vgmstream/src/coding/ptadpcm_decoder.c

#include "coding.h"


/* a somewhat IMA-like mix of step+next index all in one (maybe an array[][] originally?) */
static const int32_t ptadpcm_table[(16+16)*16] = { /* 16 of (step+index) + 16 values in a nibble */
        -14,  2,     -10,  2,      -7,  1,      -5,  1,      -3,  0,      -2,  0,      -1,  0,       0,  0,
          0,  0,       1,  0,       2,  0,       3,  0,       5,  1,       7,  1,      10,  2,      14,  2,
        -28,  3,     -20,  3,     -14,  2,     -10,  2,      -7,  1,      -5,  1,      -3,  1,      -1,  0,
          1,  0,       3,  1,       5,  1,       7,  1,      10,  2,      14,  2,      20,  3,      28,  3,
        -56,  4,     -40,  4,     -28,  3,     -20,  3,     -14,  2,     -10,  2,      -6,  2,      -2,  1,
          2,  1,       6,  2,      10,  2,      14,  2,      20,  3,      28,  3,      40,  4,      56,  4,
       -112,  5,     -80,  5,     -56,  4,     -40,  4,     -28,  3,     -20,  3,     -12,  3,      -4,  2,
          4,  2,      12,  3,      20,  3,      28,  3,      40,  4,      56,  4,      80,  5,     112,  5,
       -224,  6,    -160,  6,    -112,  5,     -80,  5,     -56,  4,     -40,  4,     -24,  4,      -8,  3,
          8,  3,      24,  4,      40,  4,      56,  4,      80,  5,     112,  5,     160,  6,     224,  6,
       -448,  7,    -320,  7,    -224,  6,    -160,  6,    -112,  5,     -80,  5,     -48,  5,     -16,  4,
         16,  4,      48,  5,      80,  5,     112,  5,     160,  6,     224,  6,     320,  7,     448,  7,
       -896,  8,    -640,  8,    -448,  7,    -320,  7,    -224,  6,    -160,  6,     -96,  6,     -32,  5,
         32,  5,      96,  6,     160,  6,     224,  6,     320,  7,     448,  7,     640,  8,     896,  8,
      -1792,  9,   -1280,  9,    -896,  8,    -640,  8,    -448,  7,    -320,  7,    -192,  7,     -64,  6,
         64,  6,     192,  7,     320,  7,     448,  7,     640,  8,     896,  8,    1280,  9,    1792,  9,
      -3584, 10,   -2560, 10,   -1792,  9,   -1280,  9,    -896,  8,    -640,  8,    -384,  8,    -128,  7,
        128,  7,     384,  8,     640,  8,     896,  8,    1280,  9,    1792,  9,    2560, 10,    3584, 10,
      -7168, 11,   -5120, 11,   -3584, 10,   -2560, 10,   -1792,  9,   -1280,  9,    -768,  9,    -256,  8,
        256,  8,     768,  9,    1280,  9,    1792,  9,    2560, 10,    3584, 10,    5120, 11,    7168, 11,
     -14336, 11,  -10240, 11,   -7168, 11,   -5120, 11,   -3584, 10,   -2560, 10,   -1536, 10,    -512,  9,
        512,  9,    1536, 10,    2560, 10,    3584, 10,    5120, 11,    7168, 11,   10240, 11,   14336, 11,
     -28672, 11,  -20480, 11,  -14336, 11,  -10240, 11,   -7168, 11,   -5120, 11,   -3072, 11,   -1024, 10,
       1024, 10,    3072, 11,    5120, 11,    7168, 11,   10240, 11,   14336, 11,   20480, 11,   28672, 11,
        /* rest is 0s */
};

/* Platinum "PtADPCM" custom ADPCM for Wwise (reverse engineered from .exes). */
void decode_ptadpcm(VGMSTREAMCHANNEL * stream, sample_t * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, size_t frame_size) {
    off_t frame_offset;
    int i, frames_in, sample_count = 0, samples_done = 0;
    size_t bytes_per_frame, samples_per_frame;
    int16_t hist1, hist2;
    int index, step;

    /* external interleave (variable size), mono */
    bytes_per_frame = frame_size;
    samples_per_frame = 2 + (frame_size - 0x05) * 2;
    frames_in = first_sample / samples_per_frame;
    first_sample = first_sample % samples_per_frame;

    /* parse frame header */
    frame_offset = stream->offset + bytes_per_frame*frames_in;
    hist2 = read_16bitLE(frame_offset+0x00,stream->streamfile);
    hist1 = read_16bitLE(frame_offset+0x02,stream->streamfile);
    index = (uint8_t)read_8bit(frame_offset+0x04,stream->streamfile);

