ref: e60dbd620fdf1ca426d1ff12b212aef45be4d3c2
dir: /src/ima_rw.c/
/* libSoX ima_rw.c -- codex utilities for WAV_FORMAT_IMA_ADPCM * Copyright (C) 1999 Stanley J. Brooks <stabro@megsinet.net> * * This library is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at * your option) any later version. * * This library is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser * General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "sox_i.h" #include "ima_rw.h" #include <sys/types.h> #include <stdio.h> #include <stdlib.h> /* * * Lookup tables for IMA ADPCM format * */ #define ISSTMAX 88 static const int imaStepSizeTable[ISSTMAX + 1] = { 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, 19, 21, 23, 25, 28, 31, 34, 37, 41, 45, 50, 55, 60, 66, 73, 80, 88, 97, 107, 118, 130, 143, 157, 173, 190, 209, 230, 253, 279, 307, 337, 371, 408, 449, 494, 544, 598, 658, 724, 796, 876, 963, 1060, 1166, 1282, 1411, 1552, 1707, 1878, 2066, 2272, 2499, 2749, 3024, 3327, 3660, 4026, 4428, 4871, 5358, 5894, 6484, 7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899, 15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767 }; #define imaStateAdjust(c) (((c)<4)? -1:(2*(c)-6)) /* +0 - +3, decrease step size */ /* +4 - +7, increase step size */ /* -0 - -3, decrease step size */ /* -4 - -7, increase step size */ static unsigned char imaStateAdjustTable[ISSTMAX+1][8]; void lsx_ima_init_table(void) { int i,j,k; for (i=0; i<=ISSTMAX; i++) { for (j=0; j<8; j++) { k = i + imaStateAdjust(j); if (k<0) k=0; else if (k>ISSTMAX) k=ISSTMAX; imaStateAdjustTable[i][j] = k; } } } static void ImaExpandS( unsigned ch, /* channel number to decode, REQUIRE 0 <= ch < chans */ unsigned chans, /* total channels */ const unsigned char *ibuff,/* input buffer[blockAlign] */ SAMPL *obuff, /* obuff[n] will be output samples */ int n, /* samples to decode PER channel, REQUIRE n % 8 == 1 */ unsigned o_inc /* index difference between successive output samples */ ) { const unsigned char *ip; int i_inc; SAMPL *op; int i, val, state; ip = ibuff + 4*ch; /* input pointer to 4-byte block state-initializer */ i_inc = 4*(chans-1); /* amount by which to incr ip after each 4-byte read */ val = (short)(ip[0] + (ip[1]<<8)); /* need cast for sign-extend */ state = ip[2]; if (state > ISSTMAX) { lsx_warn("IMA_ADPCM block ch%d initial-state (%d) out of range", ch, state); state = 0; } /* specs say to ignore ip[3] , but write it as 0 */ ip += 4+i_inc; op = obuff; *op = val; /* 1st output sample for this channel */ op += o_inc; for (i = 1; i < n; i++) { int step,dp,c,cm; if (i&1) { /* 1st of pair */ cm = *ip & 0x0f; } else { cm = (*ip++)>>4; if ((i&7) == 0) /* ends the 8-sample input block for this channel */ ip += i_inc; /* skip ip for next group */ } step = imaStepSizeTable[state]; /* Update the state for the next sample */ c = cm & 0x07; state = imaStateAdjustTable[state][c]; dp = 0; if (c & 4) dp += step; step = step >> 1; if (c & 2) dp += step; step = step >> 1; if (c & 1) dp += step; step = step >> 1; dp += step; if (c != cm) { val -= dp; if (val<-0x8000) val = -0x8000; } else { val += dp; if (val>0x7fff) val = 0x7fff; } *op = val; op += o_inc; } return; } /* lsx_ima_block_expand_i() outputs