Example #1
0
File: sys.c Project: chrilith/SGDK
// V-Int Callback
void _vint_callback()
{
    u16 vintp;

    intTrace |= IN_VINT;

    vtimer++;

    // call user callback (pre V-Int)
    if (VIntCBPre) VIntCBPre();

    vintp = VIntProcess;
    // may worth it
    if (vintp)
    {
        // xgm processing (have to be done first !)
        if (vintp & PROCESS_XGM_TASK)
            XGM_doVBlankProcess();

        // dma processing
        if (vintp & PROCESS_DMA_TASK)
        {
            // DMA protection for XGM driver
            if (currentZ80Driver == Z80_DRIVER_XGM)
            {
                SND_set68KBUSProtection_XGM(TRUE);

                // delay enabled ? --> wait a bit to improve PCM playback (test on SOR2)
                if (SND_getForceDelayDMA_XGM()) waitSubTick(10);

                DMA_flushQueue();

                SND_set68KBUSProtection_XGM(FALSE);
            }
            else
                DMA_flushQueue();

            // always clear process
            vintp &= ~PROCESS_DMA_TASK;
        }

        // tile cache processing
        if (vintp & PROCESS_TILECACHE_TASK)
            TC_doVBlankProcess();
        // bitmap processing
        if (vintp & PROCESS_BITMAP_TASK)
            BMP_doVBlankProcess();
        // palette fading processing
        if (vintp & PROCESS_PALETTE_FADING)
        {
            if (!VDP_doStepFading(FALSE)) vintp &= ~PROCESS_PALETTE_FADING;
        }

        VIntProcess = vintp;
    }

    // then call user callback
    if (VIntCB) VIntCB();

    // joy state refresh (better to do it after user's callback as it can eat some time)
    JOY_update();

    intTrace &= ~IN_VINT;
}
Example #2
0
File: main.c Project: clbr/SGDK
static void vintEvent()
{
    u16 i;
    u16 in, out;
    char strNum[8];
    char str[40];

    // set BUS protection for XGM driver
    if (driver->id == Z80_DRIVER_XGM)
        SND_set68KBUSProtection_XGM(TRUE);

    in = GET_VCOUNTER;

    if ((in >= 224) && (in <= 230))
    {
        switch(dmaMethod)
        {
        case 1:
            VDP_doDMAEx(VDP_DMA_VRAM, 0, 0x8000, (6 * 1024) / 2, 2);
            break;

        case 2:
            for(i = 0; i < 4; i++)
            {
                VDP_doDMAEx(VDP_DMA_VRAM, 0, 0x8000, 1024 / 2, 2);
                waitSubTick(0);
            }
            break;

        case 3:
            for(i = 0; i < 8; i++)
            {
                VDP_doDMAEx(VDP_DMA_VRAM, 0, 0x8000, 256 / 2, 2);
                waitSubTick(0);
            }
            break;
        }
    }

    out = GET_VCOUNTER;

    if (driver->id == Z80_DRIVER_XGM)
    {
        u16 load;

        // remove BUS protection for XGM driver
        SND_set68KBUSProtection_XGM(FALSE);

        // get Z80 cpu estimated load
        load = SND_getCPULoad_XGM();

        uintToStr(load, str, 3);
        strcat(str, " %");
        VDP_clearText(16, 21, 10);
        VDP_drawText(str, 16, 21);

//        {
//            u8 debugValues[12];
//
//            getZ80Debug(debugValues);
//
//            strcpy(str, "4 PCM mixing: ");
//
//            uintToStr(debugValues[0], strNum, 3);
//            strcat(str, strNum);
//            strcat(str, " ");
//            uintToStr(debugValues[4], strNum, 3);
//            strcat(str, strNum);
//
//            VDP_drawText(str, 1, 22);
//
//            strcpy(str, "XGM prep & parse: ");
//
//            uintToStr(debugValues[5], strNum, 3);
//            strcat(str, strNum);
//            strcat(str, " ");
//            uintToStr(debugValues[6], strNum, 3);
//            strcat(str, strNum);
//            strcat(str, " ");
//            uintToStr(debugValues[7], strNum, 3);
//            strcat(str, strNum);
//
//            VDP_drawText(str, 1, 23);
//
//            strcpy(str, "Ext com & sync: ");
//
//            strcat(str, strNum);
//            strcat(str, " ");
//            uintToStr(debugValues[8], strNum, 3);
//            strcat(str, strNum);
//            strcat(str, " ");
//            uintToStr(debugValues[9], strNum, 3);
//            strcat(str, strNum);
//
//            VDP_drawText(str, 1, 24);
//        }
    }
    else
    {
        VDP_clearTextLine(22);
        VDP_clearTextLine(23);
        VDP_clearTextLine(24);
    }

    if ((in >= 224) && (in <= 230))
    {
        switch(dmaMethod)
        {
        case 0:
            VDP_drawText("NONE    ", 13, 26);
            break;

        case 1:
            VDP_drawText("1 x 6KB ", 13, 26);
            break;

        case 2:
            VDP_drawText("4 x 1KB ", 13, 26);
            break;

        case 3:
            VDP_drawText("8 x 256B", 13, 26);
            break;
        }
    }
    else
        VDP_drawText("NOT DONE", 13, 26);

    if (dmaMethod)
    {
        strcpy(str, "DMA start at ");
        uintToStr(in, strNum, 3);
        strcat(str, strNum);
        strcat(str, " - end at ");
        uintToStr(out, strNum, 3);
        strcat(str, strNum);

        VDP_drawText(str, 1, 27);
    }
    else
        VDP_clearTextLine(27);
}