,
+    MB_P_8x16,
+    MB_P_8x8
+} mbPartMode_e;
+
+typedef enum {
+    MB_SP_8x8 = 0,
+    MB_SP_8x4,
+    MB_SP_4x8,
+    MB_SP_4x4
+} subMbPartMode_e;
+
+typedef enum {
+    PRED_MODE_INTRA4x4 = 0,
+    PRED_MODE_INTRA16x16  ,
+    PRED_MODE_INTER
+} mbPartPredMode_e;
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    /* MvPrediction16x16 assumes that MVs are 16bits */
+    i16 hor;
+    i16 ver;
+} mv_t;
+
+typedef struct
+{
+    u32 prevIntra4x4PredModeFlag[16];
+    u32 remIntra4x4PredMode[16];
+    u32 intraChromaPredMode;
+    u32 refIdxL0[4];
+    mv_t mvdL0[4];
+} mbPred_t;
+
+typedef struct
+{
+    subMbType_e subMbType[4];
+    u32 refIdxL0[4];
+    mv_t mvdL0[4][4];
+} subMbPred_t;
+
+typedef struct
+{
+#ifdef H264DEC_OMXDL
+    u8 posCoefBuf[27*16*3];
+    u8 totalCoeff[27];
+#else
+    i16 totalCoeff[27];
+#endif
+    i32 level[26][16];
+    u32 coeffMap[24];
+} residual_t;
+
+typedef struct
+{
+    mbType_e mbType;
+    u32 codedBlockPattern;
+    i32 mbQpDelta;
+    mbPred_t mbPred;
+    subMbPred_t subMbPred;
+    residual_t residual;
+} macroblockLayer_t;
+
+typedef struct mbStorage
+{
+    mbType_e mbType;
+    u32 sliceId;
+    u32 disableDeblockingFilterIdc;
+    i32 filterOffsetA;
+    i32 filterOffsetB;
+    u32 qpY;
+    i32 chromaQpIndexOffset;
+#ifdef H264DEC_OMXDL
+    u8 totalCoeff[27];
+#else
+    i16 totalCoeff[27];
+#endif
+    u8 intra4x4PredMode[16];
+    u32 refPic[4];
+    u8* refAddr[4];
+    mv_t mv[16];
+    u32 decoded;
+    struct mbStorage *mbA;
+    struct mbStorage *mbB;
+    struct mbStorage *mbC;
+    struct mbStorage *mbD;
+} mbStorage_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeMacroblockLayer(strmData_t *pStrmData,
+    macroblockLayer_t *pMbLayer, mbStorage_t *pMb, u32 sliceType,
+    u32 numRefIdxActive);
+
+u32 h264bsdNumMbPart(mbType_e mbType);
+u32 h264bsdNumSubMbPart(subMbType_e subMbType);
+
+subMbPartMode_e h264bsdSubMbPartMode(subMbType_e subMbType);
+
+u32 h264bsdDecodeMacroblock(mbStorage_t *pMb, macroblockLayer_t *pMbLayer,
+    image_t *currImage, dpbStorage_t *dpb, i32 *qpY, u32 mbNum,
+    u32 constrainedIntraPredFlag, u8* data);
+
+u32 h264bsdPredModeIntra16x16(mbType_e mbType);
+
+mbPartPredMode_e h264bsdMbPartPredMode(mbType_e mbType);
+#ifdef H264DEC_NEON
+u32 h264bsdClearMbLayer(macroblockLayer_t *pMbLayer, u32 size);
+#endif
+
+#endif /* #ifdef H264SWDEC_MACROBLOCK_LAYER_H */
+
+
--- /dev/null
+++ b/src/h264bsd_nal_unit.c
@@ -1,0 +1,118 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeNalUnit
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_nal_unit.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdDecodeNalUnit
+
+        Functional description:
+            Decode NAL unit header information
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            pNalUnit        NAL unit header information is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid NAL unit header information
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeNalUnit(strmData_t *pStrmData, nalUnit_t *pNalUnit)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pNalUnit);
+    ASSERT(pStrmData->bitPosInWord == 0);
+
+    /* forbidden_zero_bit (not checked to be zero, errors ignored) */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    /* Assuming that NAL unit starts from byte boundary �> don't have to check
+     * following 7 bits for END_OF_STREAM */
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetBits(pStrmData, 2);
+    pNalUnit->nalRefIdc = tmp;
+
+    tmp = h264bsdGetBits(pStrmData, 5);
+    pNalUnit->nalUnitType = (nalUnitType_e)tmp;
+
+    /* data partitioning NAL units not supported */
+    if ( (tmp == 2) || (tmp == 3) || (tmp == 4) )
+    {
+        return(HANTRO_NOK);
+    }
+
+    /* nal_ref_idc shall not be zero for these nal_unit_types */
+    if ( ( (tmp == NAL_SEQ_PARAM_SET) || (tmp == NAL_PIC_PARAM_SET) ||
+           (tmp == NAL_CODED_SLICE_IDR) ) && (pNalUnit->nalRefIdc == 0) )
+    {
+        return(HANTRO_NOK);
+    }
+    /* nal_ref_idc shall be zero for these nal_unit_types */
+    else if ( ( (tmp == NAL_SEI) || (tmp == NAL_ACCESS_UNIT_DELIMITER) ||
+                (tmp == NAL_END_OF_SEQUENCE) || (tmp == NAL_END_OF_STREAM) ||
+                (tmp == NAL_FILLER_DATA) ) && (pNalUnit->nalRefIdc != 0) )
+    {
+        return(HANTRO_NOK);
+    }
+
+    return(HANTRO_OK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_nal_unit.h
@@ -1,0 +1,77 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_NAL_UNIT_H
+#define H264SWDEC_NAL_UNIT_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/* macro to determine if NAL unit pointed by pNalUnit contains an IDR slice */
+#define IS_IDR_NAL_UNIT(pNalUnit) \
+    ((pNalUnit)->nalUnitType == NAL_CODED_SLICE_IDR)
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef enum {
+    NAL_CODED_SLICE = 1,
+    NAL_CODED_SLICE_IDR = 5,
+    NAL_SEI = 6,
+    NAL_SEQ_PARAM_SET = 7,
+    NAL_PIC_PARAM_SET = 8,
+    NAL_ACCESS_UNIT_DELIMITER = 9,
+    NAL_END_OF_SEQUENCE = 10,
+    NAL_END_OF_STREAM = 11,
+    NAL_FILLER_DATA = 12,
+    NAL_MAX_TYPE_VALUE = 31
+} nalUnitType_e;
+
+typedef struct
+{
+    nalUnitType_e nalUnitType;
+    u32 nalRefIdc;
+} nalUnit_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeNalUnit(strmData_t *pStrmData, nalUnit_t *pNalUnit);
+
+#endif /* #ifdef H264SWDEC_NAL_UNIT_H */
+
--- /dev/null
+++ b/src/h264bsd_neighbour.c
@@ -1,0 +1,383 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdInitMbNeighbours
+          h264bsdGetNeighbourMb
+          h264bsdNeighbour4x4BlockA
+          h264bsdNeighbour4x4BlockB
+          h264bsdNeighbour4x4BlockC
+          h264bsdNeighbour4x4BlockD
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_neighbour.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* Following four tables indicate neighbours of each block of a macroblock.
+ * First 16 values are for luma blocks, next 4 values for Cb and last 4
+ * values for Cr. Elements of the table indicate to which macroblock the
+ * neighbour block belongs and the index of the neighbour block in question.
+ * Indexing of the blocks goes as follows
+ *
+ *          Y             Cb       Cr
+ *      0  1  4  5      16 17    20 21
+ *      2  3  6  7      18 19    22 23
+ *      8  9 12 13
+ *     10 11 14 15
+ */
+
+/* left neighbour for each block */
+static const neighbour_t N_A_4x4B[24] = {
+    {MB_A,5},    {MB_CURR,0}, {MB_A,7},    {MB_CURR,2},
+    {MB_CURR,1}, {MB_CURR,4}, {MB_CURR,3}, {MB_CURR,6},
+    {MB_A,13},   {MB_CURR,8}, {MB_A,15},   {MB_CURR,10},
+    {MB_CURR,9}, {MB_CURR,12},{MB_CURR,11},{MB_CURR,14},
+    {MB_A,17},   {MB_CURR,16},{MB_A,19},   {MB_CURR,18},
+    {MB_A,21},   {MB_CURR,20},{MB_A,23},   {MB_CURR,22} };
+
+/* above neighbour for each block */
+static const neighbour_t N_B_4x4B[24] = {
+    {MB_B,10},   {MB_B,11},   {MB_CURR,0}, {MB_CURR,1},
+    {MB_B,14},   {MB_B,15},   {MB_CURR,4}, {MB_CURR,5},
+    {MB_CURR,2}, {MB_CURR,3}, {MB_CURR,8}, {MB_CURR,9},
+    {MB_CURR,6}, {MB_CURR,7}, {MB_CURR,12},{MB_CURR,13},
+    {MB_B,18},   {MB_B,19},   {MB_CURR,16},{MB_CURR,17},
+    {MB_B,22},   {MB_B,23},   {MB_CURR,20},{MB_CURR,21} };
+
+/* above-right neighbour for each block */
+static const neighbour_t N_C_4x4B[24] = {
+    {MB_B,11},   {MB_B,14},   {MB_CURR,1}, {MB_NA,4},
+    {MB_B,15},   {MB_C,10},   {MB_CURR,5}, {MB_NA,0},
+    {MB_CURR,3}, {MB_CURR,6}, {MB_CURR,9}, {MB_NA,12},
+    {MB_CURR,7}, {MB_NA,2},   {MB_CURR,13},{MB_NA,8},
+    {MB_B,19},   {MB_C,18},   {MB_CURR,17},{MB_NA,16},
+    {MB_B,23},   {MB_C,22},   {MB_CURR,21},{MB_NA,20} };
+
+/* above-left neighbour for each block */
+static const neighbour_t N_D_4x4B[24] = {
+    {MB_D,15},   {MB_B,10},   {MB_A,5},    {MB_CURR,0},
+    {MB_B,11},   {MB_B,14},   {MB_CURR,1}, {MB_CURR,4},
+    {MB_A,7},    {MB_CURR,2}, {MB_A,13},   {MB_CURR,8},
+    {MB_CURR,3}, {MB_CURR,6}, {MB_CURR,9}, {MB_CURR,12},
+    {MB_D,19},   {MB_B,18},   {MB_A,17},   {MB_CURR,16},
+    {MB_D,23},   {MB_B,22},   {MB_A,21},   {MB_CURR,20} };
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInitMbNeighbours
+
+        Functional description:
+            Initialize macroblock neighbours. Function sets neighbour
+            macroblock pointers in macroblock structures to point to
+            macroblocks on the left, above, above-right and above-left.
+            Pointers are set NULL if the neighbour does not fit into the
+            picture.
+
+        Inputs:
+            picWidth        width of the picture in macroblocks
+            picSizeInMbs    no need to clarify
+
+        Outputs:
+            pMbStorage      neighbour pointers of each mbStorage structure
+                            stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInitMbNeighbours(mbStorage_t *pMbStorage, u32 picWidth,
+    u32 picSizeInMbs)
+{
+
+/* Variables */
+
+    u32 i, row, col;
+
+/* Code */
+
+    ASSERT(pMbStorage);
+    ASSERT(picWidth);
+    ASSERT(picWidth <= picSizeInMbs);
+    ASSERT(((picSizeInMbs / picWidth) * picWidth) == picSizeInMbs);
+
+    row = col = 0;
+
+    for (i = 0; i < picSizeInMbs; i++)
+    {
+
+        if (col)
+            pMbStorage[i].mbA = pMbStorage + i - 1;
+        else
+            pMbStorage[i].mbA = NULL;
+
+        if (row)
+            pMbStorage[i].mbB = pMbStorage + i - picWidth;
+        else
+            pMbStorage[i].mbB = NULL;
+
+        if (row && (col < picWidth - 1))
+            pMbStorage[i].mbC = pMbStorage + i - (picWidth - 1);
+        else
+            pMbStorage[i].mbC = NULL;
+
+        if (row && col)
+            pMbStorage[i].mbD = pMbStorage + i - (picWidth + 1);
+        else
+            pMbStorage[i].mbD = NULL;
+
+        col++;
+        if (col == picWidth)
+        {
+            col = 0;
+            row++;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdGetNeighbourMb
+
+        Functional description:
+            Get pointer to neighbour macroblock.
+
+        Inputs:
+            pMb         pointer to macroblock structure of the macroblock
+                        whose neighbour is wanted
+            neighbour   indicates which neighbour is wanted
+
+        Outputs:
+            none
+
+        Returns:
+            pointer to neighbour macroblock
+            NULL if not available
+
+------------------------------------------------------------------------------*/
+
+mbStorage_t* h264bsdGetNeighbourMb(mbStorage_t *pMb, neighbourMb_e neighbour)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    ASSERT((neighbour <= MB_CURR) || (neighbour == MB_NA));
+
+    if (neighbour == MB_A)
+        return(pMb->mbA);
+    else if (neighbour == MB_B)
+        return(pMb->mbB);
+    else if (neighbour == MB_C)
+        return(pMb->mbC);
+    else if (neighbour == MB_D)
+        return(pMb->mbD);
+    else if (neighbour == MB_CURR)
+        return(pMb);
+    else
+        return(NULL);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNeighbour4x4BlockA
+
+        Functional description:
+            Get left neighbour of the block. Function returns pointer to
+            the table defined in the beginning of the file.
+
+        Inputs:
+            blockIndex  indicates the block whose neighbours are wanted
+
+        Outputs:
+
+        Returns:
+            pointer to neighbour structure
+
+------------------------------------------------------------------------------*/
+
+const neighbour_t* h264bsdNeighbour4x4BlockA(u32 blockIndex)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(blockIndex < 24);
+
+    return(N_A_4x4B+blockIndex);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNeighbour4x4BlockB
+
+        Functional description:
+            Get above neighbour of the block. Function returns pointer to
+            the table defined in the beginning of the file.
+
+        Inputs:
+            blockIndex  indicates the block whose neighbours are wanted
+
+        Outputs:
+
+        Returns:
+            pointer to neighbour structure
+
+------------------------------------------------------------------------------*/
+
+const neighbour_t* h264bsdNeighbour4x4BlockB(u32 blockIndex)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(blockIndex < 24);
+
+    return(N_B_4x4B+blockIndex);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNeighbour4x4BlockC
+
+        Functional description:
+            Get above-right  neighbour of the block. Function returns pointer
+            to the table defined in the beginning of the file.
+
+        Inputs:
+            blockIndex  indicates the block whose neighbours are wanted
+
+        Outputs:
+
+        Returns:
+            pointer to neighbour structure
+
+------------------------------------------------------------------------------*/
+
+const neighbour_t* h264bsdNeighbour4x4BlockC(u32 blockIndex)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(blockIndex < 24);
+
+    return(N_C_4x4B+blockIndex);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdNeighbour4x4BlockD
+
+        Functional description:
+            Get above-left neighbour of the block. Function returns pointer to
+            the table defined in the beginning of the file.
+
+        Inputs:
+            blockIndex  indicates the block whose neighbours are wanted
+
+        Outputs:
+
+        Returns:
+            pointer to neighbour structure
+
+------------------------------------------------------------------------------*/
+
+const neighbour_t* h264bsdNeighbour4x4BlockD(u32 blockIndex)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(blockIndex < 24);
+
+    return(N_D_4x4B+blockIndex);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIsNeighbourAvailable
+
+        Functional description:
+            Check if neighbour macroblock is available. Neighbour macroblock
+            is considered available if it is within the picture and belongs
+            to the same slice as the current macroblock.
+
+        Inputs:
+            pMb         pointer to the current macroblock
+            pNeighbour  pointer to the neighbour macroblock
+
+        Outputs:
+            none
+
+        Returns:
+            TRUE    neighbour is available
+            FALSE   neighbour is not available
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIsNeighbourAvailable(mbStorage_t *pMb, mbStorage_t *pNeighbour)
+{
+
+/* Variables */
+
+/* Code */
+
+    if ( (pNeighbour == NULL) || (pMb->sliceId != pNeighbour->sliceId) )
+        return(HANTRO_FALSE);
+    else
+        return(HANTRO_TRUE);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_neighbour.h
@@ -1,0 +1,79 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_NEIGHBOUR_H
+#define H264SWDEC_NEIGHBOUR_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_macroblock_layer.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+typedef enum {
+    MB_A = 0,
+    MB_B,
+    MB_C,
+    MB_D,
+    MB_CURR,
+    MB_NA = 0xFF
+} neighbourMb_e;
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    neighbourMb_e   mb;
+    u8             index;
+} neighbour_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+void h264bsdInitMbNeighbours(mbStorage_t *pMbStorage, u32 picWidth,
+    u32 picSizeInMbs);
+
+mbStorage_t* h264bsdGetNeighbourMb(mbStorage_t *pMb, neighbourMb_e neighbour);
+
+u32 h264bsdIsNeighbourAvailable(mbStorage_t *pMb, mbStorage_t *pNeighbour);
+
+const neighbour_t* h264bsdNeighbour4x4BlockA(u32 blockIndex);
+const neighbour_t* h264bsdNeighbour4x4BlockB(u32 blockIndex);
+const neighbour_t* h264bsdNeighbour4x4BlockC(u32 blockIndex);
+const neighbour_t* h264bsdNeighbour4x4BlockD(u32 blockIndex);
+
+#endif /* #ifdef H264SWDEC_NEIGHBOUR_H */
+
--- /dev/null
+++ b/src/h264bsd_pic_order_cnt.c
@@ -1,0 +1,348 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodePicOrderCnt
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_util.h"
+#include "h264bsd_pic_order_cnt.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDecodePicOrderCnt
+
+        Functional description:
+            Compute picture order count for a picture. Function implements
+            computation of all POC types (0, 1 and 2), type is obtained from
+            sps. See standard for description of the POC types and how POC is
+            computed for each type.
+
+            Function returns the minimum of top field and bottom field pic
+            order counts.
+
+        Inputs:
+            poc         pointer to previous results
+            sps         pointer to sequence parameter set
+            slicHeader  pointer to current slice header, frame number and
+                        other params needed for POC computation
+            pNalUnit    pointer to current NAL unit structrue, function needs
+                        to know if this is an IDR picture and also if this is
+                        a reference picture
+
+        Outputs:
+            poc         results stored here for computation of next POC
+
+        Returns:
+            picture order count
+
+------------------------------------------------------------------------------*/
+
+i32 h264bsdDecodePicOrderCnt(pocStorage_t *poc, seqParamSet_t *sps,
+    sliceHeader_t *pSliceHeader, nalUnit_t *pNalUnit)
+{
+
+/* Variables */
+
+    u32 i;
+    i32 picOrderCnt;
+    u32 frameNumOffset, absFrameNum, picOrderCntCycleCnt;
+    u32 frameNumInPicOrderCntCycle;
+    i32 expectedDeltaPicOrderCntCycle;
+    u32 containsMmco5;
+
+/* Code */
+
+    ASSERT(poc);
+    ASSERT(sps);
+    ASSERT(pSliceHeader);
+    ASSERT(pNalUnit);
+    ASSERT(sps->picOrderCntType <= 2);
+
+#if 0
+    /* JanSa: I don't think this is necessary, don't see any reason to
+     * increment prevFrameNum one by one instead of one big increment.
+     * However, standard specifies that this should be done -> if someone
+     * figures out any case when the outcome would be different for step by
+     * step increment, this part of the code should be enabled */
+
+    /* if there was a gap in frame numbering and picOrderCntType is 1 or 2 ->
+     * "compute" pic order counts for non-existing frames. These are not
+     * actually computed, but process needs to be done to update the
+     * prevFrameNum and prevFrameNumOffset */
+    if ( sps->picOrderCntType > 0 &&
+         pSliceHeader->frameNum != poc->prevFrameNum &&
+         pSliceHeader->frameNum != ((poc->prevFrameNum + 1) % sps->maxFrameNum))
+    {
+
+        /* use variable i for unUsedShortTermFrameNum */
+        i = (poc->prevFrameNum + 1) % sps->maxFrameNum;
+
+        do
+        {
+            if (poc->prevFrameNum > i)
+                frameNumOffset = poc->prevFrameNumOffset + sps->maxFrameNum;
+            else
+                frameNumOffset = poc->prevFrameNumOffset;
+
+            poc->prevFrameNumOffset = frameNumOffset;
+            poc->prevFrameNum = i;
+
+            i = (i + 1) % sps->maxFrameNum;
+
+        } while (i != pSliceHeader->frameNum);
+    }
+#endif
+
+    /* check if current slice includes mmco equal to 5 */
+    containsMmco5 = HANTRO_FALSE;
+    if (pSliceHeader->decRefPicMarking.adaptiveRefPicMarkingModeFlag)
+    {
+        i = 0;
+        while (pSliceHeader->decRefPicMarking.operation[i].
+            memoryManagementControlOperation)
+        {
+            if (pSliceHeader->decRefPicMarking.operation[i].
+                memoryManagementControlOperation == 5)
+            {
+                containsMmco5 = HANTRO_TRUE;
+                break;
+            }
+            i++;
+        }
+    }
+    switch (sps->picOrderCntType)
+    {
+
+        case 0:
+            /* set prevPicOrderCnt values for IDR frame */
+            if (IS_IDR_NAL_UNIT(pNalUnit))
+            {
+                poc->prevPicOrderCntMsb = 0;
+                poc->prevPicOrderCntLsb = 0;
+            }
+
+            /* compute picOrderCntMsb (stored in picOrderCnt variable) */
+            if ( (pSliceHeader->picOrderCntLsb < poc->prevPicOrderCntLsb) &&
+                ((poc->prevPicOrderCntLsb - pSliceHeader->picOrderCntLsb) >=
+                 sps->maxPicOrderCntLsb/2) )
+            {
+                picOrderCnt = poc->prevPicOrderCntMsb +
+                    (i32)sps->maxPicOrderCntLsb;
+            }
+            else if ((pSliceHeader->picOrderCntLsb > poc->prevPicOrderCntLsb) &&
+                ((pSliceHeader->picOrderCntLsb - poc->prevPicOrderCntLsb) >
+                 sps->maxPicOrderCntLsb/2) )
+            {
+                picOrderCnt = poc->prevPicOrderCntMsb -
+                    (i32)sps->maxPicOrderCntLsb;
+            }
+            else
+                picOrderCnt = poc->prevPicOrderCntMsb;
+
+            /* standard specifies that prevPicOrderCntMsb is from previous
+             * rererence frame -> replace old value only if current frame is
+             * rererence frame */
+            if (pNalUnit->nalRefIdc)
+                poc->prevPicOrderCntMsb = picOrderCnt;
+
+            /* compute top field order cnt (stored in picOrderCnt) */
+            picOrderCnt += (i32)pSliceHeader->picOrderCntLsb;
+
+            /* if delta for bottom field is negative -> bottom will be the
+             * minimum pic order count */
+            if (pSliceHeader->deltaPicOrderCntBottom < 0)
+                picOrderCnt += pSliceHeader->deltaPicOrderCntBottom;
+
+            /* standard specifies that prevPicOrderCntLsb is from previous
+             * rererence frame -> replace old value only if current frame is
+             * rererence frame */
+            if (pNalUnit->nalRefIdc)
+            {
+                /* if current frame contains mmco5 -> modify values to be
+                 * stored */
+                if (containsMmco5)
+                {
+                    poc->prevPicOrderCntMsb = 0;
+                    /* prevPicOrderCntLsb should be the top field picOrderCnt
+                     * if previous frame included mmco5. Top field picOrderCnt
+                     * for frames containing mmco5 is obtained by subtracting
+                     * the picOrderCnt from original top field order count ->
+                     * value is zero if top field was the minimum, i.e. delta
+                     * for bottom was positive, otherwise value is
+                     * -deltaPicOrderCntBottom */
+                    if (pSliceHeader->deltaPicOrderCntBottom < 0)
+                        poc->prevPicOrderCntLsb =
+                            (u32)(-pSliceHeader->deltaPicOrderCntBottom);
+                    else
+                        poc->prevPicOrderCntLsb = 0;
+                    picOrderCnt = 0;
+                }
+                else
+                {
+                    poc->prevPicOrderCntLsb = pSliceHeader->picOrderCntLsb;
+                }
+            }
+
+            break;
+
+        case 1:
+
+            /* step 1 (in the description in the standard) */
+            if (IS_IDR_NAL_UNIT(pNalUnit))
+                frameNumOffset = 0;
+            else if (poc->prevFrameNum > pSliceHeader->frameNum)
+                frameNumOffset = poc->prevFrameNumOffset + sps->maxFrameNum;
+            else
+                frameNumOffset = poc->prevFrameNumOffset;
+
+            /* step 2 */
+            if (sps->numRefFramesInPicOrderCntCycle)
+                absFrameNum = frameNumOffset + pSliceHeader->frameNum;
+            else
+                absFrameNum = 0;
+
+            if (pNalUnit->nalRefIdc == 0 && absFrameNum > 0)
+                absFrameNum -= 1;
+
+            /* step 3 */
+            if (absFrameNum > 0)
+            {
+                picOrderCntCycleCnt =
+                    (absFrameNum - 1)/sps->numRefFramesInPicOrderCntCycle;
+                frameNumInPicOrderCntCycle =
+                    (absFrameNum - 1)%sps->numRefFramesInPicOrderCntCycle;
+            }
+
+            /* step 4 */
+            expectedDeltaPicOrderCntCycle = 0;
+            for (i = 0; i < sps->numRefFramesInPicOrderCntCycle; i++)
+                expectedDeltaPicOrderCntCycle += sps->offsetForRefFrame[i];
+
+            /* step 5 (picOrderCnt used to store expectedPicOrderCnt) */
+            /*lint -esym(644,picOrderCntCycleCnt) always initialized */
+            /*lint -esym(644,frameNumInPicOrderCntCycle) always initialized */
+            if (absFrameNum > 0)
+            {
+                picOrderCnt =
+                    (i32)picOrderCntCycleCnt * expectedDeltaPicOrderCntCycle;
+                for (i = 0; i <= frameNumInPicOrderCntCycle; i++)
+                    picOrderCnt += sps->offsetForRefFrame[i];
+            }
+            else
+                picOrderCnt = 0;
+
+            if (pNalUnit->nalRefIdc == 0)
+                picOrderCnt += sps->offsetForNonRefPic;
+
+            /* step 6 (picOrderCnt is top field order cnt if delta for bottom
+             * is positive, otherwise it is bottom field order cnt) */
+            picOrderCnt += pSliceHeader->deltaPicOrderCnt[0];
+
+            if ( (sps->offsetForTopToBottomField +
+                    pSliceHeader->deltaPicOrderCnt[1]) < 0 )
+            {
+                picOrderCnt += sps->offsetForTopToBottomField +
+                    pSliceHeader->deltaPicOrderCnt[1];
+            }
+
+            /* if current picture contains mmco5 -> set prevFrameNumOffset and
+             * prevFrameNum to 0 for computation of picOrderCnt of next
+             * frame, otherwise store frameNum and frameNumOffset to poc
+             * structure */
+            if (!containsMmco5)
+            {
+                poc->prevFrameNumOffset = frameNumOffset;
+                poc->prevFrameNum = pSliceHeader->frameNum;
+            }
+            else
+            {
+                poc->prevFrameNumOffset = 0;
+                poc->prevFrameNum = 0;
+                picOrderCnt = 0;
+            }
+            break;
+
+        default: /* case 2 */
+            /* derive frameNumOffset */
+            if (IS_IDR_NAL_UNIT(pNalUnit))
+                frameNumOffset = 0;
+            else if (poc->prevFrameNum > pSliceHeader->frameNum)
+                frameNumOffset = poc->prevFrameNumOffset + sps->maxFrameNum;
+            else
+                frameNumOffset = poc->prevFrameNumOffset;
+
+            /* derive picOrderCnt (type 2 has same value for top and bottom
+             * field order cnts) */
+            if (IS_IDR_NAL_UNIT(pNalUnit))
+                picOrderCnt = 0;
+            else if (pNalUnit->nalRefIdc == 0)
+                picOrderCnt =
+                    2 * (i32)(frameNumOffset + pSliceHeader->frameNum) - 1;
+            else
+                picOrderCnt =
+                    2 * (i32)(frameNumOffset + pSliceHeader->frameNum);
+
+            /* if current picture contains mmco5 -> set prevFrameNumOffset and
+             * prevFrameNum to 0 for computation of picOrderCnt of next
+             * frame, otherwise store frameNum and frameNumOffset to poc
+             * structure */
+            if (!containsMmco5)
+            {
+                poc->prevFrameNumOffset = frameNumOffset;
+                poc->prevFrameNum = pSliceHeader->frameNum;
+            }
+            else
+            {
+                poc->prevFrameNumOffset = 0;
+                poc->prevFrameNum = 0;
+                picOrderCnt = 0;
+            }
+            break;
+
+    }
+
+    /*lint -esym(644,picOrderCnt) always initialized */
+    return(picOrderCnt);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_pic_order_cnt.h
@@ -1,0 +1,69 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_PIC_ORDER_CNT_H
+#define H264SWDEC_PIC_ORDER_CNT_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_nal_unit.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/* structure to store information computed for previous picture, needed for
+ * POC computation of a picture. Two first fields for POC type 0, last two
+ * for types 1 and 2 */
+typedef struct
+{
+    u32 prevPicOrderCntLsb;
+    i32 prevPicOrderCntMsb;
+    u32 prevFrameNum;
+    u32 prevFrameNumOffset;
+} pocStorage_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+i32 h264bsdDecodePicOrderCnt(pocStorage_t *poc, seqParamSet_t *sps,
+    sliceHeader_t *sliceHeader, nalUnit_t *pNalUnit);
+
+#endif /* #ifdef H264SWDEC_PIC_ORDER_CNT_H */
+
--- /dev/null
+++ b/src/h264bsd_pic_param_set.c
@@ -1,0 +1,336 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodePicParamSet
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_pic_param_set.h"
+#include "h264bsd_util.h"
+#include "h264bsd_vlc.h"
+#include "h264bsd_cfg.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* lookup table for ceil(log2(numSliceGroups)), i.e. number of bits needed to
+ * represent range [0, numSliceGroups)
+ *
+ * NOTE: if MAX_NUM_SLICE_GROUPS is higher than 8 this table has to be resized
+ * accordingly */
+static const u32 CeilLog2NumSliceGroups[8] = {1, 1, 2, 2, 3, 3, 3, 3};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdDecodePicParamSet
+
+        Functional description:
+            Decode picture parameter set information from the stream.
+
+            Function allocates memory for
+                - run lengths if slice group map type is 0
+                - top-left and bottom-right arrays if map type is 2
+                - for slice group ids if map type is 6
+
+            Validity of some of the slice group mapping information depends
+            on the image dimensions which are not known here. Therefore the
+            validity has to be checked afterwards, currently in the parameter
+            set activation phase.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            pPicParamSet    decoded information is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      failure, invalid information or end of stream
+            MEMORY_ALLOCATION_ERROR for memory allocation failure
+
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodePicParamSet(strmData_t *pStrmData, picParamSet_t *pPicParamSet)
+{
+
+/* Variables */
+
+    u32 tmp, i, value;
+    i32 itmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pPicParamSet);
+
+
+    memset(pPicParamSet, 0, sizeof(picParamSet_t));
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pPicParamSet->picParameterSetId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pPicParamSet->picParameterSetId >= MAX_NUM_PIC_PARAM_SETS)
+    {
+        EPRINT("pic_parameter_set_id");
+        return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pPicParamSet->seqParameterSetId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pPicParamSet->seqParameterSetId >= MAX_NUM_SEQ_PARAM_SETS)
+    {
+        EPRINT("seq_param_set_id");
+        return(HANTRO_NOK);
+    }
+
+    /* entropy_coding_mode_flag, shall be 0 for baseline profile */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp)
+    {
+        EPRINT("entropy_coding_mode_flag");
+        return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pPicParamSet->picOrderPresentFlag = (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    /* num_slice_groups_minus1 */
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pPicParamSet->numSliceGroups = value + 1;
+    if (pPicParamSet->numSliceGroups > MAX_NUM_SLICE_GROUPS)
+    {
+        EPRINT("num_slice_groups_minus1");
+        return(HANTRO_NOK);
+    }
+
+    /* decode slice group mapping information if more than one slice groups */
+    if (pPicParamSet->numSliceGroups > 1)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pPicParamSet->sliceGroupMapType);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pPicParamSet->sliceGroupMapType > 6)
+        {
+            EPRINT("slice_group_map_type");
+            return(HANTRO_NOK);
+        }
+
+        if (pPicParamSet->sliceGroupMapType == 0)
+        {
+            ALLOCATE(pPicParamSet->runLength,
+                pPicParamSet->numSliceGroups, u32);
+            if (pPicParamSet->runLength == NULL)
+                return(MEMORY_ALLOCATION_ERROR);
+            for (i = 0; i < pPicParamSet->numSliceGroups; i++)
+            {
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                pPicParamSet->runLength[i] = value+1;
+                /* param values checked in CheckPps() */
+            }
+        }
+        else if (pPicParamSet->sliceGroupMapType == 2)
+        {
+            ALLOCATE(pPicParamSet->topLeft,
+                pPicParamSet->numSliceGroups - 1, u32);
+            ALLOCATE(pPicParamSet->bottomRight,
+                pPicParamSet->numSliceGroups - 1, u32);
+            if (pPicParamSet->topLeft == NULL ||
+                pPicParamSet->bottomRight == NULL)
+                return(MEMORY_ALLOCATION_ERROR);
+            for (i = 0; i < pPicParamSet->numSliceGroups - 1; i++)
+            {
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                pPicParamSet->topLeft[i] = value;
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                pPicParamSet->bottomRight[i] = value;
+                /* param values checked in CheckPps() */
+            }
+        }
+        else if ( (pPicParamSet->sliceGroupMapType == 3) ||
+                  (pPicParamSet->sliceGroupMapType == 4) ||
+                  (pPicParamSet->sliceGroupMapType == 5) )
+        {
+            tmp = h264bsdGetBits(pStrmData, 1);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pPicParamSet->sliceGroupChangeDirectionFlag =
+                (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+            tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pPicParamSet->sliceGroupChangeRate = value + 1;
+            /* param value checked in CheckPps() */
+        }
+        else if (pPicParamSet->sliceGroupMapType == 6)
+        {
+            tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pPicParamSet->picSizeInMapUnits = value + 1;
+
+            ALLOCATE(pPicParamSet->sliceGroupId,
+                pPicParamSet->picSizeInMapUnits, u32);
+            if (pPicParamSet->sliceGroupId == NULL)
+                return(MEMORY_ALLOCATION_ERROR);
+
+            /* determine number of bits needed to represent range
+             * [0, numSliceGroups) */
+            tmp = CeilLog2NumSliceGroups[pPicParamSet->numSliceGroups-1];
+
+            for (i = 0; i < pPicParamSet->picSizeInMapUnits; i++)
+            {
+                pPicParamSet->sliceGroupId[i] = h264bsdGetBits(pStrmData, tmp);
+                if ( pPicParamSet->sliceGroupId[i] >=
+                     pPicParamSet->numSliceGroups )
+                {
+                    EPRINT("slice_group_id");
+                    return(HANTRO_NOK);
+                }
+            }
+        }
+    }
+
+    /* num_ref_idx_l0_active_minus1 */
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (value > 31)
+    {
+        EPRINT("num_ref_idx_l0_active_minus1");
+        return(HANTRO_NOK);
+    }
+    pPicParamSet->numRefIdxL0Active = value + 1;
+
+    /* num_ref_idx_l1_active_minus1 */
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (value > 31)
+    {
+        EPRINT("num_ref_idx_l1_active_minus1");
+        return(HANTRO_NOK);
+    }
+
+    /* weighted_pred_flag, this shall be 0 for baseline profile */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp)
+    {
+        EPRINT("weighted_pred_flag");
+        return(HANTRO_NOK);
+    }
+
+    /* weighted_bipred_idc */
+    tmp = h264bsdGetBits(pStrmData, 2);
+    if (tmp > 2)
+    {
+        EPRINT("weighted_bipred_idc");
+        return(HANTRO_NOK);
+    }
+
+    /* pic_init_qp_minus26 */
+    tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if ((itmp < -26) || (itmp > 25))
+    {
+        EPRINT("pic_init_qp_minus26");
+        return(HANTRO_NOK);
+    }
+    pPicParamSet->picInitQp = (u32)(itmp + 26);
+
+    /* pic_init_qs_minus26 */
+    tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if ((itmp < -26) || (itmp > 25))
+    {
+        EPRINT("pic_init_qs_minus26");
+        return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if ((itmp < -12) || (itmp > 12))
+    {
+        EPRINT("chroma_qp_index_offset");
+        return(HANTRO_NOK);
+    }
+    pPicParamSet->chromaQpIndexOffset = itmp;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pPicParamSet->deblockingFilterControlPresentFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pPicParamSet->constrainedIntraPredFlag = (tmp == 1) ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pPicParamSet->redundantPicCntPresentFlag = (tmp == 1) ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdRbspTrailingBits(pStrmData);
+
+    /* ignore possible errors in trailing bits of parameters sets */
+    return(HANTRO_OK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_pic_param_set.h
@@ -1,0 +1,78 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_PIC_PARAM_SET_H
+#define H264SWDEC_PIC_PARAM_SET_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/* data structure to store PPS information decoded from the stream */
+typedef struct
+{
+    u32 picParameterSetId;
+    u32 seqParameterSetId;
+    u32 picOrderPresentFlag;
+    u32 numSliceGroups;
+    u32 sliceGroupMapType;
+    u32 *runLength;
+    u32 *topLeft;
+    u32 *bottomRight;
+    u32 sliceGroupChangeDirectionFlag;
+    u32 sliceGroupChangeRate;
+    u32 picSizeInMapUnits;
+    u32 *sliceGroupId;
+    u32 numRefIdxL0Active;
+    u32 picInitQp;
+    i32 chromaQpIndexOffset;
+    u32 deblockingFilterControlPresentFlag;
+    u32 constrainedIntraPredFlag;
+    u32 redundantPicCntPresentFlag;
+} picParamSet_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodePicParamSet(strmData_t *pStrmData,
+    picParamSet_t *pPicParamSet);
+
+#endif /* #ifdef H264SWDEC_PIC_PARAM_SET_H */
+
--- /dev/null
+++ b/src/h264bsd_reconstruct.c
@@ -1,0 +1,2316 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_reconstruct.h"
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_image.h"
+#include "h264bsd_util.h"
+
+#ifdef H264DEC_OMXDL
+#include "omxtypes.h"
+#include "omxVC.h"
+#include "armVC.h"
+#endif /* H264DEC_OMXDL */
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* Switch off the following Lint messages for this file:
+ * Info 701: Shift left of signed quantity (int)
+ * Info 702: Shift right of signed quantity (int)
+ */
+/*lint -e701 -e702 */
+
+/* Luma fractional-sample positions
+ *
+ *  G a b c H
+ *  d e f g
+ *  h i j k m
+ *  n p q r
+ *  M   s   N
+ *
+ *  G, H, M and N are integer sample positions
+ *  a-s are fractional samples that need to be interpolated.
+ */
+#ifndef H264DEC_OMXDL
+static const u32 lumaFracPos[4][4] = {
+  /* G  d  h  n    a  e  i  p    b  f  j   q     c   g   k   r */
+    {0, 1, 2, 3}, {4, 5, 6, 7}, {8, 9, 10, 11}, {12, 13, 14, 15}};
+#endif /* H264DEC_OMXDL */
+
+/* clipping table, defined in h264bsd_intra_prediction.c */
+extern const u8 h264bsdClip[];
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+#ifndef H264DEC_OMXDL
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateChromaHor
+
+        Functional description:
+          This function performs chroma interpolation in horizontal direction.
