shrooms-vb-core/core/vip.c

/* This file is included into vb.c and cannot be compiled on its own. */
#ifdef VBAPI



/********************************** Macros ***********************************/

/* Compute how many clocks are in some number of milliseconds */
#define vipClocksMs(x) x * 20000

/* Read a world line parameter value */
#define vipParam(x) busReadBuffer(&sim->vip.ram[x], VB_U16)



/******************************** Lookup Data ********************************/

/* BG map arrangement by world background dimensions */
static const uint8_t BG_TEMPLATES[][64] = {
    { 0 },                                              /* 1x1 */
    { 0, 1 },                                           /* 1x2 */
    { 0, 1, 2, 3 },                                     /* 1x4 */
    { 0, 1, 2, 3, 4, 5, 6, 7 },                         /* 1x8 */
    { 0, 1 },                                           /* 2x1 */
    { 0, 1, 2, 3 },                                     /* 2x2 */
    { 0, 1, 2, 3, 4, 5, 6, 7 },                         /* 2x4 */
    { 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7 }, /* 2x8 */
    { 0, 1, 2, 3 },                                     /* 4x1 */
    { 0, 1, 2, 3, 4, 5, 6, 7 },                         /* 4x2 */
    { 0, 1, 0, 1, 2, 3, 2, 3, 4, 5, 4, 5, 6, 7, 6, 7 }, /* 4x4 */
    { 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3,   /* 4x8 */
      4, 4, 4, 4, 5, 5, 5, 5, 6, 6, 6, 6, 7, 7, 7, 7 },
    { 0, 1, 2, 3, 4, 5, 6, 7 },                         /* 8x1 */
    { 0, 1, 2, 3, 0, 1, 2, 3, 4, 5, 6, 7, 4, 5, 6, 7 }, /* 8x2 */
    { 0, 1, 0, 1, 0, 1, 0, 1, 2, 3, 2, 3, 2, 3, 2, 3,   /* 8x4 */
      4, 5, 4, 5, 4, 5, 4, 5, 6, 7, 6, 7, 6, 7, 6, 7 },
    { 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1,   /* 8x8 */
      2, 2, 2, 2, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3,
      4, 4, 4, 4, 4, 4, 4, 4, 5, 5, 5, 5, 5, 5, 5, 5,
      6, 6, 6, 6, 6, 6, 6, 6, 7, 7, 7, 7, 7, 7, 7, 7 }
};

/* 8-bit color magnitude by brightness level */
static const uint8_t BRIGHT8[] = {
      0,  2,  4,  6,  8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30,
     32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62,
     64, 66, 68, 70, 72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94,
     96, 98,100,102,104,106,108,110,112,114,116,118,120,122,124,126,
    129,131,133,135,137,139,141,143,145,147,149,151,153,155,157,159,
    161,163,165,167,169,171,173,175,177,179,181,183,185,187,189,191,
    193,195,197,199,201,203,205,207,209,211,213,215,217,219,221,223,
    225,227,229,231,233,235,237,239,241,243,245,247,249,251,253,255
};



/***************************** Module Functions ******************************/

/* Retrieve a pointer to character data in host memory */
static uint8_t* vipCharacter(VB *sim, uint32_t c) {
    return &sim->vip.ram[0x06000 | (c << 6 & 0x18000) | (c << 4 & 0x01FF0)];
}

/* Read a palette */
static int32_t vipReadPalette(uint8_t *entries) {
    return entries[3] << 6 | entries[2] << 4 | entries[1] << 2;
}

/* Raise an interrupt request */
static void vipThrow(VB *sim, uint16_t cause) {
    sim->vip.intpnd |= cause;
    if (sim->vip.intenb & cause)
        sim->cpu.irq |= 0x0010;
}

/* Write a palette */
static void vipWritePalette(uint8_t *entries, int32_t mask, int32_t value) {
    if (mask & 0x00FF)
        return;
    entries[3] = value >> 6 & 3;
    entries[2] = value >> 4 & 3;
    entries[1] = value >> 2 & 3;
}

/* Read a typed value from an I/O register */
static int32_t vipReadIO(VB *sim, uint32_t address, int type) {
    int32_t mask = 0; /* Byte access mask */
    int32_t value;    /* Return value */

    /* Adjustments by type */
    switch (type) {

        case VB_S32: /* Word */
            return vipReadIO(sim, address, VB_U16) |
                (uint32_t) vipReadIO(sim, address + 2, VB_U16) << 16;

        case VB_S8: /* Byte */
        case VB_U8:
            mask  = 0x00FF << ((address & 1) << 3);
            break;

        case VB_S16: /* Halfword */
        case VB_U16:
            mask = 0xFFFF;
    }