    VGM_ASSERT_ONCE(index > 12, "PTADPCM: incorrect index at %x\n", (uint32_t)frame_offset);

    /* write header samples (needed) */
    if (sample_count >= first_sample && samples_done < samples_to_do) {
        outbuf[samples_done * channelspacing] = hist2;
        samples_done++;
    }
    sample_count++;
    if (sample_count >= first_sample && samples_done < samples_to_do) {
        outbuf[samples_done * channelspacing] = hist1;
        samples_done++;
    }
    sample_count++;

    /* decode nibbles */
    for (i = first_sample; i < first_sample + samples_to_do; i++) {
        int32_t new_sample;
        uint8_t nibbles = (uint8_t)read_8bit(frame_offset+0x05 + i/2,stream->streamfile);
        uint8_t nibble;

        nibble = !(i&1) ? /* low nibble first */
                (nibbles >> 0) & 0xF :
                (nibbles >> 4) & 0xF;

        step  = ptadpcm_table[2*(nibble + 16*index) + 0];
        index = ptadpcm_table[2*(nibble + 16*index) + 1];
        new_sample = clamp16(step + 2*hist1 - hist2);

        if (sample_count >= first_sample && samples_done < samples_to_do) {
            outbuf[samples_done * channelspacing] = new_sample;
            samples_done++;
        }
        sample_count++;

        hist2 = hist1;
        hist1 = new_sample;
    }

    //stream->adpcm_history1_32 = hist1;
    //stream->adpcm_history2_32 = hist2;
}

size_t ptadpcm_bytes_to_samples(size_t bytes, int channels, size_t frame_size) {
    if (channels <= 0 || frame_size < 0x06) return 0;
    return (bytes / channels / frame_size) * ((frame_size-0x05) * 2);
}
Add Platinum ADPCM for .wem [Bayonetta 2 (Switch)] 2019-08-29 00:54:49 +02:00			`#include "coding.h"`


Misc tweaks 2019-09-02 20:48:33 +02:00			`/* a somewhat IMA-like mix of step+next index all in one (maybe an array[][] originally?) */`
Add Platinum ADPCM for .wem [Bayonetta 2 (Switch)] 2019-08-29 00:54:49 +02:00			`static const int32_t ptadpcm_table[(16+16)16] = { / 16 of (step+index) + 16 values in a nibble */`
Misc tweaks 2019-09-02 20:48:33 +02:00			`-14, 2, -10, 2, -7, 1, -5, 1, -3, 0, -2, 0, -1, 0, 0, 0,`
			`0, 0, 1, 0, 2, 0, 3, 0, 5, 1, 7, 1, 10, 2, 14, 2,`
			`-28, 3, -20, 3, -14, 2, -10, 2, -7, 1, -5, 1, -3, 1, -1, 0,`
			`1, 0, 3, 1, 5, 1, 7, 1, 10, 2, 14, 2, 20, 3, 28, 3,`
			`-56, 4, -40, 4, -28, 3, -20, 3, -14, 2, -10, 2, -6, 2, -2, 1,`
			`2, 1, 6, 2, 10, 2, 14, 2, 20, 3, 28, 3, 40, 4, 56, 4,`
			`-112, 5, -80, 5, -56, 4, -40, 4, -28, 3, -20, 3, -12, 3, -4, 2,`
			`4, 2, 12, 3, 20, 3, 28, 3, 40, 4, 56, 4, 80, 5, 112, 5,`
			`-224, 6, -160, 6, -112, 5, -80, 5, -56, 4, -40, 4, -24, 4, -8, 3,`
			`8, 3, 24, 4, 40, 4, 56, 4, 80, 5, 112, 5, 160, 6, 224, 6,`
			`-448, 7, -320, 7, -224, 6, -160, 6, -112, 5, -80, 5, -48, 5, -16, 4,`
			`16, 4, 48, 5, 80, 5, 112, 5, 160, 6, 224, 6, 320, 7, 448, 7,`
			`-896, 8, -640, 8, -448, 7, -320, 7, -224, 6, -160, 6, -96, 6, -32, 5,`
			`32, 5, 96, 6, 160, 6, 224, 6, 320, 7, 448, 7, 640, 8, 896, 8,`
			`-1792, 9, -1280, 9, -896, 8, -640, 8, -448, 7, -320, 7, -192, 7, -64, 6,`
			`64, 6, 192, 7, 320, 7, 448, 7, 640, 8, 896, 8, 1280, 9, 1792, 9,`
			`-3584, 10, -2560, 10, -1792, 9, -1280, 9, -896, 8, -640, 8, -384, 8, -128, 7,`
			`128, 7, 384, 8, 640, 8, 896, 8, 1280, 9, 1792, 9, 2560, 10, 3584, 10,`
			`-7168, 11, -5120, 11, -3584, 10, -2560, 10, -1792, 9, -1280, 9, -768, 9, -256, 8,`
			`256, 8, 768, 9, 1280, 9, 1792, 9, 2560, 10, 3584, 10, 5120, 11, 7168, 11,`
			`-14336, 11, -10240, 11, -7168, 11, -5120, 11, -3584, 10, -2560, 10, -1536, 10, -512, 9,`
			`512, 9, 1536, 10, 2560, 10, 3584, 10, 5120, 11, 7168, 11, 10240, 11, 14336, 11,`
			`-28672, 11, -20480, 11, -14336, 11, -10240, 11, -7168, 11, -5120, 11, -3072, 11, -1024, 10,`
			`1024, 10, 3072, 11, 5120, 11, 7168, 11, 10240, 11, 14336, 11, 20480, 11, 28672, 11,`
Add Platinum ADPCM for .wem [Bayonetta 2 (Switch)] 2019-08-29 00:54:49 +02:00			`/* rest is 0s */`
			`};`