+          Overfilling is done only if needed. Reference image (pRef) is
+          read at correct position and the predicted part is written to
+          macroblock's chrominance (predPartChroma)
+        Inputs:
+          pRef              pointer to reference frame Cb top-left corner
+          x0                integer x-coordinate for prediction
+          y0                integer y-coordinate for prediction
+          width             width of the reference frame chrominance in pixels
+          height            height of the reference frame chrominance in pixels
+          xFrac             horizontal fraction for prediction in 1/8 pixels
+          chromaPartWidth   width of the predicted part in pixels
+          chromaPartHeight  height of the predicted part in pixels
+        Outputs:
+          predPartChroma    pointer where predicted part is written
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_ARM11
+void h264bsdInterpolateChromaHor(
+  u8 *pRef,
+  u8 *predPartChroma,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 xFrac,
+  u32 chromaPartWidth,
+  u32 chromaPartHeight)
+{
+
+/* Variables */
+
+    u32 x, y, tmp1, tmp2, tmp3, tmp4, c, val;
+    u8 *ptrA, *cbr;
+    u32 comp;
+    u8 block[9*8*2];
+
+/* Code */
+
+    ASSERT(predPartChroma);
+    ASSERT(chromaPartWidth);
+    ASSERT(chromaPartHeight);
+    ASSERT(xFrac < 8);
+    ASSERT(pRef);
+
+    if ((x0 < 0) || ((u32)x0+chromaPartWidth+1 > width) ||
+        (y0 < 0) || ((u32)y0+chromaPartHeight > height))
+    {
+        h264bsdFillBlock(pRef, block, x0, y0, width, height,
+            chromaPartWidth + 1, chromaPartHeight, chromaPartWidth + 1);
+        pRef += width * height;
+        h264bsdFillBlock(pRef, block + (chromaPartWidth+1)*chromaPartHeight,
+            x0, y0, width, height, chromaPartWidth + 1,
+            chromaPartHeight, chromaPartWidth + 1);
+
+        pRef = block;
+        x0 = 0;
+        y0 = 0;
+        width = chromaPartWidth+1;
+        height = chromaPartHeight;
+    }
+
+    val = 8 - xFrac;
+
+    for (comp = 0; comp <= 1; comp++)
+    {
+
+        ptrA = pRef + (comp * height + (u32)y0) * width + x0;
+        cbr = predPartChroma + comp * 8 * 8;
+
+        /* 2x2 pels per iteration
+         * bilinear horizontal interpolation */
+        for (y = (chromaPartHeight >> 1); y; y--)
+        {
+            for (x = (chromaPartWidth >> 1); x; x--)
+            {
+                tmp1 = ptrA[width];
+                tmp2 = *ptrA++;
+                tmp3 = ptrA[width];
+                tmp4 = *ptrA++;
+                c = ((val * tmp1 + xFrac * tmp3) << 3) + 32;
+                c >>= 6;
+                cbr[8] = (u8)c;
+                c = ((val * tmp2 + xFrac * tmp4) << 3) + 32;
+                c >>= 6;
+                *cbr++ = (u8)c;
+                tmp1 = ptrA[width];
+                tmp2 = *ptrA;
+                c = ((val * tmp3 + xFrac * tmp1) << 3) + 32;
+                c >>= 6;
+                cbr[8] = (u8)c;
+                c = ((val * tmp4 + xFrac * tmp2) << 3) + 32;
+                c >>= 6;
+                *cbr++ = (u8)c;
+            }
+            cbr += 2*8 - chromaPartWidth;
+            ptrA += 2*width - chromaPartWidth;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateChromaVer
+
+        Functional description:
+          This function performs chroma interpolation in vertical direction.
+          Overfilling is done only if needed. Reference image (pRef) is
+          read at correct position and the predicted part is written to
+          macroblock's chrominance (predPartChroma)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateChromaVer(
+  u8 *pRef,
+  u8 *predPartChroma,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 yFrac,
+  u32 chromaPartWidth,
+  u32 chromaPartHeight)
+{
+
+/* Variables */
+
+    u32 x, y, tmp1, tmp2, tmp3, c, val;
+    u8 *ptrA, *cbr;
+    u32 comp;
+    u8 block[9*8*2];
+
+/* Code */
+
+    ASSERT(predPartChroma);
+    ASSERT(chromaPartWidth);
+    ASSERT(chromaPartHeight);
+    ASSERT(yFrac < 8);
+    ASSERT(pRef);
+
+    if ((x0 < 0) || ((u32)x0+chromaPartWidth > width) ||
+        (y0 < 0) || ((u32)y0+chromaPartHeight+1 > height))
+    {
+        h264bsdFillBlock(pRef, block, x0, y0, width, height, chromaPartWidth,
+            chromaPartHeight + 1, chromaPartWidth);
+        pRef += width * height;
+        h264bsdFillBlock(pRef, block + chromaPartWidth*(chromaPartHeight+1),
+            x0, y0, width, height, chromaPartWidth,
+            chromaPartHeight + 1, chromaPartWidth);
+
+        pRef = block;
+        x0 = 0;
+        y0 = 0;
+        width = chromaPartWidth;
+        height = chromaPartHeight+1;
+    }
+
+    val = 8 - yFrac;
+
+    for (comp = 0; comp <= 1; comp++)
+    {
+
+        ptrA = pRef + (comp * height + (u32)y0) * width + x0;
+        cbr = predPartChroma + comp * 8 * 8;
+
+        /* 2x2 pels per iteration
+         * bilinear vertical interpolation */
+        for (y = (chromaPartHeight >> 1); y; y--)
+        {
+            for (x = (chromaPartWidth >> 1); x; x--)
+            {
+                tmp3 = ptrA[width*2];
+                tmp2 = ptrA[width];
+                tmp1 = *ptrA++;
+                c = ((val * tmp2 + yFrac * tmp3) << 3) + 32;
+                c >>= 6;
+                cbr[8] = (u8)c;
+                c = ((val * tmp1 + yFrac * tmp2) << 3) + 32;
+                c >>= 6;
+                *cbr++ = (u8)c;
+                tmp3 = ptrA[width*2];
+                tmp2 = ptrA[width];
+                tmp1 = *ptrA++;
+                c = ((val * tmp2 + yFrac * tmp3) << 3) + 32;
+                c >>= 6;
+                cbr[8] = (u8)c;
+                c = ((val * tmp1 + yFrac * tmp2) << 3) + 32;
+                c >>= 6;
+                *cbr++ = (u8)c;
+            }
+            cbr += 2*8 - chromaPartWidth;
+            ptrA += 2*width - chromaPartWidth;
+        }
+    }
+
+}
+#endif
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateChromaHorVer
+
+        Functional description:
+          This function performs chroma interpolation in horizontal and
+          vertical direction. Overfilling is done only if needed. Reference
+          image (ref) is read at correct position and the predicted part
+          is written to macroblock's chrominance (predPartChroma)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateChromaHorVer(
+  u8 *ref,
+  u8 *predPartChroma,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 xFrac,
+  u32 yFrac,
+  u32 chromaPartWidth,
+  u32 chromaPartHeight)
+{
+    u8 block[9*9*2];
+    u32 x, y, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, valX, valY, plus32 = 32;
+    u32 comp;
+    u8 *ptrA, *cbr;
+
+/* Code */
+
+    ASSERT(predPartChroma);
+    ASSERT(chromaPartWidth);
+    ASSERT(chromaPartHeight);
+    ASSERT(xFrac < 8);
+    ASSERT(yFrac < 8);
+    ASSERT(ref);
+
+    if ((x0 < 0) || ((u32)x0+chromaPartWidth+1 > width) ||
+        (y0 < 0) || ((u32)y0+chromaPartHeight+1 > height))
+    {
+        h264bsdFillBlock(ref, block, x0, y0, width, height,
+            chromaPartWidth + 1, chromaPartHeight + 1, chromaPartWidth + 1);
+        ref += width * height;
+        h264bsdFillBlock(ref, block + (chromaPartWidth+1)*(chromaPartHeight+1),
+            x0, y0, width, height, chromaPartWidth + 1,
+            chromaPartHeight + 1, chromaPartWidth + 1);
+
+        ref = block;
+        x0 = 0;
+        y0 = 0;
+        width = chromaPartWidth+1;
+        height = chromaPartHeight+1;
+    }
+
+    valX = 8 - xFrac;
+    valY = 8 - yFrac;
+
+    for (comp = 0; comp <= 1; comp++)
+    {
+
+        ptrA = ref + (comp * height + (u32)y0) * width + x0;
+        cbr = predPartChroma + comp * 8 * 8;
+
+        /* 2x2 pels per iteration
+         * bilinear vertical and horizontal interpolation */
+        for (y = (chromaPartHeight >> 1); y; y--)
+        {
+            tmp1 = *ptrA;
+            tmp3 = ptrA[width];
+            tmp5 = ptrA[width*2];
+            tmp1 *= valY;
+            tmp1 += tmp3 * yFrac;
+            tmp3 *= valY;
+            tmp3 += tmp5 * yFrac;
+            for (x = (chromaPartWidth >> 1); x; x--)
+            {
+                tmp2 = *++ptrA;
+                tmp4 = ptrA[width];
+                tmp6 = ptrA[width*2];
+                tmp2 *= valY;
+                tmp2 += tmp4 * yFrac;
+                tmp4 *= valY;
+                tmp4 += tmp6 * yFrac;
+                tmp1 = tmp1 * valX + plus32;
+                tmp3 = tmp3 * valX + plus32;
+                tmp1 += tmp2 * xFrac;
+                tmp1 >>= 6;
+                tmp3 += tmp4 * xFrac;
+                tmp3 >>= 6;
+                cbr[8] = (u8)tmp3;
+                *cbr++ = (u8)tmp1;
+
+                tmp1 = *++ptrA;
+                tmp3 = ptrA[width];
+                tmp5 = ptrA[width*2];
+                tmp1 *= valY;
+                tmp1 += tmp3 * yFrac;
+                tmp3 *= valY;
+                tmp3 += tmp5 * yFrac;
+                tmp2 = tmp2 * valX + plus32;
+                tmp4 = tmp4 * valX + plus32;
+                tmp2 += tmp1 * xFrac;
+                tmp2 >>= 6;
+                tmp4 += tmp3 * xFrac;
+                tmp4 >>= 6;
+                cbr[8] = (u8)tmp4;
+                *cbr++ = (u8)tmp2;
+            }
+            cbr += 2*8 - chromaPartWidth;
+            ptrA += 2*width - chromaPartWidth;
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: PredictChroma
+
+        Functional description:
+          Top level chroma prediction function that calls the appropriate
+          interpolation function. The output is written to macroblock array.
+
+------------------------------------------------------------------------------*/
+
+static void PredictChroma(
+  u8 *mbPartChroma,
+  u32 xAL,
+  u32 yAL,
+  u32 partWidth,
+  u32 partHeight,
+  mv_t *mv,
+  image_t *refPic)
+{
+
+/* Variables */
+
+    u32 xFrac, yFrac, width, height, chromaPartWidth, chromaPartHeight;
+    i32 xInt, yInt;
+    u8 *ref;
+
+/* Code */
+
+    ASSERT(mv);
+    ASSERT(refPic);
+    ASSERT(refPic->data);
+    ASSERT(refPic->width);
+    ASSERT(refPic->height);
+
+    width  = 8 * refPic->width;
+    height = 8 * refPic->height;
+
+    xInt = (xAL >> 1) + (mv->hor >> 3);
+    yInt = (yAL >> 1) + (mv->ver >> 3);
+    xFrac = mv->hor & 0x7;
+    yFrac = mv->ver & 0x7;
+
+    chromaPartWidth  = partWidth >> 1;
+    chromaPartHeight = partHeight >> 1;
+    ref = refPic->data + 256 * refPic->width * refPic->height;
+
+    if (xFrac && yFrac)
+    {
+        h264bsdInterpolateChromaHorVer(ref, mbPartChroma, xInt, yInt, width,
+                height, xFrac, yFrac, chromaPartWidth, chromaPartHeight);
+    }
+    else if (xFrac)
+    {
+        h264bsdInterpolateChromaHor(ref, mbPartChroma, xInt, yInt, width,
+                height, xFrac, chromaPartWidth, chromaPartHeight);
+    }
+    else if (yFrac)
+    {
+        h264bsdInterpolateChromaVer(ref, mbPartChroma, xInt, yInt, width,
+                height, yFrac, chromaPartWidth, chromaPartHeight);
+    }
+    else
+    {
+        h264bsdFillBlock(ref, mbPartChroma, xInt, yInt, width, height,
+            chromaPartWidth, chromaPartHeight, 8);
+        ref += width * height;
+        h264bsdFillBlock(ref, mbPartChroma + 8*8, xInt, yInt, width, height,
+            chromaPartWidth, chromaPartHeight, 8);
+    }
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateVerHalf
+
+        Functional description:
+          Function to perform vertical interpolation of pixel position 'h'
+          for a block. Overfilling is done only if needed. Reference
+          image (ref) is read at correct position and the predicted part
+          is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_ARM11
+void h264bsdInterpolateVerHalf(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight)
+{
+    u32 p1[21*21/4+1];
+    u32 i, j;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    u8 *ptrC, *ptrV;
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth > width) ||
+        (y0 < 0) || ((u32)y0+partHeight+5 > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth, partHeight+5, partWidth);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    ptrC = ref + width;
+    ptrV = ptrC + 5*width;
+
+    /* 4 pixels per iteration, interpolate using 5 vertical samples */
+    for (i = (partHeight >> 2); i; i--)
+    {
+        /* h1 = (16 + A + 16(G+M) + 4(G+M) - 4(C+R) - (C+R) + T) >> 5 */
+        for (j = partWidth; j; j--)
+        {
+            tmp4 = ptrV[-(i32)width*2];
+            tmp5 = ptrV[-(i32)width];
+            tmp1 = ptrV[width];
+            tmp2 = ptrV[width*2];
+            tmp6 = *ptrV++;
+
+            tmp7 = tmp4 + tmp1;
+            tmp2 -= (tmp7 << 2);
+            tmp2 -= tmp7;
+            tmp2 += 16;
+            tmp7 = tmp5 + tmp6;
+            tmp3 = ptrC[width*2];
+            tmp2 += (tmp7 << 4);
+            tmp2 += (tmp7 << 2);
+            tmp2 += tmp3;
+            tmp2 = clp[tmp2>>5];
+            tmp1 += 16;
+            mb[48] = (u8)tmp2;
+
+            tmp7 = tmp3 + tmp6;
+            tmp1 -= (tmp7 << 2);
+            tmp1 -= tmp7;
+            tmp7 = tmp4 + tmp5;
+            tmp2 = ptrC[width];
+            tmp1 += (tmp7 << 4);
+            tmp1 += (tmp7 << 2);
+            tmp1 += tmp2;
+            tmp1 = clp[tmp1>>5];
+            tmp6 += 16;
+            mb[32] = (u8)tmp1;
+
+            tmp7 = tmp2 + tmp5;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = tmp4 + tmp3;
+            tmp1 = *ptrC;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6>>5];
+            tmp5 += 16;
+            mb[16] = (u8)tmp6;
+
+            tmp1 += tmp4;
+            tmp5 -= (tmp1 << 2);
+            tmp5 -= tmp1;
+            tmp3 += tmp2;
+            tmp6 = ptrC[-(i32)width];
+            tmp5 += (tmp3 << 4);
+            tmp5 += (tmp3 << 2);
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5>>5];
+            *mb++ = (u8)tmp5;
+            ptrC++;
+        }
+        ptrC += 4*width - partWidth;
+        ptrV += 4*width - partWidth;
+        mb += 4*16 - partWidth;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateVerQuarter
+
+        Functional description:
+          Function to perform vertical interpolation of pixel position 'd'
+          or 'n' for a block. Overfilling is done only if needed. Reference
+          image (ref) is read at correct position and the predicted part
+          is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateVerQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 verOffset)    /* 0 for pixel d, 1 for pixel n */
+{
+    u32 p1[21*21/4+1];
+    u32 i, j;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    u8 *ptrC, *ptrV, *ptrInt;
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth > width) ||
+        (y0 < 0) || ((u32)y0+partHeight+5 > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth, partHeight+5, partWidth);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    ptrC = ref + width;
+    ptrV = ptrC + 5*width;
+
+    /* Pointer to integer sample position, either M or R */
+    ptrInt = ptrC + (2+verOffset)*width;
+
+    /* 4 pixels per iteration
+     * interpolate using 5 vertical samples and average between
+     * interpolated value and integer sample value */
+    for (i = (partHeight >> 2); i; i--)
+    {
+        /* h1 = (16 + A + 16(G+M) + 4(G+M) - 4(C+R) - (C+R) + T) >> 5 */
+        for (j = partWidth; j; j--)
+        {
+            tmp4 = ptrV[-(i32)width*2];
+            tmp5 = ptrV[-(i32)width];
+            tmp1 = ptrV[width];
+            tmp2 = ptrV[width*2];
+            tmp6 = *ptrV++;
+
+            tmp7 = tmp4 + tmp1;
+            tmp2 -= (tmp7 << 2);
+            tmp2 -= tmp7;
+            tmp2 += 16;
+            tmp7 = tmp5 + tmp6;
+            tmp3 = ptrC[width*2];
+            tmp2 += (tmp7 << 4);
+            tmp2 += (tmp7 << 2);
+            tmp2 += tmp3;
+            tmp2 = clp[tmp2>>5];
+            tmp7 = ptrInt[width*2];
+            tmp1 += 16;
+            tmp2++;
+            mb[48] = (u8)((tmp2 + tmp7) >> 1);
+
+            tmp7 = tmp3 + tmp6;
+            tmp1 -= (tmp7 << 2);
+            tmp1 -= tmp7;
+            tmp7 = tmp4 + tmp5;
+            tmp2 = ptrC[width];
+            tmp1 += (tmp7 << 4);
+            tmp1 += (tmp7 << 2);
+            tmp1 += tmp2;
+            tmp1 = clp[tmp1>>5];
+            tmp7 = ptrInt[width];
+            tmp6 += 16;
+            tmp1++;
+            mb[32] = (u8)((tmp1 + tmp7) >> 1);
+
+            tmp7 = tmp2 + tmp5;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = tmp4 + tmp3;
+            tmp1 = *ptrC;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6>>5];
+            tmp7 = *ptrInt;
+            tmp5 += 16;
+            tmp6++;
+            mb[16] = (u8)((tmp6 + tmp7) >> 1);
+
+            tmp1 += tmp4;
+            tmp5 -= (tmp1 << 2);
+            tmp5 -= tmp1;
+            tmp3 += tmp2;
+            tmp6 = ptrC[-(i32)width];
+            tmp5 += (tmp3 << 4);
+            tmp5 += (tmp3 << 2);
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5>>5];
+            tmp7 = ptrInt[-(i32)width];
+            tmp5++;
+            *mb++ = (u8)((tmp5 + tmp7) >> 1);
+            ptrC++;
+            ptrInt++;
+        }
+        ptrC += 4*width - partWidth;
+        ptrV += 4*width - partWidth;
+        ptrInt += 4*width - partWidth;
+        mb += 4*16 - partWidth;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateHorHalf
+
+        Functional description:
+          Function to perform horizontal interpolation of pixel position 'b'
+          for a block. Overfilling is done only if needed. Reference
+          image (ref) is read at correct position and the predicted part
+          is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateHorHalf(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight)
+{
+    u32 p1[21*21/4+1];
+    u8 *ptrJ;
+    u32 x, y;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+    ASSERT((partWidth&0x3) == 0);
+    ASSERT((partHeight&0x3) == 0);
+
+    if ((x0 < 0) || ((u32)x0+partWidth+5 > width) ||
+        (y0 < 0) || ((u32)y0+partHeight > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth+5, partHeight, partWidth+5);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth + 5;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    ptrJ = ref + 5;
+
+    for (y = partHeight; y; y--)
+    {
+        tmp6 = *(ptrJ - 5);
+        tmp5 = *(ptrJ - 4);
+        tmp4 = *(ptrJ - 3);
+        tmp3 = *(ptrJ - 2);
+        tmp2 = *(ptrJ - 1);
+
+        /* calculate 4 pels per iteration */
+        for (x = (partWidth >> 2); x; x--)
+        {
+            /* First pixel */
+            tmp6 += 16;
+            tmp7 = tmp3 + tmp4;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = tmp2 + tmp5;
+            tmp1 = *ptrJ++;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6>>5];
+            /* Second pixel */
+            tmp5 += 16;
+            tmp7 = tmp2 + tmp3;
+            *mb++ = (u8)tmp6;
+            tmp5 += (tmp7 << 4);
+            tmp5 += (tmp7 << 2);
+            tmp7 = tmp1 + tmp4;
+            tmp6 = *ptrJ++;
+            tmp5 -= (tmp7 << 2);
+            tmp5 -= tmp7;
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5>>5];
+            /* Third pixel */
+            tmp4 += 16;
+            tmp7 = tmp1 + tmp2;
+            *mb++ = (u8)tmp5;
+            tmp4 += (tmp7 << 4);
+            tmp4 += (tmp7 << 2);
+            tmp7 = tmp6 + tmp3;
+            tmp5 = *ptrJ++;
+            tmp4 -= (tmp7 << 2);
+            tmp4 -= tmp7;
+            tmp4 += tmp5;
+            tmp4 = clp[tmp4>>5];
+            /* Fourth pixel */
+            tmp3 += 16;
+            tmp7 = tmp6 + tmp1;
+            *mb++ = (u8)tmp4;
+            tmp3 += (tmp7 << 4);
+            tmp3 += (tmp7 << 2);
+            tmp7 = tmp5 + tmp2;
+            tmp4 = *ptrJ++;
+            tmp3 -= (tmp7 << 2);
+            tmp3 -= tmp7;
+            tmp3 += tmp4;
+            tmp3 = clp[tmp3>>5];
+            tmp7 = tmp4;
+            tmp4 = tmp6;
+            tmp6 = tmp2;
+            tmp2 = tmp7;
+            *mb++ = (u8)tmp3;
+            tmp3 = tmp5;
+            tmp5 = tmp1;
+        }
+        ptrJ += width - partWidth;
+        mb += 16 - partWidth;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateHorQuarter
+
+        Functional description:
+          Function to perform horizontal interpolation of pixel position 'a'
+          or 'c' for a block. Overfilling is done only if needed. Reference
+          image (ref) is read at correct position and the predicted part
+          is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateHorQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 horOffset) /* 0 for pixel a, 1 for pixel c */
+{
+    u32 p1[21*21/4+1];
+    u8 *ptrJ;
+    u32 x, y;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth+5 > width) ||
+        (y0 < 0) || ((u32)y0+partHeight > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth+5, partHeight, partWidth+5);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth + 5;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    ptrJ = ref + 5;
+
+    for (y = partHeight; y; y--)
+    {
+        tmp6 = *(ptrJ - 5);
+        tmp5 = *(ptrJ - 4);
+        tmp4 = *(ptrJ - 3);
+        tmp3 = *(ptrJ - 2);
+        tmp2 = *(ptrJ - 1);
+
+        /* calculate 4 pels per iteration */
+        for (x = (partWidth >> 2); x; x--)
+        {
+            /* First pixel */
+            tmp6 += 16;
+            tmp7 = tmp3 + tmp4;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = tmp2 + tmp5;
+            tmp1 = *ptrJ++;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6>>5];
+            tmp5 += 16;
+            if (!horOffset)
+                tmp6 += tmp4;
+            else
+                tmp6 += tmp3;
+            *mb++ = (u8)((tmp6 + 1) >> 1);
+            /* Second pixel */
+            tmp7 = tmp2 + tmp3;
+            tmp5 += (tmp7 << 4);
+            tmp5 += (tmp7 << 2);
+            tmp7 = tmp1 + tmp4;
+            tmp6 = *ptrJ++;
+            tmp5 -= (tmp7 << 2);
+            tmp5 -= tmp7;
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5>>5];
+            tmp4 += 16;
+            if (!horOffset)
+                tmp5 += tmp3;
+            else
+                tmp5 += tmp2;
+            *mb++ = (u8)((tmp5 + 1) >> 1);
+            /* Third pixel */
+            tmp7 = tmp1 + tmp2;
+            tmp4 += (tmp7 << 4);
+            tmp4 += (tmp7 << 2);
+            tmp7 = tmp6 + tmp3;
+            tmp5 = *ptrJ++;
+            tmp4 -= (tmp7 << 2);
+            tmp4 -= tmp7;
+            tmp4 += tmp5;
+            tmp4 = clp[tmp4>>5];
+            tmp3 += 16;
+            if (!horOffset)
+                tmp4 += tmp2;
+            else
+                tmp4 += tmp1;
+            *mb++ = (u8)((tmp4 + 1) >> 1);
+            /* Fourth pixel */
+            tmp7 = tmp6 + tmp1;
+            tmp3 += (tmp7 << 4);
+            tmp3 += (tmp7 << 2);
+            tmp7 = tmp5 + tmp2;
+            tmp4 = *ptrJ++;
+            tmp3 -= (tmp7 << 2);
+            tmp3 -= tmp7;
+            tmp3 += tmp4;
+            tmp3 = clp[tmp3>>5];
+            if (!horOffset)
+                tmp3 += tmp1;
+            else
+                tmp3 += tmp6;
+            *mb++ = (u8)((tmp3 + 1) >> 1);
+            tmp3 = tmp5;
+            tmp5 = tmp1;
+            tmp7 = tmp4;
+            tmp4 = tmp6;
+            tmp6 = tmp2;
+            tmp2 = tmp7;
+        }
+        ptrJ += width - partWidth;
+        mb += 16 - partWidth;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateHorVerQuarter
+
+        Functional description:
+          Function to perform horizontal and vertical interpolation of pixel
+          position 'e', 'g', 'p' or 'r' for a block. Overfilling is done only
+          if needed. Reference image (ref) is read at correct position and
+          the predicted part is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateHorVerQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 horVerOffset) /* 0 for pixel e, 1 for pixel g,
+                       2 for pixel p, 3 for pixel r */
+{
+    u32 p1[21*21/4+1];
+    u8 *ptrC, *ptrJ, *ptrV;
+    u32 x, y;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth+5 > width) ||
+        (y0 < 0) || ((u32)y0+partHeight+5 > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth+5, partHeight+5, partWidth+5);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth+5;
+    }
+
+    /* Ref points to G + (-2, -2) */
+    ref += (u32)y0 * width + (u32)x0;
+
+    /* ptrJ points to either J or Q, depending on vertical offset */
+    ptrJ = ref + (((horVerOffset & 0x2) >> 1) + 2) * width + 5;
+
+    /* ptrC points to either C or D, depending on horizontal offset */
+    ptrC = ref + width + 2 + (horVerOffset & 0x1);
+
+    for (y = partHeight; y; y--)
+    {
+        tmp6 = *(ptrJ - 5);
+        tmp5 = *(ptrJ - 4);
+        tmp4 = *(ptrJ - 3);
+        tmp3 = *(ptrJ - 2);
+        tmp2 = *(ptrJ - 1);
+
+        /* Horizontal interpolation, calculate 4 pels per iteration */
+        for (x = (partWidth >> 2); x; x--)
+        {
+            /* First pixel */
+            tmp6 += 16;
+            tmp7 = tmp3 + tmp4;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = tmp2 + tmp5;
+            tmp1 = *ptrJ++;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6>>5];
+            /* Second pixel */
+            tmp5 += 16;
+            tmp7 = tmp2 + tmp3;
+            *mb++ = (u8)tmp6;
+            tmp5 += (tmp7 << 4);
+            tmp5 += (tmp7 << 2);
+            tmp7 = tmp1 + tmp4;
+            tmp6 = *ptrJ++;
+            tmp5 -= (tmp7 << 2);
+            tmp5 -= tmp7;
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5>>5];
+            /* Third pixel */
+            tmp4 += 16;
+            tmp7 = tmp1 + tmp2;
+            *mb++ = (u8)tmp5;
+            tmp4 += (tmp7 << 4);
+            tmp4 += (tmp7 << 2);
+            tmp7 = tmp6 + tmp3;
+            tmp5 = *ptrJ++;
+            tmp4 -= (tmp7 << 2);
+            tmp4 -= tmp7;
+            tmp4 += tmp5;
+            tmp4 = clp[tmp4>>5];
+            /* Fourth pixel */
+            tmp3 += 16;
+            tmp7 = tmp6 + tmp1;
+            *mb++ = (u8)tmp4;
+            tmp3 += (tmp7 << 4);
+            tmp3 += (tmp7 << 2);
+            tmp7 = tmp5 + tmp2;
+            tmp4 = *ptrJ++;
+            tmp3 -= (tmp7 << 2);
+            tmp3 -= tmp7;
+            tmp3 += tmp4;
+            tmp3 = clp[tmp3>>5];
+            tmp7 = tmp4;
+            tmp4 = tmp6;
+            tmp6 = tmp2;
+            tmp2 = tmp7;
+            *mb++ = (u8)tmp3;
+            tmp3 = tmp5;
+            tmp5 = tmp1;
+        }
+        ptrJ += width - partWidth;
+        mb += 16 - partWidth;
+    }
+
+    mb -= 16*partHeight;
+    ptrV = ptrC + 5*width;
+
+    for (y = (partHeight >> 2); y; y--)
+    {
+        /* Vertical interpolation and averaging, 4 pels per iteration */
+        for (x = partWidth; x; x--)
+        {
+            tmp4 = ptrV[-(i32)width*2];
+            tmp5 = ptrV[-(i32)width];
+            tmp1 = ptrV[width];
+            tmp2 = ptrV[width*2];
+            tmp6 = *ptrV++;
+
+            tmp7 = tmp4 + tmp1;
+            tmp2 -= (tmp7 << 2);
+            tmp2 -= tmp7;
+            tmp2 += 16;
+            tmp7 = tmp5 + tmp6;
+            tmp3 = ptrC[width*2];
+            tmp2 += (tmp7 << 4);
+            tmp2 += (tmp7 << 2);
+            tmp2 += tmp3;
+            tmp7 = clp[tmp2>>5];
+            tmp2 = mb[48];
+            tmp1 += 16;
+            tmp7++;
+            mb[48] = (u8)((tmp2 + tmp7) >> 1);
+
+            tmp7 = tmp3 + tmp6;
+            tmp1 -= (tmp7 << 2);
+            tmp1 -= tmp7;
+            tmp7 = tmp4 + tmp5;
+            tmp2 = ptrC[width];
+            tmp1 += (tmp7 << 4);
+            tmp1 += (tmp7 << 2);
+            tmp1 += tmp2;
+            tmp7 = clp[tmp1>>5];
+            tmp1 = mb[32];
+            tmp6 += 16;
+            tmp7++;
+            mb[32] = (u8)((tmp1 + tmp7) >> 1);
+
+            tmp1 = *ptrC;
+            tmp7 = tmp2 + tmp5;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = tmp4 + tmp3;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp6 += tmp1;
+            tmp7 = clp[tmp6>>5];
+            tmp6 = mb[16];
+            tmp5 += 16;
+            tmp7++;
+            mb[16] = (u8)((tmp6 + tmp7) >> 1);
+
+            tmp6 = ptrC[-(i32)width];
+            tmp1 += tmp4;
+            tmp5 -= (tmp1 << 2);
+            tmp5 -= tmp1;
+            tmp3 += tmp2;
+            tmp5 += (tmp3 << 4);
+            tmp5 += (tmp3 << 2);
+            tmp5 += tmp6;
+            tmp7 = clp[tmp5>>5];
+            tmp5 = *mb;
+            tmp7++;
+            *mb++ = (u8)((tmp5 + tmp7) >> 1);
+            ptrC++;
+
+        }
+        ptrC += 4*width - partWidth;
+        ptrV += 4*width - partWidth;
+        mb += 4*16 - partWidth;
+    }
+
+}
+#endif
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateMidHalf
+
+        Functional description:
+          Function to perform horizontal and vertical interpolation of pixel
+          position 'j' for a block. Overfilling is done only if needed.
+          Reference image (ref) is read at correct position and the predicted
+          part is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateMidHalf(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight)
+{
+    u32 p1[21*21/4+1];
+    u32 x, y;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    i32 *ptrC, *ptrV, *b1;
+    u8  *ptrJ;
+    i32 table[21*16];
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth+5 > width) ||
+        (y0 < 0) || ((u32)y0+partHeight+5 > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth+5, partHeight+5, partWidth+5);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth+5;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    b1 = table;
+    ptrJ = ref + 5;
+
+    /* First step: calculate intermediate values for
+     * horizontal interpolation */
+    for (y = partHeight + 5; y; y--)
+    {
+        tmp6 = *(ptrJ - 5);
+        tmp5 = *(ptrJ - 4);
+        tmp4 = *(ptrJ - 3);
+        tmp3 = *(ptrJ - 2);
+        tmp2 = *(ptrJ - 1);
+
+        /* 4 pels per iteration */
+        for (x = (partWidth >> 2); x; x--)
+        {
+            /* First pixel */
+            tmp7 = tmp3 + tmp4;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = tmp2 + tmp5;
+            tmp1 = *ptrJ++;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp6 += tmp1;
+            *b1++ = tmp6;
+            /* Second pixel */
+            tmp7 = tmp2 + tmp3;
+            tmp5 += (tmp7 << 4);
+            tmp5 += (tmp7 << 2);
+            tmp7 = tmp1 + tmp4;
+            tmp6 = *ptrJ++;
+            tmp5 -= (tmp7 << 2);
+            tmp5 -= tmp7;
+            tmp5 += tmp6;
+            *b1++ = tmp5;
+            /* Third pixel */
+            tmp7 = tmp1 + tmp2;
+            tmp4 += (tmp7 << 4);
+            tmp4 += (tmp7 << 2);
+            tmp7 = tmp6 + tmp3;
+            tmp5 = *ptrJ++;
+            tmp4 -= (tmp7 << 2);
+            tmp4 -= tmp7;
+            tmp4 += tmp5;
+            *b1++ = tmp4;
+            /* Fourth pixel */
+            tmp7 = tmp6 + tmp1;
+            tmp3 += (tmp7 << 4);
+            tmp3 += (tmp7 << 2);
+            tmp7 = tmp5 + tmp2;
+            tmp4 = *ptrJ++;
+            tmp3 -= (tmp7 << 2);
+            tmp3 -= tmp7;
+            tmp3 += tmp4;
+            *b1++ = tmp3;
+            tmp7 = tmp4;
+            tmp4 = tmp6;
+            tmp6 = tmp2;
+            tmp2 = tmp7;
+            tmp3 = tmp5;
+            tmp5 = tmp1;
+        }
+        ptrJ += width - partWidth;
+    }
+
+    /* Second step: calculate vertical interpolation */
+    ptrC = table + partWidth;
+    ptrV = ptrC + 5*partWidth;
+    for (y = (partHeight >> 2); y; y--)
+    {
+        /* 4 pels per iteration */
+        for (x = partWidth; x; x--)
+        {
+            tmp4 = ptrV[-(i32)partWidth*2];
+            tmp5 = ptrV[-(i32)partWidth];
+            tmp1 = ptrV[partWidth];
+            tmp2 = ptrV[partWidth*2];
+            tmp6 = *ptrV++;
+
+            tmp7 = tmp4 + tmp1;
+            tmp2 -= (tmp7 << 2);
+            tmp2 -= tmp7;
+            tmp2 += 512;
+            tmp7 = tmp5 + tmp6;
+            tmp3 = ptrC[partWidth*2];
+            tmp2 += (tmp7 << 4);
+            tmp2 += (tmp7 << 2);
+            tmp2 += tmp3;
+            tmp7 = clp[tmp2>>10];
+            tmp1 += 512;
+            mb[48] = (u8)tmp7;
+
+            tmp7 = tmp3 + tmp6;
+            tmp1 -= (tmp7 << 2);
+            tmp1 -= tmp7;
+            tmp7 = tmp4 + tmp5;
+            tmp2 = ptrC[partWidth];
+            tmp1 += (tmp7 << 4);
+            tmp1 += (tmp7 << 2);
+            tmp1 += tmp2;
+            tmp7 = clp[tmp1>>10];
+            tmp6 += 512;
+            mb[32] = (u8)tmp7;
+
+            tmp1 = *ptrC;
+            tmp7 = tmp2 + tmp5;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = tmp4 + tmp3;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp6 += tmp1;
+            tmp7 = clp[tmp6>>10];
+            tmp5 += 512;
+            mb[16] = (u8)tmp7;
+
+            tmp6 = ptrC[-(i32)partWidth];
+            tmp1 += tmp4;
+            tmp5 -= (tmp1 << 2);
+            tmp5 -= tmp1;
+            tmp3 += tmp2;
+            tmp5 += (tmp3 << 4);
+            tmp5 += (tmp3 << 2);
+            tmp5 += tmp6;
+            tmp7 = clp[tmp5>>10];
+            *mb++ = (u8)tmp7;
+            ptrC++;
+        }
+        mb += 4*16 - partWidth;
+        ptrC += 3*partWidth;
+        ptrV += 3*partWidth;
+    }
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateMidVerQuarter
+
+        Functional description:
+          Function to perform horizontal and vertical interpolation of pixel
+          position 'f' or 'q' for a block. Overfilling is done only if needed.
