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imaadp32.c

/*
 * IMA ADPCM handling
 *
 *      Copyright (C) 2001,2002           Eric Pouech
 *
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
 */

#include <assert.h>
#include <stdarg.h>
#include <string.h>
#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "winuser.h"
#include "winnls.h"
#include "mmsystem.h"
#include "mmreg.h"
#include "msacm.h"
#include "msacmdrv.h"
#include "wine/debug.h"

/* see http://www.pcisys.net/~melanson/codecs/adpcm.txt for the details */

WINE_DEFAULT_DEBUG_CHANNEL(adpcm);

/***********************************************************************
 *           ADPCM_drvOpen
 */
static LRESULT ADPCM_drvOpen(LPCSTR str)
{
    return 1;
}

/***********************************************************************
 *           ADPCM_drvClose
 */
static LRESULT ADPCM_drvClose(DWORD_PTR dwDevID)
{
    return 1;
}

typedef struct tagAcmAdpcmData
{
    void (*convert)(PACMDRVSTREAMINSTANCE adsi,
                const unsigned char*, LPDWORD, unsigned char*, LPDWORD);
    /* IMA encoding only */
    BYTE    stepIndexL;
    BYTE    stepIndexR;
    /* short      sample; */
} AcmAdpcmData;

/* table to list all supported formats... those are the basic ones. this
 * also helps given a unique index to each of the supported formats
 */
typedef     struct
{
    int           nChannels;
    int           nBits;
    int           rate;
} Format;

static const Format PCM_Formats[] =
{
    {1,  8,  8000}, {2,  8,  8000}, {1, 16,  8000}, {2, 16,  8000},
    {1,  8, 11025}, {2,  8, 11025}, {1, 16, 11025}, {2, 16, 11025},
    {1,  8, 22050}, {2,  8, 22050}, {1, 16, 22050}, {2, 16, 22050},
    {1,  8, 44100}, {2,  8, 44100}, {1, 16, 44100}, {2, 16, 44100},
};

static const Format ADPCM_Formats[] =
{
    {1,  4,  8000}, {2, 4,  8000},  {1,  4, 11025}, {2,      4, 11025},
    {1,  4, 22050}, {2, 4, 22050},  {1,  4, 44100}, {2,      4, 44100},
};

#define     NUM_PCM_FORMATS         (sizeof(PCM_Formats) / sizeof(PCM_Formats[0]))
#define     NUM_ADPCM_FORMATS (sizeof(ADPCM_Formats) / sizeof(ADPCM_Formats[0]))

/***********************************************************************
 *           ADPCM_GetFormatIndex
 */
static      DWORD ADPCM_GetFormatIndex(const WAVEFORMATEX *wfx)
{
    int             i, hi;
    const Format*   fmts;

    switch (wfx->wFormatTag)
    {
    case WAVE_FORMAT_PCM:
      hi = NUM_PCM_FORMATS;
      fmts = PCM_Formats;
      break;
    case WAVE_FORMAT_IMA_ADPCM:
      hi = NUM_ADPCM_FORMATS;
      fmts = ADPCM_Formats;
      break;
    default:
      return 0xFFFFFFFF;
    }

    for (i = 0; i < hi; i++)
    {
      if (wfx->nChannels == fmts[i].nChannels &&
          wfx->nSamplesPerSec == fmts[i].rate &&
          wfx->wBitsPerSample == fmts[i].nBits)
          return i;
    }

    return 0xFFFFFFFF;
}

/***********************************************************************
 *           R16
 *
 * Read a 16 bit sample (correctly handles endianess)
 */
static inline short  R16(const unsigned char* src)
{
    return (short)((unsigned short)src[0] | ((unsigned short)src[1] << 8));
}

/***********************************************************************
 *           W16
 *
 * Write a 16 bit sample (correctly handles endianess)
 */
static inline void  W16(unsigned char* dst, short s)
{
    dst[0] = LOBYTE(s);
    dst[1] = HIBYTE(s);
}

/* IMA (or DVI) APDCM codec routines */

static const unsigned IMA_StepTable[89] =
{
    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
};

static const int IMA_IndexTable[16] =
{
    -1, -1, -1, -1, 2, 4, 6, 8,
    -1, -1, -1, -1, 2, 4, 6, 8
};

static inline void clamp_step_index(int* stepIndex)
{
    if (*stepIndex < 0 ) *stepIndex = 0;
    if (*stepIndex > 88) *stepIndex = 88;
}

static inline void clamp_sample(int* sample)
{
    if (*sample < -32768) *sample = -32768;
    if (*sample >  32767) *sample =  32767;
}

static inline void process_nibble(unsigned char code, int* stepIndex, int* sample)
{
    unsigned step;
    int diff;

