load_wav.cpp

/*
 * This source code is public domain.
 *
 * Authors: Olivier Lapicque <olivierl@jps.net>
*/

#include "stdafx.h"
#include "sndfile.h"

#ifndef WAVE_FORMAT_EXTENSIBLE
#define WAVE_FORMAT_EXTENSIBLE	0xFFFE
#endif

/////////////////////////////////////////////////////////////
// WAV file support

BOOL CSoundFile::ReadWav(const BYTE *lpStream, DWORD dwMemLength)
//---------------------------------------------------------------
{
	DWORD dwMemPos = 0;
	WAVEFILEHEADER *phdr = (WAVEFILEHEADER *)lpStream;
	WAVEFORMATHEADER *pfmt = (WAVEFORMATHEADER *)(lpStream + sizeof(WAVEFILEHEADER));
	if ((!lpStream) || (dwMemLength < (DWORD)sizeof(WAVEFILEHEADER))) return FALSE;
	if ((phdr->id_RIFF != IFFID_RIFF) || (phdr->id_WAVE != IFFID_WAVE)
	 || (pfmt->id_fmt != IFFID_fmt)) return FALSE;
	dwMemPos = sizeof(WAVEFILEHEADER) + 8 + pfmt->hdrlen;
	if ((dwMemPos + 8 >= dwMemLength)
	 || ((pfmt->format != WAVE_FORMAT_PCM) && (pfmt->format != WAVE_FORMAT_EXTENSIBLE))
	 || (pfmt->channels > 4)
	 || (!pfmt->channels)
	 || (!pfmt->freqHz)
	 || (pfmt->bitspersample & 7)
	 || (pfmt->bitspersample < 8)
	 || (pfmt->bitspersample > 32))  return FALSE;
	WAVEDATAHEADER *pdata;
	for (;;)
	{
		pdata = (WAVEDATAHEADER *)(lpStream + dwMemPos);
		if (pdata->id_data == IFFID_data) break;
		dwMemPos += pdata->length + 8;
		if (dwMemPos + 8 >= dwMemLength) return FALSE;
	}
	m_nType = MOD_TYPE_WAV;
	m_nSamples = 0;
	m_nInstruments = 0;
	m_nChannels = 4;
	m_nDefaultSpeed = 8;
	m_nDefaultTempo = 125;
	m_dwSongFlags |= SONG_LINEARSLIDES; // For no resampling
	Order[0] = 0;
	Order[1] = 0xFF;
	PatternSize[0] = PatternSize[1] = 64;
	if ((Patterns[0] = AllocatePattern(64, 4)) == NULL) return TRUE;
	if ((Patterns[1] = AllocatePattern(64, 4)) == NULL) return TRUE;
	UINT samplesize = (pfmt->channels * pfmt->bitspersample) >> 3;
	UINT len = pdata->length, bytelen;
	if (dwMemPos + len > dwMemLength - 8) len = dwMemLength - dwMemPos - 8;
	len /= samplesize;
	bytelen = len;
	if (pfmt->bitspersample >= 16) bytelen *= 2;
	if (len > MAX_SAMPLE_LENGTH) len = MAX_SAMPLE_LENGTH;
	if (!len) return TRUE;
	// Setting up module length
	DWORD dwTime = ((len * 50) / pfmt->freqHz) + 1;
	DWORD framesperrow = (dwTime + 63) / 63;
	if (framesperrow < 4) framesperrow = 4;
	UINT norders = 1;
	while (framesperrow >= 0x20)
	{
		Order[norders++] = 1;
		Order[norders] = 0xFF;
		framesperrow = (dwTime + (64 * norders - 1)) / (64 * norders);
		if (norders >= MAX_ORDERS-1) break;
	}
	m_nDefaultSpeed = framesperrow;
	for (UINT iChn=0; iChn<4; iChn++)
	{
		ChnSettings[iChn].nPan = (iChn & 1) ? 256 : 0;
		ChnSettings[iChn].nVolume = 64;
		ChnSettings[iChn].dwFlags = 0;
	}
	// Setting up speed command
	MODCOMMAND *pcmd = Patterns[0];
	pcmd[0].command = CMD_SPEED;
	pcmd[0].param = (BYTE)m_nDefaultSpeed;
	pcmd[0].note = 5*12+1;
	pcmd[0].instr = 1;
	pcmd[1].note = pcmd[0].note;
	pcmd[1].instr = pcmd[0].instr;
	m_nSamples = pfmt->channels;
	// Support for Multichannel Wave
	for (UINT nChn=0; nChn<m_nSamples; nChn++)
	{
		MODINSTRUMENT *pins = &Ins[nChn+1];
		pcmd[nChn].note = pcmd[0].note;
		pcmd[nChn].instr = (BYTE)(nChn+1);
		pins->nLength = len;
		pins->nC4Speed = pfmt->freqHz;
		pins->nVolume = 256;
		pins->nPan = 128;
		pins->nGlobalVol = 64;
		pins->uFlags = (WORD)((pfmt->bitspersample >= 16) ? CHN_16BIT : 0);
		pins->uFlags |= CHN_PANNING;
		if (m_nSamples > 1)
		{
			switch(nChn)
			{
			case 0:	pins->nPan = 0; break;
			case 1:	pins->nPan = 256; break;
			case 2: pins->nPan = (WORD)((m_nSamples == 3) ? 128 : 64); pcmd[nChn].command = CMD_S3MCMDEX; pcmd[nChn].param = 0x91; break;
			case 3: pins->nPan = 192; pcmd[nChn].command = CMD_S3MCMDEX; pcmd[nChn].param = 0x91; break;
			default: pins->nPan = 128; break;
			}
		}
		if ((pins->pSample = AllocateSample(bytelen+8)) == NULL) return TRUE;
		if (pfmt->bitspersample >= 16)
		{
			int slsize = pfmt->bitspersample >> 3;
			signed short *p = (signed short *)pins->pSample;
			signed char *psrc = (signed char *)(lpStream+dwMemPos+8+nChn*slsize+slsize-2);
			for (UINT i=0; i<len; i++)
			{
				p[i] = *((signed short *)psrc);
				psrc += samplesize;
			}
			p[len+1] = p[len] = p[len-1];
		} else
		{
			signed char *p = (signed char *)pins->pSample;
			signed char *psrc = (signed char *)(lpStream+dwMemPos+8+nChn);
			for (UINT i=0; i<len; i++)
			{
				p[i] = (signed char)((*psrc) + 0x80);
				psrc += samplesize;
			}
			p[len+1] = p[len] = p[len-1];
		}
	}
	return TRUE;
}