+          Reference image (ref) is read at correct position and the predicted
+          part is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateMidVerQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 verOffset)    /* 0 for pixel f, 1 for pixel q */
+{
+    u32 p1[21*21/4+1];
+    u32 x, y;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    i32 *ptrC, *ptrV, *ptrInt, *b1;
+    u8  *ptrJ;
+    i32 table[21*16];
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth+5 > width) ||
+        (y0 < 0) || ((u32)y0+partHeight+5 > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth+5, partHeight+5, partWidth+5);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth+5;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    b1 = table;
+    ptrJ = ref + 5;
+
+    /* First step: calculate intermediate values for
+     * horizontal interpolation */
+    for (y = partHeight + 5; y; y--)
+    {
+        tmp6 = *(ptrJ - 5);
+        tmp5 = *(ptrJ - 4);
+        tmp4 = *(ptrJ - 3);
+        tmp3 = *(ptrJ - 2);
+        tmp2 = *(ptrJ - 1);
+        for (x = (partWidth >> 2); x; x--)
+        {
+            /* First pixel */
+            tmp7 = tmp3 + tmp4;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = tmp2 + tmp5;
+            tmp1 = *ptrJ++;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp6 += tmp1;
+            *b1++ = tmp6;
+            /* Second pixel */
+            tmp7 = tmp2 + tmp3;
+            tmp5 += (tmp7 << 4);
+            tmp5 += (tmp7 << 2);
+            tmp7 = tmp1 + tmp4;
+            tmp6 = *ptrJ++;
+            tmp5 -= (tmp7 << 2);
+            tmp5 -= tmp7;
+            tmp5 += tmp6;
+            *b1++ = tmp5;
+            /* Third pixel */
+            tmp7 = tmp1 + tmp2;
+            tmp4 += (tmp7 << 4);
+            tmp4 += (tmp7 << 2);
+            tmp7 = tmp6 + tmp3;
+            tmp5 = *ptrJ++;
+            tmp4 -= (tmp7 << 2);
+            tmp4 -= tmp7;
+            tmp4 += tmp5;
+            *b1++ = tmp4;
+            /* Fourth pixel */
+            tmp7 = tmp6 + tmp1;
+            tmp3 += (tmp7 << 4);
+            tmp3 += (tmp7 << 2);
+            tmp7 = tmp5 + tmp2;
+            tmp4 = *ptrJ++;
+            tmp3 -= (tmp7 << 2);
+            tmp3 -= tmp7;
+            tmp3 += tmp4;
+            *b1++ = tmp3;
+            tmp7 = tmp4;
+            tmp4 = tmp6;
+            tmp6 = tmp2;
+            tmp2 = tmp7;
+            tmp3 = tmp5;
+            tmp5 = tmp1;
+        }
+        ptrJ += width - partWidth;
+    }
+
+    /* Second step: calculate vertical interpolation and average */
+    ptrC = table + partWidth;
+    ptrV = ptrC + 5*partWidth;
+    /* Pointer to integer sample position, either M or R */
+    ptrInt = ptrC + (2+verOffset)*partWidth;
+    for (y = (partHeight >> 2); y; y--)
+    {
+        for (x = partWidth; x; x--)
+        {
+            tmp4 = ptrV[-(i32)partWidth*2];
+            tmp5 = ptrV[-(i32)partWidth];
+            tmp1 = ptrV[partWidth];
+            tmp2 = ptrV[partWidth*2];
+            tmp6 = *ptrV++;
+
+            tmp7 = tmp4 + tmp1;
+            tmp2 -= (tmp7 << 2);
+            tmp2 -= tmp7;
+            tmp2 += 512;
+            tmp7 = tmp5 + tmp6;
+            tmp3 = ptrC[partWidth*2];
+            tmp2 += (tmp7 << 4);
+            tmp2 += (tmp7 << 2);
+            tmp7 = ptrInt[partWidth*2];
+            tmp2 += tmp3;
+            tmp2 = clp[tmp2>>10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7>>5];
+            tmp1 += 512;
+            tmp2++;
+            mb[48] = (u8)((tmp7 + tmp2) >> 1);
+
+            tmp7 = tmp3 + tmp6;
+            tmp1 -= (tmp7 << 2);
+            tmp1 -= tmp7;
+            tmp7 = tmp4 + tmp5;
+            tmp2 = ptrC[partWidth];
+            tmp1 += (tmp7 << 4);
+            tmp1 += (tmp7 << 2);
+            tmp7 = ptrInt[partWidth];
+            tmp1 += tmp2;
+            tmp1 = clp[tmp1>>10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7>>5];
+            tmp6 += 512;
+            tmp1++;
+            mb[32] = (u8)((tmp7 + tmp1) >> 1);
+
+            tmp1 = *ptrC;
+            tmp7 = tmp2 + tmp5;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = tmp4 + tmp3;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = *ptrInt;
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6>>10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7>>5];
+            tmp5 += 512;
+            tmp6++;
+            mb[16] = (u8)((tmp7 + tmp6) >> 1);
+
+            tmp6 = ptrC[-(i32)partWidth];
+            tmp1 += tmp4;
+            tmp5 -= (tmp1 << 2);
+            tmp5 -= tmp1;
+            tmp3 += tmp2;
+            tmp5 += (tmp3 << 4);
+            tmp5 += (tmp3 << 2);
+            tmp7 = ptrInt[-(i32)partWidth];
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5>>10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7>>5];
+            tmp5++;
+            *mb++ = (u8)((tmp7 + tmp5) >> 1);
+            ptrC++;
+            ptrInt++;
+        }
+        mb += 4*16 - partWidth;
+        ptrC += 3*partWidth;
+        ptrV += 3*partWidth;
+        ptrInt += 3*partWidth;
+    }
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdInterpolateMidHorQuarter
+
+        Functional description:
+          Function to perform horizontal and vertical interpolation of pixel
+          position 'i' or 'k' for a block. Overfilling is done only if needed.
+          Reference image (ref) is read at correct position and the predicted
+          part is written to macroblock array (mb)
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInterpolateMidHorQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 horOffset)    /* 0 for pixel i, 1 for pixel k */
+{
+    u32 p1[21*21/4+1];
+    u32 x, y;
+    i32 tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
+    i32 *ptrJ, *ptrInt, *h1;
+    u8  *ptrC, *ptrV;
+    i32 table[21*16];
+    i32 tableWidth = (i32)partWidth+5;
+    const u8 *clp = h264bsdClip + 512;
+
+    /* Code */
+
+    ASSERT(ref);
+    ASSERT(mb);
+
+    if ((x0 < 0) || ((u32)x0+partWidth+5 > width) ||
+        (y0 < 0) || ((u32)y0+partHeight+5 > height))
+    {
+        h264bsdFillBlock(ref, (u8*)p1, x0, y0, width, height,
+                partWidth+5, partHeight+5, partWidth+5);
+
+        x0 = 0;
+        y0 = 0;
+        ref = (u8*)p1;
+        width = partWidth+5;
+    }
+
+    ref += (u32)y0 * width + (u32)x0;
+
+    h1 = table + tableWidth;
+    ptrC = ref + width;
+    ptrV = ptrC + 5*width;
+
+    /* First step: calculate intermediate values for
+     * vertical interpolation */
+    for (y = (partHeight >> 2); y; y--)
+    {
+        for (x = (u32)tableWidth; x; x--)
+        {
+            tmp4 = ptrV[-(i32)width*2];
+            tmp5 = ptrV[-(i32)width];
+            tmp1 = ptrV[width];
+            tmp2 = ptrV[width*2];
+            tmp6 = *ptrV++;
+
+            tmp7 = tmp4 + tmp1;
+            tmp2 -= (tmp7 << 2);
+            tmp2 -= tmp7;
+            tmp7 = tmp5 + tmp6;
+            tmp3 = ptrC[width*2];
+            tmp2 += (tmp7 << 4);
+            tmp2 += (tmp7 << 2);
+            tmp2 += tmp3;
+            h1[tableWidth*2] = tmp2;
+
+            tmp7 = tmp3 + tmp6;
+            tmp1 -= (tmp7 << 2);
+            tmp1 -= tmp7;
+            tmp7 = tmp4 + tmp5;
+            tmp2 = ptrC[width];
+            tmp1 += (tmp7 << 4);
+            tmp1 += (tmp7 << 2);
+            tmp1 += tmp2;
+            h1[tableWidth] = tmp1;
+
+            tmp1 = *ptrC;
+            tmp7 = tmp2 + tmp5;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = tmp4 + tmp3;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp6 += tmp1;
+            *h1 = tmp6;
+
+            tmp6 = ptrC[-(i32)width];
+            tmp1 += tmp4;
+            tmp5 -= (tmp1 << 2);
+            tmp5 -= tmp1;
+            tmp3 += tmp2;
+            tmp5 += (tmp3 << 4);
+            tmp5 += (tmp3 << 2);
+            tmp5 += tmp6;
+            h1[-tableWidth] = tmp5;
+            h1++;
+            ptrC++;
+        }
+        ptrC += 4*width - partWidth - 5;
+        ptrV += 4*width - partWidth - 5;
+        h1 += 3*tableWidth;
+    }
+
+    /* Second step: calculate horizontal interpolation and average */
+    ptrJ = table + 5;
+    /* Pointer to integer sample position, either G or H */
+    ptrInt = table + 2 + horOffset;
+    for (y = partHeight; y; y--)
+    {
+        tmp6 = *(ptrJ - 5);
+        tmp5 = *(ptrJ - 4);
+        tmp4 = *(ptrJ - 3);
+        tmp3 = *(ptrJ - 2);
+        tmp2 = *(ptrJ - 1);
+        for (x = (partWidth>>2); x; x--)
+        {
+            /* First pixel */
+            tmp6 += 512;
+            tmp7 = tmp3 + tmp4;
+            tmp6 += (tmp7 << 4);
+            tmp6 += (tmp7 << 2);
+            tmp7 = tmp2 + tmp5;
+            tmp1 = *ptrJ++;
+            tmp6 -= (tmp7 << 2);
+            tmp6 -= tmp7;
+            tmp7 = *ptrInt++;
+            tmp6 += tmp1;
+            tmp6 = clp[tmp6 >> 10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7 >> 5];
+            tmp5 += 512;
+            tmp6++;
+            *mb++ = (u8)((tmp6 + tmp7) >> 1);
+            /* Second pixel */
+            tmp7 = tmp2 + tmp3;
+            tmp5 += (tmp7 << 4);
+            tmp5 += (tmp7 << 2);
+            tmp7 = tmp1 + tmp4;
+            tmp6 = *ptrJ++;
+            tmp5 -= (tmp7 << 2);
+            tmp5 -= tmp7;
+            tmp7 = *ptrInt++;
+            tmp5 += tmp6;
+            tmp5 = clp[tmp5 >> 10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7 >> 5];
+            tmp4 += 512;
+            tmp5++;
+            *mb++ = (u8)((tmp5 + tmp7) >> 1);
+            /* Third pixel */
+            tmp7 = tmp1 + tmp2;
+            tmp4 += (tmp7 << 4);
+            tmp4 += (tmp7 << 2);
+            tmp7 = tmp6 + tmp3;
+            tmp5 = *ptrJ++;
+            tmp4 -= (tmp7 << 2);
+            tmp4 -= tmp7;
+            tmp7 = *ptrInt++;
+            tmp4 += tmp5;
+            tmp4 = clp[tmp4 >> 10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7 >> 5];
+            tmp3 += 512;
+            tmp4++;
+            *mb++ = (u8)((tmp4 + tmp7) >> 1);
+            /* Fourth pixel */
+            tmp7 = tmp6 + tmp1;
+            tmp3 += (tmp7 << 4);
+            tmp3 += (tmp7 << 2);
+            tmp7 = tmp5 + tmp2;
+            tmp4 = *ptrJ++;
+            tmp3 -= (tmp7 << 2);
+            tmp3 -= tmp7;
+            tmp7 = *ptrInt++;
+            tmp3 += tmp4;
+            tmp3 = clp[tmp3 >> 10];
+            tmp7 += 16;
+            tmp7 = clp[tmp7 >> 5];
+            tmp3++;
+            *mb++ = (u8)((tmp3 + tmp7) >> 1);
+            tmp3 = tmp5;
+            tmp5 = tmp1;
+            tmp7 = tmp4;
+            tmp4 = tmp6;
+            tmp6 = tmp2;
+            tmp2 = tmp7;
+        }
+        ptrJ += 5;
+        ptrInt += 5;
+        mb += 16 - partWidth;
+    }
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdPredictSamples
+
+        Functional description:
+          This function reconstructs a prediction for a macroblock partition.
+          The prediction is either copied or interpolated using the reference
+          frame and the motion vector. Both luminance and chrominance parts are
+          predicted. The prediction is stored in given macroblock array (data).
+        Inputs:
+          data          pointer to macroblock array (384 bytes) for output
+          mv            pointer to motion vector used for prediction
+          refPic        pointer to reference picture structure
+          xA            x-coordinate for current macroblock
+          yA            y-coordinate for current macroblock
+          partX         x-offset for partition in macroblock
+          partY         y-offset for partition in macroblock
+          partWidth     width of partition
+          partHeight    height of partition
+        Outputs:
+          data          macroblock array (16x16+8x8+8x8) where predicted
+                        partition is stored at correct position
+
+------------------------------------------------------------------------------*/
+
+void h264bsdPredictSamples(
+  u8 *data,
+  mv_t *mv,
+  image_t *refPic,
+  u32 xA,
+  u32 yA,
+  u32 partX,
+  u32 partY,
+  u32 partWidth,
+  u32 partHeight)
+
+{
+
+/* Variables */
+
+    u32 xFrac, yFrac, width, height;
+    i32 xInt, yInt;
+    u8 *lumaPartData;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(mv);
+    ASSERT(partWidth);
+    ASSERT(partHeight);
+    ASSERT(refPic);
+    ASSERT(refPic->data);
+    ASSERT(refPic->width);
+    ASSERT(refPic->height);
+
+    /* luma */
+    lumaPartData = data + 16*partY + partX;
+
+    xFrac = mv->hor & 0x3;
+    yFrac = mv->ver & 0x3;
+
+    width = 16 * refPic->width;
+    height = 16 * refPic->height;
+
+    xInt = (i32)xA + (i32)partX + (mv->hor >> 2);
+    yInt = (i32)yA + (i32)partY + (mv->ver >> 2);
+
+    ASSERT(lumaFracPos[xFrac][yFrac] < 16);
+
+    switch (lumaFracPos[xFrac][yFrac])
+    {
+        case 0: /* G */
+            h264bsdFillBlock(refPic->data, lumaPartData,
+                    xInt,yInt,width,height,partWidth,partHeight,16);
+            break;
+        case 1: /* d */
+            h264bsdInterpolateVerQuarter(refPic->data, lumaPartData,
+                    xInt, yInt-2, width, height, partWidth, partHeight, 0);
+            break;
+        case 2: /* h */
+            h264bsdInterpolateVerHalf(refPic->data, lumaPartData,
+                    xInt, yInt-2, width, height, partWidth, partHeight);
+            break;
+        case 3: /* n */
+            h264bsdInterpolateVerQuarter(refPic->data, lumaPartData,
+                    xInt, yInt-2, width, height, partWidth, partHeight, 1);
+            break;
+        case 4: /* a */
+            h264bsdInterpolateHorQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt, width, height, partWidth, partHeight, 0);
+            break;
+        case 5: /* e */
+            h264bsdInterpolateHorVerQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 0);
+            break;
+        case 6: /* i */
+            h264bsdInterpolateMidHorQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 0);
+            break;
+        case 7: /* p */
+            h264bsdInterpolateHorVerQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 2);
+            break;
+        case 8: /* b */
+            h264bsdInterpolateHorHalf(refPic->data, lumaPartData,
+                    xInt-2, yInt, width, height, partWidth, partHeight);
+            break;
+        case 9: /* f */
+            h264bsdInterpolateMidVerQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 0);
+            break;
+        case 10: /* j */
+            h264bsdInterpolateMidHalf(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight);
+            break;
+        case 11: /* q */
+            h264bsdInterpolateMidVerQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 1);
+            break;
+        case 12: /* c */
+            h264bsdInterpolateHorQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt, width, height, partWidth, partHeight, 1);
+            break;
+        case 13: /* g */
+            h264bsdInterpolateHorVerQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 1);
+            break;
+        case 14: /* k */
+            h264bsdInterpolateMidHorQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 1);
+            break;
+        default: /* case 15, r */
+            h264bsdInterpolateHorVerQuarter(refPic->data, lumaPartData,
+                    xInt-2, yInt-2, width, height, partWidth, partHeight, 3);
+            break;
+    }
+
+    /* chroma */
+    PredictChroma(
+      data + 16*16 + (partY>>1)*8 + (partX>>1),
+      xA + partX,
+      yA + partY,
+      partWidth,
+      partHeight,
+      mv,
+      refPic);
+
+}
+
+#else /* H264DEC_OMXDL */
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdPredictSamples
+
+        Functional description:
+          This function reconstructs a prediction for a macroblock partition.
+          The prediction is either copied or interpolated using the reference
+          frame and the motion vector. Both luminance and chrominance parts are
+          predicted. The prediction is stored in given macroblock array (data).
+        Inputs:
+          data          pointer to macroblock array (384 bytes) for output
+          mv            pointer to motion vector used for prediction
+          refPic        pointer to reference picture structure
+          xA            x-coordinate for current macroblock
+          yA            y-coordinate for current macroblock
+          partX         x-offset for partition in macroblock
+          partY         y-offset for partition in macroblock
+          partWidth     width of partition
+          partHeight    height of partition
+        Outputs:
+          data          macroblock array (16x16+8x8+8x8) where predicted
+                        partition is stored at correct position
+
+------------------------------------------------------------------------------*/
+
+/*lint -e{550} Symbol 'res' not accessed */
+void h264bsdPredictSamples(
+  u8 *data,
+  mv_t *mv,
+  image_t *refPic,
+  u32 colAndRow,
+  u32 part,
+  u8 *pFill)
+
+{
+
+/* Variables */
+
+    u32 xFrac, yFrac;
+    u32 width, height;
+    i32 xInt, yInt, x0, y0;
+    u8 *partData, *ref;
+    OMXSize roi;
+    u32 fillWidth;
+    u32 fillHeight;
+    OMXResult res;
+    u32 xA, yA;
+    u32 partX, partY;
+    u32 partWidth, partHeight;
+
+/* Code */
+
+    ASSERT(data);
+    ASSERT(mv);
+    ASSERT(refPic);
+    ASSERT(refPic->data);
+    ASSERT(refPic->width);
+    ASSERT(refPic->height);
+
+    xA = (colAndRow & 0xFFFF0000) >> 16;
+    yA = (colAndRow & 0x0000FFFF);
+
+    partX = (part & 0xFF000000) >> 24;
+    partY = (part & 0x00FF0000) >> 16;
+    partWidth = (part & 0x0000FF00) >> 8;
+    partHeight = (part & 0x000000FF);
+
+    ASSERT(partWidth);
+    ASSERT(partHeight);
+
+    /* luma */
+    partData = data + 16*partY + partX;
+
+    xFrac = mv->hor & 0x3;
+    yFrac = mv->ver & 0x3;
+
+    width = 16 * refPic->width;
+    height = 16 * refPic->height;
+
+    xInt = (i32)xA + (i32)partX + (mv->hor >> 2);
+    yInt = (i32)yA + (i32)partY + (mv->ver >> 2);
+
+    x0 = (xFrac) ? xInt-2 : xInt;
+    y0 = (yFrac) ? yInt-2 : yInt;
+
+    if (xFrac)
+    {
+        if (partWidth == 16)
+            fillWidth = 32;
+        else
+            fillWidth = 16;
+    }
+    else
+        fillWidth = (partWidth*2);
+    if (yFrac)
+        fillHeight = partHeight+5;
+    else
+        fillHeight = partHeight;
+
+
+    if ((x0 < 0) || ((u32)x0+fillWidth > width) ||
+        (y0 < 0) || ((u32)y0+fillHeight > height))
+    {
+        h264bsdFillBlock(refPic->data, (u8*)pFill, x0, y0, width, height,
+                fillWidth, fillHeight, fillWidth);
+
+        x0 = 0;
+        y0 = 0;
+        ref = pFill;
+        width = fillWidth;
+        if (yFrac)
+            ref += 2*width;
+        if (xFrac)
+            ref += 2;
+    }
+    else
+    {
+        /*lint --e(737) Loss of sign */
+        ref = refPic->data + yInt*width + xInt;
+    }
+    /* Luma interpolation */
+    roi.width = (i32)partWidth;
+    roi.height = (i32)partHeight;
+
+    res = omxVCM4P10_InterpolateLuma(ref, (i32)width, partData, 16,
+                                        (i32)xFrac, (i32)yFrac, roi);
+    ASSERT(res == 0);
+
+    /* Chroma */
+    width  = 8 * refPic->width;
+    height = 8 * refPic->height;
+
+    x0 = ((xA + partX) >> 1) + (mv->hor >> 3);
+    y0 = ((yA + partY) >> 1) + (mv->ver >> 3);
+    xFrac = mv->hor & 0x7;
+    yFrac = mv->ver & 0x7;
+
+    ref = refPic->data + 256 * refPic->width * refPic->height;
+
+    roi.width = (i32)(partWidth >> 1);
+    fillWidth = ((partWidth >> 1) + 8) & ~0x7;
+    roi.height = (i32)(partHeight >> 1);
+    fillHeight = (partHeight >> 1) + 1;
+
+    if ((x0 < 0) || ((u32)x0+fillWidth > width) ||
+        (y0 < 0) || ((u32)y0+fillHeight > height))
+    {
+        h264bsdFillBlock(ref, pFill, x0, y0, width, height,
+            fillWidth, fillHeight, fillWidth);
+        ref += width * height;
+        h264bsdFillBlock(ref, pFill + fillWidth*fillHeight,
+            x0, y0, width, height, fillWidth,
+            fillHeight, fillWidth);
+
+        ref = pFill;
+        x0 = 0;
+        y0 = 0;
+        width = fillWidth;
+        height = fillHeight;
+    }
+
+    partData = data + 16*16 + (partY>>1)*8 + (partX>>1);
+
+    /* Chroma interpolation */
+    /*lint --e(737) Loss of sign */
+    ref += y0 * width + x0;
+    res = armVCM4P10_Interpolate_Chroma(ref, width, partData, 8,
+                            (u32)roi.width, (u32)roi.height, xFrac, yFrac);
+    ASSERT(res == 0);
+    partData += 8 * 8;
+    ref += height * width;
+    res = armVCM4P10_Interpolate_Chroma(ref, width, partData, 8,
+                            (u32)roi.width, (u32)roi.height, xFrac, yFrac);
+    ASSERT(res == 0);
+
+}
+
+#endif /* H264DEC_OMXDL */
+
+
+/*------------------------------------------------------------------------------
+
+    Function: FillRow1
+
+        Functional description:
+          This function gets a row of reference pels in a 'normal' case when no
+          overfilling is necessary.
+
+------------------------------------------------------------------------------*/
+
+static void FillRow1(
+  u8 *ref,
+  u8 *fill,
+  i32 left,
+  i32 center,
+  i32 right)
+{
+
+    ASSERT(ref);
+    ASSERT(fill);
+
+    memcpy(fill, ref, (u32)center);
+
+    /*lint -e(715) */
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFillRow7
+
+        Functional description:
+          This function gets a row of reference pels when horizontal coordinate
+          is partly negative or partly greater than reference picture width
+          (overfilling some pels on left and/or right edge).
+        Inputs:
+          ref       pointer to reference samples
+          left      amount of pixels to overfill on left-edge
+          center    amount of pixels to copy
+          right     amount of pixels to overfill on right-edge
+        Outputs:
+          fill      pointer where samples are stored
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_NEON
+void h264bsdFillRow7(
+  u8 *ref,
+  u8 *fill,
+  i32 left,
+  i32 center,
+  i32 right)
+{
+    u8 tmp;
+
+    ASSERT(ref);
+    ASSERT(fill);
+
+    if (left)
+        tmp = *ref;
+
+    for ( ; left; left--)
+        /*lint -esym(644,tmp)  tmp is initialized if used */
+        *fill++ = tmp;
+
+    for ( ; center; center--)
+        *fill++ = *ref++;
+
+    if (right)
+        tmp = ref[-1];
+
+    for ( ; right; right--)
+        /*lint -esym(644,tmp)  tmp is initialized if used */
+        *fill++ = tmp;
+}
+#endif
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFillBlock
+
+        Functional description:
+          This function gets a block of reference pels. It determines whether
+          overfilling is needed or not and repeatedly calls an appropriate
+          function (by using a function pointer) that fills one row the block.
+        Inputs:
+          ref               pointer to reference frame
+          x0                x-coordinate for block
+          y0                y-coordinate for block
+          width             width of reference frame
+          height            height of reference frame
+          blockWidth        width of block
+          blockHeight       height of block
+          fillScanLength    length of a line in output array (pixels)
+        Outputs:
+          fill              pointer to array where output block is written
+
+------------------------------------------------------------------------------*/
+
+void h264bsdFillBlock(
+  u8 *ref,
+  u8 *fill,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 blockWidth,
+  u32 blockHeight,
+  u32 fillScanLength)
+
+{
+
+/* Variables */
+
+    i32 xstop, ystop;
+    void (*fp)(u8*, u8*, i32, i32, i32);
+    i32 left, x, right;
+    i32 top, y, bottom;
+
+/* Code */
+
+    ASSERT(ref);
+    ASSERT(fill);
+    ASSERT(width);
+    ASSERT(height);
+    ASSERT(fill);
+    ASSERT(blockWidth);
+    ASSERT(blockHeight);
+
+    xstop = x0 + (i32)blockWidth;
+    ystop = y0 + (i32)blockHeight;
+
+    /* Choose correct function whether overfilling on left-edge or right-edge
+     * is needed or not */
+    if (x0 >= 0 && xstop <= (i32)width)
+        fp = FillRow1;
+    else
+        fp = h264bsdFillRow7;
+
+    if (ystop < 0)
+        y0 = -(i32)blockHeight;
+
+    if (xstop < 0)
+        x0 = -(i32)blockWidth;
+
+    if (y0 > (i32)height)
+        y0 = (i32)height;
+
+    if (x0 > (i32)width)
+        x0 = (i32)width;
+
+    xstop = x0 + (i32)blockWidth;
+    ystop = y0 + (i32)blockHeight;
+
+    if (x0 > 0)
+        ref += x0;
+
+    if (y0 > 0)
+        ref += y0 * (i32)width;
+
+    left = x0 < 0 ? -x0 : 0;
+    right = xstop > (i32)width ? xstop - (i32)width : 0;
+    x = (i32)blockWidth - left - right;
+
+    top = y0 < 0 ? -y0 : 0;
+    bottom = ystop > (i32)height ? ystop - (i32)height : 0;
+    y = (i32)blockHeight - top - bottom;
+
+    /* Top-overfilling */
+    for ( ; top; top-- )
+    {
+        (*fp)(ref, fill, left, x, right);
+        fill += fillScanLength;
+    }
+
+    /* Lines inside reference image */
+    for ( ; y; y-- )
+    {
+        (*fp)(ref, fill, left, x, right);
+        ref += width;
+        fill += fillScanLength;
+    }
+
+    ref -= width;
+
+    /* Bottom-overfilling */
+    for ( ; bottom; bottom-- )
+    {
+        (*fp)(ref, fill, left, x, right);
+        fill += fillScanLength;
+    }
+}
+
+/*lint +e701 +e702 */
+
+
--- /dev/null
+++ b/src/h264bsd_reconstruct.h
@@ -1,0 +1,211 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_RECONSTRUCT_H
+#define H264SWDEC_RECONSTRUCT_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_image.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_OMXDL
+void h264bsdPredictSamples(
+  u8 *data,
+  mv_t *mv,
+  image_t *refPic,
+  u32 xA,
+  u32 yA,
+  u32 partX,
+  u32 partY,
+  u32 partWidth,
+  u32 partHeight);
+#else
+void h264bsdPredictSamples(
+  u8 *data,
+  mv_t *mv,
+  image_t *refPic,
+  u32 colAndRow,/* packaged data | column    | row                |*/
+  u32 part,     /* packaged data |partX|partY|partWidth|partHeight|*/
+  u8 *pFill);
+#endif
+
+void h264bsdFillBlock(
+  u8 * ref,
+  u8 * fill,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 blockWidth,
+  u32 blockHeight,
+  u32 fillScanLength);
+
+void h264bsdInterpolateChromaHor(
+  u8 *pRef,
+  u8 *predPartChroma,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 xFrac,
+  u32 chromaPartWidth,
+  u32 chromaPartHeight);
+
+void h264bsdInterpolateChromaVer(
+  u8 *pRef,
+  u8 *predPartChroma,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 yFrac,
+  u32 chromaPartWidth,
+  u32 chromaPartHeight);
+
+void h264bsdInterpolateChromaHorVer(
+  u8 *ref,
+  u8 *predPartChroma,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 xFrac,
+  u32 yFrac,
+  u32 chromaPartWidth,
+  u32 chromaPartHeight);
+
+void h264bsdInterpolateVerHalf(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight);
+
+void h264bsdInterpolateVerQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 verOffset);
+
+void h264bsdInterpolateHorHalf(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight);
+
+void h264bsdInterpolateHorQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 horOffset);
+
+void h264bsdInterpolateHorVerQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 horVerOffset);
+
+void h264bsdInterpolateMidHalf(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight);
+
+void h264bsdInterpolateMidVerQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 verOffset);
+
+void h264bsdInterpolateMidHorQuarter(
+  u8 *ref,
+  u8 *mb,
+  i32 x0,
+  i32 y0,
+  u32 width,
+  u32 height,
+  u32 partWidth,
+  u32 partHeight,
+  u32 horOffset);
+
+
+void h264bsdFillRow7(
+  u8 *ref,
+  u8 *fill,
+  i32 left,
+  i32 center,
+  i32 right);
+
+#endif /* #ifdef H264SWDEC_RECONSTRUCT_H */
+
--- /dev/null
+++ b/src/h264bsd_sei.c
@@ -1,0 +1,1694 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeSeiMessage
+          DecodeBufferingPeriod
+          DecodePictureTiming
+          DecodePanScanRectangle
+          DecodeFillerPayload
+          DecodeUserDataRegisteredITuTT35
+          DecodeUserDataUnregistered
+          DecodeRecoveryPoint
+          DecodeDecRefPicMarkingRepetition
+          DecodeSparePic
+          DecodeSceneInfo
+          DecodeSubSeqInfo
+          DecodeSubSeqLayerCharacteristics
+          DecodeSubSeqCharacteristics
+          DecodeFullFrameFreeze
+          DecodeFullFrameSnapshot
+          DecodeProgressiveRefinementSegmentStart
+          DecodeProgressiveRefinementSegmentEnd
+          DecodeMotionConstrainedSliceGroupSet
+          DecodeReservedSeiMessage
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_sei.h"
+#include "basetype.h"
+#include "h264bsd_util.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_vlc.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_slice_header.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+static const u32 numClockTS[9] = {1,1,1,2,2,3,3,2,3};
+static const u32 ceilLog2NumSliceGroups[9] = {0,1,1,2,2,3,3,3,3};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 DecodeBufferingPeriod(
+  strmData_t *pStrmData,
+  seiBufferingPeriod_t *pBufferingPeriod,
+  u32 cpbCnt,
+  u32 initialCpbRemovalDelayLength,
+  u32 nalHrdBpPresentFlag,
+  u32 vclHrdBpPresentFlag);
+
+static u32 DecodePictureTiming(
+  strmData_t *pStrmData,
+  seiPicTiming_t *pPicTiming,
+  u32 cpbRemovalDelayLength,
+  u32 dpbOutputDelayLength,
+  u32 timeOffsetLength,
+  u32 cpbDpbDelaysPresentFlag,
+  u32 picStructPresentFlag);
+
+static u32 DecodePanScanRectangle(
+  strmData_t *pStrmData,
+  seiPanScanRect_t *pPanScanRectangle);
+
+static u32 DecodeFillerPayload(strmData_t *pStrmData, u32 payloadSize);
+
+static u32 DecodeUserDataRegisteredITuTT35(
+  strmData_t *pStrmData,
+  seiUserDataRegisteredItuTT35_t *pUserDataRegisteredItuTT35,
+  u32 payloadSize);
+
+static u32 DecodeUserDataUnregistered(
+  strmData_t *pStrmData,
+  seiUserDataUnregistered_t *pUserDataUnregistered,
+  u32 payloadSize);
+
+static u32 DecodeRecoveryPoint(
+  strmData_t *pStrmData,
+  seiRecoveryPoint_t *pRecoveryPoint);
+
+static u32 DecodeDecRefPicMarkingRepetition(
+  strmData_t *pStrmData,
+  seiDecRefPicMarkingRepetition_t *pDecRefPicMarkingRepetition,
+  u32 numRefFrames);
+
+static u32 DecodeSparePic(
+  strmData_t *pStrmData,
+  seiSparePic_t *pSparePic,
+  u32 picSizeInMapUnits);
+
+static u32 DecodeSceneInfo(
+  strmData_t *pStrmData,
+  seiSceneInfo_t *pSceneInfo);
+
+static u32 DecodeSubSeqInfo(
+  strmData_t *pStrmData,
+  seiSubSeqInfo_t *pSubSeqInfo);
+
+static u32 DecodeSubSeqLayerCharacteristics(
+  strmData_t *pStrmData,
+  seiSubSeqLayerCharacteristics_t *pSubSeqLayerCharacteristics);
+
+static u32 DecodeSubSeqCharacteristics(
+  strmData_t *pStrmData,
+  seiSubSeqCharacteristics_t *pSubSeqCharacteristics);
+
+static u32 DecodeFullFrameFreeze(
+  strmData_t *pStrmData,
+  seiFullFrameFreeze_t *pFullFrameFreeze);
+
+static u32 DecodeFullFrameSnapshot(
+  strmData_t *pStrmData,
+  seiFullFrameSnapshot_t *pFullFrameSnapshot);
+
+static u32 DecodeProgressiveRefinementSegmentStart(
+  strmData_t *pStrmData,
+  seiProgressiveRefinementSegmentStart_t *pProgressiveRefinementSegmentStart);
+
+static u32 DecodeProgressiveRefinementSegmentEnd(
+  strmData_t *pStrmData,
+  seiProgressiveRefinementSegmentEnd_t *pProgressiveRefinementSegmentEnd);
+
+static u32 DecodeMotionConstrainedSliceGroupSet(
+  strmData_t *pStrmData,
+  seiMotionConstrainedSliceGroupSet_t *pMotionConstrainedSliceGroupSet,
+  u32 numSliceGroups);
+
+static u32 DecodeReservedSeiMessage(
+  strmData_t *pStrmData,
+  seiReservedSeiMessage_t *pReservedSeiMessage,
+  u32 payloadSize);
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDecodeSeiMessage
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSeiMessage(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  seiMessage_t *pSeiMessage,
+  u32 numSliceGroups)
+{
+
+/* Variables */
+
+    u32 tmp, payloadType, payloadSize, status;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeiMessage);
+
+
+    memset(pSeiMessage, 0, sizeof(seiMessage_t));
+
+    do
+    {
+        payloadType = 0;
+        while((tmp = h264bsdGetBits(pStrmData, 8)) == 0xFF)
+        {
+            payloadType += 255;
+                    }
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        payloadType += tmp;
+
+        payloadSize = 0;
+        while((tmp = h264bsdGetBits(pStrmData, 8)) == 0xFF)
+        {
+            payloadSize += 255;
+        }
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        payloadSize += tmp;
+
+        pSeiMessage->payloadType = payloadType;
+
+        switch (payloadType)
+        {
+            case 0:
+                ASSERT(pSeqParamSet);
+                status = DecodeBufferingPeriod(
+                  pStrmData,
+                  &pSeiMessage->bufferingPeriod,
+                  pSeqParamSet->vuiParameters->vclHrdParameters.cpbCnt,
+                  pSeqParamSet->vuiParameters->vclHrdParameters.
+                  initialCpbRemovalDelayLength,
+                  pSeqParamSet->vuiParameters->nalHrdParametersPresentFlag,
+                  pSeqParamSet->vuiParameters->vclHrdParametersPresentFlag);
+                break;
+
+            case 1:
+                ASSERT(pSeqParamSet->vuiParametersPresentFlag);
+                status = DecodePictureTiming(
+                  pStrmData,
+                  &pSeiMessage->picTiming,
+                  pSeqParamSet->vuiParameters->vclHrdParameters.
+                      cpbRemovalDelayLength,
+                  pSeqParamSet->vuiParameters->vclHrdParameters.
+                      dpbOutputDelayLength,
+                  pSeqParamSet->vuiParameters->vclHrdParameters.
+                    timeOffsetLength,
+                  pSeqParamSet->vuiParameters->nalHrdParametersPresentFlag ||
+                  pSeqParamSet->vuiParameters->vclHrdParametersPresentFlag ?
