vgmstream/src/coding/pcm_decoder.c

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#include "coding.h"
#include "../util.h"
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#include <math.h>
void decode_pcm16le(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
outbuf[sample_count]=read_16bitLE(stream->offset+i*2,stream->streamfile);
}
}
void decode_pcm16be(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
outbuf[sample_count]=read_16bitBE(stream->offset+i*2,stream->streamfile);
}
}
void decode_pcm16_int(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int big_endian) {
int i, sample_count;
int16_t (*read_16bit)(off_t,STREAMFILE*) = big_endian ? read_16bitBE : read_16bitLE;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
outbuf[sample_count]=read_16bit(stream->offset+i*2*channelspacing,stream->streamfile);
}
}
void decode_pcm8(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
outbuf[sample_count]=read_8bit(stream->offset+i,stream->streamfile)*0x100;
}
}
void decode_pcm8_int(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
outbuf[sample_count]=read_8bit(stream->offset+i*channelspacing,stream->streamfile)*0x100;
}
}
void decode_pcm8_unsigned(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
int16_t v = (uint8_t)read_8bit(stream->offset+i,stream->streamfile);
outbuf[sample_count] = v*0x100 - 0x8000;
}
}
void decode_pcm8_unsigned_int(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
int16_t v = (uint8_t)read_8bit(stream->offset+i*channelspacing,stream->streamfile);
outbuf[sample_count] = v*0x100 - 0x8000;
}
}
void decode_pcm8_sb(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i;
int32_t sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
int16_t v = (uint8_t)read_8bit(stream->offset+i,stream->streamfile);
if (v&0x80) v = 0-(v&0x7f);
outbuf[sample_count] = v*0x100;
}
}
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void decode_pcm4(VGMSTREAM * vgmstream, VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int channel) {
int i, nibble_shift, is_high_first, is_stereo;
int32_t sample_count;
int16_t v;
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off_t byte_offset;
is_high_first = (vgmstream->codec_config & 1);
is_stereo = (vgmstream->channels != 1);
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
byte_offset = is_stereo ?
stream->offset + i : /* stereo: one nibble per channel (assumed, not sure if stereo version actually exists) */
stream->offset + i/2; /* mono: consecutive nibbles */
nibble_shift = is_high_first ?
is_stereo ? (!(channel&1) ? 4:0) : (!(i&1) ? 4:0) : /* even = high, odd = low */
is_stereo ? (!(channel&1) ? 0:4) : (!(i&1) ? 0:4); /* even = low, odd = high */
v = (int16_t)read_8bit(byte_offset, stream->streamfile);
v = (v >> nibble_shift) & 0x0F;
outbuf[sample_count] = v*0x11*0x100;
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}
}
void decode_pcm4_unsigned(VGMSTREAM * vgmstream, VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int channel) {
int i, nibble_shift, is_high_first, is_stereo;
int32_t sample_count;
int16_t v;
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off_t byte_offset;
is_high_first = (vgmstream->codec_config & 1);
is_stereo = (vgmstream->channels != 1);
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
byte_offset = is_stereo ?
stream->offset + i : /* stereo: one nibble per channel (assumed, not sure if stereo version actually exists) */
stream->offset + i/2; /* mono: consecutive nibbles */
nibble_shift = is_high_first ?
is_stereo ? (!(channel&1) ? 4:0) : (!(i&1) ? 4:0) : /* even = high, odd = low */
is_stereo ? (!(channel&1) ? 0:4) : (!(i&1) ? 0:4); /* even = low, odd = high */
v = (int16_t)read_8bit(byte_offset, stream->streamfile);
v = (v >> nibble_shift) & 0x0F;
outbuf[sample_count] = v*0x11*0x100 - 0x8000;
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}
}
static int expand_ulaw(uint8_t ulawbyte) {
int sign, segment, quantization, new_sample;
const int bias = 0x84;
ulawbyte = ~ulawbyte; /* stored in complement */
sign = (ulawbyte & 0x80);
segment = (ulawbyte & 0x70) >> 4; /* exponent */
quantization = ulawbyte & 0x0F; /* mantissa */
new_sample = (quantization << 3) + bias; /* add bias */
new_sample <<= segment;
new_sample = (sign) ? (bias - new_sample) : (new_sample - bias); /* remove bias */
#if 0 // the above follows Sun's implementation, but this works too
{
static int exp_lut[8] = {0,132,396,924,1980,4092,8316,16764}; /* precalcs from bias */
new_sample = exp_lut[segment] + (quantization << (segment + 3));
if (sign != 0) new_sample = -new_sample;
}
#endif
return new_sample;
}
/* decodes u-law (ITU G.711 non-linear PCM), from g711.c */
void decode_ulaw(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i, sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
uint8_t ulawbyte = read_8bit(stream->offset+i,stream->streamfile);
outbuf[sample_count] = expand_ulaw(ulawbyte);
}
}
void decode_ulaw_int(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i, sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
uint8_t ulawbyte = read_8bit(stream->offset+i*channelspacing,stream->streamfile);
outbuf[sample_count] = expand_ulaw(ulawbyte);
}
}
static int expand_alaw(uint8_t alawbyte) {
int sign, segment, quantization, new_sample;
alawbyte ^= 0x55;
sign = (alawbyte & 0x80);
segment = (alawbyte & 0x70) >> 4; /* exponent */
quantization = alawbyte & 0x0F; /* mantissa */
new_sample = (quantization << 4);
switch (segment) {
case 0:
new_sample += 8;
break;
case 1:
new_sample += 0x108;
break;
default:
new_sample += 0x108;
new_sample <<= segment - 1;
break;
}
new_sample = (sign) ? new_sample : -new_sample;
return new_sample;
}
/* decodes a-law (ITU G.711 non-linear PCM), from g711.c */
void decode_alaw(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do) {
int i, sample_count;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
uint8_t alawbyte = read_8bit(stream->offset+i,stream->streamfile);
outbuf[sample_count] = expand_alaw(alawbyte);;
}
}
void decode_pcmfloat(VGMSTREAMCHANNEL * stream, sample * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int big_endian) {
int i, sample_count;
int32_t (*read_32bit)(off_t,STREAMFILE*) = big_endian ? read_32bitBE : read_32bitLE;
for (i=first_sample,sample_count=0; i<first_sample+samples_to_do; i++,sample_count+=channelspacing) {
uint32_t sample_int = read_32bit(stream->offset+i*4,stream->streamfile);
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float* sample_float;
int sample_pcm;
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sample_float = (float*)&sample_int;
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sample_pcm = (int)floor((*sample_float) * 32767.f + .5f);
outbuf[sample_count] = clamp16(sample_pcm);
}
}
size_t pcm_bytes_to_samples(size_t bytes, int channels, int bits_per_sample) {
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return (bytes * 8) / channels / bits_per_sample;
}