			`/* Platinum "PtADPCM" custom ADPCM for Wwise (reverse engineered from .exes). */`
			`void decode_ptadpcm(VGMSTREAMCHANNEL * stream, sample_t * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, size_t frame_size) {`
			`off_t frame_offset;`
			`int i, frames_in, sample_count = 0, samples_done = 0;`
			`size_t bytes_per_frame, samples_per_frame;`
			`int16_t hist1, hist2;`
			`int index, step;`

			`/* external interleave (variable size), mono */`
			`bytes_per_frame = frame_size;`
			`samples_per_frame = 2 + (frame_size - 0x05) * 2;`
			`frames_in = first_sample / samples_per_frame;`
			`first_sample = first_sample % samples_per_frame;`

			`/* parse frame header */`
			`frame_offset = stream->offset + bytes_per_frame*frames_in;`
			`hist2 = read_16bitLE(frame_offset+0x00,stream->streamfile);`
			`hist1 = read_16bitLE(frame_offset+0x02,stream->streamfile);`
			`index = (uint8_t)read_8bit(frame_offset+0x04,stream->streamfile);`

			`VGM_ASSERT_ONCE(index > 12, "PTADPCM: incorrect index at %x\n", (uint32_t)frame_offset);`

			`/* write header samples (needed) */`
			`if (sample_count >= first_sample && samples_done < samples_to_do) {`
			`outbuf[samples_done * channelspacing] = hist2;`
			`samples_done++;`
			`}`
			`sample_count++;`
			`if (sample_count >= first_sample && samples_done < samples_to_do) {`
			`outbuf[samples_done * channelspacing] = hist1;`
			`samples_done++;`
			`}`
			`sample_count++;`

			`/* decode nibbles */`
			`for (i = first_sample; i < first_sample + samples_to_do; i++) {`
			`int32_t new_sample;`
			`uint8_t nibbles = (uint8_t)read_8bit(frame_offset+0x05 + i/2,stream->streamfile);`
			`uint8_t nibble;`

			`nibble = !(i&1) ? /* low nibble first */`
			`(nibbles >> 0) & 0xF :`
			`(nibbles >> 4) & 0xF;`

			`step = ptadpcm_table[2(nibble + 16index) + 0];`
			`index = ptadpcm_table[2(nibble + 16index) + 1];`
			`new_sample = clamp16(step + 2*hist1 - hist2);`

			`if (sample_count >= first_sample && samples_done < samples_to_do) {`
			`outbuf[samples_done * channelspacing] = new_sample;`
			`samples_done++;`
			`}`
			`sample_count++;`

			`hist2 = hist1;`
			`hist1 = new_sample;`
			`}`

			`//stream->adpcm_history1_32 = hist1;`
			`//stream->adpcm_history2_32 = hist2;`
			`}`

			`size_t ptadpcm_bytes_to_samples(size_t bytes, int channels, size_t frame_size) {`
			`if (channels <= 0 \|\| frame_size < 0x06) return 0;`
			`return (bytes / channels / frame_size) * ((frame_size-0x05) * 2);`
			`}`