+                  HANTRO_TRUE : HANTRO_FALSE,
+                  pSeqParamSet->vuiParameters->picStructPresentFlag);
+                break;
+
+            case 2:
+                status = DecodePanScanRectangle(
+                  pStrmData,
+                  &pSeiMessage->panScanRect);
+                break;
+
+            case 3:
+                status = DecodeFillerPayload(pStrmData, payloadSize);
+                break;
+
+            case 4:
+                status = DecodeUserDataRegisteredITuTT35(
+                  pStrmData,
+                  &pSeiMessage->userDataRegisteredItuTT35,
+                  payloadSize);
+                break;
+
+            case 5:
+                status = DecodeUserDataUnregistered(
+                  pStrmData,
+                  &pSeiMessage->userDataUnregistered,
+                  payloadSize);
+                break;
+
+            case 6:
+                status = DecodeRecoveryPoint(
+                  pStrmData,
+                  &pSeiMessage->recoveryPoint);
+                break;
+
+            case 7:
+                status = DecodeDecRefPicMarkingRepetition(
+                  pStrmData,
+                  &pSeiMessage->decRefPicMarkingRepetition,
+                  pSeqParamSet->numRefFrames);
+                break;
+
+            case 8:
+                ASSERT(pSeqParamSet);
+                status = DecodeSparePic(
+                  pStrmData,
+                  &pSeiMessage->sparePic,
+                  pSeqParamSet->picWidthInMbs * pSeqParamSet->picHeightInMbs);
+                break;
+
+            case 9:
+                status = DecodeSceneInfo(
+                  pStrmData,
+                  &pSeiMessage->sceneInfo);
+                break;
+
+            case 10:
+                status = DecodeSubSeqInfo(
+                  pStrmData,
+                  &pSeiMessage->subSeqInfo);
+                break;
+
+            case 11:
+                status = DecodeSubSeqLayerCharacteristics(
+                  pStrmData,
+                  &pSeiMessage->subSeqLayerCharacteristics);
+                break;
+
+            case 12:
+                status = DecodeSubSeqCharacteristics(
+                  pStrmData,
+                  &pSeiMessage->subSeqCharacteristics);
+                break;
+
+            case 13:
+                status = DecodeFullFrameFreeze(
+                  pStrmData,
+                  &pSeiMessage->fullFrameFreeze);
+                break;
+
+            case 14: /* This SEI does not contain data, what to do ??? */
+                status = HANTRO_OK;
+                break;
+
+            case 15:
+                status = DecodeFullFrameSnapshot(
+                  pStrmData,
+                  &pSeiMessage->fullFrameSnapshot);
+                break;
+
+            case 16:
+                status = DecodeProgressiveRefinementSegmentStart(
+                  pStrmData,
+                  &pSeiMessage->progressiveRefinementSegmentStart);
+                break;
+
+            case 17:
+                status = DecodeProgressiveRefinementSegmentEnd(
+                  pStrmData,
+                  &pSeiMessage->progressiveRefinementSegmentEnd);
+                break;
+
+            case 18:
+                ASSERT(numSliceGroups);
+                status = DecodeMotionConstrainedSliceGroupSet(
+                  pStrmData,
+                  &pSeiMessage->motionConstrainedSliceGroupSet,
+                  numSliceGroups);
+                break;
+
+            default:
+                status = DecodeReservedSeiMessage(
+                  pStrmData,
+                  &pSeiMessage->reservedSeiMessage,
+                  payloadSize);
+                break;
+        }
+
+        if (status != HANTRO_OK)
+            return(status);
+
+        while (!h264bsdIsByteAligned(pStrmData))
+        {
+            if (h264bsdGetBits(pStrmData, 1) != 1)
+                return(HANTRO_NOK);
+            while (!h264bsdIsByteAligned(pStrmData))
+            {
+                if (h264bsdGetBits(pStrmData, 1) != 0)
+                    return(HANTRO_NOK);
+            }
+        }
+    } while (h264bsdMoreRbspData(pStrmData));
+
+    return(h264bsdRbspTrailingBits(pStrmData));
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeBufferingPeriod
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeBufferingPeriod(
+  strmData_t *pStrmData,
+  seiBufferingPeriod_t *pBufferingPeriod,
+  u32 cpbCnt,
+  u32 initialCpbRemovalDelayLength,
+  u32 nalHrdBpPresentFlag,
+  u32 vclHrdBpPresentFlag)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pBufferingPeriod);
+    ASSERT(cpbCnt);
+    ASSERT(initialCpbRemovalDelayLength);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pBufferingPeriod->seqParameterSetId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pBufferingPeriod->seqParameterSetId > 31)
+        return(HANTRO_NOK);
+
+    if (nalHrdBpPresentFlag)
+    {
+        for (i = 0; i < cpbCnt; i++)
+        {
+            tmp = h264bsdGetBits(pStrmData, initialCpbRemovalDelayLength);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            if (tmp == 0)
+                return(HANTRO_NOK);
+            pBufferingPeriod->initialCpbRemovalDelay[i] = tmp;
+
+            tmp = h264bsdGetBits(pStrmData, initialCpbRemovalDelayLength);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pBufferingPeriod->initialCpbRemovalDelayOffset[i] = tmp;
+        }
+    }
+
+    if (vclHrdBpPresentFlag)
+    {
+        for (i = 0; i < cpbCnt; i++)
+        {
+            tmp = h264bsdGetBits(pStrmData, initialCpbRemovalDelayLength);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pBufferingPeriod->initialCpbRemovalDelay[i] = tmp;
+
+            tmp = h264bsdGetBits(pStrmData, initialCpbRemovalDelayLength);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pBufferingPeriod->initialCpbRemovalDelayOffset[i] = tmp;
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodePictureTiming
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodePictureTiming(
+  strmData_t *pStrmData,
+  seiPicTiming_t *pPicTiming,
+  u32 cpbRemovalDelayLength,
+  u32 dpbOutputDelayLength,
+  u32 timeOffsetLength,
+  u32 cpbDpbDelaysPresentFlag,
+  u32 picStructPresentFlag)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+    i32 itmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pPicTiming);
+
+
+    if (cpbDpbDelaysPresentFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, cpbRemovalDelayLength);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pPicTiming->cpbRemovalDelay = tmp;
+
+        tmp = h264bsdGetBits(pStrmData, dpbOutputDelayLength);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pPicTiming->dpbOutputDelay = tmp;
+    }
+
+    if (picStructPresentFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 4);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        if (tmp > 8)
+            return(HANTRO_NOK);
+        pPicTiming->picStruct = tmp;
+
+        for (i = 0; i < numClockTS[pPicTiming->picStruct]; i++)
+        {
+            tmp = h264bsdGetBits(pStrmData, 1);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pPicTiming->clockTimeStampFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+            if (pPicTiming->clockTimeStampFlag[i])
+            {
+                tmp = h264bsdGetBits(pStrmData, 2);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pPicTiming->ctType[i] = tmp;
+
+                tmp = h264bsdGetBits(pStrmData, 1);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pPicTiming->nuitFieldBasedFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                tmp = h264bsdGetBits(pStrmData, 5);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                if (tmp > 6)
+                    return(HANTRO_NOK);
+                pPicTiming->countingType[i] = tmp;
+
+                tmp = h264bsdGetBits(pStrmData, 1);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pPicTiming->fullTimeStampFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                tmp = h264bsdGetBits(pStrmData, 1);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pPicTiming->discontinuityFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                tmp = h264bsdGetBits(pStrmData, 1);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pPicTiming->cntDroppedFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                tmp = h264bsdGetBits(pStrmData, 8);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pPicTiming->nFrames[i] = tmp;
+
+                if (pPicTiming->fullTimeStampFlag[i])
+                {
+                    tmp = h264bsdGetBits(pStrmData, 6);
+                    if (tmp == END_OF_STREAM)
+                        return(HANTRO_NOK);
+                    if (tmp > 59)
+                        return(HANTRO_NOK);
+                    pPicTiming->secondsValue[i] = tmp;
+
+                    tmp = h264bsdGetBits(pStrmData, 6);
+                    if (tmp == END_OF_STREAM)
+                        return(HANTRO_NOK);
+                    if (tmp > 59)
+                        return(HANTRO_NOK);
+                    pPicTiming->minutesValue[i] = tmp;
+
+                    tmp = h264bsdGetBits(pStrmData, 5);
+                    if (tmp == END_OF_STREAM)
+                        return(HANTRO_NOK);
+                    if (tmp > 23)
+                        return(HANTRO_NOK);
+                    pPicTiming->hoursValue[i] = tmp;
+                }
+                else
+                {
+                    tmp = h264bsdGetBits(pStrmData, 1);
+                    if (tmp == END_OF_STREAM)
+                        return(HANTRO_NOK);
+                    pPicTiming->secondsFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                    if (pPicTiming->secondsFlag[i])
+                    {
+                        tmp = h264bsdGetBits(pStrmData, 6);
+                        if (tmp == END_OF_STREAM)
+                            return(HANTRO_NOK);
+                        if (tmp > 59)
+                            return(HANTRO_NOK);
+                        pPicTiming->secondsValue[i] = tmp;
+
+                        tmp = h264bsdGetBits(pStrmData, 1);
+                        if (tmp == END_OF_STREAM)
+                            return(HANTRO_NOK);
+                        pPicTiming->minutesFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                        if (pPicTiming->minutesFlag[i])
+                        {
+                            tmp = h264bsdGetBits(pStrmData, 6);
+                            if (tmp == END_OF_STREAM)
+                                return(HANTRO_NOK);
+                            if (tmp > 59)
+                                return(HANTRO_NOK);
+                            pPicTiming->minutesValue[i] = tmp;
+
+                            tmp = h264bsdGetBits(pStrmData, 1);
+                            if (tmp == END_OF_STREAM)
+                                return(HANTRO_NOK);
+                            pPicTiming->hoursFlag[i] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+
+                            if (pPicTiming->hoursFlag[i])
+                            {
+                                tmp = h264bsdGetBits(pStrmData, 5);
+                                if (tmp == END_OF_STREAM)
+                                    return(HANTRO_NOK);
+                                if (tmp > 23)
+                                    return(HANTRO_NOK);
+                                pPicTiming->hoursValue[i] = tmp;
+                            }
+                        }
+                    }
+                }
+                if (timeOffsetLength)
+                {
+                    tmp = h264bsdGetBits(pStrmData, timeOffsetLength);
+                    if (tmp == END_OF_STREAM)
+                        return(HANTRO_NOK);
+                    itmp = (i32)tmp;
+                    /* following "converts" timeOffsetLength-bit signed
+                     * integer into i32 */
+                    /*lint -save -e701 -e702 */
+                    itmp <<= (32 - timeOffsetLength);
+                    itmp >>= (32 - timeOffsetLength);
+                    /*lint -restore */
+                    pPicTiming->timeOffset[i] = itmp;
+                                    }
+                else
+                    pPicTiming->timeOffset[i] = 0;
+            }
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodePanScanRectangle
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodePanScanRectangle(
+  strmData_t *pStrmData,
+  seiPanScanRect_t *pPanScanRectangle)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pPanScanRectangle);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pPanScanRectangle->panScanRectId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pPanScanRectangle->panScanRectCancelFlag = tmp == 1 ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+
+    if (!pPanScanRectangle->panScanRectCancelFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pPanScanRectangle->panScanCnt);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pPanScanRectangle->panScanCnt > 2)
+            return(HANTRO_NOK);
+        pPanScanRectangle->panScanCnt++;
+
+        for (i = 0; i < pPanScanRectangle->panScanCnt; i++)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData,
+              &pPanScanRectangle->panScanRectLeftOffset[i]);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData,
+              &pPanScanRectangle->panScanRectRightOffset[i]);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData,
+              &pPanScanRectangle->panScanRectTopOffset[i]);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData,
+              &pPanScanRectangle->panScanRectBottomOffset[i]);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+        }
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pPanScanRectangle->panScanRectRepetitionPeriod);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pPanScanRectangle->panScanRectRepetitionPeriod > 16384)
+            return(HANTRO_NOK);
+        if (pPanScanRectangle->panScanCnt > 1 &&
+          pPanScanRectangle->panScanRectRepetitionPeriod > 1)
+            return(HANTRO_NOK);
+    }
+
+    return(HANTRO_OK);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeFillerPayload
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeFillerPayload(strmData_t *pStrmData, u32 payloadSize)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStrmData);
+
+
+    if (payloadSize)
+        if (h264bsdFlushBits(pStrmData, 8 * payloadSize) == END_OF_STREAM)
+            return(HANTRO_NOK);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeUserDataRegisteredITuTT35
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeUserDataRegisteredITuTT35(
+  strmData_t *pStrmData,
+  seiUserDataRegisteredItuTT35_t *pUserDataRegisteredItuTT35,
+  u32 payloadSize)
+{
+
+/* Variables */
+
+    u32 tmp, i, j;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pUserDataRegisteredItuTT35);
+    ASSERT(payloadSize);
+
+        tmp = h264bsdGetBits(pStrmData, 8);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pUserDataRegisteredItuTT35->ituTT35CountryCode = tmp;
+
+    if (pUserDataRegisteredItuTT35->ituTT35CountryCode != 0xFF)
+        i = 1;
+    else
+    {
+        tmp = h264bsdGetBits(pStrmData, 8);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pUserDataRegisteredItuTT35->ituTT35CountryCodeExtensionByte = tmp;
+        i = 2;
+    }
+
+    /* where corresponding FREE() ??? */
+    ALLOCATE(pUserDataRegisteredItuTT35->ituTT35PayloadByte,payloadSize-i,u8);
+    pUserDataRegisteredItuTT35->numPayloadBytes = payloadSize - i;
+    if (pUserDataRegisteredItuTT35->ituTT35PayloadByte == NULL)
+        return(MEMORY_ALLOCATION_ERROR);
+
+    j = 0;
+    do
+    {
+        tmp = h264bsdGetBits(pStrmData, 8);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pUserDataRegisteredItuTT35->ituTT35PayloadByte[j] = (u8)tmp;
+        i++;
+        j++;
+    } while (i < payloadSize);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeUserDataUnregistered
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeUserDataUnregistered(
+  strmData_t *pStrmData,
+  seiUserDataUnregistered_t *pUserDataUnregistered,
+  u32 payloadSize)
+{
+
+/* Variables */
+
+    u32 i, tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pUserDataUnregistered);
+
+
+    for (i = 0; i < 4; i++)
+    {
+        pUserDataUnregistered->uuidIsoIec11578[i] = h264bsdShowBits32(pStrmData);
+        if (h264bsdFlushBits(pStrmData,32) == END_OF_STREAM)
+            return(HANTRO_NOK);
+    }
+
+    /* where corresponding FREE() ??? */
+    ALLOCATE(pUserDataUnregistered->userDataPayloadByte, payloadSize - 16, u8);
+    if (pUserDataUnregistered->userDataPayloadByte == NULL)
+        return(MEMORY_ALLOCATION_ERROR);
+
+    pUserDataUnregistered->numPayloadBytes = payloadSize - 16;
+
+    for (i = 0; i < payloadSize - 16; i++)
+    {
+        tmp = h264bsdGetBits(pStrmData, 8);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pUserDataUnregistered->userDataPayloadByte[i] = (u8)tmp;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeRecoveryPoint
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeRecoveryPoint(
+  strmData_t *pStrmData,
+  seiRecoveryPoint_t *pRecoveryPoint)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pRecoveryPoint);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pRecoveryPoint->recoveryFrameCnt);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pRecoveryPoint->exactMatchFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pRecoveryPoint->brokenLinkFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 2);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    if (tmp > 2)
+        return(HANTRO_NOK);
+    pRecoveryPoint->changingSliceGroupIdc = tmp;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeDecRefPicMarkingRepetition
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeDecRefPicMarkingRepetition(
+  strmData_t *pStrmData,
+  seiDecRefPicMarkingRepetition_t *pDecRefPicMarkingRepetition,
+  u32 numRefFrames)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pDecRefPicMarkingRepetition);
+
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pDecRefPicMarkingRepetition->originalIdrFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pDecRefPicMarkingRepetition->originalFrameNum);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* frame_mbs_only_flag assumed always true so some field related syntax
+     * elements are skipped, see H.264 standard */
+    // tmp = h264bsdDecRefPicMarking(pStrmData,
+    //  &pDecRefPicMarkingRepetition->decRefPicMarking, NAL_SEI, numRefFrames);
+    return(HANTRO_NOK);
+
+    return(tmp);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeSparePic
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeSparePic(
+  strmData_t *pStrmData,
+  seiSparePic_t *pSparePic,
+  u32 picSizeInMapUnits)
+{
+
+/* Variables */
+
+    u32 tmp, i, j, mapUnitCnt;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSparePic);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pSparePic->targetFrameNum);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSparePic->spareFieldFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+    /* do not accept fields */
+    if (pSparePic->spareFieldFlag)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &pSparePic->numSparePics);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSparePic->numSparePics++;
+    if (pSparePic->numSparePics > MAX_NUM_SPARE_PICS)
+        return(HANTRO_NOK);
+
+    for (i = 0; i < pSparePic->numSparePics; i++)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pSparePic->deltaSpareFrameNum[i]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSparePic->spareAreaIdc[i]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pSparePic->spareAreaIdc[i] > 2)
+            return(HANTRO_NOK);
+
+        if (pSparePic->spareAreaIdc[i] == 1)
+        {
+            /* where corresponding FREE() ??? */
+            ALLOCATE(pSparePic->spareUnitFlag[i], picSizeInMapUnits, u32);
+            if (pSparePic->spareUnitFlag[i] == NULL)
+                return(MEMORY_ALLOCATION_ERROR);
+            pSparePic->zeroRunLength[i] = NULL;
+
+            for (j = 0; j < picSizeInMapUnits; j++)
+            {
+                tmp = h264bsdGetBits(pStrmData, 1);
+                if (tmp == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                pSparePic->spareUnitFlag[i][j] = tmp == 1 ?
+                                    HANTRO_TRUE : HANTRO_FALSE;
+            }
+        }
+        else if (pSparePic->spareAreaIdc[i] == 2)
+        {
+            /* where corresponding FREE() ??? */
+            ALLOCATE(pSparePic->zeroRunLength[i], picSizeInMapUnits, u32);
+            if (pSparePic->zeroRunLength[i] == NULL)
+                return(MEMORY_ALLOCATION_ERROR);
+            pSparePic->spareUnitFlag[i] = NULL;
+
+            for (j = 0, mapUnitCnt = 0; mapUnitCnt < picSizeInMapUnits; j++)
+            {
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+                  &pSparePic->zeroRunLength[i][j]);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                mapUnitCnt += pSparePic->zeroRunLength[i][j] + 1;
+            }
+        }
+    }
+
+    /* set rest to null */
+    for (i = pSparePic->numSparePics; i < MAX_NUM_SPARE_PICS; i++)
+    {
+        pSparePic->spareUnitFlag[i] = NULL;
+        pSparePic->zeroRunLength[i] = NULL;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeSceneInfo
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeSceneInfo(
+  strmData_t *pStrmData,
+  seiSceneInfo_t *pSceneInfo)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSceneInfo);
+
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSceneInfo->sceneInfoPresentFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pSceneInfo->sceneInfoPresentFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &pSceneInfo->sceneId);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pSceneInfo->sceneTransitionType);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pSceneInfo->sceneTransitionType > 6)
+            return(HANTRO_NOK);
+
+        if (pSceneInfo->sceneTransitionType)
+        {
+            tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+              &pSceneInfo->secondSceneId);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+        }
+
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeSubSeqInfo
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+-----------------------------------------------------------------------------*/
+
+static u32 DecodeSubSeqInfo(
+  strmData_t *pStrmData,
+  seiSubSeqInfo_t *pSubSeqInfo)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSubSeqInfo);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pSubSeqInfo->subSeqLayerNum);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSubSeqInfo->subSeqLayerNum > 255)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &pSubSeqInfo->subSeqId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSubSeqInfo->subSeqId > 65535)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSubSeqInfo->firstRefPicFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSubSeqInfo->leadingNonRefPicFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSubSeqInfo->lastPicFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSubSeqInfo->subSeqFrameNumFlag = tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pSubSeqInfo->subSeqFrameNumFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSubSeqInfo->subSeqFrameNum);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeSubSeqLayerCharacteristics
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeSubSeqLayerCharacteristics(
+  strmData_t *pStrmData,
+  seiSubSeqLayerCharacteristics_t *pSubSeqLayerCharacteristics)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSubSeqLayerCharacteristics);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pSubSeqLayerCharacteristics->numSubSeqLayers);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSubSeqLayerCharacteristics->numSubSeqLayers++;
+    if (pSubSeqLayerCharacteristics->numSubSeqLayers > MAX_NUM_SUB_SEQ_LAYERS)
+        return(HANTRO_NOK);
+
+    for (i = 0; i < pSubSeqLayerCharacteristics->numSubSeqLayers; i++)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqLayerCharacteristics->accurateStatisticsFlag[i] =
+            tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+        tmp = h264bsdGetBits(pStrmData, 16);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqLayerCharacteristics->averageBitRate[i] = tmp;
+
+        tmp = h264bsdGetBits(pStrmData, 16);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqLayerCharacteristics->averageFrameRate[i] = tmp;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeSubSeqCharacteristics
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeSubSeqCharacteristics(
+  strmData_t *pStrmData,
+  seiSubSeqCharacteristics_t *pSubSeqCharacteristics)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSubSeqCharacteristics);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pSubSeqCharacteristics->subSeqLayerNum);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSubSeqCharacteristics->subSeqLayerNum > MAX_NUM_SUB_SEQ_LAYERS-1)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pSubSeqCharacteristics->subSeqId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSubSeqCharacteristics->subSeqId > 65535)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSubSeqCharacteristics->durationFlag = tmp == 1 ?
+                            HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pSubSeqCharacteristics->durationFlag)
+    {
+        pSubSeqCharacteristics->subSeqDuration = h264bsdShowBits32(pStrmData);
+        if (h264bsdFlushBits(pStrmData,32) == END_OF_STREAM)
+            return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSubSeqCharacteristics->averageRateFlag = tmp == 1 ?
+                            HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pSubSeqCharacteristics->averageRateFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqCharacteristics->accurateStatisticsFlag =
+            tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+        tmp = h264bsdGetBits(pStrmData, 16);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqCharacteristics->averageBitRate = tmp;
+
+        tmp = h264bsdGetBits(pStrmData, 16);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqCharacteristics->averageFrameRate = tmp;
+    }
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pSubSeqCharacteristics->numReferencedSubseqs);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSubSeqCharacteristics->numReferencedSubseqs > MAX_NUM_SUB_SEQ_LAYERS-1)
+        return(HANTRO_NOK);
+
+    for (i = 0; i < pSubSeqCharacteristics->numReferencedSubseqs; i++)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pSubSeqCharacteristics->refSubSeqLayerNum[i]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pSubSeqCharacteristics->refSubSeqId[i]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSubSeqCharacteristics->refSubSeqDirection[i] = tmp;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeFullFrameFreeze
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeFullFrameFreeze(
+  strmData_t *pStrmData,
+  seiFullFrameFreeze_t *pFullFrameFreeze)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pFullFrameFreeze);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pFullFrameFreeze->fullFrameFreezeRepetitionPeriod);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pFullFrameFreeze->fullFrameFreezeRepetitionPeriod > 16384)
+        return(HANTRO_NOK);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeFullFrameSnapshot
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeFullFrameSnapshot(
+  strmData_t *pStrmData,
+  seiFullFrameSnapshot_t *pFullFrameSnapshot)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pFullFrameSnapshot);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pFullFrameSnapshot->snapShotId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeProgressiveRefinementSegmentStart
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeProgressiveRefinementSegmentStart(
+  strmData_t *pStrmData,
+  seiProgressiveRefinementSegmentStart_t *pProgressiveRefinementSegmentStart)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pProgressiveRefinementSegmentStart);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pProgressiveRefinementSegmentStart->progressiveRefinementId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pProgressiveRefinementSegmentStart->numRefinementSteps);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pProgressiveRefinementSegmentStart->numRefinementSteps++;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeProgressiveRefinementSegmentEnd
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeProgressiveRefinementSegmentEnd(
+  strmData_t *pStrmData,
+  seiProgressiveRefinementSegmentEnd_t *pProgressiveRefinementSegmentEnd)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pProgressiveRefinementSegmentEnd);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pProgressiveRefinementSegmentEnd->progressiveRefinementId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeMotionConstrainedSliceGroupSet
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeMotionConstrainedSliceGroupSet(
+  strmData_t *pStrmData,
+  seiMotionConstrainedSliceGroupSet_t *pMotionConstrainedSliceGroupSet,
+  u32 numSliceGroups)
+{
+
+/* Variables */
+
+    u32 tmp,i;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pMotionConstrainedSliceGroupSet);
+    ASSERT(numSliceGroups < MAX_NUM_SLICE_GROUPS);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+      &pMotionConstrainedSliceGroupSet->numSliceGroupsInSet);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pMotionConstrainedSliceGroupSet->numSliceGroupsInSet++;
+    if (pMotionConstrainedSliceGroupSet->numSliceGroupsInSet > numSliceGroups)
+        return(HANTRO_NOK);
+
+    for (i = 0; i < pMotionConstrainedSliceGroupSet->numSliceGroupsInSet; i++)
+    {
+        tmp = h264bsdGetBits(pStrmData,
+            ceilLog2NumSliceGroups[numSliceGroups]);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pMotionConstrainedSliceGroupSet->sliceGroupId[i] = tmp;
+        if (pMotionConstrainedSliceGroupSet->sliceGroupId[i] >
+          pMotionConstrainedSliceGroupSet->numSliceGroupsInSet-1)
+            return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pMotionConstrainedSliceGroupSet->exactSampleValueMatchFlag =
+        tmp == 1 ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pMotionConstrainedSliceGroupSet->panScanRectFlag = tmp == 1 ?
+                                        HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pMotionConstrainedSliceGroupSet->panScanRectFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pMotionConstrainedSliceGroupSet->panScanRectId);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeReservedSeiMessage
+
+        Functional description:
+          <++>
+        Inputs:
+          <++>
+        Outputs:
+          <++>
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeReservedSeiMessage(
+  strmData_t *pStrmData,
+  seiReservedSeiMessage_t *pReservedSeiMessage,
+  u32 payloadSize)
+{
+
+/* Variables */
+
+    u32 i, tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pReservedSeiMessage);
+
+
+    /* where corresponding FREE() ??? */
+    ALLOCATE(pReservedSeiMessage->reservedSeiMessagePayloadByte,payloadSize,u8);
+    if (pReservedSeiMessage->reservedSeiMessagePayloadByte == NULL)
+        return(MEMORY_ALLOCATION_ERROR);
+
+    pReservedSeiMessage->numPayloadBytes = payloadSize;
+
+    for (i = 0; i < payloadSize; i++)
+    {
+        tmp = h264bsdGetBits(pStrmData,8);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pReservedSeiMessage->reservedSeiMessagePayloadByte[i] = (u8)tmp;
+    }
+
+    return(HANTRO_OK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_sei.h
@@ -1,0 +1,253 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_SEI_H
+#define H264SWDEC_SEI_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_vui.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+#define MAX_PAN_SCAN_CNT 32
+#define MAX_NUM_SPARE_PICS 16
+#define MAX_NUM_CLOCK_TS 3
+#define MAX_NUM_SUB_SEQ_LAYERS 256
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    u32 seqParameterSetId;
+    u32 initialCpbRemovalDelay[MAX_CPB_CNT];
+    u32 initialCpbRemovalDelayOffset[MAX_CPB_CNT];
+} seiBufferingPeriod_t;
+
+typedef struct
+{
+    u32 cpbRemovalDelay;
+    u32 dpbOutputDelay;
+    u32 picStruct;
+    u32 clockTimeStampFlag[MAX_NUM_CLOCK_TS];
+    u32 clockTimeStamp[MAX_NUM_CLOCK_TS];
+    u32 ctType[MAX_NUM_CLOCK_TS];
+    u32 nuitFieldBasedFlag[MAX_NUM_CLOCK_TS];
+    u32 countingType[MAX_NUM_CLOCK_TS];
+    u32 fullTimeStampFlag[MAX_NUM_CLOCK_TS];
+    u32 discontinuityFlag[MAX_NUM_CLOCK_TS];
+    u32 cntDroppedFlag[MAX_NUM_CLOCK_TS];
+    u32 nFrames[MAX_NUM_CLOCK_TS];
+    u32 secondsFlag[MAX_NUM_CLOCK_TS];
+    u32 secondsValue[MAX_NUM_CLOCK_TS];
+    u32 minutesFlag[MAX_NUM_CLOCK_TS];
+    u32 minutesValue[MAX_NUM_CLOCK_TS];
+    u32 hoursFlag[MAX_NUM_CLOCK_TS];
+    u32 hoursValue[MAX_NUM_CLOCK_TS];
+    i32 timeOffset[MAX_NUM_CLOCK_TS];
+} seiPicTiming_t;
+
+typedef struct
+{
+    u32 panScanRectId;
+    u32 panScanRectCancelFlag;
+    u32 panScanCnt;
+    i32 panScanRectLeftOffset[MAX_PAN_SCAN_CNT];
+    i32 panScanRectRightOffset[MAX_PAN_SCAN_CNT];
+    i32 panScanRectTopOffset[MAX_PAN_SCAN_CNT];
+    i32 panScanRectBottomOffset[MAX_PAN_SCAN_CNT];
+    u32 panScanRectRepetitionPeriod;
+} seiPanScanRect_t;
+
+typedef struct
+{
+    u32 ituTT35CountryCode;
+    u32 ituTT35CountryCodeExtensionByte;
+    u8 *ituTT35PayloadByte;
+    u32 numPayloadBytes;
+} seiUserDataRegisteredItuTT35_t;
+
+typedef struct
+{
+    u32 uuidIsoIec11578[4];
+    u8 *userDataPayloadByte;
+    u32 numPayloadBytes;
+} seiUserDataUnregistered_t;
+
+typedef struct
+{
+    u32 recoveryFrameCnt;
+    u32 exactMatchFlag;
+    u32 brokenLinkFlag;
+    u32 changingSliceGroupIdc;
+} seiRecoveryPoint_t;
+
+typedef struct
+{
+    u32 originalIdrFlag;
+    u32 originalFrameNum;
+    decRefPicMarking_t decRefPicMarking;
+} seiDecRefPicMarkingRepetition_t;
+
+typedef struct
+{
+    u32 targetFrameNum;
+    u32 spareFieldFlag;
+    u32 targetBottomFieldFlag;
+    u32 numSparePics;
+    u32 deltaSpareFrameNum[MAX_NUM_SPARE_PICS];
+    u32 spareBottomFieldFlag[MAX_NUM_SPARE_PICS];
+    u32 spareAreaIdc[MAX_NUM_SPARE_PICS];
+    u32 *spareUnitFlag[MAX_NUM_SPARE_PICS];
+    u32 *zeroRunLength[MAX_NUM_SPARE_PICS];
+} seiSparePic_t;
+
+typedef struct
+{
+    u32 sceneInfoPresentFlag;
+    u32 sceneId;
+    u32 sceneTransitionType;
+    u32 secondSceneId;
+} seiSceneInfo_t;
+
+typedef struct
+{
+    u32 subSeqLayerNum;
+    u32 subSeqId;
+    u32 firstRefPicFlag;
+    u32 leadingNonRefPicFlag;
+    u32 lastPicFlag;
+    u32 subSeqFrameNumFlag;
+    u32 subSeqFrameNum;
+} seiSubSeqInfo_t;
+
+typedef struct
+{
+    u32 numSubSeqLayers;
+    u32 accurateStatisticsFlag[MAX_NUM_SUB_SEQ_LAYERS];
+    u32 averageBitRate[MAX_NUM_SUB_SEQ_LAYERS];
+    u32 averageFrameRate[MAX_NUM_SUB_SEQ_LAYERS];
+} seiSubSeqLayerCharacteristics_t;
+
+typedef struct
+{
+    u32 subSeqLayerNum;
+    u32 subSeqId;
+    u32 durationFlag;
+    u32 subSeqDuration;
+    u32 averageRateFlag;
+    u32 accurateStatisticsFlag;
+    u32 averageBitRate;
+    u32 averageFrameRate;
+    u32 numReferencedSubseqs;
+    u32 refSubSeqLayerNum[MAX_NUM_SUB_SEQ_LAYERS];
+    u32 refSubSeqId[MAX_NUM_SUB_SEQ_LAYERS];
+    u32 refSubSeqDirection[MAX_NUM_SUB_SEQ_LAYERS];
+} seiSubSeqCharacteristics_t;
+
+typedef struct
+{
+    u32 fullFrameFreezeRepetitionPeriod;
+} seiFullFrameFreeze_t;
+
+typedef struct
+{
+    u32 snapShotId;
+} seiFullFrameSnapshot_t;
+
+typedef struct
+{
+    u32 progressiveRefinementId;
+    u32 numRefinementSteps;
+} seiProgressiveRefinementSegmentStart_t;
+
+typedef struct
+{
+    u32 progressiveRefinementId;
+} seiProgressiveRefinementSegmentEnd_t;
+
+typedef struct
+{
+    u32 numSliceGroupsInSet;
+    u32 sliceGroupId[MAX_NUM_SLICE_GROUPS];
+    u32 exactSampleValueMatchFlag;
+    u32 panScanRectFlag;
+    u32 panScanRectId;
+} seiMotionConstrainedSliceGroupSet_t;
+
+typedef struct
+{
+    u8 *reservedSeiMessagePayloadByte;
+    u32 numPayloadBytes;
+} seiReservedSeiMessage_t;
+
+typedef struct
+{
+    u32 payloadType;
+    seiBufferingPeriod_t bufferingPeriod;
+    seiPicTiming_t picTiming;
+    seiPanScanRect_t panScanRect;
+    seiUserDataRegisteredItuTT35_t userDataRegisteredItuTT35;
+    seiUserDataUnregistered_t userDataUnregistered;
+    seiRecoveryPoint_t recoveryPoint;
+    seiDecRefPicMarkingRepetition_t decRefPicMarkingRepetition;
+    seiSparePic_t sparePic;
+    seiSceneInfo_t sceneInfo;
+    seiSubSeqInfo_t subSeqInfo;
+    seiSubSeqLayerCharacteristics_t subSeqLayerCharacteristics;
+    seiSubSeqCharacteristics_t subSeqCharacteristics;
+    seiFullFrameFreeze_t fullFrameFreeze;
+    seiFullFrameSnapshot_t fullFrameSnapshot;
+    seiProgressiveRefinementSegmentStart_t progressiveRefinementSegmentStart;
+    seiProgressiveRefinementSegmentEnd_t progressiveRefinementSegmentEnd;
+    seiMotionConstrainedSliceGroupSet_t motionConstrainedSliceGroupSet;
+    seiReservedSeiMessage_t reservedSeiMessage;
+} seiMessage_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSeiMessage(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  seiMessage_t *pSeiMessage,
+  u32 numSliceGroups);
+
+#endif /* #ifdef H264SWDEC_SEI_H */
+
--- /dev/null
+++ b/src/h264bsd_seq_param_set.c
@@ -1,0 +1,578 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeSeqParamSet
+          GetDpbSize
+          h264bsdCompareSeqParamSets
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_util.h"
+#include "h264bsd_vlc.h"
+#include "h264bsd_vui.h"
+#include "h264bsd_cfg.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* enumeration to indicate invalid return value from the GetDpbSize function */
+enum {INVALID_DPB_SIZE = 0x7FFFFFFF};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 GetDpbSize(u32 picSizeInMbs, u32 levelIdc);
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdDecodeSeqParamSet
+
+        Functional description:
+            Decode sequence parameter set information from the stream.
+
+            Function allocates memory for offsetForRefFrame array if
+            picture order count type is 1 and numRefFramesInPicOrderCntCycle
+            is greater than zero.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            pSeqParamSet    decoded information is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      failure, invalid information or end of stream
+            MEMORY_ALLOCATION_ERROR for memory allocation failure
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSeqParamSet(strmData_t *pStrmData, seqParamSet_t *pSeqParamSet)
+{
+
+/* Variables */
+
+    u32 tmp, i, value;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeqParamSet);
+
+    memset(pSeqParamSet, 0, sizeof(seqParamSet_t));
+
+    /* profile_idc */
+    tmp = h264bsdGetBits(pStrmData, 8);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    if (tmp != 66)
+    {
+        DEBUG(("NOT BASELINE PROFILE %d\n", tmp));
+    }
+    pSeqParamSet->profileIdc = tmp;
+
+    /* constrained_set0_flag */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    /* constrained_set1_flag */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    /* constrained_set2_flag */
+    tmp = h264bsdGetBits(pStrmData, 1);
+
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* reserved_zero_5bits, values of these bits shall be ignored */
+    tmp = h264bsdGetBits(pStrmData, 5);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetBits(pStrmData, 8);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSeqParamSet->levelIdc = tmp;
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pSeqParamSet->seqParameterSetId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSeqParamSet->seqParameterSetId >= MAX_NUM_SEQ_PARAM_SETS)
+    {
+        EPRINT("seq_param_set_id");
+        return(HANTRO_NOK);
+    }
+
+    /* log2_max_frame_num_minus4 */
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (value > 12)
+    {
+        EPRINT("log2_max_frame_num_minus4");
+        return(HANTRO_NOK);
+    }
+    /* maxFrameNum = 2^(log2_max_frame_num_minus4 + 4) */
+    pSeqParamSet->maxFrameNum = 1 << (value+4);
+
+    /* valid POC types are 0, 1 and 2 */
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (value > 2)
+    {
+        EPRINT("pic_order_cnt_type");
+        return(HANTRO_NOK);
+    }
+    pSeqParamSet->picOrderCntType = value;
+
+    if (pSeqParamSet->picOrderCntType == 0)
+    {
+        /* log2_max_pic_order_cnt_lsb_minus4 */
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (value > 12)
+        {
+            EPRINT("log2_max_pic_order_cnt_lsb_minus4");
+            return(HANTRO_NOK);
+        }
+        /* maxPicOrderCntLsb = 2^(log2_max_pic_order_cnt_lsb_minus4 + 4) */
+        pSeqParamSet->maxPicOrderCntLsb = 1 << (value+4);
+    }
+    else if (pSeqParamSet->picOrderCntType == 1)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSeqParamSet->deltaPicOrderAlwaysZeroFlag = (tmp == 1) ?
+                                        HANTRO_TRUE : HANTRO_FALSE;
+
+        tmp = h264bsdDecodeExpGolombSigned(pStrmData,
+            &pSeqParamSet->offsetForNonRefPic);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdDecodeExpGolombSigned(pStrmData,
+            &pSeqParamSet->offsetForTopToBottomField);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSeqParamSet->numRefFramesInPicOrderCntCycle);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pSeqParamSet->numRefFramesInPicOrderCntCycle > 255)
+        {
+            EPRINT("num_ref_frames_in_pic_order_cnt_cycle");
+            return(HANTRO_NOK);
+        }
+
+        if (pSeqParamSet->numRefFramesInPicOrderCntCycle)
+        {
+            /* NOTE: This has to be freed somewhere! */
+            ALLOCATE(pSeqParamSet->offsetForRefFrame,
+                     pSeqParamSet->numRefFramesInPicOrderCntCycle, i32);
+            if (pSeqParamSet->offsetForRefFrame == NULL)
+                return(MEMORY_ALLOCATION_ERROR);
+
+            for (i = 0; i < pSeqParamSet->numRefFramesInPicOrderCntCycle; i++)
+            {
+                tmp =  h264bsdDecodeExpGolombSigned(pStrmData,
+                    pSeqParamSet->offsetForRefFrame + i);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+            }
+        }
+        else
+        {
+            pSeqParamSet->offsetForRefFrame = NULL;
+        }
+    }
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+        &pSeqParamSet->numRefFrames);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (pSeqParamSet->numRefFrames > MAX_NUM_REF_PICS)
+    {
+        EPRINT("num_ref_frames");
+        return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSeqParamSet->gapsInFrameNumValueAllowedFlag = (tmp == 1) ?
+                                        HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSeqParamSet->picWidthInMbs = value + 1;
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSeqParamSet->picHeightInMbs = value + 1;
+
+    /* frame_mbs_only_flag, shall be 1 for baseline profile */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    if (!tmp)
+    {
+        EPRINT("frame_mbs_only_flag");
+        return(HANTRO_NOK);
+    }
+
+    /* direct_8x8_inference_flag */
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSeqParamSet->frameCroppingFlag = (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pSeqParamSet->frameCroppingFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSeqParamSet->frameCropLeftOffset);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSeqParamSet->frameCropRightOffset);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSeqParamSet->frameCropTopOffset);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+            &pSeqParamSet->frameCropBottomOffset);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        /* check that frame cropping params are valid, parameters shall
+         * specify non-negative area within the original picture */
+        if ( ( (i32)pSeqParamSet->frameCropLeftOffset >
+               ( 8 * (i32)pSeqParamSet->picWidthInMbs -
+                 ((i32)pSeqParamSet->frameCropRightOffset + 1) ) ) ||
+             ( (i32)pSeqParamSet->frameCropTopOffset >
+               ( 8 * (i32)pSeqParamSet->picHeightInMbs -
+                 ((i32)pSeqParamSet->frameCropBottomOffset + 1) ) ) )
+        {
+            EPRINT("frame_cropping");
+            return(HANTRO_NOK);
+        }
+    }
+
+    /* check that image dimensions and levelIdc match */
+    tmp = pSeqParamSet->picWidthInMbs * pSeqParamSet->picHeightInMbs;
+    value = GetDpbSize(tmp, pSeqParamSet->levelIdc);
+    if (value == INVALID_DPB_SIZE || pSeqParamSet->numRefFrames > value)
+    {
+        DEBUG(("WARNING! Invalid DPB size based on SPS Level!\n"));
+        DEBUG(("WARNING! Using num_ref_frames =%d for DPB size!\n",
+                        pSeqParamSet->numRefFrames));
+        value = pSeqParamSet->numRefFrames;
+    }
+    pSeqParamSet->maxDpbSize = value;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pSeqParamSet->vuiParametersPresentFlag = (tmp == 1) ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+
+    /* VUI */
+    if (pSeqParamSet->vuiParametersPresentFlag)
+    {
+        ALLOCATE(pSeqParamSet->vuiParameters, 1, vuiParameters_t);
+        if (pSeqParamSet->vuiParameters == NULL)
+            return(MEMORY_ALLOCATION_ERROR);
+        tmp = h264bsdDecodeVuiParameters(pStrmData,
+            pSeqParamSet->vuiParameters);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        /* check numReorderFrames and maxDecFrameBuffering */
+        if (pSeqParamSet->vuiParameters->bitstreamRestrictionFlag)
+        {
+            if (pSeqParamSet->vuiParameters->numReorderFrames >
+                    pSeqParamSet->vuiParameters->maxDecFrameBuffering ||
+                pSeqParamSet->vuiParameters->maxDecFrameBuffering <
+                    pSeqParamSet->numRefFrames ||
+                pSeqParamSet->vuiParameters->maxDecFrameBuffering >
+                    pSeqParamSet->maxDpbSize)
+            {
+                return(HANTRO_NOK);
+            }
+
+            /* standard says that "the sequence shall not require a DPB with
+             * size of more than max(1, maxDecFrameBuffering) */
+            pSeqParamSet->maxDpbSize =
+                MAX(1, pSeqParamSet->vuiParameters->maxDecFrameBuffering);
+        }
+    }
+
+    tmp = h264bsdRbspTrailingBits(pStrmData);
+
+    /* ignore possible errors in trailing bits of parameters sets */
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: GetDpbSize
+
+        Functional description:
+            Get size of the DPB in frames. Size is determined based on the
+            picture size and MaxDPB for the specified level. These determine
+            how many pictures may fit into to the buffer. However, the size
+            is also limited to a maximum of 16 frames and therefore function
+            returns the minimum of the determined size and 16.
