DSP (File Format): Difference between revisions

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>Aruki
m (Removing filedone template. Should we keep that template around so we can have a category for fully documented formats?)
m (Fix syntaxhighlight)
Tag: Manual revert
 
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{| class="wikitable"
{| class="wikitable"
! Offset
! Offset
! Type
! Size
! Size
! Description
! Description
|-
|-
| 0x0
| 0x0
| u32
| 4
| 4
| '''Sample count'''
| '''Sample count'''
|-
|-
| 0x4
| 0x4
| u32
| 4
| 4
| '''ADPCM nibble count'''; includes frame headers
| '''ADPCM nibble count'''; includes frame headers
|-
|-
| 0x8
| 0x8
| u32
| 4
| 4
| '''Sample rate'''
| '''Sample rate'''
|-
|-
| 0xC
| 0xC
| u16
| 2
| 2
| '''Loop flag'''; 1 means looped, 0 means not looped
| '''Loop flag'''; 1 means looped, 0 means not looped
|-
|-
| 0xE
| 0xE
| u16
| 2
| 2
| '''Format'''; always 0
| '''Format'''; always 0
|-
|-
| 0x10
| 0x10
| u32
| 4
| 4
| '''Loop start offset'''
| '''Loop start offset'''
|-
|-
| 0x14
| 0x14
| u32
| 4
| 4
| '''Loop end offset'''
| '''Loop end offset'''
|-
|-
| 0x18
| 0x18
| u32
| 4
| 4
| '''Current address'''; always 0
| '''Current address'''; always 0
|-
|-
| 0x1C
| 0x1C
| s16[16]
| 2 × 16
| 2 × 16
| '''Decode coefficients'''; this is 8 pairs of signed 16-bit values
| '''Decode coefficients'''; this is 8 pairs of signed 16-bit values
|-
|-
| 0x3C
| 0x3C
| u16
| 2
| 2
| '''Gain'''; always 0
| '''Gain'''; always 0
|-
|-
| 0x3E
| 0x3E
| u16
| 2
| 2
| '''Initial predictor/scale'''; always matches first frame header
| '''Initial predictor/scale'''; always matches first frame header
|-
|-
| 0x40
| 0x40
| s16
| 2
| 2
| '''Initial sample history 1'''
| '''Initial sample history 1'''
|-
|-
| 0x42
| 0x42
| s16
| 2
| 2
| '''Initial sample history 2'''
| '''Initial sample history 2'''
|-
|-
| 0x44
| 0x44
| u16
| 2
| 2
| '''Loop context predictor/scale'''
| '''Loop context predictor/scale'''
|-
|-
| 0x46
| 0x46
| s16
| 2
| 2
| '''Loop context sample history 1'''
| '''Loop context sample history 1'''
|-
|-
| 0x48
| 0x48
| s16
| 2
| 2
| '''Loop context sample history 2'''
| '''Loop context sample history 2'''
|-
|-
| 0x4A
| 0x4A
| u16[11]
| 2 × 11
| 2 × 11
| '''Reserved'''
| '''Reserved'''
|-
|-
| 0x60
| 0x60
| colspan=2 {{unknown|End of DSP header}}
| colspan=3 {{unknown|End of DSP header}}
|}
|}



Latest revision as of 16:28, 11 October 2023

The .dsp format is a common GameCube/Wii format for audio that comes with the SDK. It encodes sound using Nintendo's ADPCM codec. The same ADPCM codec is also embedded into several Retro Studios format, like AGSC; the CSMP format actually embeds the entire DSP format within it.


To do:
An explanation of how ADPCM works would be nice to have somewhere on this page. Also, a better text explanation for the decoding process to go along with the example code.

Header

Offset Type Size Description
0x0 u32 4 Sample count
0x4 u32 4 ADPCM nibble count; includes frame headers
0x8 u32 4 Sample rate
0xC u16 2 Loop flag; 1 means looped, 0 means not looped
0xE u16 2 Format; always 0
0x10 u32 4 Loop start offset
0x14 u32 4 Loop end offset
0x18 u32 4 Current address; always 0
0x1C s16[16] 2 × 16 Decode coefficients; this is 8 pairs of signed 16-bit values
0x3C u16 2 Gain; always 0
0x3E u16 2 Initial predictor/scale; always matches first frame header
0x40 s16 2 Initial sample history 1
0x42 s16 2 Initial sample history 2
0x44 u16 2 Loop context predictor/scale
0x46 s16 2 Loop context sample history 1
0x48 s16 2 Loop context sample history 2
0x4A u16[11] 2 × 11 Reserved
0x60 End of DSP header

ADPCM Data

The ADPCM audio data is split up into multiple frames. Each frame is 8 bytes; it starts with a one-byte header, then has 7 bytes (or 14 samples) of audio data. For each frame header, the bottom 4 bits are the scale value, and the top 4 bits are the coefficient index to use for the current frame.

Example C Decoding Function

vgmstream used as reference:

static const s8 nibble_to_s8[16] = {0,1,2,3,4,5,6,7,-8,-7,-6,-5,-4,-3,-2,-1};

s8 get_low_nibble(u8 byte) {
    return nibble_to_s8[byte & 0xF];
}

s8 get_high_nibble(u8 byte) {
    return nibble_to_s8[(byte >> 4) & 0xF];
}

s16 clamp(s32 val) {
    if (val < -32768) val = -32768;
    if (val > 32767) val = 32767;
    return s16(val);
}

void DecodeADPCM(u8 *src, s16 *dst, const DSPHeader& d)
{
  s16 hist1 = d.initial_hist1;
  s16 hist2 = d.initial_hist2;
  s16 *dst_end = dst + d.num_samples;

  while (dst < dst_end)
  {
    // Each frame, we need to read the header byte and use it to set the scale and coefficient values:
    u8 header = *src++;

    u16 scale = 1 << (header & 0xF);
    u8 coef_index = (header >> 4);
    s16 coef1 = d.coefs[coef_index][0];
    s16 coef2 = d.coefs[coef_index][1];

    // 7 bytes per frame
    for (u32 b = 0; b < 7; b++)
    {
      u8 byte = *src++;

      // 2 samples per byte
      for (u32 s = 0; s < 2; s++)
      {
        s8 adpcm_nibble = (s == 0) ? get_high_nibble(byte) : get_low_nibble(byte);
        s16 sample = clamp(((adpcm_nibble * scale) << 11) + 1024 + ((coef1 * hist1) + (coef2 * hist2)) >> 11);

        hist2 = hist1;
        hist1 = sample;
        *dst++ = sample;

        if (dst >= dst_end) break;
      }
      if (dst >= dst_end) break;
    }
  }
}