ref: 73e0ce9f876fc6ea042072addeb21cd9cbac443b
dir: /src/h264bsd_pic_param_set.c/
/* * 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) { werrstr("pic_parameter_set_id out of range: %d", pPicParamSet->picParameterSetId); return(HANTRO_NOK); } tmp = h264bsdDecodeExpGolombUnsigned(pStrmData, &pPicParamSet->seqParameterSetId); if (tmp != HANTRO_OK) return(tmp); if (pPicParamSet->seqParameterSetId >= MAX_NUM_SEQ_PARAM_SETS) { werrstr("seq_param_set_id out of range: %d", pPicParamSet->seqParameterSetId); return(HANTRO_NOK); } /* entropy_coding_mode_flag, shall be 0 for baseline profile */ tmp = h264bsdGetBits(pStrmData, 1); if (tmp) { werrstr("unexpected 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) { werrstr("num_slice_groups_minus1 out of range: %d", pPicParamSet->numSliceGroups); 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) { werrstr("slice_group_map_type out of range: %d", pPicParamSet->sliceGroupMapType); 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 ) { werrstr("slice_group_id out of range"); 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) { werrstr("num_ref_idx_l1_active_minus1 out of range: %d", value); return(HANTRO_NOK); } /* weighted_pred_flag, this shall be 0 for baseline profile */ tmp = h264bsdGetBits(pStrmData, 1); if (tmp) { werrstr("unexpected weighted_pred_flag"); return(HANTRO_NOK); } /* weighted_bipred_idc */ tmp = h264bsdGetBits(pStrmData, 2); if (tmp > 2) { werrstr("weighted_bipred_idc out of range: %d", tmp); return(HANTRO_NOK); } /* pic_init_qp_minus26 */ tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp); if (tmp != HANTRO_OK) return(tmp); if ((itmp < -26) || (itmp > 25)) { werrstr("pic_init_qp_minus26 out of range: %d", itmp); 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)) { werrstr("pic_init_qs_minus26 out of range: %d", itmp); return(HANTRO_NOK); } tmp = h264bsdDecodeExpGolombSigned(pStrmData, &itmp); if (tmp != HANTRO_OK) return(tmp); if ((itmp < -12) || (itmp > 12)) { werrstr("chroma_qp_index_offset out of range: %d", itmp); 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; h264bsdRbspTrailingBits(pStrmData); /* ignore possible errors in trailing bits of parameters sets */ return(HANTRO_OK); }