+
+        Inputs:
+            picSizeInMbs    number of macroblocks in the picture
+            levelIdc        indicates the level
+
+        Outputs:
+            none
+
+        Returns:
+            size of the DPB in frames
+            INVALID_DPB_SIZE when invalid levelIdc specified or picSizeInMbs
+            is higher than supported by the level in question
+
+------------------------------------------------------------------------------*/
+
+u32 GetDpbSize(u32 picSizeInMbs, u32 levelIdc)
+{
+
+/* Variables */
+
+    u32 tmp;
+    u32 maxPicSizeInMbs;
+
+/* Code */
+
+    ASSERT(picSizeInMbs);
+
+    /* use tmp as the size of the DPB in bytes, computes as 1024 * MaxDPB
+     * (from table A-1 in Annex A) */
+    switch (levelIdc)
+    {
+        case 10:
+            tmp = 152064;
+            maxPicSizeInMbs = 99;
+            break;
+
+        case 11:
+            tmp = 345600;
+            maxPicSizeInMbs = 396;
+            break;
+
+        case 12:
+            tmp = 912384;
+            maxPicSizeInMbs = 396;
+            break;
+
+        case 13:
+            tmp = 912384;
+            maxPicSizeInMbs = 396;
+            break;
+
+        case 20:
+            tmp = 912384;
+            maxPicSizeInMbs = 396;
+            break;
+
+        case 21:
+            tmp = 1824768;
+            maxPicSizeInMbs = 792;
+            break;
+
+        case 22:
+            tmp = 3110400;
+            maxPicSizeInMbs = 1620;
+            break;
+
+        case 30:
+            tmp = 3110400;
+            maxPicSizeInMbs = 1620;
+            break;
+
+        case 31:
+            tmp = 6912000;
+            maxPicSizeInMbs = 3600;
+            break;
+
+        case 32:
+            tmp = 7864320;
+            maxPicSizeInMbs = 5120;
+            break;
+
+        case 40:
+            tmp = 12582912;
+            maxPicSizeInMbs = 8192;
+            break;
+
+        case 41:
+            tmp = 12582912;
+            maxPicSizeInMbs = 8192;
+            break;
+
+        case 42:
+            tmp = 34816*384;
+            maxPicSizeInMbs = 8704;
+            break;
+
+        case 50:
+            /* standard says 42301440 here, but corrigendum "corrects" this to
+             * 42393600 */
+            tmp = 42393600;
+            maxPicSizeInMbs = 22080;
+            break;
+
+        case 51:
+            tmp = 70778880;
+            maxPicSizeInMbs = 36864;
+            break;
+
+        default:
+            return(INVALID_DPB_SIZE);
+    }
+
+    /* this is not "correct" return value! However, it results in error in
+     * decoding and this was easiest place to check picture size */
+    if (picSizeInMbs > maxPicSizeInMbs)
+        return(INVALID_DPB_SIZE);
+
+    tmp /= (picSizeInMbs*384);
+
+    return(MIN(tmp, 16));
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdCompareSeqParamSets
+
+        Functional description:
+            Compare two sequence parameter sets.
+
+        Inputs:
+            pSps1   pointer to a sequence parameter set
+            pSps2   pointer to another sequence parameter set
+
+        Outputs:
+            0       sequence parameter sets are equal
+            1       otherwise
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCompareSeqParamSets(seqParamSet_t *pSps1, seqParamSet_t *pSps2)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(pSps1);
+    ASSERT(pSps2);
+
+    /* first compare parameters whose existence does not depend on other
+     * parameters and only compare the rest of the params if these are equal */
+    if (pSps1->profileIdc        == pSps2->profileIdc &&
+        pSps1->levelIdc          == pSps2->levelIdc &&
+        pSps1->maxFrameNum       == pSps2->maxFrameNum &&
+        pSps1->picOrderCntType   == pSps2->picOrderCntType &&
+        pSps1->numRefFrames      == pSps2->numRefFrames &&
+        pSps1->gapsInFrameNumValueAllowedFlag ==
+            pSps2->gapsInFrameNumValueAllowedFlag &&
+        pSps1->picWidthInMbs     == pSps2->picWidthInMbs &&
+        pSps1->picHeightInMbs    == pSps2->picHeightInMbs &&
+        pSps1->frameCroppingFlag == pSps2->frameCroppingFlag &&
+        pSps1->vuiParametersPresentFlag == pSps2->vuiParametersPresentFlag)
+    {
+        if (pSps1->picOrderCntType == 0)
+        {
+            if (pSps1->maxPicOrderCntLsb != pSps2->maxPicOrderCntLsb)
+                return 1;
+        }
+        else if (pSps1->picOrderCntType == 1)
+        {
+            if (pSps1->deltaPicOrderAlwaysZeroFlag !=
+                    pSps2->deltaPicOrderAlwaysZeroFlag ||
+                pSps1->offsetForNonRefPic != pSps2->offsetForNonRefPic ||
+                pSps1->offsetForTopToBottomField !=
+                    pSps2->offsetForTopToBottomField ||
+                pSps1->numRefFramesInPicOrderCntCycle !=
+                    pSps2->numRefFramesInPicOrderCntCycle)
+            {
+                return 1;
+            }
+            else
+            {
+                for (i = 0; i < pSps1->numRefFramesInPicOrderCntCycle; i++)
+                    if (pSps1->offsetForRefFrame[i] !=
+                        pSps2->offsetForRefFrame[i])
+                    {
+                        return 1;
+                    }
+            }
+        }
+        if (pSps1->frameCroppingFlag)
+        {
+            if (pSps1->frameCropLeftOffset   != pSps2->frameCropLeftOffset ||
+                pSps1->frameCropRightOffset  != pSps2->frameCropRightOffset ||
+                pSps1->frameCropTopOffset    != pSps2->frameCropTopOffset ||
+                pSps1->frameCropBottomOffset != pSps2->frameCropBottomOffset)
+            {
+                return 1;
+            }
+        }
+
+        return 0;
+    }
+
+    return 1;
+}
+
--- /dev/null
+++ b/src/h264bsd_seq_param_set.h
@@ -1,0 +1,87 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_SEQ_PARAM_SET_H
+#define H264SWDEC_SEQ_PARAM_SET_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_vui.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/* structure to store sequence parameter set information decoded from the
+ * stream */
+typedef struct
+{
+    u32 profileIdc;
+    u32 levelIdc;
+    u32 seqParameterSetId;
+    u32 maxFrameNum;
+    u32 picOrderCntType;
+    u32 maxPicOrderCntLsb;
+    u32 deltaPicOrderAlwaysZeroFlag;
+    i32 offsetForNonRefPic;
+    i32 offsetForTopToBottomField;
+    u32 numRefFramesInPicOrderCntCycle;
+    i32 *offsetForRefFrame;
+    u32 numRefFrames;
+    u32 gapsInFrameNumValueAllowedFlag;
+    u32 picWidthInMbs;
+    u32 picHeightInMbs;
+    u32 frameCroppingFlag;
+    u32 frameCropLeftOffset;
+    u32 frameCropRightOffset;
+    u32 frameCropTopOffset;
+    u32 frameCropBottomOffset;
+    u32 vuiParametersPresentFlag;
+    vuiParameters_t *vuiParameters;
+    u32 maxDpbSize;
+} seqParamSet_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSeqParamSet(strmData_t *pStrmData,
+    seqParamSet_t *pSeqParamSet);
+
+u32 h264bsdCompareSeqParamSets(seqParamSet_t *pSps1, seqParamSet_t *pSps2);
+
+#endif /* #ifdef H264SWDEC_SEQ_PARAM_SET_H */
+
--- /dev/null
+++ b/src/h264bsd_slice_data.c
@@ -1,0 +1,355 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeSliceData
+          SetMbParams
+          h264bsdMarkSliceCorrupted
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_slice_data.h"
+#include "h264bsd_util.h"
+#include "h264bsd_vlc.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static void SetMbParams(mbStorage_t *pMb, sliceHeader_t *pSlice, u32 sliceId,
+    i32 chromaQpIndexOffset);
+
+/*------------------------------------------------------------------------------
+
+   5.1  Function name: h264bsdDecodeSliceData
+
+        Functional description:
+            Decode one slice. Function decodes stream data, i.e. macroblocks
+            and possible skip_run fields. h264bsdDecodeMacroblock function is
+            called to handle all other macroblock related processing.
+            Macroblock to slice group mapping is considered when next
+            macroblock to process is determined (h264bsdNextMbAddress function)
+            map
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            pStorage        pointer to storage structure
+            currImage       pointer to current processed picture, needed for
+                            intra prediction of the macroblocks
+            pSliceHeader    pointer to slice header of the current slice
+
+        Outputs:
+            currImage       processed macroblocks are written to current image
+            pStorage        mbStorage structure of each processed macroblock
+                            is updated here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSliceData(strmData_t *pStrmData, storage_t *pStorage,
+    image_t *currImage, sliceHeader_t *pSliceHeader)
+{
+
+/* Variables */
+
+    u8 mbData[384 + 15 + 32];
+    u8 *data;
+    u32 tmp;
+    u32 skipRun;
+    u32 prevSkipped;
+    u32 currMbAddr;
+    u32 moreMbs;
+    u32 mbCount;
+    i32 qpY;
+    macroblockLayer_t *mbLayer;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSliceHeader);
+    ASSERT(pStorage);
+    ASSERT(pSliceHeader->firstMbInSlice < pStorage->picSizeInMbs);
+
+    /* ensure 16-byte alignment */
+    data = (u8*)ALIGN(mbData, 16);
+
+    mbLayer = pStorage->mbLayer;
+
+    currMbAddr = pSliceHeader->firstMbInSlice;
+    skipRun = 0;
+    prevSkipped = HANTRO_FALSE;
+
+    /* increment slice index, will be one for decoding of the first slice of
+     * the picture */
+    pStorage->slice->sliceId++;
+
+    /* lastMbAddr stores address of the macroblock that was last successfully
+     * decoded, needed for error handling */
+    pStorage->slice->lastMbAddr = 0;
+
+    mbCount = 0;
+    /* initial quantization parameter for the slice is obtained as the sum of
+     * initial QP for the picture and sliceQpDelta for the current slice */
+    qpY = (i32)pStorage->activePps->picInitQp + pSliceHeader->sliceQpDelta;
+    do
+    {
+        /* primary picture and already decoded macroblock -> error */
+        if (!pSliceHeader->redundantPicCnt && pStorage->mb[currMbAddr].decoded)
+        {
+            EPRINT("Primary and already decoded");
+            return(HANTRO_NOK);
+        }
+
+        SetMbParams(pStorage->mb + currMbAddr, pSliceHeader,
+            pStorage->slice->sliceId, pStorage->activePps->chromaQpIndexOffset);
+
+        if (!IS_I_SLICE(pSliceHeader->sliceType))
+        {
+            if (!prevSkipped)
+            {
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &skipRun);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                /* skip_run shall be less than or equal to number of
+                 * macroblocks left */
+                if (skipRun > (pStorage->picSizeInMbs - currMbAddr))
+                {
+                    EPRINT("skip_run");
+                    return(HANTRO_NOK);
+                }
+                if (skipRun)
+                {
+                    prevSkipped = HANTRO_TRUE;
+                    memset(&mbLayer->mbPred, 0, sizeof(mbPred_t));
+                    /* mark current macroblock skipped */
+                    mbLayer->mbType = P_Skip;
+                }
+            }
+        }
+
+        if (skipRun)
+        {
+            DEBUG(("Skipping macroblock %d\n", currMbAddr));
+            skipRun--;
+        }
+        else
+        {
+            prevSkipped = HANTRO_FALSE;
+            tmp = h264bsdDecodeMacroblockLayer(pStrmData, mbLayer,
+                pStorage->mb + currMbAddr, pSliceHeader->sliceType,
+                pSliceHeader->numRefIdxL0Active);
+            if (tmp != HANTRO_OK)
+            {
+                EPRINT("macroblock_layer");
+                return(tmp);
+            }
+        }
+
+        tmp = h264bsdDecodeMacroblock(pStorage->mb + currMbAddr, mbLayer,
+            currImage, pStorage->dpb, &qpY, currMbAddr,
+            pStorage->activePps->constrainedIntraPredFlag, data);
+        if (tmp != HANTRO_OK)
+        {
+            EPRINT("MACRO_BLOCK");
+            return(tmp);
+        }
+
+        /* increment macroblock count only for macroblocks that were decoded
+         * for the first time (redundant slices) */
+        if (pStorage->mb[currMbAddr].decoded == 1)
+            mbCount++;
+
+        /* keep on processing as long as there is stream data left or
+         * processing of macroblocks to be skipped based on the last skipRun is
+         * not finished */
+        moreMbs = (h264bsdMoreRbspData(pStrmData) || skipRun) ?
+                                        HANTRO_TRUE : HANTRO_FALSE;
+
+        /* lastMbAddr is only updated for intra slices (all macroblocks of
+         * inter slices will be lost in case of an error) */
+        if (IS_I_SLICE(pSliceHeader->sliceType))
+            pStorage->slice->lastMbAddr = currMbAddr;
+
+        currMbAddr = h264bsdNextMbAddress(pStorage->sliceGroupMap,
+            pStorage->picSizeInMbs, currMbAddr);
+        /* data left in the buffer but no more macroblocks for current slice
+         * group -> error */
+        if (moreMbs && !currMbAddr)
+        {
+            EPRINT("Next mb address");
+            return(HANTRO_NOK);
+        }
+
+    } while (moreMbs);
+
+    if ((pStorage->slice->numDecodedMbs + mbCount) > pStorage->picSizeInMbs)
+    {
+        EPRINT("Num decoded mbs");
+        return(HANTRO_NOK);
+    }
+
+    pStorage->slice->numDecodedMbs += mbCount;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.2  Function: SetMbParams
+
+        Functional description:
+            Set macroblock parameters that remain constant for this slice
+
+        Inputs:
+            pSlice      pointer to current slice header
+            sliceId     id of the current slice
+            chromaQpIndexOffset
+
+        Outputs:
+            pMb         pointer to macroblock structure which is updated
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void SetMbParams(mbStorage_t *pMb, sliceHeader_t *pSlice, u32 sliceId,
+    i32 chromaQpIndexOffset)
+{
+
+/* Variables */
+    u32 tmp1;
+    i32 tmp2, tmp3;
+
+/* Code */
+
+    tmp1 = pSlice->disableDeblockingFilterIdc;
+    tmp2 = pSlice->sliceAlphaC0Offset;
+    tmp3 = pSlice->sliceBetaOffset;
+    pMb->sliceId = sliceId;
+    pMb->disableDeblockingFilterIdc = tmp1;
+    pMb->filterOffsetA = tmp2;
+    pMb->filterOffsetB = tmp3;
+    pMb->chromaQpIndexOffset = chromaQpIndexOffset;
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.3  Function name: h264bsdMarkSliceCorrupted
+
+        Functional description:
+            Mark macroblocks of the slice corrupted. If lastMbAddr in the slice
+            storage is set -> picWidhtInMbs (or at least 10) macroblocks back
+            from  the lastMbAddr are marked corrupted. However, if lastMbAddr
+            is not set -> all macroblocks of the slice are marked.
+
+        Inputs:
+            pStorage        pointer to storage structure
+            firstMbInSlice  address of the first macroblock in the slice, this
+                            identifies the slice to be marked corrupted
+
+        Outputs:
+            pStorage        mbStorage for the corrupted macroblocks updated
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdMarkSliceCorrupted(storage_t *pStorage, u32 firstMbInSlice)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+    u32 sliceId;
+    u32 currMbAddr;
+
+/* Code */
+
+    ASSERT(pStorage);
+    ASSERT(firstMbInSlice < pStorage->picSizeInMbs);
+
+    currMbAddr = firstMbInSlice;
+
+    sliceId = pStorage->slice->sliceId;
+
+    /* DecodeSliceData sets lastMbAddr for I slices -> if it was set, go back
+     * MAX(picWidthInMbs, 10) macroblocks and start marking from there */
+    if (pStorage->slice->lastMbAddr)
+    {
+        ASSERT(pStorage->mb[pStorage->slice->lastMbAddr].sliceId == sliceId);
+        i = pStorage->slice->lastMbAddr - 1;
+        tmp = 0;
+        while (i > currMbAddr)
+        {
+            if (pStorage->mb[i].sliceId == sliceId)
+            {
+                tmp++;
+                if (tmp >= MAX(pStorage->activeSps->picWidthInMbs, 10))
+                    break;
+            }
+            i--;
+        }
+        currMbAddr = i;
+    }
+
+    do
+    {
+
+        if ( (pStorage->mb[currMbAddr].sliceId == sliceId) &&
+             (pStorage->mb[currMbAddr].decoded) )
+        {
+            pStorage->mb[currMbAddr].decoded--;
+        }
+        else
+        {
+            break;
+        }
+
+        currMbAddr = h264bsdNextMbAddress(pStorage->sliceGroupMap,
+            pStorage->picSizeInMbs, currMbAddr);
+
+    } while (currMbAddr);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_slice_data.h
@@ -1,0 +1,60 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_SLICE_DATA_H
+#define H264SWDEC_SLICE_DATA_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_cfg.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_storage.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSliceData(strmData_t *pStrmData, storage_t *pStorage,
+    image_t *currImage, sliceHeader_t *pSliceHeader);
+
+void h264bsdMarkSliceCorrupted(storage_t *pStorage, u32 firstMbInSlice);
+
+#endif /* #ifdef H264SWDEC_SLICE_DATA_H */
+
--- /dev/null
+++ b/src/h264bsd_slice_group_map.c
@@ -1,0 +1,590 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          DecodeInterleavedMap
+          DecodeDispersedMap
+          DecodeForegroundLeftOverMap
+          DecodeBoxOutMap
+          DecodeRasterScanMap
+          DecodeWipeMap
+          h264bsdDecodeSliceGroupMap
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_slice_group_map.h"
+#include "h264bsd_cfg.h"
+#include "h264bsd_pic_param_set.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static void DecodeInterleavedMap(
+  u32 *map,
+  u32 numSliceGroups,
+  u32 *runLength,
+  u32 picSize);
+
+static void DecodeDispersedMap(
+  u32 *map,
+  u32 numSliceGroups,
+  u32 picWidth,
+  u32 picHeight);
+
+static void DecodeForegroundLeftOverMap(
+  u32 *map,
+  u32 numSliceGroups,
+  u32 *topLeft,
+  u32 *bottomRight,
+  u32 picWidth,
+  u32 picHeight);
+
+static void DecodeBoxOutMap(
+  u32 *map,
+  u32 sliceGroupChangeDirectionFlag,
+  u32 unitsInSliceGroup0,
+  u32 picWidth,
+  u32 picHeight);
+
+static void DecodeRasterScanMap(
+  u32 *map,
+  u32 sliceGroupChangeDirectionFlag,
+  u32 sizeOfUpperLeftGroup,
+  u32 picSize);
+
+static void DecodeWipeMap(
+  u32 *map,
+  u32 sliceGroupChangeDirectionFlag,
+  u32 sizeOfUpperLeftGroup,
+  u32 picWidth,
+  u32 picHeight);
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeInterleavedMap
+
+        Functional description:
+            Function to decode interleaved slice group map type, i.e. slice
+            group map type 0.
+
+        Inputs:
+            map             pointer to the map
+            numSliceGroups  number of slice groups
+            runLength       run_length[] values for each slice group
+            picSize         picture size in macroblocks
+
+        Outputs:
+            map             slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void DecodeInterleavedMap(
+  u32 *map,
+  u32 numSliceGroups,
+  u32 *runLength,
+  u32 picSize)
+{
+
+/* Variables */
+
+    u32 i,j, group;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(numSliceGroups >= 1 && numSliceGroups <= MAX_NUM_SLICE_GROUPS);
+    ASSERT(runLength);
+
+    i = 0;
+
+    do {
+        for (group = 0; group < numSliceGroups && i < picSize;
+          i += runLength[group++])
+        {
+            ASSERT(runLength[group] <= picSize);
+            for (j = 0; j < runLength[group] && i + j < picSize; j++)
+                map[i+j] = group;
+        }
+    } while (i < picSize);
+
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeDispersedMap
+
+        Functional description:
+            Function to decode dispersed slice group map type, i.e. slice
+            group map type 1.
+
+        Inputs:
+            map               pointer to the map
+            numSliceGroups    number of slice groups
+            picWidth          picture width in macroblocks
+            picHeight         picture height in macroblocks
+
+        Outputs:
+            map               slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void DecodeDispersedMap(
+  u32 *map,
+  u32 numSliceGroups,
+  u32 picWidth,
+  u32 picHeight)
+{
+
+/* Variables */
+
+    u32 i, picSize;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(numSliceGroups >= 1 && numSliceGroups <= MAX_NUM_SLICE_GROUPS);
+    ASSERT(picWidth);
+    ASSERT(picHeight);
+
+    picSize = picWidth * picHeight;
+
+    for (i = 0; i < picSize; i++)
+        map[i] = ((i % picWidth) + (((i / picWidth) * numSliceGroups) >> 1)) %
+            numSliceGroups;
+
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeForegroundLeftOverMap
+
+        Functional description:
+            Function to decode foreground with left-over slice group map type,
+            i.e. slice group map type 2.
+
+        Inputs:
+            map               pointer to the map
+            numSliceGroups    number of slice groups
+            topLeft           top_left[] values
+            bottomRight       bottom_right[] values
+            picWidth          picture width in macroblocks
+            picHeight         picture height in macroblocks
+
+        Outputs:
+            map               slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void DecodeForegroundLeftOverMap(
+  u32 *map,
+  u32 numSliceGroups,
+  u32 *topLeft,
+  u32 *bottomRight,
+  u32 picWidth,
+  u32 picHeight)
+{
+
+/* Variables */
+
+    u32 i,y,x,yTopLeft,yBottomRight,xTopLeft,xBottomRight, picSize;
+    u32 group;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(numSliceGroups >= 1 && numSliceGroups <= MAX_NUM_SLICE_GROUPS);
+    ASSERT(topLeft);
+    ASSERT(bottomRight);
+    ASSERT(picWidth);
+    ASSERT(picHeight);
+
+    picSize = picWidth * picHeight;
+
+    for (i = 0; i < picSize; i++)
+        map[i] = numSliceGroups - 1;
+
+    for (group = numSliceGroups - 1; group--; )
+    {
+        ASSERT( topLeft[group] <= bottomRight[group] &&
+                bottomRight[group] < picSize );
+        yTopLeft = topLeft[group] / picWidth;
+        xTopLeft = topLeft[group] % picWidth;
+        yBottomRight = bottomRight[group] / picWidth;
+        xBottomRight = bottomRight[group] % picWidth;
+        ASSERT(xTopLeft <= xBottomRight);
+
+        for (y = yTopLeft; y <= yBottomRight; y++)
+            for (x = xTopLeft; x <= xBottomRight; x++)
+                map[ y * picWidth + x ] = group;
+    }
+
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeBoxOutMap
+
+        Functional description:
+            Function to decode box-out slice group map type, i.e. slice group
+            map type 3.
+
+        Inputs:
+            map                               pointer to the map
+            sliceGroupChangeDirectionFlag     slice_group_change_direction_flag
+            unitsInSliceGroup0                mbs on slice group 0
+            picWidth                          picture width in macroblocks
+            picHeight                         picture height in macroblocks
+
+        Outputs:
+            map                               slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void DecodeBoxOutMap(
+  u32 *map,
+  u32 sliceGroupChangeDirectionFlag,
+  u32 unitsInSliceGroup0,
+  u32 picWidth,
+  u32 picHeight)
+{
+
+/* Variables */
+
+    u32 i, k, picSize;
+    i32 x, y, xDir, yDir, leftBound, topBound, rightBound, bottomBound;
+    u32 mapUnitVacant;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(picWidth);
+    ASSERT(picHeight);
+
+    picSize = picWidth * picHeight;
+    ASSERT(unitsInSliceGroup0 <= picSize);
+
+    for (i = 0; i < picSize; i++)
+        map[i] = 1;
+
+    x = (picWidth - (u32)sliceGroupChangeDirectionFlag) >> 1;
+    y = (picHeight - (u32)sliceGroupChangeDirectionFlag) >> 1;
+
+    leftBound = x;
+    topBound = y;
+
+    rightBound = x;
+    bottomBound = y;
+
+    xDir = (i32)sliceGroupChangeDirectionFlag - 1;
+    yDir = (i32)sliceGroupChangeDirectionFlag;
+
+    for (k = 0; k < unitsInSliceGroup0; k += mapUnitVacant ? 1 : 0)
+    {
+        mapUnitVacant = (map[ (u32)y * picWidth + (u32)x ] == 1) ?
+                                        HANTRO_TRUE : HANTRO_FALSE;
+
+        if (mapUnitVacant)
+            map[ (u32)y * picWidth + (u32)x ] = 0;
+
+        if (xDir == -1 && x == leftBound)
+        {
+            leftBound = MAX(leftBound - 1, 0);
+            x = leftBound;
+            xDir = 0;
+            yDir = 2 * (i32)sliceGroupChangeDirectionFlag - 1;
+        }
+        else if (xDir == 1 && x == rightBound)
+        {
+            rightBound = MIN(rightBound + 1, (i32)picWidth - 1);
+            x = rightBound;
+            xDir = 0;
+            yDir = 1 - 2 * (i32)sliceGroupChangeDirectionFlag;
+        }
+        else if (yDir == -1 && y == topBound)
+        {
+            topBound = MAX(topBound - 1, 0);
+            y = topBound;
+            xDir = 1 - 2 * (i32)sliceGroupChangeDirectionFlag;
+            yDir = 0;
+        }
+        else if (yDir == 1 && y == bottomBound)
+        {
+            bottomBound = MIN(bottomBound + 1, (i32)picHeight - 1);
+            y = bottomBound;
+            xDir = 2 * (i32)sliceGroupChangeDirectionFlag - 1;
+            yDir = 0;
+        }
+        else
+        {
+            x += xDir;
+            y += yDir;
+        }
+    }
+
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeRasterScanMap
+
+        Functional description:
+            Function to decode raster scan slice group map type, i.e. slice
+            group map type 4.
+
+        Inputs:
+            map                               pointer to the map
+            sliceGroupChangeDirectionFlag     slice_group_change_direction_flag
+            sizeOfUpperLeftGroup              mbs in upperLeftGroup
+            picSize                           picture size in macroblocks
+
+        Outputs:
+            map                               slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void DecodeRasterScanMap(
+  u32 *map,
+  u32 sliceGroupChangeDirectionFlag,
+  u32 sizeOfUpperLeftGroup,
+  u32 picSize)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(picSize);
+    ASSERT(sizeOfUpperLeftGroup <= picSize);
+
+    for (i = 0; i < picSize; i++)
+        if (i < sizeOfUpperLeftGroup)
+            map[i] = (u32)sliceGroupChangeDirectionFlag;
+        else
+            map[i] = 1 - (u32)sliceGroupChangeDirectionFlag;
+
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeWipeMap
+
+        Functional description:
+            Function to decode wipe slice group map type, i.e. slice group map
+            type 5.
+
+        Inputs:
+            sliceGroupChangeDirectionFlag     slice_group_change_direction_flag
+            sizeOfUpperLeftGroup              mbs in upperLeftGroup
+            picWidth                          picture width in macroblocks
+            picHeight                         picture height in macroblocks
+
+        Outputs:
+            map                               slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void DecodeWipeMap(
+  u32 *map,
+  u32 sliceGroupChangeDirectionFlag,
+  u32 sizeOfUpperLeftGroup,
+  u32 picWidth,
+  u32 picHeight)
+{
+
+/* Variables */
+
+    u32 i,j,k;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(picWidth);
+    ASSERT(picHeight);
+    ASSERT(sizeOfUpperLeftGroup <= picWidth * picHeight);
+
+    k = 0;
+    for (j = 0; j < picWidth; j++)
+        for (i = 0; i < picHeight; i++)
+            if (k++ < sizeOfUpperLeftGroup)
+                map[ i * picWidth + j ] = (u32)sliceGroupChangeDirectionFlag;
+            else
+                map[ i * picWidth + j ] = 1 -
+                    (u32)sliceGroupChangeDirectionFlag;
+
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDecodeSliceGroupMap
+
+        Functional description:
+            Function to decode macroblock to slice group map. Construction
+            of different slice group map types is handled by separate
+            functions defined above. See standard for details how slice group
+            maps are computed.
+
+        Inputs:
+            pps                     active picture parameter set
+            sliceGroupChangeCycle   slice_group_change_cycle
+            picWidth                picture width in macroblocks
+            picHeight               picture height in macroblocks
+
+        Outputs:
+            map                     slice group map is stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdDecodeSliceGroupMap(
+  u32 *map,
+  picParamSet_t *pps,
+  u32 sliceGroupChangeCycle,
+  u32 picWidth,
+  u32 picHeight)
+{
+
+/* Variables */
+
+    u32 i, picSize, unitsInSliceGroup0 = 0, sizeOfUpperLeftGroup = 0;
+
+/* Code */
+
+    ASSERT(map);
+    ASSERT(pps);
+    ASSERT(picWidth);
+    ASSERT(picHeight);
+    ASSERT(pps->sliceGroupMapType < 7);
+
+    picSize = picWidth * picHeight;
+
+    /* just one slice group -> all macroblocks belong to group 0 */
+    if (pps->numSliceGroups == 1)
+    {
+        memset(map, 0, picSize * sizeof(u32));
+        return;
+    }
+
+    if (pps->sliceGroupMapType > 2 && pps->sliceGroupMapType < 6)
+    {
+        ASSERT(pps->sliceGroupChangeRate &&
+               pps->sliceGroupChangeRate <= picSize);
+
+        unitsInSliceGroup0 =
+            MIN(sliceGroupChangeCycle * pps->sliceGroupChangeRate, picSize);
+
+        if (pps->sliceGroupMapType == 4 || pps->sliceGroupMapType == 5)
+            sizeOfUpperLeftGroup = pps->sliceGroupChangeDirectionFlag ?
+                (picSize - unitsInSliceGroup0) : unitsInSliceGroup0;
+    }
+
+    switch (pps->sliceGroupMapType)
+    {
+        case 0:
+            DecodeInterleavedMap(map, pps->numSliceGroups,
+              pps->runLength, picSize);
+            break;
+
+        case 1:
+            DecodeDispersedMap(map, pps->numSliceGroups, picWidth,
+              picHeight);
+            break;
+
+        case 2:
+            DecodeForegroundLeftOverMap(map, pps->numSliceGroups,
+              pps->topLeft, pps->bottomRight, picWidth, picHeight);
+            break;
+
+        case 3:
+            DecodeBoxOutMap(map, pps->sliceGroupChangeDirectionFlag,
+              unitsInSliceGroup0, picWidth, picHeight);
+            break;
+
+        case 4:
+            DecodeRasterScanMap(map,
+              pps->sliceGroupChangeDirectionFlag, sizeOfUpperLeftGroup,
+              picSize);
+            break;
+
+        case 5:
+            DecodeWipeMap(map, pps->sliceGroupChangeDirectionFlag,
+              sizeOfUpperLeftGroup, picWidth, picHeight);
+            break;
+
+        default:
+            ASSERT(pps->sliceGroupId);
+            for (i = 0; i < picSize; i++)
+            {
+                ASSERT(pps->sliceGroupId[i] < pps->numSliceGroups);
+                map[i] = pps->sliceGroupId[i];
+            }
+            break;
+    }
+
+}
+
--- /dev/null
+++ b/src/h264bsd_slice_group_map.h
@@ -1,0 +1,61 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_SLICE_GROUP_MAP_H
+#define H264SWDEC_SLICE_GROUP_MAP_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_pic_param_set.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+void h264bsdDecodeSliceGroupMap(
+  u32 *map,
+  picParamSet_t *pps,
+  u32 sliceGroupChangeCycle,
+  u32 picWidth,
+  u32 picHeight);
+
+#endif /* #ifdef H264SWDEC_SLICE_GROUP_MAP_H */
+
--- /dev/null
+++ b/src/h264bsd_slice_header.c
@@ -1,0 +1,1512 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeSliceHeader
+          NumSliceGroupChangeCycleBits
+          RefPicListReordering
+          DecRefPicMarking
+          CheckPpsId
+          CheckFrameNum
+          CheckIdrPicId
+          CheckPicOrderCntLsb
+          CheckDeltaPicOrderCntBottom
+          CheckDeltaPicOrderCnt
+          CheckRedundantPicCnt
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_slice_header.h"
+#include "h264bsd_util.h"
+#include "h264bsd_vlc.h"
+#include "h264bsd_nal_unit.h"
+#include "h264bsd_dpb.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 RefPicListReordering(strmData_t *, refPicListReordering_t *,
+    u32, u32);
+
+static u32 NumSliceGroupChangeCycleBits(u32 picSizeInMbs,
+    u32 sliceGroupChangeRate);
+
+static u32 DecRefPicMarking(strmData_t *pStrmData,
+    decRefPicMarking_t *pDecRefPicMarking, nalUnitType_e nalUnitType,
+    u32 numRefFrames);
+
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdDecodeSliceHeader
+
+        Functional description:
+            Decode slice header data from the stream.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            pSeqParamSet    pointer to active sequence parameter set
+            pPicParamSet    pointer to active picture parameter set
+            pNalUnit        pointer to current NAL unit structure
+
+        Outputs:
+            pSliceHeader    decoded data is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data or end of stream
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSliceHeader(strmData_t *pStrmData, sliceHeader_t *pSliceHeader,
+    seqParamSet_t *pSeqParamSet, picParamSet_t *pPicParamSet,
+    nalUnit_t *pNalUnit)
+{
+
+/* Variables */
+
+    u32 tmp, i, value;
+    i32 itmp;
+    u32 picSizeInMbs;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSliceHeader);
+    ASSERT(pSeqParamSet);
+    ASSERT(pPicParamSet);
+    ASSERT( pNalUnit->nalUnitType == NAL_CODED_SLICE ||
+            pNalUnit->nalUnitType == NAL_CODED_SLICE_IDR );
+
+
+    memset(pSliceHeader, 0, sizeof(sliceHeader_t));
+
+    picSizeInMbs = pSeqParamSet->picWidthInMbs * pSeqParamSet->picHeightInMbs;
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSliceHeader->firstMbInSlice = value;
+    if (value >= picSizeInMbs)
+    {
+        EPRINT("first_mb_in_slice");
+        return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSliceHeader->sliceType = value;
+    /* slice type has to be either I or P slice. P slice is not allowed when
+     * current NAL unit is an IDR NAL unit or num_ref_frames is 0 */
+    if ( !IS_I_SLICE(pSliceHeader->sliceType) &&
+         ( !IS_P_SLICE(pSliceHeader->sliceType) ||
+           IS_IDR_NAL_UNIT(pNalUnit) ||
+           !pSeqParamSet->numRefFrames ) )
+    {
+        EPRINT("slice_type");
+        return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSliceHeader->picParameterSetId = value;
+    if (pSliceHeader->picParameterSetId != pPicParamSet->picParameterSetId)
+    {
+        EPRINT("pic_parameter_set_id");
+        return(HANTRO_NOK);
+    }
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (pSeqParamSet->maxFrameNum >> i)
+        i++;
+    i--;
+
+    tmp = h264bsdGetBits(pStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    if (IS_IDR_NAL_UNIT(pNalUnit) && tmp != 0)
+    {
+        EPRINT("frame_num");
+        return(HANTRO_NOK);
+    }
+    pSliceHeader->frameNum = tmp;
+
+    if (IS_IDR_NAL_UNIT(pNalUnit))
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        pSliceHeader->idrPicId = value;
+        if (value > 65535)
+        {
+            EPRINT("idr_pic_id");
+            return(HANTRO_NOK);
+        }
+    }
+
+    if (pSeqParamSet->picOrderCntType == 0)
+    {
+        /* log2(maxPicOrderCntLsb) -> num bits to represent pic_order_cnt_lsb */
+        i = 0;
+        while (pSeqParamSet->maxPicOrderCntLsb >> i)
+            i++;
+        i--;
+
+        tmp = h264bsdGetBits(pStrmData, i);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSliceHeader->picOrderCntLsb = tmp;
+
+        if (pPicParamSet->picOrderPresentFlag)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pSliceHeader->deltaPicOrderCntBottom = itmp;
+        }
+
+        /* check that picOrderCnt for IDR picture will be zero. See
+         * DecodePicOrderCnt function to understand the logic here */
+        if ( IS_IDR_NAL_UNIT(pNalUnit) &&
+             ( (pSliceHeader->picOrderCntLsb >
+                pSeqParamSet->maxPicOrderCntLsb/2) ||
+                MIN((i32)pSliceHeader->picOrderCntLsb,
+                    (i32)pSliceHeader->picOrderCntLsb +
+                    pSliceHeader->deltaPicOrderCntBottom) != 0 ) )
+        {
+            return(HANTRO_NOK);
+        }
+    }
+
+    if ( (pSeqParamSet->picOrderCntType == 1) &&
+         !pSeqParamSet->deltaPicOrderAlwaysZeroFlag )
+    {
+        tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        pSliceHeader->deltaPicOrderCnt[0] = itmp;
+
+        if (pPicParamSet->picOrderPresentFlag)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            pSliceHeader->deltaPicOrderCnt[1] = itmp;
+        }
+
+        /* check that picOrderCnt for IDR picture will be zero. See
+         * DecodePicOrderCnt function to understand the logic here */
+        if ( IS_IDR_NAL_UNIT(pNalUnit) &&
+             MIN(pSliceHeader->deltaPicOrderCnt[0],
+                 pSliceHeader->deltaPicOrderCnt[0] +
+                 pSeqParamSet->offsetForTopToBottomField +
+                 pSliceHeader->deltaPicOrderCnt[1]) != 0)
+        {
+            return(HANTRO_NOK);
+        }
+    }
+
+    if (pPicParamSet->redundantPicCntPresentFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        pSliceHeader->redundantPicCnt = value;
+        if (value > 127)
+        {
+            EPRINT("redundant_pic_cnt");
+            return(HANTRO_NOK);
+        }
+    }
+
+    if (IS_P_SLICE(pSliceHeader->sliceType))
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSliceHeader->numRefIdxActiveOverrideFlag = tmp;
+
+        if (pSliceHeader->numRefIdxActiveOverrideFlag)
+        {
+            tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            if (value > 15)
+            {
+                EPRINT("num_ref_idx_l0_active_minus1");
+                return(HANTRO_NOK);
+            }
+            pSliceHeader->numRefIdxL0Active = value + 1;
+        }
+        /* set numRefIdxL0Active from pic param set */
+        else
+        {
+            /* if value (minus1) in picture parameter set exceeds 15 it should
+             * have been overridden here */
+            if (pPicParamSet->numRefIdxL0Active > 16)
+            {
+                EPRINT("num_ref_idx_active_override_flag");
+                return(HANTRO_NOK);
+            }
+            pSliceHeader->numRefIdxL0Active = pPicParamSet->numRefIdxL0Active;
+        }
+    }
+
+    if (IS_P_SLICE(pSliceHeader->sliceType))
+    {
+        tmp = RefPicListReordering(pStrmData,
+            &pSliceHeader->refPicListReordering,
+            pSliceHeader->numRefIdxL0Active,
+            pSeqParamSet->maxFrameNum);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    if (pNalUnit->nalRefIdc != 0)
+    {
+        tmp = DecRefPicMarking(pStrmData, &pSliceHeader->decRefPicMarking,
+            pNalUnit->nalUnitType, pSeqParamSet->numRefFrames);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    /* decode sliceQpDelta and check that initial QP for the slice will be on
+     * the range [0, 51] */
+    tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    pSliceHeader->sliceQpDelta = itmp;
+    itmp += (i32)pPicParamSet->picInitQp;
+    if ( (itmp < 0) || (itmp > 51) )
+    {
+        EPRINT("slice_qp_delta");
+        return(HANTRO_NOK);
+    }
+
+    if (pPicParamSet->deblockingFilterControlPresentFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        pSliceHeader->disableDeblockingFilterIdc = value;
+        if (pSliceHeader->disableDeblockingFilterIdc > 2)
+        {
+            EPRINT("disable_deblocking_filter_idc");
+            return(HANTRO_NOK);
+        }
+
+        if (pSliceHeader->disableDeblockingFilterIdc != 1)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            if ( (itmp < -6) || (itmp > 6) )
+            {
+               EPRINT("slice_alpha_c0_offset_div2");
+               return(HANTRO_NOK);
+            }
+            pSliceHeader->sliceAlphaC0Offset = itmp * 2;
+
+            tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            if ( (itmp < -6) || (itmp > 6) )
+            {
+               EPRINT("slice_beta_offset_div2");
+               return(HANTRO_NOK);
+            }
+            pSliceHeader->sliceBetaOffset = itmp * 2;
+        }
+    }
+
+    if ( (pPicParamSet->numSliceGroups > 1) &&
+         (pPicParamSet->sliceGroupMapType >= 3) &&
+         (pPicParamSet->sliceGroupMapType <= 5) )
+    {
+        /* set tmp to number of bits used to represent slice_group_change_cycle
+         * in the stream */
+        tmp = NumSliceGroupChangeCycleBits(picSizeInMbs,
+            pPicParamSet->sliceGroupChangeRate);
+        value = h264bsdGetBits(pStrmData, tmp);
+        if (value == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pSliceHeader->sliceGroupChangeCycle = value;
+
+        /* corresponds to tmp = Ceil(picSizeInMbs / sliceGroupChangeRate) */
+        tmp = (picSizeInMbs + pPicParamSet->sliceGroupChangeRate - 1) /
+              pPicParamSet->sliceGroupChangeRate;
+        if (pSliceHeader->sliceGroupChangeCycle > tmp)
+        {
+            EPRINT("slice_group_change_cycle");
+            return(HANTRO_NOK);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: NumSliceGroupChangeCycleBits
+
+        Functional description:
+            Determine number of bits needed to represent
+            slice_group_change_cycle in the stream. The standard states that
+            slice_group_change_cycle is represented by
+                Ceil( Log2( (picSizeInMbs / sliceGroupChangeRate) + 1) )
+
+            bits. Division "/" in the equation is non-truncating division.