    /* Access by register */
    switch (address >> 1) {

        case 0x5F800>>1: /* INTPND */
            value = sim->vip.intpnd;
            break;
        case 0x5F802>>1: /* INTENB */
            value = sim->vip.intenb;
            break;

        case 0x5F820>>1: /* DPSTTS */
            value =
                (int32_t) sim->vip.dp.lock    << 10 |
                (int32_t) sim->vip.dp.synce   <<  9 |
                (int32_t) sim->vip.dp.re      <<  8 |
                (int32_t) sim->vip.dp.fclk    <<  7 |
                (int32_t) sim->vip.dp.scanrdy <<  6 |
                (int32_t) sim->vip.dp.r1bsy   <<  5 |
                (int32_t) sim->vip.dp.l1bsy   <<  4 |
                (int32_t) sim->vip.dp.r0bsy   <<  3 |
                (int32_t) sim->vip.dp.l0bsy   <<  2 |
                (int32_t) sim->vip.dp.disp    <<  1
            ;
            break;

        case 0x5F824>>1: /* BRTA */
            value = sim->vip.brtRest[0];
            break;
        case 0x5F826>>1: /* BRTB */
            value = sim->vip.brtRest[1];
            break;
        case 0x5F828>>1: /* BRTC */
            value = sim->vip.brtRest[2];
            break;
        case 0x5F82A>>1: /* REST */
            value = sim->vip.brtRest[3];
            break;

        case 0x5F82E>>1: /* FRMCYC */
            value = sim->vip.frmcyc;
            break;

        case 0x5F830>>1: /* CTA */
            value = (int32_t) sim->vip.cta.cta_r << 8 | sim->vip.cta.cta_l;
            break;

        case 0x5F840>>1: /* XPSTTS */
            value =
                (int32_t) !!sim->vip.xp.sbout  << 15 |
                (int32_t) sim->vip.xp.sbcount  <<  8 |
                (int32_t) sim->vip.xp.overtime <<  4 |
                (int32_t) sim->vip.xp.f1bsy    <<  3 |
                (int32_t) sim->vip.xp.f0bsy    <<  2 |
                (int32_t) sim->vip.xp.xpen     <<  1
            ;
            break;

        case 0x5F844>>1: /* VER */
            value = 2;
            break;

        case 0x5F848>>1: /* SPT0 */
            value = sim->vip.spt[0];
            break;
        case 0x5F84A>>1: /* SPT1 */
            value = sim->vip.spt[1];
            break;
        case 0x5F84C>>1: /* SPT2 */
            value = sim->vip.spt[2];
            break;
        case 0x5F84E>>1: /* SPT3 */
            value = sim->vip.spt[3];
            break;

        case 0x5F860>>1: /* GPLT0 */
            value = vipReadPalette(sim->vip.gplt[0]);
            break;
        case 0x5F862>>1: /* GPLT1 */
            value = vipReadPalette(sim->vip.gplt[1]);
            break;
        case 0x5F864>>1: /* GPLT2 */
            value = vipReadPalette(sim->vip.gplt[2]);
            break;
        case 0x5F866>>1: /* GPLT3 */
            value = vipReadPalette(sim->vip.gplt[3]);
            break;
        case 0x5F868>>1: /* JPLT0 */
            value = vipReadPalette(sim->vip.jplt[0]);
            break;
        case 0x5F86A>>1: /* JPLT1 */
            value = vipReadPalette(sim->vip.jplt[1]);
            break;
        case 0x5F86C>>1: /* JPLT2 */
            value = vipReadPalette(sim->vip.jplt[2]);
            break;
        case 0x5F86E>>1: /* JPLT3 */
            value = vipReadPalette(sim->vip.jplt[3]);
            break;

        case 0x5F870>>1: /* BKCOL */
            value = sim->vip.bkcol;
            break;

        /* Unmapped */
        default: value = 0;
    }

    /* Select byte bits as necessary */
    return
        mask == 0x00FF ? value &  0x00FF :
        mask == 0xFF00 ? value >> 8      :
    value;
}

/* Write a typed value to an I/O register */
static void vipWriteIO(
    VB *sim, uint32_t address, int type, int32_t value, int debug) {
    int32_t mask; /* Byte access mask */

    /* Adjustments by type */
    switch (type) {

        case VB_S32: /* Word */
            vipWriteIO(sim, address    , VB_U16, value      , debug);
            vipWriteIO(sim, address + 2, VB_U16, value >> 16, debug);
            return;

        case VB_S8: /* Byte */
        case VB_U8:

            /* Select which half of the register to access */
            if (debug) {
                mask  = (address & 1) << 3;
                value = (value & 0x00FF) << mask;
                mask  = 0xFF00 >> mask;
                break;
            }

            /* Convert to a halfword access */
            if ((address & 1) != 0)
                value = (value & 0x00FF) << 8;

            /* Fallthrough */
        default: /* Halfword */
            mask = 0x0000;
    }

    /* Access by register */
    switch (address >> 1) {

        case 0x5F802>>1: /* INTENB */
            sim->vip.intenb = (sim->vip.intenb & mask) | (value & 0xE01F);
            break;
        case 0x5F804>>1: /* INTCLR */
            sim->vip.intpnd &= ~value;
            if ((sim->vip.intpnd & sim->vip.intenb) == 0)
                sim->cpu.irq &= ~0x0010;
            break;

        case 0x5F822>>1: /* DPCTRL */
            if ((mask & 0xFF00) == 0) {
                sim->vip.dp.lock  = value >> 10 & 1;
                sim->vip.dp.synce = value >>  9 & 1;
                sim->vip.dp.re    = value >>  8 & 1;
            }
            if ((mask & 0x00FF) == 0) {
                sim->vip.dp.disp  = value >>  1 & 1;