    code &= 0x0F;

    step = IMA_StepTable[*stepIndex];
    diff = step >> 3;
    if (code & 1) diff += step >> 2;
    if (code & 2) diff += step >> 1;
    if (code & 4) diff += step;
    if (code & 8) *sample -= diff;
    else          *sample += diff;
    clamp_sample(sample);
    *stepIndex += IMA_IndexTable[code];
    clamp_step_index(stepIndex);
}

static inline unsigned char generate_nibble(int in, int* stepIndex, int* sample)
{
    int effdiff, diff = in - *sample;
    unsigned step;
    unsigned char code;

    if (diff < 0)
    {
        diff = -diff;
        code = 8;
    }
    else
    {
        code = 0;
    }

    step = IMA_StepTable[*stepIndex];
    effdiff = (step >> 3);
    if (diff >= step)
    {
        code |= 4;
        diff -= step;
        effdiff += step;
    }
    step >>= 1;
    if (diff >= step)
    {
        code |= 2;
        diff -= step;
        effdiff += step;
    }
    step >>= 1;
    if (diff >= step)
    {
        code |= 1;
        effdiff += step;
    }
    if (code & 8)       *sample -= effdiff;
    else                *sample += effdiff;
    clamp_sample(sample);
    *stepIndex += IMA_IndexTable[code];
    clamp_step_index(stepIndex);
    return code;
}

static      void cvtSSima16K(PACMDRVSTREAMINSTANCE adsi,
                         const unsigned char* src, LPDWORD nsrc,
                         unsigned char* dst, LPDWORD ndst)
{
    int         i;
    int         sampleL, sampleR;
    int           stepIndexL, stepIndexR;
    int           nsamp_blk = ((LPIMAADPCMWAVEFORMAT)adsi->pwfxSrc)->wSamplesPerBlock;
    int           nsamp;
    /* compute the number of entire blocks we can decode...
     * it's the min of the number of entire blocks in source buffer and the number
     * of entire blocks in destination buffer
     */
    DWORD   nblock = min(*nsrc / adsi->pwfxSrc->nBlockAlign,
                             *ndst / (nsamp_blk * 2 * 2));

    *nsrc = nblock * adsi->pwfxSrc->nBlockAlign;
    *ndst = nblock * (nsamp_blk * 2 * 2);

    nsamp_blk--; /* remove the sample in block header */
    for (; nblock > 0; nblock--)
    {
        const unsigned char* in_src = src;

      /* handle headers first */
      sampleL = R16(src);
      stepIndexL = (unsigned)*(src + 2);
        clamp_step_index(&stepIndexL);
      src += 4;
      W16(dst, sampleL);      dst += 2;

      sampleR = R16(src);
      stepIndexR = (unsigned)*(src + 2);
        clamp_step_index(&stepIndexR);
      src += 4;
      W16(dst, sampleR);      dst += 2;

      for (nsamp = nsamp_blk; nsamp > 0; nsamp -= 8)
        {
            for (i = 0; i < 4; i++)
            {
                process_nibble(*src, &stepIndexL, &sampleL);
                W16(dst + (2 * i + 0) * 4 + 0, sampleL);
                process_nibble(*src++ >> 4, &stepIndexL, &sampleL);
                W16(dst + (2 * i + 1) * 4 + 0, sampleL);
            }
            for (i = 0; i < 4; i++)
            {
                process_nibble(*src , &stepIndexR, &sampleR);
                W16(dst + (2 * i + 0) * 4 + 2, sampleR);
                process_nibble(*src++ >>4, &stepIndexR, &sampleR);
                W16(dst + (2 * i + 1) * 4 + 2, sampleR);
            }
            dst += 32;
        }
        /* we have now to realign the source pointer on block */
        src = in_src + adsi->pwfxSrc->nBlockAlign;
    }
}

static      void cvtMMima16K(PACMDRVSTREAMINSTANCE adsi,
                         const unsigned char* src, LPDWORD nsrc,
                         unsigned char* dst, LPDWORD ndst)
{
    int           sample;
    int           stepIndex;
    int           nsamp_blk = ((LPIMAADPCMWAVEFORMAT)adsi->pwfxSrc)->wSamplesPerBlock;
    int           nsamp;
    /* compute the number of entire blocks we can decode...
     * it's the min of the number of entire blocks in source buffer and the number
     * of entire blocks in destination buffer
     */
    DWORD   nblock = min(*nsrc / adsi->pwfxSrc->nBlockAlign,
                             *ndst / (nsamp_blk * 2));

