mirror of
https://github.com/vgmstream/vgmstream.git
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e62c8a90cb
git-svn-id: https://vgmstream.svn.sourceforge.net/svnroot/vgmstream@283 51a99a44-fe44-0410-b1ba-c3e57ba2b86b
147 lines
6.6 KiB
C
147 lines
6.6 KiB
C
#include <math.h>
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#include "coding.h"
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#include "../util.h"
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/* Westwood Studios ADPCM */
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/* Based on Valery V. Anisimovsky's WS-AUD.txt */
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static char WSTable2bit[4]={-2,-1,0,1};
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static char WSTable4bit[16]={-9,-8,-6,-5,-4,-3,-2,-1,
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0, 1, 2, 3, 4, 5 ,6, 8};
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/* We pass in the VGMSTREAM here, unlike in other codings, because
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the decoder has to know about the block structure. */
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void decode_ws(VGMSTREAM * vgmstream, int channel, sample * outbuf, int channelspacing, int32_t first_sample,
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int32_t samples_to_do) {
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VGMSTREAMCHANNEL * stream = &(vgmstream->ch[channel]);
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int16_t hist = stream->adpcm_history1_16;
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off_t offset = stream->offset;
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int samples_left_in_frame = stream->samples_left_in_frame;
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off_t header_off = stream->frame_header_offset;
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int i;
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int32_t sample_count;
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if (vgmstream->ws_output_size == vgmstream->current_block_size) {
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/* uncompressed, we just need to convert to 16-bit */
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for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing,offset++) {
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outbuf[sample_count]=((uint8_t)read_8bit(offset,stream->streamfile)-0x80)*0x100;
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}
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} else {
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if (first_sample == 0) {
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hist = 0x80;
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samples_left_in_frame = 0;
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}
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/* actually decompress */
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for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; ) {
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uint8_t header;
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uint8_t count;
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if (samples_left_in_frame == 0) {
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header_off = offset;
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offset++;
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}
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header = read_8bit(header_off,stream->streamfile);
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count = header & 0x3f;
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switch (header>>6) { /* code */
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case 0: /* 2-bit ADPCM */
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if (samples_left_in_frame == 0) {
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samples_left_in_frame = (count + 1)*4;
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}
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for (;samples_left_in_frame>0 && /* read this frame */
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i<first_sample+samples_to_do; /* up to samples_to_do */
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i++,sample_count+=channelspacing, /* done with writing a sample */
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samples_left_in_frame--) { /* done with reading a sample */
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int twobit = ((count + 1)*4-samples_left_in_frame)%4;
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uint8_t sample;
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sample = read_8bit(offset,stream->streamfile);
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sample = (sample >> (twobit*2)) & 0x3;
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hist += WSTable2bit[sample];
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if (hist < 0) hist = 0;
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if (hist > 0xff) hist = 0xff;
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outbuf[sample_count]=(hist-0x80)*0x100;
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if (twobit == 3)
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offset++; /* done with that byte */
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}
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break;
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case 1: /* 4-bit ADPCM */
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if (samples_left_in_frame == 0) {
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samples_left_in_frame = (count + 1)*2;
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}
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for (;samples_left_in_frame>0 && /* read this frame */
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i<first_sample+samples_to_do; /* up to samples_to_do */
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i++,sample_count+=channelspacing, /* done with writing a sample */
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samples_left_in_frame--) { /* done with reading a sample */
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int nibble = ((count + 1)*4-samples_left_in_frame)%2;
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uint8_t sample;
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sample = read_8bit(offset,stream->streamfile);
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if (nibble == 0)
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sample &= 0xf;
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else
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sample >>= 4;
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hist += WSTable4bit[sample];
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if (hist < 0) hist = 0;
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if (hist > 0xff) hist = 0xff;
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outbuf[sample_count]=(hist-0x80)*0x100;
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if (nibble == 1)
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offset++; /* done with that byte */
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}
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break;
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case 2: /* no compression */
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if (count & 0x20) { /* delta */
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/* Note no checks against samples_to_do here,
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at the top of the for loop we can always do at
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least one sample */
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/* low 5 bits are a signed delta */
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if (count & 0x10) {
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hist -= ((count & 0xf)^0xf) + 1;
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} else {
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hist += count & 0xf;
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}
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/* Valery doesn't specify this, but I will assume */
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if (hist < 0) hist = 0;
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if (hist > 0xff) hist = 0xff;
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outbuf[sample_count]=(hist-0x80)*0x100;
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sample_count+=channelspacing;
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i++;
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/* just one, and we got it */
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samples_left_in_frame = 0;
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} else { /* copy bytes verbatim */
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if (samples_left_in_frame == 0)
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samples_left_in_frame=count+1;
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for (;samples_left_in_frame>0 && /* read this frame */
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i<first_sample+samples_to_do; /* up to samples_to_do */
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offset++, /* done with a byte */
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i++,sample_count+=channelspacing, /* done with writing a sample */
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samples_left_in_frame--) { /* done with reading a sample */
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outbuf[sample_count]=((hist=(uint8_t)read_8bit(offset,stream->streamfile))-0x80)*0x100;
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}
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}
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break;
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case 3: /* RLE */
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if (samples_left_in_frame == 0)
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samples_left_in_frame=count+1;
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for (;samples_left_in_frame>0 && /* read this frame */
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i<first_sample+samples_to_do; /* up to samples_to_do */
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i++,sample_count+=channelspacing, /* done with writing a sample */
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samples_left_in_frame--) { /* done with reading a sample */
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outbuf[sample_count]=(hist-0x80)*0x100;
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}
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}
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}
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}
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stream->offset = offset;
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stream->adpcm_history1_16 = hist;
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stream->samples_left_in_frame = samples_left_in_frame;
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stream->frame_header_offset = header_off;
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}
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