interleaved samples into one output buffer */ void lsx_ima_block_expand_i( unsigned chans, /* total channels */ const unsigned char *ibuff,/* input buffer[blockAlign] */ SAMPL *obuff, /* output samples, n*chans */ int n /* samples to decode PER channel, REQUIRE n % 8 == 1 */ ) { unsigned ch; for (ch=0; ch<chans; ch++) ImaExpandS(ch, chans, ibuff, obuff+ch, n, chans); } /* lsx_ima_block_expand_m() outputs non-interleaved samples into chan separate output buffers */ void lsx_ima_block_expand_m( unsigned chans, /* total channels */ const unsigned char *ibuff,/* input buffer[blockAlign] */ SAMPL **obuffs, /* chan output sample buffers, each takes n samples */ int n /* samples to decode PER channel, REQUIRE n % 8 == 1 */ ) { unsigned ch; for (ch=0; ch<chans; ch++) ImaExpandS(ch, chans, ibuff, obuffs[ch], n, 1); } static int ImaMashS( unsigned ch, /* channel number to encode, REQUIRE 0 <= ch < chans */ unsigned chans, /* total channels */ int v0, /* value to use as starting prediction0 */ const SAMPL *ibuff, /* ibuff[] is interleaved input samples */ int n, /* samples to encode PER channel, REQUIRE n % 8 == 1 */ int *st, /* input/output state, REQUIRE 0 <= *st <= ISSTMAX */ unsigned char *obuff /* output buffer[blockAlign], or NULL for no output */ ) { const SAMPL *ip, *itop; unsigned char *op; int o_inc = 0; /* set 0 only to shut up gcc's 'might be uninitialized' */ int i, val; int state; double d2; /* long long is okay also, speed abt the same */ ip = ibuff + ch; /* point ip to 1st input sample for this channel */ itop = ibuff + n*chans; val = *ip - v0; ip += chans;/* 1st input sample for this channel */ d2 = val*val;/* d2 will be sum of squares of errors, given input v0 and *st */ val = v0; op = obuff; /* output pointer (or NULL) */ if (op) { /* NULL means don't output, just compute the rms error */ op += 4*ch; /* where to put this channel's 4-byte block state-initializer */ o_inc = 4*(chans-1); /* amount by which to incr op after each 4-byte written */ *op++ = val; *op++ = val>>8; *op++ = *st; *op++ = 0; /* they could have put a mid-block state-correction here */ op += o_inc; /* _sigh_ NEVER waste a byte. It's a rule! */ } state = *st; for (i = 0; ip < itop; ip+=chans) { int step,d,dp,c; d = *ip - val; /* difference between last prediction and current sample */ step = imaStepSizeTable[state]; c = (abs(d)<<2)/step; if (c > 7) c = 7; /* Update the state for the next sample */ state = imaStateAdjustTable[state][c]; if (op) { /* if we want output, put it in proper place */ int cm = c; if (d<0) cm |= 8; if (i&1) { /* odd numbered output */ *op++ |= (cm<<4); if (i == 7) /* ends the 8-sample output block for this channel */ op += o_inc; /* skip op for next group */ } else { *op = cm; } i = (i+1) & 0x07; } dp = 0; if (c & 4) dp += step; step = step >> 1; if (c & 2) dp += step; step = step >> 1; if (c & 1) dp += step; step = step >> 1; dp += step; if (d<0) { val -= dp; if (val<-0x8000) val = -0x8000; } else { val += dp; if (val>0x7fff) val = 0x7fff; } { int x = *ip - val; d2 += x*x; } } d2 /= n; /* be sure it's non-negative */ *st = state; return (int) sqrt(d2); } /* mash one channel... if you want to use opt>0, 9 is a reasonable value */ inline