    *nsrc = nblock * adsi->pwfxSrc->nBlockAlign;
    *ndst = nblock * nsamp_blk * 2;

    nsamp_blk--; /* remove the sample in block header */
    for (; nblock > 0; nblock--)
    {
        const unsigned char*    in_src = src;

      /* handle header first */
      sample = R16(src);
      stepIndex = (unsigned)*(src + 2);
        clamp_step_index(&stepIndex);
      src += 4;
      W16(dst, sample); dst += 2;

      for (nsamp = nsamp_blk; nsamp > 0; nsamp -= 2)
        {
            process_nibble(*src, &stepIndex, &sample);
          W16(dst, sample); dst += 2;
            process_nibble(*src++ >> 4, &stepIndex, &sample);
          W16(dst, sample); dst += 2;
      }
        /* we have now to realign the source pointer on block */
        src = in_src + adsi->pwfxSrc->nBlockAlign;
    }
}

static      void cvtSS16imaK(PACMDRVSTREAMINSTANCE adsi,
                         const unsigned char* src, LPDWORD nsrc,
                         unsigned char* dst, LPDWORD ndst)
{
    int           stepIndexL, stepIndexR;
    int           sampleL, sampleR;
    BYTE    code1, code2;
    int           nsamp_blk = ((LPIMAADPCMWAVEFORMAT)adsi->pwfxDst)->wSamplesPerBlock;
    int           i, nsamp;
    /* compute the number of entire blocks we can decode...
     * it's the min of the number of entire blocks in source buffer and the number
     * of entire blocks in destination buffer
     */
    DWORD   nblock = min(*nsrc / (nsamp_blk * 2 * 2),
                             *ndst / adsi->pwfxDst->nBlockAlign);

    *nsrc = nblock * (nsamp_blk * 2 * 2);
    *ndst = nblock * adsi->pwfxDst->nBlockAlign;

    stepIndexL = ((AcmAdpcmData*)adsi->dwDriver)->stepIndexL;
    stepIndexR = ((AcmAdpcmData*)adsi->dwDriver)->stepIndexR;

    nsamp_blk--; /* so that we won't count the sample in header while filling the block */

    for (; nblock > 0; nblock--)
    {
        unsigned char*   in_dst = dst;

        /* generate header */
      sampleL = R16(src);  src += 2;
      W16(dst, sampleL); dst += 2;
      *dst = (unsigned char)(unsigned)stepIndexL;
      dst += 2;

      sampleR = R16(src); src += 2;
      W16(dst, sampleR); dst += 2;
      *dst = (unsigned char)(unsigned)stepIndexR;
      dst += 2;

      for (nsamp = nsamp_blk; nsamp > 0; nsamp -= 8)
        {
            for (i = 0; i < 4; i++)
            {
                code1 = generate_nibble(R16(src + (2 * i + 0) * 2 + 0),
                                        &stepIndexL, &sampleL);
                code2 = generate_nibble(R16(src + (2 * i + 1) * 2 + 0),
                                        &stepIndexL, &sampleL);
                *dst++ = (code1 << 4) | code2;
            }
            for (i = 0; i < 4; i++)
            {
                code1 = generate_nibble(R16(src + (2 * i + 0) * 2 + 1),
                                        &stepIndexR, &sampleR);
                code2 = generate_nibble(R16(src + (2 * i + 1) * 2 + 1),
                                        &stepIndexR, &sampleR);
                *dst++ = (code1 << 4) | code2;
            }
            src += 32;
      }
      dst = in_dst + adsi->pwfxDst->nBlockAlign;
    }
    ((AcmAdpcmData*)adsi->dwDriver)->stepIndexL = stepIndexL;
    ((AcmAdpcmData*)adsi->dwDriver)->stepIndexR = stepIndexR;
}

static      void cvtMM16imaK(PACMDRVSTREAMINSTANCE adsi,
                         const unsigned char* src, LPDWORD nsrc,
                         unsigned char* dst, LPDWORD ndst)
{
    int           stepIndex;
    int           sample;
    BYTE    code1, code2;
    int           nsamp_blk = ((LPIMAADPCMWAVEFORMAT)adsi->pwfxDst)->wSamplesPerBlock;
    int           nsamp;
    /* compute the number of entire blocks we can decode...
     * it's the min of the number of entire blocks in source buffer and the number
     * of entire blocks in destination buffer
     */
    DWORD   nblock = min(*nsrc / (nsamp_blk * 2),
                             *ndst / adsi->pwfxDst->nBlockAlign);

    *nsrc = nblock * (nsamp_blk * 2);
    *ndst = nblock * adsi->pwfxDst->nBlockAlign;

    stepIndex = ((AcmAdpcmData*)adsi->dwDriver)->stepIndexL;
    nsamp_blk--; /* so that we won't count the sample in header while filling the block */

    for (; nblock > 0; nblock--)
    {
        unsigned char*   in_dst = dst;