+
+        Inputs:
+            picSizeInMbs            picture size in macroblocks
+            sliceGroupChangeRate
+
+        Outputs:
+            none
+
+        Returns:
+            number of bits needed
+
+------------------------------------------------------------------------------*/
+
+u32 NumSliceGroupChangeCycleBits(u32 picSizeInMbs, u32 sliceGroupChangeRate)
+{
+
+/* Variables */
+
+    u32 tmp,numBits,mask;
+
+/* Code */
+
+    ASSERT(picSizeInMbs);
+    ASSERT(sliceGroupChangeRate);
+    ASSERT(sliceGroupChangeRate <= picSizeInMbs);
+
+    /* compute (picSizeInMbs / sliceGroupChangeRate + 1), rounded up */
+    if (picSizeInMbs % sliceGroupChangeRate)
+        tmp = 2 + picSizeInMbs/sliceGroupChangeRate;
+    else
+        tmp = 1 + picSizeInMbs/sliceGroupChangeRate;
+
+    numBits = 0;
+    mask = ~0U;
+
+    /* set numBits to position of right-most non-zero bit */
+    while (tmp & (mask<<++numBits))
+        ;
+    numBits--;
+
+    /* add one more bit if value greater than 2^numBits */
+    if (tmp & ((1<<numBits)-1))
+        numBits++;
+
+    return(numBits);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: RefPicListReordering
+
+        Functional description:
+            Decode reference picture list reordering syntax elements from
+            the stream. Max number of reordering commands is numRefIdxActive.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            numRefIdxActive number of active reference indices to be used for
+                            current slice
+            maxPicNum       maxFrameNum from the active SPS
+
+        Outputs:
+            pRefPicListReordering   decoded data is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 RefPicListReordering(strmData_t *pStrmData,
+    refPicListReordering_t *pRefPicListReordering, u32 numRefIdxActive,
+    u32 maxPicNum)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    u32 command;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pRefPicListReordering);
+    ASSERT(numRefIdxActive);
+    ASSERT(maxPicNum);
+
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    pRefPicListReordering->refPicListReorderingFlagL0 = tmp;
+
+    if (pRefPicListReordering->refPicListReorderingFlagL0)
+    {
+        i = 0;
+
+        do
+        {
+            if (i > numRefIdxActive)
+            {
+                EPRINT("Too many reordering commands");
+                return(HANTRO_NOK);
+            }
+
+            tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &command);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+            if (command > 3)
+            {
+                EPRINT("reordering_of_pic_nums_idc");
+                return(HANTRO_NOK);
+            }
+
+            pRefPicListReordering->command[i].reorderingOfPicNumsIdc = command;
+
+            if ((command == 0) || (command == 1))
+            {
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                if (value >= maxPicNum)
+                {
+                    EPRINT("abs_diff_pic_num_minus1");
+                    return(HANTRO_NOK);
+                }
+                pRefPicListReordering->command[i].absDiffPicNum = value + 1;
+                            }
+            else if (command == 2)
+            {
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                pRefPicListReordering->command[i].longTermPicNum = value;
+                            }
+            i++;
+        } while (command != 3);
+
+        /* there shall be at least one reordering command if
+         * refPicListReorderingFlagL0 was set */
+        if (i == 1)
+        {
+            EPRINT("ref_pic_list_reordering");
+            return(HANTRO_NOK);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecRefPicMarking
+
+        Functional description:
+            Decode decoded reference picture marking syntax elements from
+            the stream.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            nalUnitType     type of the current NAL unit
+            numRefFrames    max number of reference frames from the active SPS
+
+        Outputs:
+            pDecRefPicMarking   decoded data is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 DecRefPicMarking(strmData_t *pStrmData,
+    decRefPicMarking_t *pDecRefPicMarking, nalUnitType_e nalUnitType,
+    u32 numRefFrames)
+{
+
+/* Variables */
+
+    u32 tmp, value;
+    u32 i;
+    u32 operation;
+    /* variables for error checking purposes, store number of memory
+     * management operations of certain type */
+    u32 num4 = 0, num5 = 0, num6 = 0, num1to3 = 0;
+
+/* Code */
+
+    ASSERT( nalUnitType == NAL_CODED_SLICE_IDR ||
+            nalUnitType == NAL_CODED_SLICE ||
+            nalUnitType == NAL_SEI );
+
+
+    if (nalUnitType == NAL_CODED_SLICE_IDR)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pDecRefPicMarking->noOutputOfPriorPicsFlag = tmp;
+
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pDecRefPicMarking->longTermReferenceFlag = tmp;
+        if (!numRefFrames && pDecRefPicMarking->longTermReferenceFlag)
+        {
+            EPRINT("long_term_reference_flag");
+            return(HANTRO_NOK);
+        }
+    }
+    else
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pDecRefPicMarking->adaptiveRefPicMarkingModeFlag = tmp;
+        if (pDecRefPicMarking->adaptiveRefPicMarkingModeFlag)
+        {
+            i = 0;
+            do
+            {
+                /* see explanation of the MAX_NUM_MMC_OPERATIONS in
+                 * slice_header.h */
+                if (i > (2 * numRefFrames + 2))
+                {
+                    EPRINT("Too many management operations");
+                    return(HANTRO_NOK);
+                }
+
+                tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &operation);
+                if (tmp != HANTRO_OK)
+                    return(tmp);
+                if (operation > 6)
+                {
+                    EPRINT("memory_management_control_operation");
+                    return(HANTRO_NOK);
+                }
+
+                pDecRefPicMarking->operation[i].
+                    memoryManagementControlOperation = operation;
+                if ((operation == 1) || (operation == 3))
+                {
+                    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                    if (tmp != HANTRO_OK)
+                        return(tmp);
+                    pDecRefPicMarking->operation[i].differenceOfPicNums =
+                        value + 1;
+                }
+                if (operation == 2)
+                {
+                    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                    if (tmp != HANTRO_OK)
+                        return(tmp);
+                    pDecRefPicMarking->operation[i].longTermPicNum = value;
+                }
+                if ((operation == 3) || (operation == 6))
+                {
+                    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                    if (tmp != HANTRO_OK)
+                        return(tmp);
+                    pDecRefPicMarking->operation[i].longTermFrameIdx =
+                        value;
+                }
+                if (operation == 4)
+                {
+                    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &value);
+                    if (tmp != HANTRO_OK)
+                        return(tmp);
+                    /* value shall be in range [0, numRefFrames] */
+                    if (value > numRefFrames)
+                    {
+                        EPRINT("max_long_term_frame_idx_plus1");
+                        return(HANTRO_NOK);
+                    }
+                    if (value == 0)
+                    {
+                        pDecRefPicMarking->operation[i].
+                            maxLongTermFrameIdx =
+                            NO_LONG_TERM_FRAME_INDICES;
+                    }
+                    else
+                    {
+                        pDecRefPicMarking->operation[i].
+                            maxLongTermFrameIdx = value - 1;
+                    }
+                    num4++;
+                }
+                if (operation == 5)
+                {
+                    num5++;
+                }
+                if (operation && operation <= 3)
+                    num1to3++;
+                if (operation == 6)
+                    num6++;
+
+                i++;
+            } while (operation != 0);
+
+            /* error checking */
+            if (num4 > 1 || num5 > 1 || num6 > 1 || (num1to3 && num5))
+                return(HANTRO_NOK);
+
+        }
+    }
+
+    return(HANTRO_OK);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdCheckPpsId
+
+        Functional description:
+            Peek value of pic_parameter_set_id from the slice header. Function
+            does not modify current stream positions but copies the stream
+            data structure to tmp structure which is used while accessing
+            stream data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            picParamSetId   value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckPpsId(strmData_t *pStrmData, u32 *picParamSetId)
+{
+
+/* Variables */
+
+    u32 tmp, value;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    if (value >= MAX_NUM_PIC_PARAM_SETS)
+        return(HANTRO_NOK);
+
+    *picParamSetId = value;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckFrameNum
+
+        Functional description:
+            Peek value of frame_num from the slice header. Function does not
+            modify current stream positions but copies the stream data
+            structure to tmp structure which is used while accessing stream
+            data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            maxFrameNum
+
+        Outputs:
+            frameNum        value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckFrameNum(
+  strmData_t *pStrmData,
+  u32 maxFrameNum,
+  u32 *frameNum)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(maxFrameNum);
+    ASSERT(frameNum);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    *frameNum = tmp;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckIdrPicId
+
+        Functional description:
+            Peek value of idr_pic_id from the slice header. Function does not
+            modify current stream positions but copies the stream data
+            structure to tmp structure which is used while accessing stream
+            data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            maxFrameNum     max frame number from active SPS
+            nalUnitType     type of the current NAL unit
+
+        Outputs:
+            idrPicId        value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckIdrPicId(
+  strmData_t *pStrmData,
+  u32 maxFrameNum,
+  nalUnitType_e nalUnitType,
+  u32 *idrPicId)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(maxFrameNum);
+    ASSERT(idrPicId);
+
+    /* nalUnitType must be equal to 5 because otherwise idrPicId is not
+     * present */
+    if (nalUnitType != NAL_CODED_SLICE_IDR)
+        return(HANTRO_NOK);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* skip frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* idr_pic_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, idrPicId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckPicOrderCntLsb
+
+        Functional description:
+            Peek value of pic_order_cnt_lsb from the slice header. Function
+            does not modify current stream positions but copies the stream
+            data structure to tmp structure which is used while accessing
+            stream data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            pSeqParamSet    pointer to active SPS
+            nalUnitType     type of the current NAL unit
+
+        Outputs:
+            picOrderCntLsb  value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckPicOrderCntLsb(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  nalUnitType_e nalUnitType,
+  u32 *picOrderCntLsb)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeqParamSet);
+    ASSERT(picOrderCntLsb);
+
+    /* picOrderCntType must be equal to 0 */
+    ASSERT(pSeqParamSet->picOrderCntType == 0);
+    ASSERT(pSeqParamSet->maxFrameNum);
+    ASSERT(pSeqParamSet->maxPicOrderCntLsb);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (pSeqParamSet->maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* skip frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* skip idr_pic_id when necessary */
+    if (nalUnitType == NAL_CODED_SLICE_IDR)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    /* log2(maxPicOrderCntLsb) -> num bits to represent pic_order_cnt_lsb */
+    i = 0;
+    while (pSeqParamSet->maxPicOrderCntLsb >> i)
+        i++;
+    i--;
+
+    /* pic_order_cnt_lsb */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    *picOrderCntLsb = tmp;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckDeltaPicOrderCntBottom
+
+        Functional description:
+            Peek value of delta_pic_order_cnt_bottom from the slice header.
+            Function does not modify current stream positions but copies the
+            stream data structure to tmp structure which is used while
+            accessing stream data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            pSeqParamSet    pointer to active SPS
+            nalUnitType     type of the current NAL unit
+
+        Outputs:
+            deltaPicOrderCntBottom  value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckDeltaPicOrderCntBottom(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  nalUnitType_e nalUnitType,
+  i32 *deltaPicOrderCntBottom)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeqParamSet);
+    ASSERT(deltaPicOrderCntBottom);
+
+    /* picOrderCntType must be equal to 0 and picOrderPresentFlag must be TRUE
+     * */
+    ASSERT(pSeqParamSet->picOrderCntType == 0);
+    ASSERT(pSeqParamSet->maxFrameNum);
+    ASSERT(pSeqParamSet->maxPicOrderCntLsb);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (pSeqParamSet->maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* skip frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* skip idr_pic_id when necessary */
+    if (nalUnitType == NAL_CODED_SLICE_IDR)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    /* log2(maxPicOrderCntLsb) -> num bits to represent pic_order_cnt_lsb */
+    i = 0;
+    while (pSeqParamSet->maxPicOrderCntLsb >> i)
+        i++;
+    i--;
+
+    /* skip pic_order_cnt_lsb */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* delta_pic_order_cnt_bottom */
+    tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, deltaPicOrderCntBottom);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckDeltaPicOrderCnt
+
+        Functional description:
+            Peek values delta_pic_order_cnt[0] and delta_pic_order_cnt[1]
+            from the slice header. Function does not modify current stream
+            positions but copies the stream data structure to tmp structure
+            which is used while accessing stream data.
+
+        Inputs:
+            pStrmData               pointer to stream data structure
+            pSeqParamSet            pointer to active SPS
+            nalUnitType             type of the current NAL unit
+            picOrderPresentFlag     flag indicating if delta_pic_order_cnt[1]
+                                    is present in the stream
+
+        Outputs:
+            deltaPicOrderCnt        values are stored here
+
+        Returns:
+            HANTRO_OK               success
+            HANTRO_NOK              invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckDeltaPicOrderCnt(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  nalUnitType_e nalUnitType,
+  u32 picOrderPresentFlag,
+  i32 *deltaPicOrderCnt)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeqParamSet);
+    ASSERT(deltaPicOrderCnt);
+
+    /* picOrderCntType must be equal to 1 and deltaPicOrderAlwaysZeroFlag must
+     * be FALSE */
+    ASSERT(pSeqParamSet->picOrderCntType == 1);
+    ASSERT(!pSeqParamSet->deltaPicOrderAlwaysZeroFlag);
+    ASSERT(pSeqParamSet->maxFrameNum);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (pSeqParamSet->maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* skip frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* skip idr_pic_id when necessary */
+    if (nalUnitType == NAL_CODED_SLICE_IDR)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    /* delta_pic_order_cnt[0] */
+    tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &deltaPicOrderCnt[0]);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* delta_pic_order_cnt[1] if present */
+    if (picOrderPresentFlag)
+    {
+        tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &deltaPicOrderCnt[1]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckRedundantPicCnt
+
+        Functional description:
+            Peek value of redundant_pic_cnt from the slice header. Function
+            does not modify current stream positions but copies the stream
+            data structure to tmp structure which is used while accessing
+            stream data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            pSeqParamSet    pointer to active SPS
+            pPicParamSet    pointer to active PPS
+            nalUnitType     type of the current NAL unit
+
+        Outputs:
+            redundantPicCnt value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckRedundantPicCnt(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  picParamSet_t *pPicParamSet,
+  nalUnitType_e nalUnitType,
+  u32 *redundantPicCnt)
+{
+
+/* Variables */
+
+    u32 tmp, value, i;
+    i32 ivalue;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeqParamSet);
+    ASSERT(pPicParamSet);
+    ASSERT(redundantPicCnt);
+
+    /* redundant_pic_cnt_flag must be TRUE */
+    ASSERT(pPicParamSet->redundantPicCntPresentFlag);
+    ASSERT(pSeqParamSet->maxFrameNum);
+    ASSERT(pSeqParamSet->picOrderCntType > 0 ||
+           pSeqParamSet->maxPicOrderCntLsb);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while (pSeqParamSet->maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* skip frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    /* skip idr_pic_id when necessary */
+    if (nalUnitType == NAL_CODED_SLICE_IDR)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+
+    if (pSeqParamSet->picOrderCntType == 0)
+    {
+        /* log2(maxPicOrderCntLsb) -> num bits to represent pic_order_cnt_lsb */
+        i = 0;
+        while (pSeqParamSet->maxPicOrderCntLsb >> i)
+            i++;
+        i--;
+
+        /* pic_order_cnt_lsb */
+        tmp = h264bsdGetBits(tmpStrmData, i);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+
+        if (pPicParamSet->picOrderPresentFlag)
+        {
+            /* skip delta_pic_order_cnt_bottom */
+            tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &ivalue);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+        }
+    }
+
+    if (pSeqParamSet->picOrderCntType == 1 &&
+      !pSeqParamSet->deltaPicOrderAlwaysZeroFlag)
+    {
+        /* delta_pic_order_cnt[0] */
+        tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &ivalue);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        /* delta_pic_order_cnt[1] if present */
+        if (pPicParamSet->picOrderPresentFlag)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &ivalue);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+        }
+    }
+
+    /* redundant_pic_cnt */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, redundantPicCnt);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    return(HANTRO_OK);
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckPriorPicsFlag
+
+        Functional description:
+            Peek value of no_output_of_prior_pics_flag from the slice header.
+            Function does not modify current stream positions but copies
+            the stream data structure to tmp structure which is used while
+            accessing stream data.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            pSeqParamSet    pointer to active SPS
+            pPicParamSet    pointer to active PPS
+            nalUnitType     type of the current NAL unit
+
+        Outputs:
+            noOutputOfPriorPicsFlag value is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+/*lint -e715 disable lint info nalUnitType not referenced */
+u32 h264bsdCheckPriorPicsFlag(u32 * noOutputOfPriorPicsFlag,
+                              const strmData_t * pStrmData,
+                              const seqParamSet_t * pSeqParamSet,
+                              const picParamSet_t * pPicParamSet,
+                              nalUnitType_e nalUnitType)
+{
+/* Variables */
+
+    u32 tmp, value, i;
+    i32 ivalue;
+    strmData_t tmpStrmData[1];
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pSeqParamSet);
+    ASSERT(pPicParamSet);
+    ASSERT(noOutputOfPriorPicsFlag);
+
+    /* must be IDR lsice */
+    ASSERT(nalUnitType == NAL_CODED_SLICE_IDR);
+
+    /* don't touch original stream position params */
+    *tmpStrmData = *pStrmData;
+
+    /* skip first_mb_in_slice */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if(tmp != HANTRO_OK)
+        return (tmp);
+
+    /* slice_type */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if(tmp != HANTRO_OK)
+        return (tmp);
+
+    /* skip pic_parameter_set_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if(tmp != HANTRO_OK)
+        return (tmp);
+
+    /* log2(maxFrameNum) -> num bits to represent frame_num */
+    i = 0;
+    while(pSeqParamSet->maxFrameNum >> i)
+        i++;
+    i--;
+
+    /* skip frame_num */
+    tmp = h264bsdGetBits(tmpStrmData, i);
+    if(tmp == END_OF_STREAM)
+        return (HANTRO_NOK);
+
+    /* skip idr_pic_id */
+    tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+    if(tmp != HANTRO_OK)
+        return (tmp);
+
+    if(pSeqParamSet->picOrderCntType == 0)
+    {
+        /* log2(maxPicOrderCntLsb) -> num bits to represent pic_order_cnt_lsb */
+        i = 0;
+        while(pSeqParamSet->maxPicOrderCntLsb >> i)
+            i++;
+        i--;
+
+        /* skip pic_order_cnt_lsb */
+        tmp = h264bsdGetBits(tmpStrmData, i);
+        if(tmp == END_OF_STREAM)
+            return (HANTRO_NOK);
+
+        if(pPicParamSet->picOrderPresentFlag)
+        {
+            /* skip delta_pic_order_cnt_bottom */
+            tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &ivalue);
+            if(tmp != HANTRO_OK)
+                return (tmp);
+        }
+    }
+
+    if(pSeqParamSet->picOrderCntType == 1 &&
+       !pSeqParamSet->deltaPicOrderAlwaysZeroFlag)
+    {
+        /* skip delta_pic_order_cnt[0] */
+        tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &ivalue);
+        if(tmp != HANTRO_OK)
+            return (tmp);
+
+        /* skip delta_pic_order_cnt[1] if present */
+        if(pPicParamSet->picOrderPresentFlag)
+        {
+            tmp = h264bsdDecodeExpGolombSigned(tmpStrmData, &ivalue);
+            if(tmp != HANTRO_OK)
+                return (tmp);
+        }
+    }
+
+    /* skip redundant_pic_cnt */
+    if(pPicParamSet->redundantPicCntPresentFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(tmpStrmData, &value);
+        if(tmp != HANTRO_OK)
+            return (tmp);
+    }
+
+    *noOutputOfPriorPicsFlag = h264bsdGetBits(tmpStrmData, 1);
+    if(*noOutputOfPriorPicsFlag == END_OF_STREAM)
+        return (HANTRO_NOK);
+
+    return (HANTRO_OK);
+
+}
+/*lint +e715 */
+
+
--- /dev/null
+++ b/src/h264bsd_slice_header.h
@@ -1,0 +1,187 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_SLICE_HEADER_H
+#define H264SWDEC_SLICE_HEADER_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_cfg.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_pic_param_set.h"
+#include "h264bsd_nal_unit.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+enum {
+    P_SLICE = 0,
+    I_SLICE = 2
+};
+
+enum {NO_LONG_TERM_FRAME_INDICES = 0xFFFF};
+
+/* macro to determine if slice is an inter slice, sliceTypes 0 and 5 */
+#define IS_P_SLICE(sliceType) (((sliceType) == P_SLICE) || \
+    ((sliceType) == P_SLICE + 5))
+
+/* macro to determine if slice is an intra slice, sliceTypes 2 and 7 */
+#define IS_I_SLICE(sliceType) (((sliceType) == I_SLICE) || \
+    ((sliceType) == I_SLICE + 5))
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/* structure to store data of one reference picture list reordering operation */
+typedef struct
+{
+    u32 reorderingOfPicNumsIdc;
+    u32 absDiffPicNum;
+    u32 longTermPicNum;
+} refPicListReorderingOperation_t;
+
+/* structure to store reference picture list reordering operations */
+typedef struct
+{
+    u32 refPicListReorderingFlagL0;
+    refPicListReorderingOperation_t command[MAX_NUM_REF_PICS+1];
+} refPicListReordering_t;
+
+/* structure to store data of one DPB memory management control operation */
+typedef struct
+{
+    u32 memoryManagementControlOperation;
+    u32 differenceOfPicNums;
+    u32 longTermPicNum;
+    u32 longTermFrameIdx;
+    u32 maxLongTermFrameIdx;
+} memoryManagementOperation_t;
+
+/* worst case scenario: all MAX_NUM_REF_PICS pictures in the buffer are
+ * short term pictures, each one of them is first marked as long term
+ * reference picture which is then marked as unused for reference.
+ * Additionally, max long-term frame index is set and current picture is
+ * marked as long term reference picture. Last position reserved for
+ * end memory_management_control_operation command */
+#define MAX_NUM_MMC_OPERATIONS (2*MAX_NUM_REF_PICS+2+1)
+
+/* structure to store decoded reference picture marking data */
+typedef struct
+{
+    u32 noOutputOfPriorPicsFlag;
+    u32 longTermReferenceFlag;
+    u32 adaptiveRefPicMarkingModeFlag;
+    memoryManagementOperation_t operation[MAX_NUM_MMC_OPERATIONS];
+} decRefPicMarking_t;
+
+/* structure to store slice header data decoded from the stream */
+typedef struct
+{
+    u32 firstMbInSlice;
+    u32 sliceType;
+    u32 picParameterSetId;
+    u32 frameNum;
+    u32 idrPicId;
+    u32 picOrderCntLsb;
+    i32 deltaPicOrderCntBottom;
+    i32 deltaPicOrderCnt[2];
+    u32 redundantPicCnt;
+    u32 numRefIdxActiveOverrideFlag;
+    u32 numRefIdxL0Active;
+    i32 sliceQpDelta;
+    u32 disableDeblockingFilterIdc;
+    i32 sliceAlphaC0Offset;
+    i32 sliceBetaOffset;
+    u32 sliceGroupChangeCycle;
+    refPicListReordering_t refPicListReordering;
+    decRefPicMarking_t decRefPicMarking;
+} sliceHeader_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeSliceHeader(strmData_t *pStrmData,
+  sliceHeader_t *pSliceHeader,
+  seqParamSet_t *pSeqParamSet,
+  picParamSet_t *pPicParamSet,
+  nalUnit_t *pNalUnit);
+
+u32 h264bsdCheckPpsId(strmData_t *pStrmData, u32 *ppsId);
+
+u32 h264bsdCheckFrameNum(
+  strmData_t *pStrmData,
+  u32 maxFrameNum,
+  u32 *frameNum);
+
+u32 h264bsdCheckIdrPicId(
+  strmData_t *pStrmData,
+  u32 maxFrameNum,
+  nalUnitType_e nalUnitType,
+  u32 *idrPicId);
+
+u32 h264bsdCheckPicOrderCntLsb(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  nalUnitType_e nalUnitType,
+  u32 *picOrderCntLsb);
+
+u32 h264bsdCheckDeltaPicOrderCntBottom(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  nalUnitType_e nalUnitType,
+  i32 *deltaPicOrderCntBottom);
+
+u32 h264bsdCheckDeltaPicOrderCnt(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  nalUnitType_e nalUnitType,
+  u32 picOrderPresentFlag,
+  i32 *deltaPicOrderCnt);
+
+u32 h264bsdCheckRedundantPicCnt(
+  strmData_t *pStrmData,
+  seqParamSet_t *pSeqParamSet,
+  picParamSet_t *pPicParamSet,
+  nalUnitType_e nalUnitType,
+  u32 *redundantPicCnt);
+
+u32 h264bsdCheckPriorPicsFlag(u32 * noOutputOfPriorPicsFlag,
+                              const strmData_t * pStrmData,
+                              const seqParamSet_t * pSeqParamSet,
+                              const picParamSet_t * pPicParamSet,
+                              nalUnitType_e nalUnitType);
+
+#endif /* #ifdef H264SWDEC_SLICE_HEADER_H */
+
--- /dev/null
+++ b/src/h264bsd_storage.c
@@ -1,0 +1,889 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdInitStorage
+          h264bsdStoreSeqParamSet
+          h264bsdStorePicParamSet
+          h264bsdActivateParamSets
+          h264bsdResetStorage
+          h264bsdIsStartOfPicture
+          h264bsdIsEndOfPicture
+          h264bsdComputeSliceGroupMap
+          h264bsdCheckAccessUnitBoundary
+          CheckPps
+          h264bsdValidParamSets
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_storage.h"
+#include "h264bsd_util.h"
+#include "h264bsd_neighbour.h"
+#include "h264bsd_slice_group_map.h"
+#include "h264bsd_dpb.h"
+#include "h264bsd_nal_unit.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_seq_param_set.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 CheckPps(picParamSet_t *pps, seqParamSet_t *sps);
+
+/*------------------------------------------------------------------------------
+
+    Function name: h264bsdInitStorage
+
+        Functional description:
+            Initialize storage structure. Sets contents of the storage to '0'
+            except for the active parameter set ids, which are initialized
+            to invalid values.
+
+        Inputs:
+
+        Outputs:
+            pStorage    initialized data stored here
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdInitStorage(storage_t *pStorage)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    memset(pStorage, 0, sizeof(storage_t));
+
+    pStorage->activeSpsId = MAX_NUM_SEQ_PARAM_SETS;
+    pStorage->activePpsId = MAX_NUM_PIC_PARAM_SETS;
+
+    pStorage->aub->firstCallFlag = HANTRO_TRUE;
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdStoreSeqParamSet
+
+        Functional description:
+            Store sequence parameter set into the storage. If active SPS is
+            overwritten -> check if contents changes and if it does, set
+            parameters to force reactivation of parameter sets
+
+        Inputs:
+            pStorage        pointer to storage structure
+            pSeqParamSet    pointer to param set to be stored
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_OK                success
+            MEMORY_ALLOCATION_ERROR  failure in memory allocation
+
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdStoreSeqParamSet(storage_t *pStorage, seqParamSet_t *pSeqParamSet)
+{
+
+/* Variables */
+
+    u32 id;
+
+/* Code */
+
+    ASSERT(pStorage);
+    ASSERT(pSeqParamSet);
+    ASSERT(pSeqParamSet->seqParameterSetId < MAX_NUM_SEQ_PARAM_SETS);
+
+    id = pSeqParamSet->seqParameterSetId;
+
+    /* seq parameter set with id not used before -> allocate memory */
+    if (pStorage->sps[id] == NULL)
+    {
+        ALLOCATE(pStorage->sps[id], 1, seqParamSet_t);
+        if (pStorage->sps[id] == NULL)
+            return(MEMORY_ALLOCATION_ERROR);
+    }
+    /* sequence parameter set with id equal to id of active sps */
+    else if (id == pStorage->activeSpsId)
+    {
+        /* if seq parameter set contents changes
+         *    -> overwrite and re-activate when next IDR picture decoded
+         *    ids of active param sets set to invalid values to force
+         *    re-activation. Memories allocated for old sps freed
+         * otherwise free memeries allocated for just decoded sps and
+         * continue */
+        if (h264bsdCompareSeqParamSets(pSeqParamSet, pStorage->activeSps) != 0)
+        {
+            FREE(pStorage->sps[id]->offsetForRefFrame);
+            FREE(pStorage->sps[id]->vuiParameters);
+            pStorage->activeSpsId = MAX_NUM_SEQ_PARAM_SETS + 1;
+            pStorage->activePpsId = MAX_NUM_PIC_PARAM_SETS + 1;
+            pStorage->activeSps = NULL;
+            pStorage->activePps = NULL;
+        }
+        else
+        {
+            FREE(pSeqParamSet->offsetForRefFrame);
+            FREE(pSeqParamSet->vuiParameters);
+            return(HANTRO_OK);
+        }
+    }
+    /* overwrite seq param set other than active one -> free memories
+     * allocated for old param set */
+    else
+    {
+        FREE(pStorage->sps[id]->offsetForRefFrame);
+        FREE(pStorage->sps[id]->vuiParameters);
+    }
+
+    *pStorage->sps[id] = *pSeqParamSet;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdStorePicParamSet
+
+        Functional description:
+            Store picture parameter set into the storage. If active PPS is
+            overwritten -> check if active SPS changes and if it does -> set
+            parameters to force reactivation of parameter sets
+
+        Inputs:
+            pStorage        pointer to storage structure
+            pPicParamSet    pointer to param set to be stored
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_OK                success
+            MEMORY_ALLOCATION_ERROR  failure in memory allocation
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdStorePicParamSet(storage_t *pStorage, picParamSet_t *pPicParamSet)
+{
+
+/* Variables */
+
+    u32 id;
+
+/* Code */
+
+    ASSERT(pStorage);
+    ASSERT(pPicParamSet);
+    ASSERT(pPicParamSet->picParameterSetId < MAX_NUM_PIC_PARAM_SETS);
+    ASSERT(pPicParamSet->seqParameterSetId < MAX_NUM_SEQ_PARAM_SETS);
+
+    id = pPicParamSet->picParameterSetId;
+
+    /* pic parameter set with id not used before -> allocate memory */
+    if (pStorage->pps[id] == NULL)
+    {
+        ALLOCATE(pStorage->pps[id], 1, picParamSet_t);
+        if (pStorage->pps[id] == NULL)
+            return(MEMORY_ALLOCATION_ERROR);
+    }
+    /* picture parameter set with id equal to id of active pps */
+    else if (id == pStorage->activePpsId)
+    {
+        /* check whether seq param set changes, force re-activation of
+         * param set if it does. Set activeSpsId to invalid value to
+         * accomplish this */
+        if (pPicParamSet->seqParameterSetId != pStorage->activeSpsId)
+        {
+            pStorage->activePpsId = MAX_NUM_PIC_PARAM_SETS + 1;
+        }
+        /* free memories allocated for old param set */
+        FREE(pStorage->pps[id]->runLength);
+        FREE(pStorage->pps[id]->topLeft);
+        FREE(pStorage->pps[id]->bottomRight);
+        FREE(pStorage->pps[id]->sliceGroupId);
+    }
+    /* overwrite pic param set other than active one -> free memories
+     * allocated for old param set */
+    else
+    {
+        FREE(pStorage->pps[id]->runLength);
+        FREE(pStorage->pps[id]->topLeft);
+        FREE(pStorage->pps[id]->bottomRight);
+        FREE(pStorage->pps[id]->sliceGroupId);
+    }
+
+    *pStorage->pps[id] = *pPicParamSet;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdActivateParamSets
+
+        Functional description:
+            Activate certain SPS/PPS combination. This function shall be
+            called in the beginning of each picture. Picture parameter set
+            can be changed as wanted, but sequence parameter set may only be
+            changed when the starting picture is an IDR picture.
+
+            When new SPS is activated the function allocates memory for
+            macroblock storages and slice group map and (re-)initializes the
+            decoded picture buffer. If this is not the first activation the old
+            allocations are freed and FreeDpb called before new allocations.
+
+        Inputs:
+            pStorage        pointer to storage data structure
+            ppsId           identifies the PPS to be activated, SPS id obtained
+                            from the PPS
+            isIdr           flag to indicate if the picture is an IDR picture
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      non-existing or invalid param set combination,
+                            trying to change SPS with non-IDR picture
+            MEMORY_ALLOCATION_ERROR     failure in memory allocation
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdActivateParamSets(storage_t *pStorage, u32 ppsId, u32 isIdr)
+{
+
+/* Variables */
+
+    u32 tmp;
+    u32 flag;
+
+/* Code */
+
+    ASSERT(pStorage);
+    ASSERT(ppsId < MAX_NUM_PIC_PARAM_SETS);
+
+    /* check that pps and corresponding sps exist */
+    if ( (pStorage->pps[ppsId] == NULL) ||
+         (pStorage->sps[pStorage->pps[ppsId]->seqParameterSetId] == NULL) )
+    {
+        return(HANTRO_NOK);
+    }
+
+    /* check that pps parameters do not violate picture size constraints */
+    tmp = CheckPps(pStorage->pps[ppsId],
+                   pStorage->sps[pStorage->pps[ppsId]->seqParameterSetId]);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* first activation part1 */
+    if (pStorage->activePpsId == MAX_NUM_PIC_PARAM_SETS)
+    {
+        pStorage->activePpsId = ppsId;
+        pStorage->activePps = pStorage->pps[ppsId];
+        pStorage->activeSpsId = pStorage->activePps->seqParameterSetId;
+        pStorage->activeSps = pStorage->sps[pStorage->activeSpsId];
+        pStorage->picSizeInMbs =
+            pStorage->activeSps->picWidthInMbs *
+            pStorage->activeSps->picHeightInMbs;
+
+        pStorage->currImage->width = pStorage->activeSps->picWidthInMbs;
+        pStorage->currImage->height = pStorage->activeSps->picHeightInMbs;
+
+        pStorage->pendingActivation = HANTRO_TRUE;
+    }
+    /* first activation part2 */
+    else if (pStorage->pendingActivation)
+    {
+        pStorage->pendingActivation = HANTRO_FALSE;
+
+        FREE(pStorage->mb);
+        FREE(pStorage->sliceGroupMap);
+
+        ALLOCATE(pStorage->mb, pStorage->picSizeInMbs, mbStorage_t);
+        ALLOCATE(pStorage->sliceGroupMap, pStorage->picSizeInMbs, u32);
+        if (pStorage->mb == NULL || pStorage->sliceGroupMap == NULL)
+            return(MEMORY_ALLOCATION_ERROR);
+
+        memset(pStorage->mb, 0,
+            pStorage->picSizeInMbs * sizeof(mbStorage_t));
+
+        h264bsdInitMbNeighbours(pStorage->mb,
+            pStorage->activeSps->picWidthInMbs,
+            pStorage->picSizeInMbs);
+
+        /* dpb output reordering disabled if
+         * 1) application set noReordering flag
+         * 2) POC type equal to 2
+         * 3) num_reorder_frames in vui equal to 0 */
+        if ( pStorage->noReordering ||
+             pStorage->activeSps->picOrderCntType == 2 ||
+             (pStorage->activeSps->vuiParametersPresentFlag &&
+              pStorage->activeSps->vuiParameters->bitstreamRestrictionFlag &&
+              !pStorage->activeSps->vuiParameters->numReorderFrames) )
+            flag = HANTRO_TRUE;
+        else
+            flag = HANTRO_FALSE;
+
+        tmp = h264bsdResetDpb(pStorage->dpb,
+            pStorage->activeSps->picWidthInMbs *
+            pStorage->activeSps->picHeightInMbs,
+            pStorage->activeSps->maxDpbSize,
+            pStorage->activeSps->numRefFrames,
+            pStorage->activeSps->maxFrameNum,
+            flag);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+    else if (ppsId != pStorage->activePpsId)
+    {
+        /* sequence parameter set shall not change but before an IDR picture */
+        if (pStorage->pps[ppsId]->seqParameterSetId != pStorage->activeSpsId)
+        {
+            DEBUG(("SEQ PARAM SET CHANGING...\n"));
+            if (isIdr)
+            {
+                pStorage->activePpsId = ppsId;
+                pStorage->activePps = pStorage->pps[ppsId];
+                pStorage->activeSpsId = pStorage->activePps->seqParameterSetId;
+                pStorage->activeSps = pStorage->sps[pStorage->activeSpsId];
+                pStorage->picSizeInMbs =
+                    pStorage->activeSps->picWidthInMbs *
+                    pStorage->activeSps->picHeightInMbs;
+
+                pStorage->currImage->width = pStorage->activeSps->picWidthInMbs;
+                pStorage->currImage->height =
+                    pStorage->activeSps->picHeightInMbs;
+
+                pStorage->pendingActivation = HANTRO_TRUE;
+            }
+            else
+            {
+                DEBUG(("TRYING TO CHANGE SPS IN NON-IDR SLICE\n"));
+                return(HANTRO_NOK);
+            }
+        }
+        else
+        {
+            pStorage->activePpsId = ppsId;
+            pStorage->activePps = pStorage->pps[ppsId];
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdResetStorage
+
+        Functional description:
+            Reset contents of the storage. This should be called before
+            processing of new image is started.
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            none
+
+        Returns:
+            none
+
+
+------------------------------------------------------------------------------*/
+
+void h264bsdResetStorage(storage_t *pStorage)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    pStorage->slice->numDecodedMbs = 0;
+    pStorage->slice->sliceId = 0;
+
+    for (i = 0; i < pStorage->picSizeInMbs; i++)
+    {
+        pStorage->mb[i].sliceId = 0;
+        pStorage->mb[i].decoded = 0;
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIsStartOfPicture
+
+        Functional description:
+            Determine if the decoder is in the start of a picture. This
+            information is needed to decide if h264bsdActivateParamSets and
+            h264bsdCheckGapsInFrameNum functions should be called. Function
+            considers that new picture is starting if no slice headers
+            have been successfully decoded for the current access unit.
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_TRUE        new picture is starting
+            HANTRO_FALSE       not starting
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIsStartOfPicture(storage_t *pStorage)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    if (pStorage->validSliceInAccessUnit == HANTRO_FALSE)
+        return(HANTRO_TRUE);
+    else
+        return(HANTRO_FALSE);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIsEndOfPicture
+
+        Functional description:
+            Determine if the decoder is in the end of a picture. This
+            information is needed to determine when deblocking filtering
+            and reference picture marking processes should be performed.
+
+            If the decoder is processing primary slices the return value
+            is determined by checking the value of numDecodedMbs in the
+            storage. On the other hand, if the decoder is processing
+            redundant slices the numDecodedMbs may not contain valid
+            informationa and each macroblock has to be checked separately.