static void ImaMashChannel( unsigned ch, /* channel number to encode, REQUIRE 0 <= ch < chans */ unsigned chans, /* total channels */ const SAMPL *ip, /* ip[] is interleaved input samples */ int n, /* samples to encode PER channel, REQUIRE n % 8 == 1 */ int *st, /* input/output state, REQUIRE 0 <= *st <= ISSTMAX */ unsigned char *obuff, /* output buffer[blockAlign] */ int opt /* non-zero allows some cpu-intensive code to improve output */ ) { int snext; int s0,d0; s0 = *st; if (opt>0) { int low,hi,w; int low0,hi0; snext = s0; d0 = ImaMashS(ch, chans, ip[0], ip,n,&snext, NULL); w = 0; low=hi=s0; low0 = low-opt; if (low0<0) low0=0; hi0 = hi+opt; if (hi0>ISSTMAX) hi0=ISSTMAX; while (low>low0 || hi<hi0) { if (!w && low>low0) { int d2; snext = --low; d2 = ImaMashS(ch, chans, ip[0], ip,n,&snext, NULL); if (d2<d0) { d0=d2; s0=low; low0 = low-opt; if (low0<0) low0=0; hi0 = low+opt; if (hi0>ISSTMAX) hi0=ISSTMAX; } } if (w && hi<hi0) { int d2; snext = ++hi; d2 = ImaMashS(ch, chans, ip[0], ip,n,&snext, NULL); if (d2<d0) { d0=d2; s0=hi; low0 = hi-opt; if (low0<0) low0=0; hi0 = hi+opt; if (hi0>ISSTMAX) hi0=ISSTMAX; } } w=1-w; } *st = s0; } ImaMashS(ch, chans, ip[0], ip,n,st, obuff); } /* mash one block. if you want to use opt>0, 9 is a reasonable value */ void lsx_ima_block_mash_i( unsigned chans, /* total channels */ const SAMPL *ip, /* ip[] is interleaved input samples */ int n, /* samples to encode PER channel, REQUIRE n % 8 == 1 */ int *st, /* input/output state, REQUIRE 0 <= *st <= ISSTMAX */ unsigned char *obuff, /* output buffer[blockAlign] */ int opt /* non-zero allows some cpu-intensive code to improve output */ ) { unsigned ch; for (ch=0; ch<chans; ch++) ImaMashChannel(ch, chans, ip, n, st+ch, obuff, opt); } /* * lsx_ima_samples_in(dataLen, chans, blockAlign, samplesPerBlock) * returns the number of samples/channel which would go * in the dataLen, given the other parameters ... * if input samplesPerBlock is 0, then returns the max * samplesPerBlock which would go into a block of size blockAlign * Yes, it is confusing. */ size_t lsx_ima_samples_in( size_t dataLen, size_t chans, size_t blockAlign, size_t samplesPerBlock ) { size_t m, n; if (samplesPerBlock) { n = (dataLen / blockAlign) * samplesPerBlock; m = (dataLen % blockAlign); } else { n = 0; m = blockAlign; } if (m >= (size_t)4*chans) { m -= 4*chans; /* number of bytes beyond block-header */ m /= 4*chans; /* number of 4-byte blocks/channel beyond header */ m = 8*m + 1; /* samples/chan beyond header + 1 in header */ if (samplesPerBlock && m > samplesPerBlock) m = samplesPerBlock; n += m; } return n; /*wSamplesPerBlock = ((wBlockAlign - 4*wChannels)/(4*wChannels))*8 + 1;*/ } /* * size_t lsx_ima_bytes_per_block(chans, samplesPerBlock) * return minimum blocksize which would be required * to encode number of chans with given samplesPerBlock */ size_t lsx_ima_bytes_per_block( size_t chans, size_t samplesPerBlock ) { size_t n; /* per channel, ima has blocks of len 4, the 1st has 1st sample, the others * up to 8 samples per block, * so number of later blocks is (nsamp-1 + 7)/8, total blocks/chan is * (nsamp-1+7)/8 + 1 = (nsamp+14)/8 */ n = ((size_t)samplesPerBlock + 14)/8 * 4 * chans; return n; }