        /* generate header */
        /* FIXME: what about the last effective sample from previous block ??? */
        /* perhaps something like:
         *      sample += R16(src);
         *      clamp_sample(sample);
         * and with :
         *      + saving the sample in adsi->dwDriver when all blocks are done
         +      + reset should set the field in adsi->dwDriver to 0 too
         */
      sample = R16(src); src += 2;
      W16(dst, sample); dst += 2;
      *dst = (unsigned char)(unsigned)stepIndex;
      dst += 2;

      for (nsamp = nsamp_blk; nsamp > 0; nsamp -= 2)
        {
            code1 = generate_nibble(R16(src), &stepIndex, &sample);
            src += 2;
            code2 = generate_nibble(R16(src), &stepIndex, &sample);
            src += 2;
            *dst++ = (code1 << 4) | code2;
      }
      dst = in_dst + adsi->pwfxDst->nBlockAlign;
    }
    ((AcmAdpcmData*)adsi->dwDriver)->stepIndexL = stepIndex;
}

/***********************************************************************
 *           ADPCM_DriverDetails
 *
 */
static      LRESULT ADPCM_DriverDetails(PACMDRIVERDETAILSW add)
{
    add->fccType = ACMDRIVERDETAILS_FCCTYPE_AUDIOCODEC;
    add->fccComp = ACMDRIVERDETAILS_FCCCOMP_UNDEFINED;
    add->wMid = 0xFF;
    add->wPid = 0x00;
    add->vdwACM = 0x01000000;
    add->vdwDriver = 0x01000000;
    add->fdwSupport = ACMDRIVERDETAILS_SUPPORTF_CODEC;
    add->cFormatTags = 2; /* PCM, IMA ADPCM */
    add->cFilterTags = 0;
    add->hicon = NULL;
    MultiByteToWideChar( CP_ACP, 0, "WINE-ADPCM", -1,
                         add->szShortName, sizeof(add->szShortName)/sizeof(WCHAR) );
    MultiByteToWideChar( CP_ACP, 0, "Wine IMA ADPCM converter", -1,
                         add->szLongName, sizeof(add->szLongName)/sizeof(WCHAR) );
    MultiByteToWideChar( CP_ACP, 0, "Brought to you by the Wine team...", -1,
                         add->szCopyright, sizeof(add->szCopyright)/sizeof(WCHAR) );
    MultiByteToWideChar( CP_ACP, 0, "Refer to LICENSE file", -1,
                         add->szLicensing, sizeof(add->szLicensing)/sizeof(WCHAR) );
    add->szFeatures[0] = 0;

    return MMSYSERR_NOERROR;
}

/***********************************************************************
 *           ADPCM_FormatTagDetails
 *
 */
static      LRESULT     ADPCM_FormatTagDetails(PACMFORMATTAGDETAILSW aftd, DWORD dwQuery)
{
    static const WCHAR szPcm[]={'P','C','M',0};
    static const WCHAR szImaAdPcm[]={'I','M','A',' ','A','d','P','C','M',0};

    switch (dwQuery)
    {
    case ACM_FORMATTAGDETAILSF_INDEX:
      if (aftd->dwFormatTagIndex >= 2) return ACMERR_NOTPOSSIBLE;
      break;
    case ACM_FORMATTAGDETAILSF_LARGESTSIZE:
      if (aftd->dwFormatTag == WAVE_FORMAT_UNKNOWN)
        {
            aftd->dwFormatTagIndex = 1; /* WAVE_FORMAT_IMA_ADPCM is bigger than PCM */
          break;
      }
      /* fall thru */
    case ACM_FORMATTAGDETAILSF_FORMATTAG:
      switch (aftd->dwFormatTag)
        {
      case WAVE_FORMAT_PCM:         aftd->dwFormatTagIndex = 0; break;
      case WAVE_FORMAT_IMA_ADPCM:     aftd->dwFormatTagIndex = 1; break;
      default:                return ACMERR_NOTPOSSIBLE;
      }
      break;
    default:
      WARN("Unsupported query %08x\n", dwQuery);
      return MMSYSERR_NOTSUPPORTED;
    }

    aftd->fdwSupport = ACMDRIVERDETAILS_SUPPORTF_CODEC;
    switch (aftd->dwFormatTagIndex)
    {
    case 0:
      aftd->dwFormatTag = WAVE_FORMAT_PCM;
      aftd->cbFormatSize = sizeof(PCMWAVEFORMAT);
      aftd->cStandardFormats = NUM_PCM_FORMATS;
        lstrcpyW(aftd->szFormatTag, szPcm);
        break;
    case 1:
      aftd->dwFormatTag = WAVE_FORMAT_IMA_ADPCM;
      aftd->cbFormatSize = sizeof(IMAADPCMWAVEFORMAT);
      aftd->cStandardFormats = NUM_ADPCM_FORMATS;
        lstrcpyW(aftd->szFormatTag, szImaAdPcm);
      break;
    }
    return MMSYSERR_NOERROR;
}