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_TRUE        end of picture
+            HANTRO_FALSE       noup
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIsEndOfPicture(storage_t *pStorage)
+{
+
+/* Variables */
+
+    u32 i, tmp;
+
+/* Code */
+
+    /* primary picture */
+    if (!pStorage->sliceHeader[0].redundantPicCnt)
+    {
+        if (pStorage->slice->numDecodedMbs == pStorage->picSizeInMbs)
+            return(HANTRO_TRUE);
+    }
+    else
+    {
+        for (i = 0, tmp = 0; i < pStorage->picSizeInMbs; i++)
+            tmp += pStorage->mb[i].decoded ? 1 : 0;
+
+        if (tmp == pStorage->picSizeInMbs)
+            return(HANTRO_TRUE);
+    }
+
+    return(HANTRO_FALSE);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdComputeSliceGroupMap
+
+        Functional description:
+            Compute slice group map. Just call h264bsdDecodeSliceGroupMap with
+            appropriate parameters.
+
+        Inputs:
+            pStorage                pointer to storage structure
+            sliceGroupChangeCycle
+
+        Outputs:
+            none
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+
+void h264bsdComputeSliceGroupMap(storage_t *pStorage, u32 sliceGroupChangeCycle)
+{
+
+/* Variables */
+
+
+/* Code */
+
+    h264bsdDecodeSliceGroupMap(pStorage->sliceGroupMap,
+                        pStorage->activePps, sliceGroupChangeCycle,
+                        pStorage->activeSps->picWidthInMbs,
+                        pStorage->activeSps->picHeightInMbs);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdCheckAccessUnitBoundary
+
+        Functional description:
+            Check if next NAL unit starts a new access unit. Following
+            conditions specify start of a new access unit:
+
+                -NAL unit types 6-11, 13-18 (e.g. SPS, PPS)
+
+           following conditions checked only for slice NAL units, values
+           compared to ones obtained from previous slice:
+
+                -NAL unit type differs (slice / IDR slice)
+                -frame_num differs
+                -nal_ref_idc differs and one of the values is 0
+                -POC information differs
+                -both are IDR slices and idr_pic_id differs
+
+        Inputs:
+            strm        pointer to stream data structure
+            nuNext      pointer to NAL unit structure
+            storage     pointer to storage structure
+
+        Outputs:
+            accessUnitBoundaryFlag  the result is stored here, TRUE for
+                                    access unit boundary, FALSE otherwise
+
+        Returns:
+            HANTRO_OK           success
+            HANTRO_NOK          failure, invalid stream data
+            PARAM_SET_ERROR     invalid param set usage
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdCheckAccessUnitBoundary(
+  strmData_t *strm,
+  nalUnit_t *nuNext,
+  storage_t *storage,
+  u32 *accessUnitBoundaryFlag)
+{
+
+/* Variables */
+
+    u32 tmp, ppsId, frameNum, idrPicId, picOrderCntLsb;
+    i32 deltaPicOrderCntBottom, deltaPicOrderCnt[2];
+    seqParamSet_t *sps;
+    picParamSet_t *pps;
+
+/* Code */
+
+    ASSERT(strm);
+    ASSERT(nuNext);
+    ASSERT(storage);
+    ASSERT(storage->sps);
+    ASSERT(storage->pps);
+
+    /* initialize default output to FALSE */
+    *accessUnitBoundaryFlag = HANTRO_FALSE;
+
+    if ( ( (nuNext->nalUnitType > 5) && (nuNext->nalUnitType < 12) ) ||
+         ( (nuNext->nalUnitType > 12) && (nuNext->nalUnitType <= 18) ) )
+    {
+        *accessUnitBoundaryFlag = HANTRO_TRUE;
+        return(HANTRO_OK);
+    }
+    else if ( nuNext->nalUnitType != NAL_CODED_SLICE &&
+              nuNext->nalUnitType != NAL_CODED_SLICE_IDR )
+    {
+        return(HANTRO_OK);
+    }
+
+    /* check if this is the very first call to this function */
+    if (storage->aub->firstCallFlag)
+    {
+        *accessUnitBoundaryFlag = HANTRO_TRUE;
+        storage->aub->firstCallFlag = HANTRO_FALSE;
+    }
+
+    /* get picture parameter set id */
+    tmp = h264bsdCheckPpsId(strm, &ppsId);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+
+    /* store sps and pps in separate pointers just to make names shorter */
+    pps = storage->pps[ppsId];
+    if ( pps == NULL || storage->sps[pps->seqParameterSetId] == NULL  ||
+         (storage->activeSpsId != MAX_NUM_SEQ_PARAM_SETS &&
+          pps->seqParameterSetId != storage->activeSpsId &&
+          nuNext->nalUnitType != NAL_CODED_SLICE_IDR) )
+        return(PARAM_SET_ERROR);
+    sps = storage->sps[pps->seqParameterSetId];
+
+    if (storage->aub->nuPrev->nalRefIdc != nuNext->nalRefIdc &&
+      (storage->aub->nuPrev->nalRefIdc == 0 || nuNext->nalRefIdc == 0))
+        *accessUnitBoundaryFlag = HANTRO_TRUE;
+
+    if ((storage->aub->nuPrev->nalUnitType == NAL_CODED_SLICE_IDR &&
+          nuNext->nalUnitType != NAL_CODED_SLICE_IDR) ||
+      (storage->aub->nuPrev->nalUnitType != NAL_CODED_SLICE_IDR &&
+       nuNext->nalUnitType == NAL_CODED_SLICE_IDR))
+        *accessUnitBoundaryFlag = HANTRO_TRUE;
+
+    tmp = h264bsdCheckFrameNum(strm, sps->maxFrameNum, &frameNum);
+    if (tmp != HANTRO_OK)
+        return(HANTRO_NOK);
+
+    if (storage->aub->prevFrameNum != frameNum)
+    {
+        storage->aub->prevFrameNum = frameNum;
+        *accessUnitBoundaryFlag = HANTRO_TRUE;
+    }
+
+    if (nuNext->nalUnitType == NAL_CODED_SLICE_IDR)
+    {
+        tmp = h264bsdCheckIdrPicId(strm, sps->maxFrameNum, nuNext->nalUnitType,
+          &idrPicId);
+        if (tmp != HANTRO_OK)
+            return(HANTRO_NOK);
+
+        if (storage->aub->nuPrev->nalUnitType == NAL_CODED_SLICE_IDR &&
+          storage->aub->prevIdrPicId != idrPicId)
+            *accessUnitBoundaryFlag = HANTRO_TRUE;
+
+        storage->aub->prevIdrPicId = idrPicId;
+    }
+
+    if (sps->picOrderCntType == 0)
+    {
+        tmp = h264bsdCheckPicOrderCntLsb(strm, sps, nuNext->nalUnitType,
+          &picOrderCntLsb);
+        if (tmp != HANTRO_OK)
+            return(HANTRO_NOK);
+
+        if (storage->aub->prevPicOrderCntLsb != picOrderCntLsb)
+        {
+            storage->aub->prevPicOrderCntLsb = picOrderCntLsb;
+            *accessUnitBoundaryFlag = HANTRO_TRUE;
+        }
+
+        if (pps->picOrderPresentFlag)
+        {
+            tmp = h264bsdCheckDeltaPicOrderCntBottom(strm, sps,
+                nuNext->nalUnitType, &deltaPicOrderCntBottom);
+            if (tmp != HANTRO_OK)
+                return(tmp);
+
+            if (storage->aub->prevDeltaPicOrderCntBottom !=
+                deltaPicOrderCntBottom)
+            {
+                storage->aub->prevDeltaPicOrderCntBottom =
+                    deltaPicOrderCntBottom;
+                *accessUnitBoundaryFlag = HANTRO_TRUE;
+            }
+        }
+    }
+    else if (sps->picOrderCntType == 1 && !sps->deltaPicOrderAlwaysZeroFlag)
+    {
+        tmp = h264bsdCheckDeltaPicOrderCnt(strm, sps, nuNext->nalUnitType,
+          pps->picOrderPresentFlag, deltaPicOrderCnt);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        if (storage->aub->prevDeltaPicOrderCnt[0] != deltaPicOrderCnt[0])
+        {
+            storage->aub->prevDeltaPicOrderCnt[0] = deltaPicOrderCnt[0];
+            *accessUnitBoundaryFlag = HANTRO_TRUE;
+        }
+
+        if (pps->picOrderPresentFlag)
+            if (storage->aub->prevDeltaPicOrderCnt[1] != deltaPicOrderCnt[1])
+            {
+                storage->aub->prevDeltaPicOrderCnt[1] = deltaPicOrderCnt[1];
+                *accessUnitBoundaryFlag = HANTRO_TRUE;
+            }
+    }
+
+    *storage->aub->nuPrev = *nuNext;
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: CheckPps
+
+        Functional description:
+            Check picture parameter set. Contents of the picture parameter
+            set information that depends on the image dimensions is checked
+            against the dimensions in the sps.
+
+        Inputs:
+            pps     pointer to picture paramter set
+            sps     pointer to sequence parameter set
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_OK      everything ok
+            HANTRO_NOK     invalid data in picture parameter set
+
+------------------------------------------------------------------------------*/
+u32 CheckPps(picParamSet_t *pps, seqParamSet_t *sps)
+{
+
+    u32 i;
+    u32 picSize;
+
+    picSize = sps->picWidthInMbs * sps->picHeightInMbs;
+
+    /* check slice group params */
+    if (pps->numSliceGroups > 1)
+    {
+        if (pps->sliceGroupMapType == 0)
+        {
+            ASSERT(pps->runLength);
+            for (i = 0; i < pps->numSliceGroups; i++)
+            {
+                if (pps->runLength[i] > picSize)
+                    return(HANTRO_NOK);
+            }
+        }
+        else if (pps->sliceGroupMapType == 2)
+        {
+            ASSERT(pps->topLeft);
+            ASSERT(pps->bottomRight);
+            for (i = 0; i < pps->numSliceGroups-1; i++)
+            {
+                if (pps->topLeft[i] > pps->bottomRight[i] ||
+                    pps->bottomRight[i] >= picSize)
+                    return(HANTRO_NOK);
+
+                if ( (pps->topLeft[i] % sps->picWidthInMbs) >
+                     (pps->bottomRight[i] % sps->picWidthInMbs) )
+                    return(HANTRO_NOK);
+            }
+        }
+        else if (pps->sliceGroupMapType > 2 && pps->sliceGroupMapType < 6)
+        {
+            if (pps->sliceGroupChangeRate > picSize)
+                return(HANTRO_NOK);
+        }
+        else if (pps->sliceGroupMapType == 6 &&
+                 pps->picSizeInMapUnits < picSize)
+            return(HANTRO_NOK);
+    }
+
+    return(HANTRO_OK);
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdValidParamSets
+
+        Functional description:
+            Check if any valid SPS/PPS combination exists in the storage.
+            Function tries each PPS in the buffer and checks if corresponding
+            SPS exists and calls CheckPps to determine if the PPS conforms
+            to image dimensions of the SPS.
+
+        Inputs:
+            pStorage    pointer to storage structure
+
+        Outputs:
+            HANTRO_OK   there is at least one valid combination
+            HANTRO_NOK  no valid combinations found
+
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdValidParamSets(storage_t *pStorage)
+{
+
+/* Variables */
+
+    u32 i;
+
+/* Code */
+
+    ASSERT(pStorage);
+
+    for (i = 0; i < MAX_NUM_PIC_PARAM_SETS; i++)
+    {
+        if ( pStorage->pps[i] &&
+             pStorage->sps[pStorage->pps[i]->seqParameterSetId] &&
+             CheckPps(pStorage->pps[i],
+                      pStorage->sps[pStorage->pps[i]->seqParameterSetId]) ==
+                 HANTRO_OK)
+        {
+            return(HANTRO_OK);
+        }
+    }
+
+    return(HANTRO_NOK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_storage.h
@@ -1,0 +1,175 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_STORAGE_H
+#define H264SWDEC_STORAGE_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_cfg.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_pic_param_set.h"
+#include "h264bsd_macroblock_layer.h"
+#include "h264bsd_nal_unit.h"
+#include "h264bsd_slice_header.h"
+#include "h264bsd_seq_param_set.h"
+#include "h264bsd_dpb.h"
+#include "h264bsd_pic_order_cnt.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    u32 sliceId;
+    u32 numDecodedMbs;
+    u32 lastMbAddr;
+} sliceStorage_t;
+
+/* structure to store parameters needed for access unit boundary checking */
+typedef struct
+{
+    nalUnit_t nuPrev[1];
+    u32 prevFrameNum;
+    u32 prevIdrPicId;
+    u32 prevPicOrderCntLsb;
+    i32 prevDeltaPicOrderCntBottom;
+    i32 prevDeltaPicOrderCnt[2];
+    u32 firstCallFlag;
+} aubCheck_t;
+
+/* storage data structure, holds all data of a decoder instance */
+typedef struct storage
+{
+    /* active paramet set ids and pointers */
+    u32 oldSpsId;
+    u32 activePpsId;
+    u32 activeSpsId;
+    picParamSet_t *activePps;
+    seqParamSet_t *activeSps;
+    seqParamSet_t *sps[MAX_NUM_SEQ_PARAM_SETS];
+    picParamSet_t *pps[MAX_NUM_PIC_PARAM_SETS];
+
+    /* current slice group map, recomputed for each slice */
+    u32 *sliceGroupMap;
+
+    u32 picSizeInMbs;
+
+    /* this flag is set after all macroblocks of a picture successfully
+     * decoded -> redundant slices not decoded */
+    u32 skipRedundantSlices;
+    u32 picStarted;
+
+    /* flag to indicate if current access unit contains any valid slices */
+    u32 validSliceInAccessUnit;
+
+    /* store information needed for handling of slice decoding */
+    sliceStorage_t slice[1];
+
+    /* number of concealed macroblocks in the current image */
+    u32 numConcealedMbs;
+
+    /* picId given by application */
+    u32 currentPicId;
+
+    /* macroblock specific storages, size determined by image dimensions */
+    mbStorage_t *mb;
+
+    /* flag to store noOutputReordering flag set by the application */
+    u32 noReordering;
+
+    /* DPB */
+    dpbStorage_t dpb[1];
+
+    /* structure to store picture order count related information */
+    pocStorage_t poc[1];
+
+    /* access unit boundary checking related data */
+    aubCheck_t aub[1];
+
+    /* current processed image */
+    image_t currImage[1];
+
+    /* last valid NAL unit header is stored here */
+    nalUnit_t prevNalUnit[1];
+
+    /* slice header, second structure used as a temporary storage while
+     * decoding slice header, first one stores last successfully decoded
+     * slice header */
+    sliceHeader_t sliceHeader[2];
+
+    /* fields to store old stream buffer pointers, needed when only part of
+     * a stream buffer is processed by h264bsdDecode function */
+    u32 prevBufNotFinished;
+    u8 *prevBufPointer;
+    u32 prevBytesConsumed;
+    strmData_t strm[1];
+
+    /* macroblock layer structure, there is no need to store this but it
+     * would have increased the stack size excessively and needed to be
+     * allocated from head -> easiest to put it here */
+    macroblockLayer_t *mbLayer;
+
+    u32 pendingActivation; /* Activate parameter sets after returning
+                              HEADERS_RDY to the user */
+    u32 intraConcealmentFlag; /* 0 gray picture for corrupted intra
+                                 1 previous frame used if available */
+} storage_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+void h264bsdInitStorage(storage_t *pStorage);
+void h264bsdResetStorage(storage_t *pStorage);
+u32 h264bsdIsStartOfPicture(storage_t *pStorage);
+u32 h264bsdIsEndOfPicture(storage_t *pStorage);
+u32 h264bsdStoreSeqParamSet(storage_t *pStorage, seqParamSet_t *pSeqParamSet);
+u32 h264bsdStorePicParamSet(storage_t *pStorage, picParamSet_t *pPicParamSet);
+u32 h264bsdActivateParamSets(storage_t *pStorage, u32 ppsId, u32 isIdr);
+void h264bsdComputeSliceGroupMap(storage_t *pStorage,
+    u32 sliceGroupChangeCycle);
+
+u32 h264bsdCheckAccessUnitBoundary(
+  strmData_t *strm,
+  nalUnit_t *nuNext,
+  storage_t *storage,
+  u32 *accessUnitBoundaryFlag);
+
+u32 h264bsdValidParamSets(storage_t *pStorage);
+
+#endif /* #ifdef H264SWDEC_STORAGE_H */
+
--- /dev/null
+++ b/src/h264bsd_stream.c
@@ -1,0 +1,243 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdGetBits
+          h264bsdShowBits32
+          h264bsdFlushBits
+          h264bsdIsByteAligned
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_util.h"
+#include "h264bsd_stream.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdGetBits
+
+        Functional description:
+            Read and remove bits from the stream buffer.
+
+        Input:
+            pStrmData   pointer to stream data structure
+            numBits     number of bits to read
+
+        Output:
+            none
+
+        Returns:
+            bits read from stream
+            END_OF_STREAM if not enough bits left
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdGetBits(strmData_t *pStrmData, u32 numBits)
+{
+
+    u32 out;
+
+    ASSERT(pStrmData);
+    ASSERT(numBits < 32);
+
+    out = h264bsdShowBits32(pStrmData) >> (32 - numBits);
+
+    if (h264bsdFlushBits(pStrmData, numBits) == HANTRO_OK)
+    {
+        return(out);
+    }
+    else
+    {
+        return(END_OF_STREAM);
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdShowBits32
+
+        Functional description:
+            Read 32 bits from the stream buffer. Buffer is left as it is, i.e.
+            no bits are removed. First bit read from the stream is the MSB of
+            the return value. If there is not enough bits in the buffer ->
+            bits beyong the end of the stream are set to '0' in the return
+            value.
+
+        Input:
+            pStrmData   pointer to stream data structure
+
+        Output:
+            none
+
+        Returns:
+            bits read from stream
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdShowBits32(strmData_t *pStrmData)
+{
+
+    i32 bits, shift;
+    u32 out;
+    u8 *pStrm;
+
+    ASSERT(pStrmData);
+    ASSERT(pStrmData->pStrmCurrPos);
+    ASSERT(pStrmData->bitPosInWord < 8);
+    ASSERT(pStrmData->bitPosInWord ==
+           (pStrmData->strmBuffReadBits & 0x7));
+
+    pStrm = pStrmData->pStrmCurrPos;
+
+    /* number of bits left in the buffer */
+    bits = (i32)pStrmData->strmBuffSize*8 - (i32)pStrmData->strmBuffReadBits;
+
+    /* at least 32-bits in the buffer */
+    if (bits >= 32)
+    {
+        u32 bitPosInWord = pStrmData->bitPosInWord;
+        out = ((u32)pStrm[0] << 24) | ((u32)pStrm[1] << 16) |
+              ((u32)pStrm[2] <<  8) | ((u32)pStrm[3]);
+
+        if (bitPosInWord)
+        {
+            u32 byte = (u32)pStrm[4];
+            u32 tmp = (8-bitPosInWord);
+            out <<= bitPosInWord;
+            out |= byte>>tmp;
+        }
+        return (out);
+    }
+    /* at least one bit in the buffer */
+    else if (bits > 0)
+    {
+        shift = (i32)(24 + pStrmData->bitPosInWord);
+        out = (u32)(*pStrm++) << shift;
+        bits -= (i32)(8 - pStrmData->bitPosInWord);
+        while (bits > 0)
+        {
+            shift -= 8;
+            out |= (u32)(*pStrm++) << shift;
+            bits -= 8;
+        }
+        return (out);
+    }
+    else
+        return (0);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdFlushBits
+
+        Functional description:
+            Remove bits from the stream buffer
+
+        Input:
+            pStrmData       pointer to stream data structure
+            numBits         number of bits to remove
+
+        Output:
+            none
+
+        Returns:
+            HANTRO_OK       success
+            END_OF_STREAM   not enough bits left
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_NEON
+u32 h264bsdFlushBits(strmData_t *pStrmData, u32 numBits)
+{
+
+    ASSERT(pStrmData);
+    ASSERT(pStrmData->pStrmBuffStart);
+    ASSERT(pStrmData->pStrmCurrPos);
+    ASSERT(pStrmData->bitPosInWord < 8);
+    ASSERT(pStrmData->bitPosInWord == (pStrmData->strmBuffReadBits & 0x7));
+
+    pStrmData->strmBuffReadBits += numBits;
+    pStrmData->bitPosInWord = pStrmData->strmBuffReadBits & 0x7;
+    if ( (pStrmData->strmBuffReadBits ) <= (8*pStrmData->strmBuffSize) )
+    {
+        pStrmData->pStrmCurrPos = pStrmData->pStrmBuffStart +
+            (pStrmData->strmBuffReadBits >> 3);
+        return(HANTRO_OK);
+    }
+    else
+        return(END_OF_STREAM);
+
+}
+#endif
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdIsByteAligned
+
+        Functional description:
+            Check if current stream position is byte aligned.
+
+        Inputs:
+            pStrmData   pointer to stream data structure
+
+        Outputs:
+            none
+
+        Returns:
+            TRUE        stream is byte aligned
+            FALSE       stream is not byte aligned
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdIsByteAligned(strmData_t *pStrmData)
+{
+
+/* Variables */
+
+/* Code */
+
+    if (!pStrmData->bitPosInWord)
+        return(HANTRO_TRUE);
+    else
+        return(HANTRO_FALSE);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_stream.h
@@ -1,0 +1,68 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_STREAM_H
+#define H264SWDEC_STREAM_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+typedef struct
+{
+    u8  *pStrmBuffStart;    /* pointer to start of stream buffer */
+    u8  *pStrmCurrPos;      /* current read address in stream buffer */
+    u32  bitPosInWord;      /* bit position in stream buffer byte */
+    u32  strmBuffSize;      /* size of stream buffer (bytes) */
+    u32  strmBuffReadBits;  /* number of bits read from stream buffer */
+} strmData_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdGetBits(strmData_t *pStrmData, u32 numBits);
+
+u32 h264bsdShowBits32(strmData_t *pStrmData);
+
+u32 h264bsdFlushBits(strmData_t *pStrmData, u32 numBits);
+
+u32 h264bsdIsByteAligned(strmData_t *);
+
+#endif /* #ifdef H264SWDEC_STREAM_H */
+
--- /dev/null
+++ b/src/h264bsd_transform.c
@@ -1,0 +1,405 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+
+
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdProcessBlock
+          h264bsdProcessLumaDc
+          h264bsdProcessChromaDc
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_transform.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* Switch off the following Lint messages for this file:
+ * Info 701: Shift left of signed quantity (int)
+ * Info 702: Shift right of signed quantity (int)
+ */
+/*lint -e701 -e702 */
+
+/* LevelScale function */
+static const i32 levelScale[6][3] = {
+    {10,13,16}, {11,14,18}, {13,16,20}, {14,18,23}, {16,20,25}, {18,23,29}};
+
+/* qp % 6 as a function of qp */
+static const u8 qpMod6[52] = {0,1,2,3,4,5,0,1,2,3,4,5,0,1,2,3,4,5,0,1,2,3,4,5,
+    0,1,2,3,4,5,0,1,2,3,4,5,0,1,2,3,4,5,0,1,2,3,4,5,0,1,2,3};
+
+/* qp / 6 as a function of qp */
+static const u8 qpDiv6[52] = {0,0,0,0,0,0,1,1,1,1,1,1,2,2,2,2,2,2,3,3,3,3,3,3,
+    4,4,4,4,4,4,5,5,5,5,5,5,6,6,6,6,6,6,7,7,7,7,7,7,8,8,8,8};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdProcessBlock
+
+        Functional description:
+            Function performs inverse zig-zag scan, inverse scaling and
+            inverse transform for a luma or a chroma residual block
+
+        Inputs:
+            data            pointer to data to be processed
+            qp              quantization parameter
+            skip            skip processing of data[0], set to non-zero value
+                            if dc coeff hanled separately
+            coeffMap        16 lsb's indicate which coeffs are non-zero,
+                            bit 0 (lsb) for coeff 0, bit 1 for coeff 1 etc.
+
+        Outputs:
+            data            processed data
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      processed data not in valid range [-512, 511]
+
+------------------------------------------------------------------------------*/
+u32 h264bsdProcessBlock(i32 *data, u32 qp, u32 skip, u32 coeffMap)
+{
+
+/* Variables */
+
+    i32 tmp0, tmp1, tmp2, tmp3;
+    i32 d1, d2, d3;
+    u32 row,col;
+    u32 qpDiv;
+    i32 *ptr;
+
+/* Code */
+
+    qpDiv = qpDiv6[qp];
+    tmp1 = levelScale[qpMod6[qp]][0] << qpDiv;
+    tmp2 = levelScale[qpMod6[qp]][1] << qpDiv;
+    tmp3 = levelScale[qpMod6[qp]][2] << qpDiv;
+
+    if (!skip)
+        data[0] = (data[0] * tmp1);
+
+    /* at least one of the rows 1, 2 or 3 contain non-zero coeffs, mask takes
+     * the scanning order into account */
+    if (coeffMap & 0xFF9C)
+    {
+        /* do the zig-zag scan and inverse quantization */
+        d1 = data[1];
+        d2 = data[14];
+        d3 = data[15];
+        data[1] = (d1 * tmp2);
+        data[14] = (d2 * tmp2);
+        data[15] = (d3 * tmp3);
+
+        d1 = data[2];
+        d2 = data[5];
+        d3 = data[4];
+        data[4] = (d1 * tmp2);
+        data[2]  = (d2 * tmp1);
+        data[5] = (d3 * tmp3);
+
+        d1 = data[8];
+        d2 = data[3];
+        d3 = data[6];
+        tmp0 = (d1 * tmp2);
+        data[8] = (d2 * tmp1);
+        data[3]  = (d3 * tmp2);
+        d1 = data[7];
+        d2 = data[12];
+        d3 = data[9];
+        data[6]  = (d1 * tmp2);
+        data[7]  = (d2 * tmp3);
+        data[12] = (d3 * tmp2);
+        data[9]  = tmp0;
+
+        d1 = data[10];
+        d2 = data[11];
+        d3 = data[13];
+        data[13] = (d1 * tmp3);
+        data[10] = (d2 * tmp1);
+        data[11] = (d3 * tmp2);
+
+        /* horizontal transform */
+        for (row = 4, ptr = data; row--; ptr += 4)
+        {
+            tmp0 = ptr[0] + ptr[2];
+            tmp1 = ptr[0] - ptr[2];
+            tmp2 = (ptr[1] >> 1) - ptr[3];
+            tmp3 = ptr[1] + (ptr[3] >> 1);
+            ptr[0] = tmp0 + tmp3;
+            ptr[1] = tmp1 + tmp2;
+            ptr[2] = tmp1 - tmp2;
+            ptr[3] = tmp0 - tmp3;
+        }
+
+        /*lint +e661 +e662*/
+        /* then vertical transform */
+        for (col = 4; col--; data++)
+        {
+            tmp0 = data[0] + data[8];
+            tmp1 = data[0] - data[8];
+            tmp2 = (data[4] >> 1) - data[12];
+            tmp3 = data[4] + (data[12] >> 1);
+            data[0 ] = (tmp0 + tmp3 + 32)>>6;
+            data[4 ] = (tmp1 + tmp2 + 32)>>6;
+            data[8 ] = (tmp1 - tmp2 + 32)>>6;
+            data[12] = (tmp0 - tmp3 + 32)>>6;
+            /* check that each value is in the range [-512,511] */
+            if (((u32)(data[0] + 512) > 1023) ||
+                ((u32)(data[4] + 512) > 1023) ||
+                ((u32)(data[8] + 512) > 1023) ||
+                ((u32)(data[12] + 512) > 1023) )
+                return(HANTRO_NOK);
+        }
+    }
+    else /* rows 1, 2 and 3 are zero */
+    {
+        /* only dc-coeff is non-zero, i.e. coeffs at original positions
+         * 1, 5 and 6 are zero */
+        if ((coeffMap & 0x62) == 0)
+        {
+            tmp0 = (data[0] + 32) >> 6;
+            /* check that value is in the range [-512,511] */
+            if ((u32)(tmp0 + 512) > 1023)
+                return(HANTRO_NOK);
+            data[0] = data[1]  = data[2]  = data[3]  = data[4]  = data[5]  =
+                      data[6]  = data[7]  = data[8]  = data[9]  = data[10] =
+                      data[11] = data[12] = data[13] = data[14] = data[15] =
+                      tmp0;
+        }
+        else /* at least one of the coeffs 1, 5 or 6 is non-zero */
+        {
+            data[1] = (data[1] * tmp2);
+            data[2] = (data[5] * tmp1);
+            data[3] = (data[6] * tmp2);
+            tmp0 = data[0] + data[2];
+            tmp1 = data[0] - data[2];
+            tmp2 = (data[1] >> 1) - data[3];
+            tmp3 = data[1] + (data[3] >> 1);
+            data[0] = (tmp0 + tmp3 + 32)>>6;
+            data[1] = (tmp1 + tmp2 + 32)>>6;
+            data[2] = (tmp1 - tmp2 + 32)>>6;
+            data[3] = (tmp0 - tmp3 + 32)>>6;
+            data[4] = data[8] = data[12] = data[0];
+            data[5] = data[9] = data[13] = data[1];
+            data[6] = data[10] = data[14] = data[2];
+            data[7] = data[11] = data[15] = data[3];
+            /* check that each value is in the range [-512,511] */
+            if (((u32)(data[0] + 512) > 1023) ||
+                ((u32)(data[1] + 512) > 1023) ||
+                ((u32)(data[2] + 512) > 1023) ||
+                ((u32)(data[3] + 512) > 1023) )
+                return(HANTRO_NOK);
+        }
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdProcessLumaDc
+
+        Functional description:
+            Function performs inverse zig-zag scan, inverse transform and
+            inverse scaling for a luma DC coefficients block
+
+        Inputs:
+            data            pointer to data to be processed
+            qp              quantization parameter
+
+        Outputs:
+            data            processed data
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+void h264bsdProcessLumaDc(i32 *data, u32 qp)
+{
+
+/* Variables */
+
+    i32 tmp0, tmp1, tmp2, tmp3;
+    u32 row,col;
+    u32 qpMod, qpDiv;
+    i32 levScale;
+    i32 *ptr;
+
+/* Code */
+
+    qpMod = qpMod6[qp];
+    qpDiv = qpDiv6[qp];
+
+    /* zig-zag scan */
+    tmp0 = data[2];
+    data[2]  = data[5];
+    data[5] = data[4];
+    data[4] = tmp0;
+
+    tmp0 = data[8];
+    data[8] = data[3];
+    data[3]  = data[6];
+    data[6]  = data[7];
+    data[7]  = data[12];
+    data[12] = data[9];
+    data[9]  = tmp0;
+
+    tmp0 = data[10];
+    data[10] = data[11];
+    data[11] = data[13];
+    data[13] = tmp0;
+
+    /* horizontal transform */
+    for (row = 4, ptr = data; row--; ptr += 4)
+    {
+        tmp0 = ptr[0] + ptr[2];
+        tmp1 = ptr[0] - ptr[2];
+        tmp2 = ptr[1] - ptr[3];
+        tmp3 = ptr[1] + ptr[3];
+        ptr[0] = tmp0 + tmp3;
+        ptr[1] = tmp1 + tmp2;
+        ptr[2] = tmp1 - tmp2;
+        ptr[3] = tmp0 - tmp3;
+    }
+
+    /*lint +e661 +e662*/
+    /* then vertical transform and inverse scaling */
+    levScale = levelScale[ qpMod ][0];
+    if (qp >= 12)
+    {
+        levScale <<= (qpDiv-2);
+        for (col = 4; col--; data++)
+        {
+            tmp0 = data[0] + data[8 ];
+            tmp1 = data[0] - data[8 ];
+            tmp2 = data[4] - data[12];
+            tmp3 = data[4] + data[12];
+            data[0 ] = ((tmp0 + tmp3)*levScale);
+            data[4 ] = ((tmp1 + tmp2)*levScale);
+            data[8 ] = ((tmp1 - tmp2)*levScale);
+            data[12] = ((tmp0 - tmp3)*levScale);
+        }
+    }
+    else
+    {
+        i32 tmp;
+        tmp = ((1 - qpDiv) == 0) ? 1 : 2;
+        for (col = 4; col--; data++)
+        {
+            tmp0 = data[0] + data[8 ];
+            tmp1 = data[0] - data[8 ];
+            tmp2 = data[4] - data[12];
+            tmp3 = data[4] + data[12];
+            data[0 ] = ((tmp0 + tmp3)*levScale+tmp) >> (2-qpDiv);
+            data[4 ] = ((tmp1 + tmp2)*levScale+tmp) >> (2-qpDiv);
+            data[8 ] = ((tmp1 - tmp2)*levScale+tmp) >> (2-qpDiv);
+            data[12] = ((tmp0 - tmp3)*levScale+tmp) >> (2-qpDiv);
+        }
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdProcessChromaDc
+
+        Functional description:
+            Function performs inverse transform and inverse scaling for a
+            chroma DC coefficients block
+
+        Inputs:
+            data            pointer to data to be processed
+            qp              quantization parameter
+
+        Outputs:
+            data            processed data
+
+        Returns:
+            none
+
+------------------------------------------------------------------------------*/
+void h264bsdProcessChromaDc(i32 *data, u32 qp)
+{
+
+/* Variables */
+
+    i32 tmp0, tmp1, tmp2, tmp3;
+    u32 qpDiv;
+    i32 levScale;
+    u32 levShift;
+
+/* Code */
+
+    qpDiv = qpDiv6[qp];
+    levScale = levelScale[ qpMod6[qp] ][0];
+
+    if (qp >= 6)
+    {
+        levScale <<= (qpDiv-1);
+        levShift = 0;
+    }
+    else
+    {
+        levShift = 1;
+    }
+
+    tmp0 = data[0] + data[2];
+    tmp1 = data[0] - data[2];
+    tmp2 = data[1] - data[3];
+    tmp3 = data[1] + data[3];
+    data[0] = ((tmp0 + tmp3) * levScale) >> levShift;
+    data[1] = ((tmp0 - tmp3) * levScale) >> levShift;
+    data[2] = ((tmp1 + tmp2) * levScale) >> levShift;
+    data[3] = ((tmp1 - tmp2) * levScale) >> levShift;
+    tmp0 = data[4] + data[6];
+    tmp1 = data[4] - data[6];
+    tmp2 = data[5] - data[7];
+    tmp3 = data[5] + data[7];
+    data[4] = ((tmp0 + tmp3) * levScale) >> levShift;
+    data[5] = ((tmp0 - tmp3) * levScale) >> levShift;
+    data[6] = ((tmp1 + tmp2) * levScale) >> levShift;
+    data[7] = ((tmp1 - tmp2) * levScale) >> levShift;
+
+}
+
+/*lint +e701 +e702 */
+
+
--- /dev/null
+++ b/src/h264bsd_transform.h
@@ -1,0 +1,55 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_TRANSFORM_H
+#define H264SWDEC_TRANSFORM_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdProcessBlock(i32 *data, u32 qp, u32 skip, u32 coeffMap);
+void h264bsdProcessLumaDc(i32 *data, u32 qp);
+void h264bsdProcessChromaDc(i32 *data, u32 qp);
+
+#endif /* #ifdef H264SWDEC_TRANSFORM_H */
+
--- /dev/null
+++ b/src/h264bsd_util.c
@@ -1,0 +1,285 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdCountLeadingZeros
+          h264bsdRbspTrailingBits
+          h264bsdMoreRbspData
+          h264bsdNextMbAddress
+          h264bsdSetCurrImageMbPointers
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* look-up table for expected values of stuffing bits */
+static const u32 stuffingTable[8] = {0x1,0x2,0x4,0x8,0x10,0x20,0x40,0x80};
+
+/* look-up table for chroma quantization parameter as a function of luma QP */
+const u32 h264bsdQpC[52] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,
+    20,21,22,23,24,25,26,27,28,29,29,30,31,32,32,33,34,34,35,35,36,36,37,37,37,
+    38,38,38,39,39,39,39};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+   5.1  Function: h264bsdCountLeadingZeros
+
+        Functional description:
+            Count leading zeros in a code word. Code word is assumed to be
+            right-aligned, last bit of the code word in the lsb of the value.
+
+        Inputs:
+            value   code word
+            length  number of bits in the code word
+
+        Outputs:
+            none
+
+        Returns:
+            number of leading zeros in the code word
+
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_NEON
+u32 h264bsdCountLeadingZeros(u32 value, u32 length)
+{
+
+/* Variables */
+
+    u32 zeros = 0;
+    u32 mask = 1 << (length - 1);
+
+/* Code */
+
+    ASSERT(length <= 32);
+
+    while (mask && !(value & mask))
+    {
+        zeros++;
+        mask >>= 1;
+    }
+    return(zeros);
+
+}
+#endif
+/*------------------------------------------------------------------------------
+
+   5.2  Function: h264bsdRbspTrailingBits
+
+        Functional description:
+            Check Raw Byte Stream Payload (RBSP) trailing bits, i.e. stuffing.
+            Rest of the current byte (whole byte if allready byte aligned)
+            in the stream buffer shall contain a '1' bit followed by zero or
+            more '0' bits.
+
+        Inputs:
+            pStrmData   pointer to stream data structure
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_OK      RBSP trailing bits found
+            HANTRO_NOK     otherwise
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdRbspTrailingBits(strmData_t *pStrmData)
+{
+
+/* Variables */
+
+    u32 stuffing;
+    u32 stuffingLength;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pStrmData->bitPosInWord < 8);
+
+    stuffingLength = 8 - pStrmData->bitPosInWord;
+
+    stuffing = h264bsdGetBits(pStrmData, stuffingLength);
+    if (stuffing == END_OF_STREAM)
+        return(HANTRO_NOK);
+
+    if (stuffing != stuffingTable[stuffingLength - 1])
+        return(HANTRO_NOK);
+    else
+        return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.3  Function: h264bsdMoreRbspData
+
+        Functional description:
+            Check if there is more data in the current RBSP. The standard
+            defines this function so that there is more data if
+                -more than 8 bits left or
+                -last bits are not RBSP trailing bits
+
+        Inputs:
+            pStrmData   pointer to stream data structure
+
+        Outputs:
+            none
+
+        Returns:
+            HANTRO_TRUE    there is more data
+            HANTRO_FALSE   no more data
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdMoreRbspData(strmData_t *pStrmData)
+{
+
+/* Variables */
+
+    u32 bits;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pStrmData->strmBuffReadBits <= 8 * pStrmData->strmBuffSize);
+
+    bits = pStrmData->strmBuffSize * 8 - pStrmData->strmBuffReadBits;
+
+    if (bits == 0)
+        return(HANTRO_FALSE);
+
+    if ( (bits > 8) ||
+         ((h264bsdShowBits32(pStrmData)>>(32-bits)) != (1 << (bits-1))) )
+        return(HANTRO_TRUE);
+    else
+        return(HANTRO_FALSE);
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.4  Function: h264bsdNextMbAddress
+
+        Functional description:
+            Get address of the next macroblock in the current slice group.
