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210 lines
4.4 KiB
C++
210 lines
4.4 KiB
C++
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/* this file is a part of amp software, (C) tomislav uzelac 1996,1997
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*/
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/* huffman.c huffman decoding
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*
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* Created by: tomislav uzelac Mar,Apr 1996
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* Last modified by: tomislav uzelac Mar 8 97
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*/
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#include <stdlib.h>
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#include "audio.h"
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#include "getbits.h"
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#define HUFFMAN
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#include "huffman.h"
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static inline unsigned int viewbits(int n)
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{
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unsigned int pos,ret_value;
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pos = data >> 3;
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ret_value = buffer[pos] << 24 |
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buffer[pos+1] << 16 |
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buffer[pos+2] << 8 |
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buffer[pos+3];
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ret_value <<= data & 7;
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ret_value >>= 32 - n;
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return ret_value;
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}
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static inline void sackbits(int n)
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{
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data += n;
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data &= 8*BUFFER_SIZE-1;
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}
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/* huffman_decode() is supposed to be faster now
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* decodes one codeword and returns no. of bits
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*/
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static inline int huffman_decode(int tbl,int *x,int *y)
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{
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unsigned int chunk;
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register unsigned int *h_tab;
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register unsigned int lag;
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register unsigned int half_lag;
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int len;
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h_tab=tables[tbl];
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chunk=viewbits(19);
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h_tab += h_cue[tbl][chunk >> (19-NC_O)];
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len=(*h_tab>>8)&0x1f;
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/* check for an immediate hit, so we can decode those short codes very fast
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*/
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if ((*h_tab>>(32-len)) != (chunk>>(19-len))) {
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if (chunk >> (19-NC_O) < N_CUE-1)
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lag=(h_cue[tbl][(chunk >> (19-NC_O))+1] -
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h_cue[tbl][chunk >> (19-NC_O)]);
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else {
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/* we strongly depend on h_cue[N_CUE-1] to point to
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* the last entry in the huffman table, so we should
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* not get here anyway. if it didn't, we'd have to
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* have another table with huffman tables lengths, and
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* it would be a mess. just in case, scream&shout.
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*/
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printf(" h_cue clobbered. this is a bug. blip.\n");
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exit (-1);
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}
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chunk <<= 32-19;
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chunk |= 0x1ff;
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half_lag = lag >> 1;
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h_tab += half_lag;
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lag -= half_lag;
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while (lag > 1) {
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half_lag = lag >> 1;
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if (*h_tab < chunk)
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h_tab += half_lag;
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else
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h_tab -= half_lag;
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lag -= half_lag;
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}
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len=(*h_tab>>8)&0x1f;
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if ((*h_tab>>(32-len)) != (chunk>>(32-len))) {
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if (*h_tab > chunk)
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h_tab--;
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else
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h_tab++;
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len=(*h_tab>>8)&0x1f;
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}
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}
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sackbits(len);
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*x=(*h_tab>>4)&0xf;
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*y=*h_tab&0xf;
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return len;
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}
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static inline int _qsign(int x,int *q)
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{
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int ret_value=0,i;
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for (i=3;i>=0;i--)
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if ((x>>i) & 1) {
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if (getbits(1)) *q++=-1;
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else *q++=1;
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ret_value++;
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}
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else *q++=0;
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return ret_value;
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}
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int decode_huffman_data(struct SIDE_INFO *info,int gr,int ch,int ssize)
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{
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int l,i,cnt,x,y;
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int q[4],r[3],linbits[3],tr[4]={0,0,0,0};
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int big_value = info->big_values[gr][ch] << 1;
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for (l=0;l<3;l++) {
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tr[l]=info->table_select[gr][ch][l];
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linbits[l]=t_linbits[info->table_select[gr][ch][l]];
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}
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tr[3]=32+info->count1table_select[gr][ch];
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/* we have to be careful here because big_values are not necessarily
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* aligned with sfb boundaries
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*/
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if (!info->window_switching_flag[gr][ch] && info->block_type[gr][ch]==0) {
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/* this code needed some cleanup
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*/
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r[0]=t_l[info->region0_count[gr][ch]] + 1;
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if (r[0] > big_value)
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r[0]=r[1]=big_value;
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else {
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r[1]=t_l[ info->region0_count[gr][ch] + info->region1_count[gr][ch] + 1 ] + 1;
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if (r[1] > big_value)
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r[1]=big_value;
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}
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r[2]=big_value;
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} else {
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if (info->block_type[gr][ch]==2 && info->mixed_block_flag[gr][ch]==0)
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r[0]=3*(t_s[2]+1);
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else
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r[0]=t_l[7]+1;
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if (r[0] > big_value)
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r[0]=big_value;
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r[1]=r[2]=big_value;
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}
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l=0; cnt=0;
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for (i=0;i<3;i++) {
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for (;l<r[i];l+=2) {
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int j = linbits[i];
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cnt+=huffman_decode(tr[i],&x,&y);
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if (x==15 && j>0) {
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x+=getbits(j);
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cnt+=j;
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}
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if (x) {
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if (getbits(1)) x=-x;
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cnt++;
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}
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if (y==15 && j>0) {
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y+=getbits(j);
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cnt+=j;
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}
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if (y) {
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if (getbits(1)) y=-y;
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cnt++;
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}
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is[ch][l]=x;
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is[ch][l+1]=y;
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}
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}
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while ((cnt < info->part2_3_length[gr][ch]-ssize) && (l<576)) {
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cnt+=huffman_decode(tr[3],&x,&y);
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cnt+=_qsign(x,q);
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for (i=0;i<4;i++) is[ch][l+i]=q[i]; /* ziher je ziher, is[578]*/
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l+=4;
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}
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/* set position to start of the next gr/ch
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*/
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if (cnt != info->part2_3_length[gr][ch] - ssize ) {
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data-=cnt-(info->part2_3_length[gr][ch] - ssize);
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data&= 8*BUFFER_SIZE - 1;
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}
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if (l<576) non_zero[ch]=l;
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else non_zero[ch]=576;
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/* zero out everything else
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*/
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for (;l<576;l++) is[ch][l]=0;
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return 1;
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}
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