/***********************************************************************
 *           ADPCM_FormatDetails
 *
 */
static      LRESULT     ADPCM_FormatDetails(PACMFORMATDETAILSW afd, DWORD dwQuery)
{
    switch (dwQuery)
    {
    case ACM_FORMATDETAILSF_FORMAT:
      if (ADPCM_GetFormatIndex(afd->pwfx) == 0xFFFFFFFF) return ACMERR_NOTPOSSIBLE;
      break;
    case ACM_FORMATDETAILSF_INDEX:
      afd->pwfx->wFormatTag = afd->dwFormatTag;
      switch (afd->dwFormatTag)
        {
      case WAVE_FORMAT_PCM:
          if (afd->dwFormatIndex >= NUM_PCM_FORMATS) return ACMERR_NOTPOSSIBLE;
          afd->pwfx->nChannels = PCM_Formats[afd->dwFormatIndex].nChannels;
          afd->pwfx->nSamplesPerSec = PCM_Formats[afd->dwFormatIndex].rate;
          afd->pwfx->wBitsPerSample = PCM_Formats[afd->dwFormatIndex].nBits;
          /* native MSACM uses a PCMWAVEFORMAT structure, so cbSize is not accessible
           * afd->pwfx->cbSize = 0;
           */
          afd->pwfx->nBlockAlign =
            (afd->pwfx->nChannels * afd->pwfx->wBitsPerSample) / 8;
          afd->pwfx->nAvgBytesPerSec =
            afd->pwfx->nSamplesPerSec * afd->pwfx->nBlockAlign;
          break;
      case WAVE_FORMAT_IMA_ADPCM:
          if (afd->dwFormatIndex >= NUM_ADPCM_FORMATS) return ACMERR_NOTPOSSIBLE;
          afd->pwfx->nChannels = ADPCM_Formats[afd->dwFormatIndex].nChannels;
          afd->pwfx->nSamplesPerSec = ADPCM_Formats[afd->dwFormatIndex].rate;
          afd->pwfx->wBitsPerSample = ADPCM_Formats[afd->dwFormatIndex].nBits;
          afd->pwfx->nBlockAlign = 1024;
          /* we got 4 bits per sample */
          afd->pwfx->nAvgBytesPerSec =
            (afd->pwfx->nSamplesPerSec * 4) / 8;
            if (afd->cbwfx >= sizeof(WAVEFORMATEX))
                afd->pwfx->cbSize = sizeof(WORD);
            if (afd->cbwfx >= sizeof(IMAADPCMWAVEFORMAT))
                ((IMAADPCMWAVEFORMAT*)afd->pwfx)->wSamplesPerBlock = (1024 - 4 * afd->pwfx->nChannels) * (2 / afd->pwfx->nChannels) + 1;
          break;
      default:
            WARN("Unsupported tag %08x\n", afd->dwFormatTag);
          return MMSYSERR_INVALPARAM;
      }
      break;
    default:
      WARN("Unsupported query %08x\n", dwQuery);
      return MMSYSERR_NOTSUPPORTED;
    }
    afd->fdwSupport = ACMDRIVERDETAILS_SUPPORTF_CODEC;
    afd->szFormat[0] = 0; /* let MSACM format this for us... */

    return MMSYSERR_NOERROR;
}

/***********************************************************************
 *           ADPCM_FormatSuggest
 *
 */
static      LRESULT     ADPCM_FormatSuggest(PACMDRVFORMATSUGGEST adfs)
{
    /* some tests ... */
    if (adfs->cbwfxSrc < sizeof(PCMWAVEFORMAT) ||
      adfs->cbwfxDst < sizeof(PCMWAVEFORMAT) ||
      ADPCM_GetFormatIndex(adfs->pwfxSrc) == 0xFFFFFFFF) return ACMERR_NOTPOSSIBLE;
    /* FIXME: should do those tests against the real size (according to format tag */

