#include "coding.h" static const int step_sizes[49] = { /* OKI table (subsection of IMA's table) */ 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 }; static const int stex_indexes[16] = { /* OKI table (also from IMA) */ -1, -1, -1, -1, 2, 4, 6, 8, -1, -1, -1, -1, 2, 4, 6, 8 }; static void pcfx_expand_nibble(VGMSTREAMCHANNEL * stream, off_t byte_offset, int nibble_shift, int32_t * hist1, int32_t * step_index, int16_t *out_sample, int mode) { int code, step, delta; code = (read_8bit(byte_offset,stream->streamfile) >> nibble_shift) & 0xf; step = step_sizes[*step_index]; delta = (code & 0x7); if (mode & 1) { if (step == 1552) /* bad last step_sizes value from OKI table */ step = 1522; delta = step * (delta + 1) * 2; } else { delta = step * (delta + 1); } if (code & 0x8) delta = -delta; *step_index += stex_indexes[code]; if (*step_index < 0) *step_index = 0; if (*step_index > 48) *step_index = 48; *hist1 += delta; if (*hist1 > 16383) *hist1 = 16383; if (*hist1 < -16384) *hist1 = -16384; if (mode & 1) { *out_sample = *hist1; } else { *out_sample = *hist1 << 1; } /* seems real HW does filtering here too */ /* double volume since it clips at half */ if (mode & 2) { *out_sample = *hist1 << 1; } } static void oki16_expand_nibble(VGMSTREAMCHANNEL * stream, off_t byte_offset, int nibble_shift, int32_t * hist1, int32_t * step_index, int16_t *out_sample) { int code, step, delta; code = (read_8bit(byte_offset,stream->streamfile) >> nibble_shift) & 0xf; step = step_sizes[*step_index]; /* IMA 'mul' style (standard OKI uses 'shift-add') */ delta = (code & 0x7); delta = (((delta * 2) + 1) * step) >> 3; if (code & 0x8) delta = -delta; *hist1 += delta; /* standard OKI clamps hist to 2047,-2048 here */ *step_index += stex_indexes[code]; if (*step_index < 0) *step_index = 0; if (*step_index > 48) *step_index = 48; *out_sample = *hist1; } static void oki4s_expand_nibble(VGMSTREAMCHANNEL * stream, off_t byte_offset, int nibble_shift, int32_t * hist1, int32_t * step_index, int16_t *out_sample) { int code, step, delta; code = (read_8bit(byte_offset,stream->streamfile) >> nibble_shift) & 0xf; step = step_sizes[*step_index]; step = step << 4; /* original table has precomputed step_sizes so that this isn't done */ /* IMA 'shift-add' style (like standard OKI) */ delta = step >> 3; if (code & 1) delta += step >> 2; if (code & 2) delta += step >> 1; if (code & 4) delta += step; if (code & 8) delta = -delta; *hist1 += delta; *hist1 = clamp16(*hist1); /* standard OKI clamps hist to 2047,-2048 here */ *step_index += stex_indexes[code]; if (*step_index < 0) *step_index = 0; if (*step_index > 48) *step_index = 48; *out_sample = *hist1; } /* PC-FX ADPCM decoding, variation of OKI/Dialogic/VOX ADPCM. Based on mednafen/pcfx-music-dump. * Apparently most ADPCM was made with a buggy encoder, resulting in incorrect sound in real hardware * and sound clipped at half. Decoding can be controlled with modes: * - 0: hardware decoding (waveforms in many games will look wrong, ex. Der Langrisser track 032) * - 1: 'buggy encoder' decoding (waveforms will look fine) * - 2: hardware decoding with double volume (may clip?) * - 3: 'buggy encoder' decoding with double volume * * PC-FX ISOs don't have a standard filesystem nor file formats (raw data must be custom-ripped), * so it's needs GENH/TXTH. Sample rate can only be base_value divided by 1/2/3/4, where * base_value is approximately ~31468.5 (follows hardware clocks), mono or interleaved for stereo. */ void decode_pcfx(VGMSTREAMCHANNEL * stream, sample_t * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int mode) { int i, sample_count = 0; int32_t hist1 = stream->adpcm_history1_32; int step_index = stream->adpcm_step_index; int16_t out_sample; for (i = first_sample; i < first_sample + samples_to_do; i++) { off_t byte_offset = stream->offset + i/2; int nibble_shift = (i&1?4:0); /* low nibble first */ pcfx_expand_nibble(stream, byte_offset,nibble_shift, &hist1, &step_index, &out_sample, mode); outbuf[sample_count] = out_sample; sample_count += channelspacing; } stream->adpcm_history1_32 = hist1; stream->adpcm_step_index = step_index; } /* OKI variation with 16-bit output (vs standard's 12-bit), found in FrontWing's PS2 games (Sweet Legacy, Hooligan). * Reverse engineered from the ELF with help from the folks at hcs. */ void decode_oki16(VGMSTREAMCHANNEL * stream, sample_t * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int channel) { int i, sample_count = 0; int32_t hist1 = stream->adpcm_history1_32; int step_index = stream->adpcm_step_index; int16_t out_sample; int is_stereo = channelspacing > 1; /* external interleave */ /* no header (external setup), pre-clamp for wrong values */ if (step_index < 0) step_index=0; if (step_index > 48) step_index=48; /* decode nibbles (layout: varies) */ for (i = first_sample; i < first_sample + samples_to_do; i++, sample_count += channelspacing) { off_t byte_offset = is_stereo ? stream->offset + i : /* stereo: one nibble per channel */ stream->offset + i/2; /* mono: consecutive nibbles (assumed) */ int nibble_shift = is_stereo ? (!(channel&1) ? 0:4) : (!(i&1) ? 0:4); /* even = low, odd = high */ oki16_expand_nibble(stream, byte_offset,nibble_shift, &hist1, &step_index, &out_sample); outbuf[sample_count] = (out_sample); } stream->adpcm_history1_32 = hist1; stream->adpcm_step_index = step_index; } /* OKI variation with 16-bit output (vs standard's 12-bit) and pre-adjusted tables (shifted by 4), found in Jubeat Clan (AC). * Reverse engineered from the DLLs. */ void decode_oki4s(VGMSTREAMCHANNEL * stream, sample_t * outbuf, int channelspacing, int32_t first_sample, int32_t samples_to_do, int channel) { int i, sample_count = 0; int32_t hist1 = stream->adpcm_history1_32; int step_index = stream->adpcm_step_index; int16_t out_sample; int is_stereo = channelspacing > 1; /* external interleave */ /* no header (external setup), pre-clamp for wrong values */ if (step_index < 0) step_index=0; if (step_index > 48) step_index=48; /* decode nibbles (layout: varies) */ for (i = first_sample; i < first_sample + samples_to_do; i++, sample_count += channelspacing) { off_t byte_offset = is_stereo ? stream->offset + i : /* stereo: one nibble per channel */ stream->offset + i/2; /* mono: consecutive nibbles (assumed) */ int nibble_shift = is_stereo ? (!(channel&1) ? 0:4) : (!(i&1) ? 0:4); /* even = low, odd = high */ oki4s_expand_nibble(stream, byte_offset,nibble_shift, &hist1, &step_index, &out_sample); outbuf[sample_count] = (out_sample); } stream->adpcm_history1_32 = hist1; stream->adpcm_step_index = step_index; } size_t oki_bytes_to_samples(size_t bytes, int channels) { if (channels <= 0) return 0; /* 2 samples per byte (2 nibbles) in stereo or mono config */ return bytes * 2 / channels; }