////////////////////////////////////////////////////////////////////////
// IMA ADPCM Support

#pragma pack(1)

typedef struct IMAADPCMBLOCK
{
	WORD sample;
	BYTE index;
	BYTE Reserved;
} DVI_ADPCMBLOCKHEADER;

#pragma pack()

static const int gIMAUnpackTable[90] = 
{
  7,     8,     9,    10,    11,    12,    13,    14,
  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,  1707,  1878,  2066,  2272,  2499,  2749,  3024,
  3327,  3660,  4026,  4428,  4871,  5358,  5894,  6484,
  7132,  7845,  8630,  9493, 10442, 11487, 12635, 13899,
  15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794,
  32767, 0
};


BOOL IMAADPCMUnpack16(signed short *pdest, UINT nLen, LPBYTE psrc, DWORD dwBytes, UINT pkBlkAlign)
//------------------------------------------------------------------------------------------------
{
	static const int gIMAIndexTab[8] =  { -1, -1, -1, -1, 2, 4, 6, 8 };
	UINT nPos;
	int value;

	if ((nLen < 4) || (!pdest) || (!psrc)
	 || (pkBlkAlign < 5) || (pkBlkAlign > dwBytes)) return FALSE;
	nPos = 0;
	while ((nPos < nLen) && (dwBytes > 4))
	{
		int nIndex;
		value = *((short int *)psrc);
		nIndex = psrc[2];
		psrc += 4;
		dwBytes -= 4;
		pdest[nPos++] = (short int)value;
		for (UINT i=0; ((i<(pkBlkAlign-4)*2) && (nPos < nLen) && (dwBytes)); i++)
		{
			BYTE delta;
			if (i & 1)
			{
				delta = (BYTE)(((*(psrc++)) >> 4) & 0x0F);
				dwBytes--;
			} else
			{
				delta = (BYTE)((*psrc) & 0x0F);
			}
			int v = gIMAUnpackTable[nIndex] >> 3;
			if (delta & 1) v += gIMAUnpackTable[nIndex] >> 2;
			if (delta & 2) v += gIMAUnpackTable[nIndex] >> 1;
			if (delta & 4) v += gIMAUnpackTable[nIndex];
			if (delta & 8) value -= v; else value += v;
			nIndex += gIMAIndexTab[delta & 7];
			if (nIndex < 0) nIndex = 0; else
			if (nIndex > 88) nIndex = 88;
			if (value > 32767) value = 32767; else
			if (value < -32768) value = -32768;
			pdest[nPos++] = (short int)value;
		}
	}
	return TRUE;
}