    /* If no suggestion for destination, then copy source value */
    if (!(adfs->fdwSuggest & ACM_FORMATSUGGESTF_NCHANNELS))
      adfs->pwfxDst->nChannels = adfs->pwfxSrc->nChannels;
    if (!(adfs->fdwSuggest & ACM_FORMATSUGGESTF_NSAMPLESPERSEC))
        adfs->pwfxDst->nSamplesPerSec = adfs->pwfxSrc->nSamplesPerSec;

    if (!(adfs->fdwSuggest & ACM_FORMATSUGGESTF_WBITSPERSAMPLE))
    {
      if (adfs->pwfxSrc->wFormatTag == WAVE_FORMAT_PCM)
            adfs->pwfxDst->wBitsPerSample = 4;
        else
            adfs->pwfxDst->wBitsPerSample = 16;
    }
    if (!(adfs->fdwSuggest & ACM_FORMATSUGGESTF_WFORMATTAG))
    {
      if (adfs->pwfxSrc->wFormatTag == WAVE_FORMAT_PCM)
            adfs->pwfxDst->wFormatTag = WAVE_FORMAT_IMA_ADPCM;
        else
            adfs->pwfxDst->wFormatTag = WAVE_FORMAT_PCM;
    }

    /* check if result is ok */
    if (ADPCM_GetFormatIndex(adfs->pwfxDst) == 0xFFFFFFFF) return ACMERR_NOTPOSSIBLE;

    /* recompute other values */
    switch (adfs->pwfxDst->wFormatTag)
    {
    case WAVE_FORMAT_PCM:
        adfs->pwfxDst->nBlockAlign = (adfs->pwfxDst->nChannels * adfs->pwfxDst->wBitsPerSample) / 8;
        adfs->pwfxDst->nAvgBytesPerSec = adfs->pwfxDst->nSamplesPerSec * adfs->pwfxDst->nBlockAlign;
        break;
    case WAVE_FORMAT_IMA_ADPCM:
        adfs->pwfxDst->nBlockAlign = 1024;
        /* FIXME: not handling header overhead */
        adfs->pwfxDst->nAvgBytesPerSec = ((adfs->pwfxDst->nSamplesPerSec * 4) / 8) * adfs->pwfxSrc->nChannels;
        ((IMAADPCMWAVEFORMAT*)adfs->pwfxDst)->wSamplesPerBlock = (1024 - 4 * adfs->pwfxSrc->nChannels) * (2 / adfs->pwfxSrc->nChannels) + 1;
        TRACE("setting spb=%u\n", ((IMAADPCMWAVEFORMAT*)adfs->pwfxDst)->wSamplesPerBlock);
        break;
    default:
        FIXME("\n");
        break;
    }

    return MMSYSERR_NOERROR;
}

/***********************************************************************
 *           ADPCM_Reset
 *
 */
static      void  ADPCM_Reset(PACMDRVSTREAMINSTANCE adsi, AcmAdpcmData* aad)
{
    aad->stepIndexL = aad->stepIndexR = 0;
}

/***********************************************************************
 *           ADPCM_StreamOpen
 *
 */
static      LRESULT     ADPCM_StreamOpen(PACMDRVSTREAMINSTANCE adsi)
{
    AcmAdpcmData* aad;
    unsigned            nspb;

    assert(!(adsi->fdwOpen & ACM_STREAMOPENF_ASYNC));

    if (ADPCM_GetFormatIndex(adsi->pwfxSrc) == 0xFFFFFFFF ||
      ADPCM_GetFormatIndex(adsi->pwfxDst) == 0xFFFFFFFF)
      return ACMERR_NOTPOSSIBLE;

    aad = HeapAlloc(GetProcessHeap(), 0, sizeof(AcmAdpcmData));
    if (aad == 0) return MMSYSERR_NOMEM;

    adsi->dwDriver = (DWORD)aad;

    if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_PCM &&
      adsi->pwfxDst->wFormatTag == WAVE_FORMAT_PCM)
    {
      goto theEnd;
    }
    else if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_IMA_ADPCM &&
             adsi->pwfxDst->wFormatTag == WAVE_FORMAT_PCM)
    {
      /* resampling or mono <=> stereo not available
         * ADPCM algo only define 16 bit per sample output
         */
      if (adsi->pwfxSrc->nSamplesPerSec != adsi->pwfxDst->nSamplesPerSec ||
          adsi->pwfxSrc->nChannels != adsi->pwfxDst->nChannels ||
            adsi->pwfxDst->wBitsPerSample != 16)
          goto theEnd;

        nspb = ((LPIMAADPCMWAVEFORMAT)adsi->pwfxSrc)->wSamplesPerBlock;
        TRACE("spb=%u\n", nspb);

        /* we check that in a block, after the header, samples are present on
         * 4-sample packet pattern
         * we also check that the block alignement is bigger than the expected size
         */
        if (((nspb - 1) & 3) != 0) goto theEnd;
        if ((((nspb - 1) / 2) + 4) * adsi->pwfxSrc->nChannels < adsi->pwfxSrc->nBlockAlign)
            goto theEnd;

