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/***************************************************************************
 *             __________               __   ___.
 *   Open      \______   \ ____   ____ |  | _\_ |__   _______  ___
 *   Source     |       _//  _ \_/ ___\|  |/ /| __ \ /  _ \  \/  /
 *   Jukebox    |    |   (  <_> )  \___|    < | \_\ (  <_> > <  <
 *   Firmware   |____|_  /\____/ \___  >__|_ \|___  /\____/__/\_ \
 *                     \/            \/     \/    \/            \/
 *
 * Copyright (C) 2005 Stepan Moskovchenko
 *
 * All files in this archive are subject to the GNU General Public License.
 * See the file COPYING in the source tree root for full license agreement.
 *
 * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
 * KIND, either express or implied.
 *
 ****************************************************************************/


extern struct plugin_api * rb;

unsigned int readWord(int file)
{
    return (readChar(file)<<0) | (readChar(file)<<8); // | (readChar(file)<<8) | (readChar(file)<<0);
}

unsigned int readDWord(int file)
{
    return (readChar(file)<<0) | (readChar(file)<<8) | (readChar(file)<<16) | (readChar(file)<<24);
}

struct GWaveform * loadWaveform(int file)
{
    struct GWaveform * wav = (struct GWaveform *)allocate(sizeof(struct GWaveform));
    rb->memset(wav, 0, sizeof(struct GWaveform));

    wav->name=readData(file, 7);
    printf("\nWAVE NAME = [%s]", wav->name);
    wav->fractions=readChar(file);
    wav->wavSize=readDWord(file);
    wav->startLoop=readDWord(file);
    wav->endLoop=readDWord(file);
    wav->sampRate=readWord(file);

    wav->lowFreq=readDWord(file);
    wav->highFreq=readDWord(file);
    wav->rootFreq=readDWord(file);

    wav->tune=readWord(file);

    wav->balance=readChar(file);
    wav->envRate=readData(file, 6);
    wav->envOffset=readData(file, 6);

    wav->tremSweep=readChar(file);
    wav->tremRate==readChar(file);
    wav->tremDepth=readChar(file);
    wav->vibSweep=readChar(file);
    wav->vibRate=readChar(file);
    wav->vibDepth=readChar(file);
    wav->mode=readChar(file);

    wav->scaleFreq=readWord(file);
    wav->scaleFactor=readWord(file);
    printf("\nScaleFreq = %d   ScaleFactor = %d   RootFreq = %d", wav->scaleFreq, wav->scaleFactor, wav->rootFreq);
    wav->res=readData(file, 36);
    wav->data=readData(file, wav->wavSize);

    wav->numSamples = wav->wavSize / 2;
    wav->startLoop = wav->startLoop >> 1;
    wav->endLoop = wav->endLoop >> 1;
    unsigned int a=0;

    /* half baked 8 bit conversion  UNFINISHED*/
    /*
    if(wav->mode & 1 == 0)  //Whoops, 8 bit
    {
        wav->numSamples = wav->wavSize;

        //Allocate a block for the rest of it
        //It should end up right after the previous one.
        wav->wavSize = wav->wavSize * 2;
        void * foo = allocate(wav->wavSize);


        for(a=0; a<1000; a++)
            printf("\n!!!!!!!!!!!!!!!!!!!!!!!!!!!");


        for(a=wav->wavSize-1; a>0; a-=2)
        {

        }
    //  int b1=wf->data[s]+((wf->mode & 2) << 6);
    //  return b1<<8;
    }
    */


#ifdef ROCKBOX_BIG_ENDIAN
    /* Byte-swap if necessary. Gus files are little endian */
    for(a=0; a<wav->numSamples; a++)
    {
        ((unsigned short *) wav->data)[a] = letoh16(((unsigned short *) wav->data)[a]);
    }
#endif

    /*  Convert unsigned to signed by subtracting 32768 */
    if(wav->mode & 2)
    {
        for(a=0; a<wav->numSamples; a++)
            ((short *) wav->data)[a] = ((unsigned short *) wav->data)[a] - 32768;

    }

    return wav;
}



int selectWaveform(struct GPatch * pat, int midiNote)
{
    /* We divide by 100 here because everyone's freq formula is slightly different */
    unsigned int tabFreq = gustable[midiNote]/100; /* Comparison */
    unsigned int a=0;
    for(a=0; a<pat->numWaveforms; a++)
    {
        if(pat->waveforms[a]->lowFreq/100 <= tabFreq &&
           pat->waveforms[a]->highFreq/100 >= tabFreq)
        {
            return a;
        }
    }
    return 0;
}


struct GPatch * gusload(char * filename)
{
    struct GPatch * gp = (struct GPatch *)allocate(sizeof(struct GPatch));
    rb->memset(gp, 0, sizeof(struct GPatch));

    int file = rb->open(filename, O_RDONLY);

    if(file == -1)
    {
        char message[50];
        rb->snprintf(message, 50, "Error opening %s", filename);
        rb->splash(HZ*2, true, message);
        return NULL;
    }

    gp->header=readData(file, 12);
    gp->gravisid=readData(file, 10);
    gp->desc=readData(file, 60);
    gp->inst=readChar(file);
    gp->voc=readChar(file);
    gp->chan=readChar(file);
    gp->numWaveforms=readWord(file);
    gp->vol=readWord(file);
    gp->datSize=readDWord(file);
    gp->res=readData(file, 36);

    gp->instrID=readWord(file);
    gp->instrName=readData(file,16);
    gp->instrSize=readDWord(file);
    gp->layers=readChar(file);
    gp->instrRes=readData(file,40);


    gp->layerDup=readChar(file);
    gp->layerID=readChar(file);
    gp->layerSize=readDWord(file);
    gp->numWaves=readChar(file);
    gp->layerRes=readData(file,40);


    printf("\nFILE: %s", filename);
    printf("\nlayerSamples=%d", gp->numWaves);

    int a=0;
    for(a=0; a<gp->numWaves; a++)
        gp->waveforms[a] = loadWaveform(file);


    printf("\nPrecomputing note table");

    for(a=0; a<128; a++)
    {
        gp->noteTable[a] = selectWaveform(gp, a);
    }
    rb->close(file);

    return gp;
}