+
+        Inputs:
+            pSliceGroupMap      slice group for each macroblock
+            picSizeInMbs        size of the picture
+            currMbAddr          where to start
+
+        Outputs:
+            none
+
+        Returns:
+            address of the next macroblock
+            0   if none of the following macroblocks belong to same slice
+                group as currMbAddr
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdNextMbAddress(u32 *pSliceGroupMap, u32 picSizeInMbs, u32 currMbAddr)
+{
+
+/* Variables */
+
+    u32 i, sliceGroup, tmp;
+
+/* Code */
+
+    ASSERT(pSliceGroupMap);
+    ASSERT(picSizeInMbs);
+    ASSERT(currMbAddr < picSizeInMbs);
+
+    sliceGroup = pSliceGroupMap[currMbAddr];
+
+    i = currMbAddr + 1;
+    tmp = pSliceGroupMap[i];
+    while ((i < picSizeInMbs) && (tmp != sliceGroup))
+    {
+        i++;
+        tmp = pSliceGroupMap[i];
+    }
+
+    if (i == picSizeInMbs)
+        i = 0;
+
+    return(i);
+
+}
+
+
+/*------------------------------------------------------------------------------
+
+   5.5  Function: h264bsdSetCurrImageMbPointers
+
+        Functional description:
+            Set luma and chroma pointers in image_t for current MB
+
+        Inputs:
+            image       Current image
+            mbNum       number of current MB
+
+        Outputs:
+            none
+
+        Returns:
+            none
+------------------------------------------------------------------------------*/
+void h264bsdSetCurrImageMbPointers(image_t *image, u32 mbNum)
+{
+    u32 width, height;
+    u32 picSize;
+    u32 row, col;
+    u32 tmp;
+
+    width = image->width;
+    height = image->height;
+    row = mbNum / width;
+    col = mbNum % width;
+
+    tmp = row * width;
+    picSize = width * height;
+
+    image->luma = (u8*)(image->data + col * 16 + tmp * 256);
+    image->cb = (u8*)(image->data + picSize * 256 + tmp * 64 + col * 8);
+    image->cr = (u8*)(image->cb + picSize * 64);
+}
--- /dev/null
+++ b/src/h264bsd_util.h
@@ -1,0 +1,181 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_UTIL_H
+#define H264SWDEC_UTIL_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_cfg.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_image.h"
+
+#ifdef _ASSERT_USED
+#include <assert.h>
+#endif
+
+#if defined(_RANGE_CHECK) || defined(_DEBUG_PRINT) || defined(_ERROR_PRINT)
+#include <stdio.h>
+#endif
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+#define HANTRO_OK   0
+#define HANTRO_NOK  1
+
+#define HANTRO_TRUE     (1)
+#define HANTRO_FALSE    (0)
+
+#ifndef NULL
+#define NULL 0
+#endif
+
+#define MEMORY_ALLOCATION_ERROR 0xFFFF
+#define PARAM_SET_ERROR 0xFFF0
+
+/* value to be returned by GetBits if stream buffer is empty */
+#define END_OF_STREAM 0xFFFFFFFFU
+
+#define EMPTY_RESIDUAL_INDICATOR 0xFFFFFF
+
+/* macro to mark a residual block empty, i.e. contain zero coefficients */
+#define MARK_RESIDUAL_EMPTY(residual) ((residual)[0] = EMPTY_RESIDUAL_INDICATOR)
+/* macro to check if residual block is empty */
+#define IS_RESIDUAL_EMPTY(residual) ((residual)[0] == EMPTY_RESIDUAL_INDICATOR)
+
+/* macro for assertion, used only if compiler flag _ASSERT_USED is defined */
+#ifdef _ASSERT_USED
+#define ASSERT(expr) assert(expr)
+#else
+#define ASSERT(expr)
+#endif
+
+/* macro for range checking an value, used only if compiler flag _RANGE_CHECK
+ * is defined */
+#ifdef _RANGE_CHECK
+#define RANGE_CHECK(value, minBound, maxBound) \
+{ \
+    if ((value) < (minBound) || (value) > (maxBound)) \
+        fprintf(stderr, "Warning: Value exceeds given limit(s)!\n"); \
+}
+#else
+#define RANGE_CHECK(value, minBound, maxBound)
+#endif
+
+/* macro for range checking an array, used only if compiler flag _RANGE_CHECK
+ * is defined */
+#ifdef _RANGE_CHECK
+#define RANGE_CHECK_ARRAY(array, minBound, maxBound, length) \
+{ \
+    i32 i; \
+    for (i = 0; i < (length); i++) \
+        if ((array)[i] < (minBound) || (array)[i] > (maxBound)) \
+            fprintf(stderr,"Warning: Value [%d] exceeds given limit(s)!\n",i); \
+}
+#else
+#define RANGE_CHECK_ARRAY(array, minBound, maxBound, length)
+#endif
+
+/* macro for debug printing, used only if compiler flag _DEBUG_PRINT is
+ * defined */
+#ifdef _DEBUG_PRINT
+#define DEBUG(args) printf args
+#else
+#define DEBUG(args)
+#endif
+
+/* macro for error printing, used only if compiler flag _ERROR_PRINT is
+ * defined */
+#ifdef _ERROR_PRINT
+#define EPRINT(msg) fprintf(stderr,"ERROR: %s\n",msg)
+#else
+#define EPRINT(msg)
+#endif
+
+/* macro to get smaller of two values */
+#define MIN(a, b) (((a) < (b)) ? (a) : (b))
+
+/* macro to get greater of two values */
+#define MAX(a, b) (((a) > (b)) ? (a) : (b))
+
+/* macro to get absolute value */
+#define ABS(a) (((a) < 0) ? -(a) : (a))
+
+/* macro to clip a value z, so that x <= z =< y */
+#define CLIP3(x,y,z) (((z) < (x)) ? (x) : (((z) > (y)) ? (y) : (z)))
+
+/* macro to clip a value z, so that 0 <= z =< 255 */
+#define CLIP1(z) (((z) < 0) ? 0 : (((z) > 255) ? 255 : (z)))
+
+/* macro to allocate memory */
+#define ALLOCATE(ptr, count, type) \
+{ \
+    (ptr) = malloc((count) * sizeof(type)); \
+}
+
+/* macro to free allocated memory */
+#define FREE(ptr) \
+{ \
+    free((ptr)); (ptr) = NULL; \
+}
+
+#define ALIGN(ptr, bytePos) \
+        (ptr + ( ((bytePos - (int)ptr) & (bytePos - 1)) / sizeof(*ptr) ))
+
+extern const u32 h264bsdQpC[52];
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+#ifndef H264DEC_NEON
+u32 h264bsdCountLeadingZeros(u32 value, u32 length);
+#else
+u32 h264bsdCountLeadingZeros(u32 value);
+#endif
+u32 h264bsdRbspTrailingBits(strmData_t *strmData);
+
+u32 h264bsdMoreRbspData(strmData_t *strmData);
+
+u32 h264bsdNextMbAddress(u32 *pSliceGroupMap, u32 picSizeInMbs, u32 currMbAddr);
+
+void h264bsdSetCurrImageMbPointers(image_t *image, u32 mbNum);
+
+i32 abs(i32 a);
+i32 clip(i32 x, i32 y, i32 z);
+
+#endif /* #ifdef H264SWDEC_UTIL_H */
+
--- /dev/null
+++ b/src/h264bsd_vlc.c
@@ -1,0 +1,393 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeExpGolombUnsigned
+          h264bsdDecodeExpGolombSigned
+          h264bsdDecodeExpGolombMapped
+          h264bsdDecodeExpGolombTruncated
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_vlc.h"
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+/* definition of special code num, this along with the return value is used
+ * to handle code num in the range [0, 2^32] in the DecodeExpGolombUnsigned
+ * function */
+#define BIG_CODE_NUM 0xFFFFFFFFU
+
+/* Mapping tables for coded_block_pattern, used for decoding of mapped
+ * Exp-Golomb codes */
+static const u8 codedBlockPatternIntra4x4[48] = {
+    47,31,15,0,23,27,29,30,7,11,13,14,39,43,45,46,16,3,5,10,12,19,21,26,28,35,
+    37,42,44,1,2,4,8,17,18,20,24,6,9,22,25,32,33,34,36,40,38,41};
+
+static const u8 codedBlockPatternInter[48] = {
+    0,16,1,2,4,8,32,3,5,10,12,15,47,7,11,13,14,6,9,31,35,37,42,44,33,34,36,40,
+    39,43,45,46,17,18,20,24,19,21,26,28,23,27,29,30,22,25,38,41};
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+
+   5.1  Function: h264bsdDecodeExpGolombUnsigned
+
+        Functional description:
+            Decode unsigned Exp-Golomb code. This is the same as codeNum used
+            in other Exp-Golomb code mappings. Code num (i.e. the decoded
+            symbol) is determined as
+
+                codeNum = 2^leadingZeros - 1 + GetBits(leadingZeros)
+
+            Normal decoded symbols are in the range [0, 2^32 - 2]. Symbol
+            2^32-1 is indicated by BIG_CODE_NUM with return value HANTRO_OK
+            while symbol 2^32  is indicated by BIG_CODE_NUM with return value
+            HANTRO_NOK.  These two symbols are special cases with code length
+            of 65, i.e.  32 '0' bits, a '1' bit, and either 0 or 1 represented
+            by 32 bits.
+
+            Symbol 2^32 is out of unsigned 32-bit range but is needed for
+            DecodeExpGolombSigned to express value -2^31.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            codeNum         decoded code word is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      failure, no valid code word found, note exception
+                            with BIG_CODE_NUM
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeExpGolombUnsigned(strmData_t *pStrmData, u32 *codeNum)
+{
+
+/* Variables */
+
+    u32 bits, numZeros;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(codeNum);
+
+    bits = h264bsdShowBits32(pStrmData);
+
+    /* first bit is 1 -> code length 1 */
+    if (bits >= 0x80000000)
+    {
+        h264bsdFlushBits(pStrmData, 1);
+        *codeNum = 0;
+        return(HANTRO_OK);
+    }
+    /* second bit is 1 -> code length 3 */
+    else if (bits >= 0x40000000)
+    {
+        if (h264bsdFlushBits(pStrmData, 3) == END_OF_STREAM)
+            return(HANTRO_NOK);
+        *codeNum = 1 + ((bits >> 29) & 0x1);
+        return(HANTRO_OK);
+    }
+    /* third bit is 1 -> code length 5 */
+    else if (bits >= 0x20000000)
+    {
+        if (h264bsdFlushBits(pStrmData, 5) == END_OF_STREAM)
+            return(HANTRO_NOK);
+        *codeNum = 3 + ((bits >> 27) & 0x3);
+        return(HANTRO_OK);
+    }
+    /* fourth bit is 1 -> code length 7 */
+    else if (bits >= 0x10000000)
+    {
+        if (h264bsdFlushBits(pStrmData, 7) == END_OF_STREAM)
+            return(HANTRO_NOK);
+        *codeNum = 7 + ((bits >> 25) & 0x7);
+        return(HANTRO_OK);
+    }
+    /* other code lengths */
+    else
+    {
+#ifndef H264DEC_NEON
+        numZeros = 4 + h264bsdCountLeadingZeros(bits, 28);
+#else
+        numZeros = h264bsdCountLeadingZeros(bits);
+#endif
+        /* all 32 bits are zero */
+        if (numZeros == 32)
+        {
+            *codeNum = 0;
+            h264bsdFlushBits(pStrmData,32);
+            bits = h264bsdGetBits(pStrmData, 1);
+            /* check 33rd bit, must be 1 */
+            if (bits == 1)
+            {
+                /* cannot use h264bsdGetBits, limited to 31 bits */
+                bits = h264bsdShowBits32(pStrmData);
+                if (h264bsdFlushBits(pStrmData, 32) == END_OF_STREAM)
+                    return(HANTRO_NOK);
+                /* code num 2^32 - 1, needed for unsigned mapping */
+                if (bits == 0)
+                {
+                    *codeNum = BIG_CODE_NUM;
+                    return(HANTRO_OK);
+                }
+                /* code num 2^32, needed for unsigned mapping
+                 * (results in -2^31) */
+                else if (bits == 1)
+                {
+                    *codeNum = BIG_CODE_NUM;
+                    return(HANTRO_NOK);
+                }
+            }
+            /* if more zeros than 32, it is an error */
+            return(HANTRO_NOK);
+        }
+        else
+            h264bsdFlushBits(pStrmData,numZeros+1);
+
+        bits = h264bsdGetBits(pStrmData, numZeros);
+        if (bits == END_OF_STREAM)
+            return(HANTRO_NOK);
+
+        *codeNum = (1 << numZeros) - 1 + bits;
+
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.2  Function: h264bsdDecodeExpGolombSigned
+
+        Functional description:
+            Decode signed Exp-Golomb code. Code num is determined by
+            h264bsdDecodeExpGolombUnsigned and then mapped to signed
+            representation as
+
+                symbol = (-1)^(codeNum+1) * (codeNum+1)/2
+
+            Signed symbols shall be in the range [-2^31, 2^31 - 1]. Symbol
+            -2^31 is obtained when codeNum is 2^32, which cannot be expressed
+            by unsigned 32-bit value. This is signaled as a special case from
+            the h264bsdDecodeExpGolombUnsigned by setting codeNum to
+            BIG_CODE_NUM and returning HANTRO_NOK status.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            value           decoded code word is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      failure, no valid code word found
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeExpGolombSigned(strmData_t *pStrmData, i32 *value)
+{
+
+/* Variables */
+
+    u32 status, codeNum = 0;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(value);
+
+    status = h264bsdDecodeExpGolombUnsigned(pStrmData, &codeNum);
+
+    if (codeNum == BIG_CODE_NUM)
+    {
+        /* BIG_CODE_NUM and HANTRO_OK status means codeNum 2^32-1 which would
+         * result in signed integer valued 2^31 (i.e. out of 32-bit signed
+         * integer range) */
+        if (status == HANTRO_OK)
+            return(HANTRO_NOK);
+        /* BIG_CODE_NUM and HANTRO_NOK status means codeNum 2^32 which results
+         * in signed integer valued -2^31 */
+        else
+        {
+            *value = (i32)(2147483648U);
+            return (HANTRO_OK);
+        }
+    }
+    else if (status == HANTRO_OK)
+    {
+        /* (-1)^(codeNum+1) results in positive sign if codeNum is odd,
+         * negative when it is even. (codeNum+1)/2 is obtained as
+         * (codeNum+1)>>1 when value is positive and as (-codeNum)>>1 for
+         * negative value */
+        /*lint -e702 */
+        *value = (codeNum & 0x1) ? (i32)((codeNum + 1) >> 1) :
+                                  -(i32)((codeNum + 1) >> 1);
+        /*lint +e702 */
+        return(HANTRO_OK);
+    }
+
+    return(HANTRO_NOK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.3  Function: h264bsdDecodeExpGolombMapped
+
+        Functional description:
+            Decode mapped Exp-Golomb code. Code num is determined by
+            h264bsdDecodeExpGolombUnsigned and then mapped to codedBlockPattern
+            either for intra or inter macroblock. The mapping is implemented by
+            look-up tables defined in the beginning of the file.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            isIntra         flag to indicate if intra or inter mapping is to
+                            be used
+
+        Outputs:
+            value           decoded code word is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      failure, no valid code word found
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeExpGolombMapped(strmData_t *pStrmData, u32 *value,
+    u32 isIntra)
+{
+
+/* Variables */
+
+    u32 status, codeNum;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(value);
+
+    status = h264bsdDecodeExpGolombUnsigned(pStrmData, &codeNum);
+
+    if (status != HANTRO_OK)
+        return (HANTRO_NOK);
+    else
+    {
+        /* range of valid codeNums [0,47] */
+        if (codeNum > 47)
+            return (HANTRO_NOK);
+        if (isIntra)
+            *value = codedBlockPatternIntra4x4[codeNum];
+        else
+            *value = codedBlockPatternInter[codeNum];
+        return(HANTRO_OK);
+    }
+
+}
+
+/*------------------------------------------------------------------------------
+
+   5.4  Function: h264bsdDecodeExpGolombTruncated
+
+        Functional description:
+            Decode truncated Exp-Golomb code. greaterThanOne flag indicates
+            the range of the symbol to be decoded as follows:
+                FALSE   ->  [0,1]
+                TRUE    ->  [0,2^32-1]
+
+            If flag is false the decoding is performed by reading one bit
+            from the stream with h264bsdGetBits and mapping this to decoded
+            symbol as
+                symbol = bit ? 0 : 1
+
+            Otherwise, i.e. when flag is TRUE, code num is determined by
+            h264bsdDecodeExpGolombUnsigned and this is used as the decoded
+            symbol.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+            greaterThanOne  flag to indicate if range is wider than [0,1]
+
+        Outputs:
+            value           decoded code word is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      failure, no valid code word found
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeExpGolombTruncated(
+  strmData_t *pStrmData,
+  u32 *value,
+  u32 greaterThanOne)
+{
+
+/* Variables */
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(value);
+
+    if (greaterThanOne)
+    {
+        return(h264bsdDecodeExpGolombUnsigned(pStrmData, value));
+    }
+    else
+    {
+        *value = h264bsdGetBits(pStrmData,1);
+        if (*value == END_OF_STREAM)
+            return (HANTRO_NOK);
+        *value ^= 0x1;
+    }
+
+    return (HANTRO_OK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_vlc.h
@@ -1,0 +1,64 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_VLC_H
+#define H264SWDEC_VLC_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_transform.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeExpGolombUnsigned(strmData_t *pStrmData, u32 *value);
+
+u32 h264bsdDecodeExpGolombSigned(strmData_t *pStrmData, i32 *value);
+
+u32 h264bsdDecodeExpGolombMapped(strmData_t *pStrmData, u32 *value,
+    u32 isIntra);
+
+u32 h264bsdDecodeExpGolombTruncated(strmData_t *pStrmData, u32 *value,
+    u32 greaterThanOne);
+
+#endif /* #ifdef H264SWDEC_VLC_H */
+
--- /dev/null
+++ b/src/h264bsd_vui.c
@@ -1,0 +1,492 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+     1. Include headers
+     2. External compiler flags
+     3. Module defines
+     4. Local function prototypes
+     5. Functions
+          h264bsdDecodeVuiParameters
+          DecodeHrdParameters
+
+------------------------------------------------------------------------------*/
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "h264bsd_vui.h"
+#include "basetype.h"
+#include "h264bsd_vlc.h"
+#include "h264bsd_stream.h"
+#include "h264bsd_cfg.h"
+#include "h264bsd_util.h"
+
+/*------------------------------------------------------------------------------
+    2. External compiler flags
+--------------------------------------------------------------------------------
+
+--------------------------------------------------------------------------------
+    3. Module defines
+------------------------------------------------------------------------------*/
+
+#define MAX_DPB_SIZE 16
+#define MAX_BR       240000 /* for level 5.1 */
+#define MAX_CPB      240000 /* for level 5.1 */
+
+/*------------------------------------------------------------------------------
+    4. Local function prototypes
+------------------------------------------------------------------------------*/
+
+static u32 DecodeHrdParameters(
+  strmData_t *pStrmData,
+  hrdParameters_t *pHrdParameters);
+
+/*------------------------------------------------------------------------------
+
+    Function: h264bsdDecodeVuiParameters
+
+        Functional description:
+            Decode VUI parameters from the stream. See standard for details.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            pVuiParameters  decoded information is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data or end of stream
+
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeVuiParameters(strmData_t *pStrmData,
+    vuiParameters_t *pVuiParameters)
+{
+
+/* Variables */
+
+    u32 tmp;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pVuiParameters);
+
+    memset(pVuiParameters, 0, sizeof(vuiParameters_t));
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->aspectRatioPresentFlag = (tmp == 1) ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->aspectRatioPresentFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 8);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->aspectRatioIdc = tmp;
+
+        if (pVuiParameters->aspectRatioIdc == ASPECT_RATIO_EXTENDED_SAR)
+        {
+            tmp = h264bsdGetBits(pStrmData, 16);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pVuiParameters->sarWidth = tmp;
+
+            tmp = h264bsdGetBits(pStrmData, 16);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pVuiParameters->sarHeight = tmp;
+        }
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->overscanInfoPresentFlag = (tmp == 1) ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->overscanInfoPresentFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->overscanAppropriateFlag = (tmp == 1) ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->videoSignalTypePresentFlag = (tmp == 1) ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->videoSignalTypePresentFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 3);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->videoFormat = tmp;
+
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->videoFullRangeFlag = (tmp == 1) ?
+                                HANTRO_TRUE : HANTRO_FALSE;
+
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->colourDescriptionPresentFlag =
+            (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+        if (pVuiParameters->colourDescriptionPresentFlag)
+        {
+            tmp = h264bsdGetBits(pStrmData, 8);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pVuiParameters->colourPrimaries = tmp;
+
+            tmp = h264bsdGetBits(pStrmData, 8);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pVuiParameters->transferCharacteristics = tmp;
+
+            tmp = h264bsdGetBits(pStrmData, 8);
+            if (tmp == END_OF_STREAM)
+                return(HANTRO_NOK);
+            pVuiParameters->matrixCoefficients = tmp;
+        }
+        else
+        {
+            pVuiParameters->colourPrimaries         = 2;
+            pVuiParameters->transferCharacteristics = 2;
+            pVuiParameters->matrixCoefficients      = 2;
+        }
+    }
+    else
+    {
+        pVuiParameters->videoFormat             = 5;
+        pVuiParameters->colourPrimaries         = 2;
+        pVuiParameters->transferCharacteristics = 2;
+        pVuiParameters->matrixCoefficients      = 2;
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->chromaLocInfoPresentFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->chromaLocInfoPresentFlag)
+    {
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->chromaSampleLocTypeTopField);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pVuiParameters->chromaSampleLocTypeTopField > 5)
+            return(HANTRO_NOK);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->chromaSampleLocTypeBottomField);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pVuiParameters->chromaSampleLocTypeBottomField > 5)
+            return(HANTRO_NOK);
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->timingInfoPresentFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->timingInfoPresentFlag)
+    {
+        tmp = h264bsdShowBits32(pStrmData);
+        if (h264bsdFlushBits(pStrmData, 32) == END_OF_STREAM)
+            return(HANTRO_NOK);
+        if (tmp == 0)
+            return(HANTRO_NOK);
+        pVuiParameters->numUnitsInTick = tmp;
+
+        tmp = h264bsdShowBits32(pStrmData);
+        if (h264bsdFlushBits(pStrmData, 32) == END_OF_STREAM)
+            return(HANTRO_NOK);
+        if (tmp == 0)
+            return(HANTRO_NOK);
+        pVuiParameters->timeScale = tmp;
+
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->fixedFrameRateFlag =
+            (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->nalHrdParametersPresentFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->nalHrdParametersPresentFlag)
+    {
+        tmp = DecodeHrdParameters(pStrmData, &pVuiParameters->nalHrdParameters);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+    else
+    {
+        pVuiParameters->nalHrdParameters.cpbCnt          = 1;
+        /* MaxBR and MaxCPB should be the values correspondig to the levelIdc
+         * in the SPS containing these VUI parameters. However, these values
+         * are not used anywhere and maximum for any level will be used here */
+        pVuiParameters->nalHrdParameters.bitRateValue[0] = 1200 * MAX_BR + 1;
+        pVuiParameters->nalHrdParameters.cpbSizeValue[0] = 1200 * MAX_CPB + 1;
+        pVuiParameters->nalHrdParameters.initialCpbRemovalDelayLength = 24;
+        pVuiParameters->nalHrdParameters.cpbRemovalDelayLength        = 24;
+        pVuiParameters->nalHrdParameters.dpbOutputDelayLength         = 24;
+        pVuiParameters->nalHrdParameters.timeOffsetLength             = 24;
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->vclHrdParametersPresentFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->vclHrdParametersPresentFlag)
+    {
+        tmp = DecodeHrdParameters(pStrmData, &pVuiParameters->vclHrdParameters);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+    else
+    {
+        pVuiParameters->vclHrdParameters.cpbCnt          = 1;
+        /* MaxBR and MaxCPB should be the values correspondig to the levelIdc
+         * in the SPS containing these VUI parameters. However, these values
+         * are not used anywhere and maximum for any level will be used here */
+        pVuiParameters->vclHrdParameters.bitRateValue[0] = 1000 * MAX_BR + 1;
+        pVuiParameters->vclHrdParameters.cpbSizeValue[0] = 1000 * MAX_CPB + 1;
+        pVuiParameters->vclHrdParameters.initialCpbRemovalDelayLength = 24;
+        pVuiParameters->vclHrdParameters.cpbRemovalDelayLength        = 24;
+        pVuiParameters->vclHrdParameters.dpbOutputDelayLength         = 24;
+        pVuiParameters->vclHrdParameters.timeOffsetLength             = 24;
+    }
+
+    if (pVuiParameters->nalHrdParametersPresentFlag ||
+      pVuiParameters->vclHrdParametersPresentFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->lowDelayHrdFlag =
+            (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->picStructPresentFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    tmp = h264bsdGetBits(pStrmData, 1);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pVuiParameters->bitstreamRestrictionFlag =
+        (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+    if (pVuiParameters->bitstreamRestrictionFlag)
+    {
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pVuiParameters->motionVectorsOverPicBoundariesFlag =
+            (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->maxBytesPerPicDenom);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pVuiParameters->maxBytesPerPicDenom > 16)
+            return(HANTRO_NOK);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->maxBitsPerMbDenom);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pVuiParameters->maxBitsPerMbDenom > 16)
+            return(HANTRO_NOK);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->log2MaxMvLengthHorizontal);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pVuiParameters->log2MaxMvLengthHorizontal > 16)
+            return(HANTRO_NOK);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->log2MaxMvLengthVertical);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pVuiParameters->log2MaxMvLengthVertical > 16)
+            return(HANTRO_NOK);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->numReorderFrames);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pVuiParameters->maxDecFrameBuffering);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+    }
+    else
+    {
+        pVuiParameters->motionVectorsOverPicBoundariesFlag = HANTRO_TRUE;
+        pVuiParameters->maxBytesPerPicDenom       = 2;
+        pVuiParameters->maxBitsPerMbDenom         = 1;
+        pVuiParameters->log2MaxMvLengthHorizontal = 16;
+        pVuiParameters->log2MaxMvLengthVertical   = 16;
+        pVuiParameters->numReorderFrames          = MAX_DPB_SIZE;
+        pVuiParameters->maxDecFrameBuffering      = MAX_DPB_SIZE;
+    }
+
+    return(HANTRO_OK);
+
+}
+
+/*------------------------------------------------------------------------------
+
+    Function: DecodeHrdParameters
+
+        Functional description:
+            Decode HRD parameters from the stream. See standard for details.
+
+        Inputs:
+            pStrmData       pointer to stream data structure
+
+        Outputs:
+            pHrdParameters  decoded information is stored here
+
+        Returns:
+            HANTRO_OK       success
+            HANTRO_NOK      invalid stream data
+
+------------------------------------------------------------------------------*/
+
+static u32 DecodeHrdParameters(
+  strmData_t *pStrmData,
+  hrdParameters_t *pHrdParameters)
+{
+
+/* Variables */
+
+    u32 tmp, i;
+
+/* Code */
+
+    ASSERT(pStrmData);
+    ASSERT(pHrdParameters);
+
+
+    tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &pHrdParameters->cpbCnt);
+    if (tmp != HANTRO_OK)
+        return(tmp);
+    /* cpbCount = cpb_cnt_minus1 + 1 */
+    pHrdParameters->cpbCnt++;
+    if (pHrdParameters->cpbCnt > MAX_CPB_CNT)
+        return(HANTRO_NOK);
+
+    tmp = h264bsdGetBits(pStrmData, 4);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pHrdParameters->bitRateScale = tmp;
+
+    tmp = h264bsdGetBits(pStrmData, 4);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pHrdParameters->cpbSizeScale = tmp;
+
+    for (i = 0; i < pHrdParameters->cpbCnt; i++)
+    {
+        /* bit_rate_value_minus1 in the range [0, 2^32 - 2] */
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pHrdParameters->bitRateValue[i]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pHrdParameters->bitRateValue[i] > 4294967294U)
+            return(HANTRO_NOK);
+        pHrdParameters->bitRateValue[i]++;
+        /* this may result in overflow, but this value is not used for
+         * anything */
+        pHrdParameters->bitRateValue[i] *=
+            1 << (6 + pHrdParameters->bitRateScale);
+
+        /* cpb_size_value_minus1 in the range [0, 2^32 - 2] */
+        tmp = h264bsdDecodeExpGolombUnsigned(pStrmData,
+          &pHrdParameters->cpbSizeValue[i]);
+        if (tmp != HANTRO_OK)
+            return(tmp);
+        if (pHrdParameters->cpbSizeValue[i] > 4294967294U)
+            return(HANTRO_NOK);
+        pHrdParameters->cpbSizeValue[i]++;
+        /* this may result in overflow, but this value is not used for
+         * anything */
+        pHrdParameters->cpbSizeValue[i] *=
+            1 << (4 + pHrdParameters->cpbSizeScale);
+
+        tmp = h264bsdGetBits(pStrmData, 1);
+        if (tmp == END_OF_STREAM)
+            return(HANTRO_NOK);
+        pHrdParameters->cbrFlag[i] = (tmp == 1) ? HANTRO_TRUE : HANTRO_FALSE;
+    }
+
+    tmp = h264bsdGetBits(pStrmData, 5);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pHrdParameters->initialCpbRemovalDelayLength = tmp + 1;
+
+    tmp = h264bsdGetBits(pStrmData, 5);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pHrdParameters->cpbRemovalDelayLength = tmp + 1;
+
+    tmp = h264bsdGetBits(pStrmData, 5);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pHrdParameters->dpbOutputDelayLength = tmp + 1;
+
+    tmp = h264bsdGetBits(pStrmData, 5);
+    if (tmp == END_OF_STREAM)
+        return(HANTRO_NOK);
+    pHrdParameters->timeOffsetLength = tmp;
+
+    return(HANTRO_OK);
+
+}
+
--- /dev/null
+++ b/src/h264bsd_vui.h
@@ -1,0 +1,131 @@
+/*
+ * Copyright (C) 2009 The Android Open Source Project
+ * Modified for use by h264bsd standalone library
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*------------------------------------------------------------------------------
+
+    Table of contents
+
+    1. Include headers
+    2. Module defines
+    3. Data types
+    4. Function prototypes
+
+------------------------------------------------------------------------------*/
+
+#ifndef H264SWDEC_VUI_H
+#define H264SWDEC_VUI_H
+
+/*------------------------------------------------------------------------------
+    1. Include headers
+------------------------------------------------------------------------------*/
+
+#include "basetype.h"
+#include "h264bsd_stream.h"
+
+/*------------------------------------------------------------------------------
+    2. Module defines
+------------------------------------------------------------------------------*/
+
+#define MAX_CPB_CNT 32
+
+/*------------------------------------------------------------------------------
+    3. Data types
+------------------------------------------------------------------------------*/
+
+/* enumerated sample aspect ratios, ASPECT_RATIO_M_N means M:N */
+enum
+{
+    ASPECT_RATIO_UNSPECIFIED = 0,
+    ASPECT_RATIO_1_1,
+    ASPECT_RATIO_12_11,
+    ASPECT_RATIO_10_11,
+    ASPECT_RATIO_16_11,
+    ASPECT_RATIO_40_33,
+    ASPECT_RATIO_24_11,
+    ASPECT_RATIO_20_11,
+    ASPECT_RATIO_32_11,
+    ASPECT_RATIO_80_33,
+    ASPECT_RATIO_18_11,
+    ASPECT_RATIO_15_11,
+    ASPECT_RATIO_64_33,
+    ASPECT_RATIO_160_99,
+    ASPECT_RATIO_EXTENDED_SAR = 255
+};
+
+/* structure to store Hypothetical Reference Decoder (HRD) parameters */
+typedef struct
+{
+    u32 cpbCnt;
+    u32 bitRateScale;
+    u32 cpbSizeScale;
+    u32 bitRateValue[MAX_CPB_CNT];
+    u32 cpbSizeValue[MAX_CPB_CNT];
+    u32 cbrFlag[MAX_CPB_CNT];
+    u32 initialCpbRemovalDelayLength;
+    u32 cpbRemovalDelayLength;
+    u32 dpbOutputDelayLength;
+    u32 timeOffsetLength;
+} hrdParameters_t;
+
+/* storage for VUI parameters */
+typedef struct
+{
+    u32 aspectRatioPresentFlag;
+    u32 aspectRatioIdc;
+    u32 sarWidth;
+    u32 sarHeight;
+    u32 overscanInfoPresentFlag;
+    u32 overscanAppropriateFlag;
+    u32 videoSignalTypePresentFlag;
+    u32 videoFormat;
+    u32 videoFullRangeFlag;
+    u32 colourDescriptionPresentFlag;
+    u32 colourPrimaries;
+    u32 transferCharacteristics;
+    u32 matrixCoefficients;
+    u32 chromaLocInfoPresentFlag;
+    u32 chromaSampleLocTypeTopField;
+    u32 chromaSampleLocTypeBottomField;
+    u32 timingInfoPresentFlag;
+    u32 numUnitsInTick;
+    u32 timeScale;
+    u32 fixedFrameRateFlag;
+    u32 nalHrdParametersPresentFlag;
+    hrdParameters_t nalHrdParameters;
+    u32 vclHrdParametersPresentFlag;
+    hrdParameters_t vclHrdParameters;
+    u32 lowDelayHrdFlag;
+    u32 picStructPresentFlag;
+    u32 bitstreamRestrictionFlag;
+    u32 motionVectorsOverPicBoundariesFlag;
+    u32 maxBytesPerPicDenom;
+    u32 maxBitsPerMbDenom;
+    u32 log2MaxMvLengthHorizontal;
+    u32 log2MaxMvLengthVertical;
+    u32 numReorderFrames;
+    u32 maxDecFrameBuffering;
+} vuiParameters_t;
+
+/*------------------------------------------------------------------------------
+    4. Function prototypes
+------------------------------------------------------------------------------*/
+
+u32 h264bsdDecodeVuiParameters(strmData_t *pStrmData,
+    vuiParameters_t *pVuiParameters);
+
+#endif /* #ifdef H264SWDEC_VUI_H */
+
--- /dev/null
+++ b/win/h264bsd.def
@@ -1,0 +1,16 @@
+LIBRARY H264BSD
+EXPORTS
+    h264bsdInit
+    h264bsdDecode
+    h264bsdShutdown
+    h264bsdNextOutputPicture
+    h264bsdPicWidth
+    h264bsdPicHeight
+    h264bsdVideoRange
+    h264bsdMatrixCoefficients
+    h264bsdCroppingParams
+    h264bsdSampleAspectRatio
+    h264bsdCheckValidParamSets
+    h264bsdFlushBuffer
+    h264bsdAlloc
+    h264bsdFree
--- /dev/null
+++ b/win/h264bsd.sln
@@ -1,0 +1,26 @@
+
+Microsoft Visual Studio Solution File, Format Version 11.00
+# Visual Studio 2010
+Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "h264bsd", "h264bsd.vcxproj", "{FC89E991-5229-4CEB-94AF-96C09943FCA4}"
+EndProject
+Global
+	GlobalSection(SolutionConfigurationPlatforms) = preSolution
+		Debug|Win32 = Debug|Win32
+		Debug|x64 = Debug|x64
+		Release|Win32 = Release|Win32
+		Release|x64 = Release|x64
+	EndGlobalSection
+	GlobalSection(ProjectConfigurationPlatforms) = postSolution
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Debug|Win32.ActiveCfg = Debug|Win32
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Debug|Win32.Build.0 = Debug|Win32
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Debug|x64.ActiveCfg = Debug|x64
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Debug|x64.Build.0 = Debug|x64
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Release|Win32.ActiveCfg = Release|Win32
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Release|Win32.Build.0 = Release|Win32
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Release|x64.ActiveCfg = Release|x64
+		{FC89E991-5229-4CEB-94AF-96C09943FCA4}.Release|x64.Build.0 = Release|x64
+	EndGlobalSection
+	GlobalSection(SolutionProperties) = preSolution
+		HideSolutionNode = FALSE
+	EndGlobalSection
+EndGlobal
--- /dev/null
+++ b/win/h264bsd.vcxproj
@@ -1,0 +1,210 @@
+<?xml version="1.0" encoding="utf-8"?>
+<Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
+  <ItemGroup Label="ProjectConfigurations">
+    <ProjectConfiguration Include="Debug|Win32">
+      <Configuration>Debug</Configuration>
+      <Platform>Win32</Platform>
+    </ProjectConfiguration>
+    <ProjectConfiguration Include="Debug|x64">
+      <Configuration>Debug</Configuration>
+      <Platform>x64</Platform>
+    </ProjectConfiguration>
+    <ProjectConfiguration Include="Release|Win32">
+      <Configuration>Release</Configuration>
+      <Platform>Win32</Platform>
+    </ProjectConfiguration>
+    <ProjectConfiguration Include="Release|x64">
+      <Configuration>Release</Configuration>
+      <Platform>x64</Platform>
+    </ProjectConfiguration>
+  </ItemGroup>
+  <PropertyGroup Label="Globals">
+    <ProjectGuid>{FC89E991-5229-4CEB-94AF-96C09943FCA4}</ProjectGuid>
+    <Keyword>Win32Proj</Keyword>
+    <RootNamespace>h264bsd</RootNamespace>
+  </PropertyGroup>
+  <Import Project="$(VCTargetsPath)\Microsoft.Cpp.Default.props" />
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'" Label="Configuration">
+    <ConfigurationType>DynamicLibrary</ConfigurationType>
+    <UseDebugLibraries>true</UseDebugLibraries>
+    <CharacterSet>Unicode</CharacterSet>
+  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'" Label="Configuration">
+    <ConfigurationType>DynamicLibrary</ConfigurationType>
+    <UseDebugLibraries>true</UseDebugLibraries>
+    <CharacterSet>Unicode</CharacterSet>
+  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'" Label="Configuration">
+    <ConfigurationType>DynamicLibrary</ConfigurationType>
+    <UseDebugLibraries>false</UseDebugLibraries>
+    <WholeProgramOptimization>true</WholeProgramOptimization>
+    <CharacterSet>Unicode</CharacterSet>
+  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'" Label="Configuration">
+    <ConfigurationType>DynamicLibrary</ConfigurationType>
+    <UseDebugLibraries>false</UseDebugLibraries>
+    <WholeProgramOptimization>true</WholeProgramOptimization>
+    <CharacterSet>Unicode</CharacterSet>
+  </PropertyGroup>
+  <Import Project="$(VCTargetsPath)\Microsoft.Cpp.props" />
+  <ImportGroup Label="ExtensionSettings">
+  </ImportGroup>
+  <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
+    <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
+  </ImportGroup>
+  <ImportGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'" Label="PropertySheets">
+    <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
+  </ImportGroup>
+  <ImportGroup Label="PropertySheets" Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
+    <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
+  </ImportGroup>
+  <ImportGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'" Label="PropertySheets">
+    <Import Project="$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props" Condition="exists('$(UserRootDir)\Microsoft.Cpp.$(Platform).user.props')" Label="LocalAppDataPlatform" />
+  </ImportGroup>
+  <PropertyGroup Label="UserMacros" />
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
+    <LinkIncremental>true</LinkIncremental>
+    <OutDir>$(SolutionDir)$(Configuration)\$(Platform)\</OutDir>
+    <IntDir>$(SolutionDir)$(Configuration)\$(Platform)\</IntDir>
+  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|x64'">
+    <LinkIncremental>true</LinkIncremental>
+    <OutDir>$(SolutionDir)$(Configuration)\$(Platform)\</OutDir>
+    <IntDir>$(SolutionDir)$(Configuration)\$(Platform)\</IntDir>
+  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|Win32'">
+    <LinkIncremental>false</LinkIncremental>
+    <OutDir>$(SolutionDir)$(Configuration)\$(Platform)\</OutDir>
+    <IntDir>$(SolutionDir)$(Configuration)\$(Platform)\</IntDir>
+  </PropertyGroup>
+  <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Release|x64'">
+    <LinkIncremental>false</LinkIncremental>
+    <OutDir>$(SolutionDir)$(Configuration)\$(Platform)\</OutDir>
+    <IntDir>$(SolutionDir)$(Configuration)\$(Platform)\</IntDir>
+  </PropertyGroup>
+  <ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
+    <ClCompile>
+      <PrecompiledHeader>NotUsing</PrecompiledHeader>
+      <WarningLevel>Level3</WarningLevel>
+      <Optimization>Disabled</Optimization>
+      <PreprocessorDefinitions>WIN32;_DEBUG;_WINDOWS;_USRDLL;H264BSD_EXPORTS;%(PreprocessorDefinitions)</PreprocessorDefinitions>
+    </ClCompile>
+    <Link>
+      <SubSystem>Windows</SubSystem>
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