      /* adpcm decoding... */
      if (adsi->pwfxDst->wBitsPerSample == 16 && adsi->pwfxDst->nChannels == 2)
          aad->convert = cvtSSima16K;
      if (adsi->pwfxDst->wBitsPerSample == 16 && adsi->pwfxDst->nChannels == 1)
          aad->convert = cvtMMima16K;
    }
    else if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_PCM &&
             adsi->pwfxDst->wFormatTag == WAVE_FORMAT_IMA_ADPCM)
    {
      if (adsi->pwfxSrc->nSamplesPerSec != adsi->pwfxDst->nSamplesPerSec ||
          adsi->pwfxSrc->nChannels != adsi->pwfxDst->nChannels ||
            adsi->pwfxSrc->wBitsPerSample != 16)
          goto theEnd;

        nspb = ((LPIMAADPCMWAVEFORMAT)adsi->pwfxDst)->wSamplesPerBlock;
        TRACE("spb=%u\n", nspb);

        /* we check that in a block, after the header, samples are present on
         * 4-sample packet pattern
         * we also check that the block alignement is bigger than the expected size
         */
        if (((nspb - 1) & 3) != 0) goto theEnd;
        if ((((nspb - 1) / 2) + 4) * adsi->pwfxDst->nChannels < adsi->pwfxDst->nBlockAlign)
            goto theEnd;

      /* adpcm coding... */
      if (adsi->pwfxSrc->wBitsPerSample == 16 && adsi->pwfxSrc->nChannels == 2)
          aad->convert = cvtSS16imaK;
      if (adsi->pwfxSrc->wBitsPerSample == 16 && adsi->pwfxSrc->nChannels == 1)
          aad->convert = cvtMM16imaK;
    }
    else goto theEnd;
    ADPCM_Reset(adsi, aad);

    return MMSYSERR_NOERROR;

 theEnd:
    HeapFree(GetProcessHeap(), 0, aad);
    adsi->dwDriver = 0L;
    return MMSYSERR_NOTSUPPORTED;
}

/***********************************************************************
 *           ADPCM_StreamClose
 *
 */
static      LRESULT     ADPCM_StreamClose(PACMDRVSTREAMINSTANCE adsi)
{
    HeapFree(GetProcessHeap(), 0, (void*)adsi->dwDriver);
    return MMSYSERR_NOERROR;
}

/***********************************************************************
 *           ADPCM_StreamSize
 *
 */
static      LRESULT ADPCM_StreamSize(const ACMDRVSTREAMINSTANCE *adsi, PACMDRVSTREAMSIZE adss)
{
    switch (adss->fdwSize)
    {
    case ACM_STREAMSIZEF_DESTINATION:
      /* cbDstLength => cbSrcLength */
      if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_PCM &&
          adsi->pwfxDst->wFormatTag == WAVE_FORMAT_IMA_ADPCM)
        {
          /* don't take block overhead into account, doesn't matter too much */
          adss->cbSrcLength = adss->cbDstLength * 4;
      }
        else if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_IMA_ADPCM &&
                 adsi->pwfxDst->wFormatTag == WAVE_FORMAT_PCM)
        {
          FIXME("misses the block header overhead\n");
          adss->cbSrcLength = 256 + adss->cbDstLength / 4;
      }
        else
        {
          return MMSYSERR_NOTSUPPORTED;
      }
      break;
    case ACM_STREAMSIZEF_SOURCE:
      /* cbSrcLength => cbDstLength */
      if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_PCM &&
          adsi->pwfxDst->wFormatTag == WAVE_FORMAT_IMA_ADPCM)
        {
          FIXME("misses the block header overhead\n");
          adss->cbDstLength = 256 + adss->cbSrcLength / 4;
      }
        else if (adsi->pwfxSrc->wFormatTag == WAVE_FORMAT_IMA_ADPCM &&
                 adsi->pwfxDst->wFormatTag == WAVE_FORMAT_PCM)
        {
          /* don't take block overhead into account, doesn't matter too much */
          adss->cbDstLength = adss->cbSrcLength * 4;
      }
        else
        {
          return MMSYSERR_NOTSUPPORTED;
      }
      break;
    default:
      WARN("Unsupported query %08x\n", adss->fdwSize);
      return MMSYSERR_NOTSUPPORTED;
    }
    return MMSYSERR_NOERROR;
}

/***********************************************************************
 *           ADPCM_StreamConvert
 *
 */
static LRESULT ADPCM_StreamConvert(PACMDRVSTREAMINSTANCE adsi, PACMDRVSTREAMHEADER adsh)
{
    AcmAdpcmData* aad = (AcmAdpcmData*)adsi->dwDriver;
    DWORD         nsrc = adsh->cbSrcLength;
    DWORD         ndst = adsh->cbDstLength;

    if (adsh->fdwConvert &
      ~(ACM_STREAMCONVERTF_BLOCKALIGN|
        ACM_STREAMCONVERTF_END|
        ACM_STREAMCONVERTF_START))
    {
      FIXME("Unsupported fdwConvert (%08x), ignoring it\n", adsh->fdwConvert);
    }
    /* ACM_STREAMCONVERTF_BLOCKALIGN
     *      currently all conversions are block aligned, so do nothing for this flag
     * ACM_STREAMCONVERTF_END
     *      no pending data, so do nothing for this flag
     */
    if ((adsh->fdwConvert & ACM_STREAMCONVERTF_START))
    {
      ADPCM_Reset(adsi, aad);
    }

    aad->convert(adsi, adsh->pbSrc, &nsrc, adsh->pbDst, &ndst);
    adsh->cbSrcLengthUsed = nsrc;
    adsh->cbDstLengthUsed = ndst;

    return MMSYSERR_NOERROR;
}

/**************************************************************************
 *                ADPCM_DriverProc              [exported]
 */
LRESULT CALLBACK ADPCM_DriverProc(DWORD_PTR dwDevID, HDRVR hDriv, UINT wMsg,
                               LPARAM dwParam1, LPARAM dwParam2)
{
    TRACE("(%08lx %p %04x %08lx %08lx);\n",
        dwDevID, hDriv, wMsg, dwParam1, dwParam2);

    switch (wMsg)
    {
    case DRV_LOAD:            return 1;
    case DRV_FREE:            return 1;
    case DRV_OPEN:            return ADPCM_drvOpen((LPSTR)dwParam1);
    case DRV_CLOSE:           return ADPCM_drvClose(dwDevID);
    case DRV_ENABLE:          return 1;
    case DRV_DISABLE:         return 1;
    case DRV_QUERYCONFIGURE:  return 1;
    case DRV_CONFIGURE:       MessageBoxA(0, "MSACM IMA ADPCM filter !", "Wine Driver", MB_OK); return 1;
    case DRV_INSTALL:         return DRVCNF_RESTART;
    case DRV_REMOVE:          return DRVCNF_RESTART;

    case ACMDM_DRIVER_NOTIFY:
      /* no caching from other ACM drivers is done so far */
      return MMSYSERR_NOERROR;

    case ACMDM_DRIVER_DETAILS:
      return ADPCM_DriverDetails((PACMDRIVERDETAILSW)dwParam1);

    case ACMDM_FORMATTAG_DETAILS:
      return ADPCM_FormatTagDetails((PACMFORMATTAGDETAILSW)dwParam1, dwParam2);

    case ACMDM_FORMAT_DETAILS:
      return ADPCM_FormatDetails((PACMFORMATDETAILSW)dwParam1, dwParam2);

    case ACMDM_FORMAT_SUGGEST:
      return ADPCM_FormatSuggest((PACMDRVFORMATSUGGEST)dwParam1);

    case ACMDM_STREAM_OPEN:
      return ADPCM_StreamOpen((PACMDRVSTREAMINSTANCE)dwParam1);

    case ACMDM_STREAM_CLOSE:
      return ADPCM_StreamClose((PACMDRVSTREAMINSTANCE)dwParam1);

    case ACMDM_STREAM_SIZE:
      return ADPCM_StreamSize((PACMDRVSTREAMINSTANCE)dwParam1, (PACMDRVSTREAMSIZE)dwParam2);

    case ACMDM_STREAM_CONVERT:
      return ADPCM_StreamConvert((PACMDRVSTREAMINSTANCE)dwParam1, (PACMDRVSTREAMHEADER)dwParam2);

    case ACMDM_HARDWARE_WAVE_CAPS_INPUT:
    case ACMDM_HARDWARE_WAVE_CAPS_OUTPUT:
      /* this converter is not a hardware driver */
    case ACMDM_FILTERTAG_DETAILS:
    case ACMDM_FILTER_DETAILS:
      /* this converter is not a filter */
    case ACMDM_STREAM_RESET:
      /* only needed for asynchronous driver... we aren't, so just say it */
      return MMSYSERR_NOTSUPPORTED;
    case ACMDM_STREAM_PREPARE:
    case ACMDM_STREAM_UNPREPARE:
      /* nothing special to do here... so don't do anything */
      return MMSYSERR_NOERROR;

    default:
      return DefDriverProc(dwDevID, hDriv, wMsg, dwParam1, dwParam2);
    }
}

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