                /* DPRST */
                if (value & 1) {
                    sim->vip.intenb &= ~0x801F;
                    sim->vip.intpnd &= ~0x801F;
                    if ((sim->vip.intpnd & sim->vip.intenb) == 0)
                        sim->cpu.irq &= ~0x0010;
                    /* TODO: Research exact operation */
                }

            }
            break;

        case 0x5F824>>1: /* BRTA */
            sim->vip.brtRest[0] = (sim->vip.brtRest[0] & mask) | value;
            break;
        case 0x5F826>>1: /* BRTB */
            sim->vip.brtRest[1] = (sim->vip.brtRest[1] & mask) | value;
            break;
        case 0x5F828>>1: /* BRTC */
            sim->vip.brtRest[2] = (sim->vip.brtRest[2] & mask) | value;
            break;
        case 0x5F82A>>1: /* REST */
            sim->vip.brtRest[3] = (sim->vip.brtRest[3] & mask) | value;
            break;

        case 0x5F82E>>1: /* FRMCYC */
            sim->vip.frmcyc = (sim->vip.frmcyc & mask) | (value & 15);
            break;

        case 0x5F830>>1: /* CTA */
            if ((mask & 0xFF00) == 0)
                sim->vip.cta.cta_r = value >> 8;
            if ((mask & 0x00FF) == 0)
                sim->vip.cta.cta_l = value;
            break;

        case 0x5F842>>1: /* XPCTRL */
            if ((mask & 0xFF00) == 0)
                sim->vip.xp.sbcmp = value >> 8 & 31;
            if ((mask & 0x00FF) == 0) {
                sim->vip.xp.xpen  = value >> 1 &  1;

                /* XPRST */
                if (value & 1) {
                    sim->vip.intenb &= ~0xE000;
                    sim->vip.intpnd &= ~0xE000;
                    if ((sim->vip.intpnd & sim->vip.intenb) == 0)
                        sim->cpu.irq &= ~0x0010;
                    /* TODO: Research exact operation */
                }

            }
            break;

        case 0x5F848>>1: /* SPT0 */
            sim->vip.spt[0] = (sim->vip.spt[0]&mask) | (value&0x03FF&~mask);
            break;
        case 0x5F84A>>1: /* SPT1 */
            sim->vip.spt[1] = (sim->vip.spt[1]&mask) | (value&0x03FF&~mask);
            break;
        case 0x5F84C>>1: /* SPT2 */
            sim->vip.spt[2] = (sim->vip.spt[2]&mask) | (value&0x03FF&~mask);
            break;
        case 0x5F84E>>1: /* SPT3 */
            sim->vip.spt[3] = (sim->vip.spt[3]&mask) | (value&0x03FF&~mask);
            break;

        case 0x5F860>>1: /* GPLT0 */
            vipWritePalette(sim->vip.gplt[0], mask, value);
            break;
        case 0x5F862>>1: /* GPLT1 */
            vipWritePalette(sim->vip.gplt[1], mask, value);
            break;
        case 0x5F864>>1: /* GPLT2 */
            vipWritePalette(sim->vip.gplt[2], mask, value);
            break;
        case 0x5F866>>1: /* GPLT3 */
            vipWritePalette(sim->vip.gplt[3], mask, value);
            break;
        case 0x5F868>>1: /* JPLT0 */
            vipWritePalette(sim->vip.jplt[0], mask, value);
            break;
        case 0x5F86A>>1: /* JPLT1 */
            vipWritePalette(sim->vip.jplt[1], mask, value);
            break;
        case 0x5F86C>>1: /* JPLT2 */
            vipWritePalette(sim->vip.jplt[2], mask, value);
            break;
        case 0x5F86E>>1: /* JPLT3 */
            vipWritePalette(sim->vip.jplt[3], mask, value);
            break;

        case 0x5F870>>1: /* BKCOL */
            sim->vip.bkcol = (sim->vip.bkcol & mask) | (value & 3 * ~mask);
            break;
    }

}



/***************************** Callback Handlers *****************************/

/* Prepare to handle an exception */
#ifndef VB_DIRECT_FRAME
    #define VB_ON_FRAME sim->onFrame
#else
    extern int VB_DIRECT_FRAME(VB *);
    #define VB_ON_FRAME VB_DIRECT_FRAME
#endif
static int vipOnFrame(VB *sim) {
    return sim->onFrame != NULL && VB_ON_FRAME(sim);
}
#undef VB_ON_FRAME



/***************************** Display Processor *****************************/

/* Precompute brightness values for image output */
static void vipComputeBrightness(VB *sim) {
    int32_t brt[4]; /* Working output */
    int32_t repeat; /* Multiplier from column table */
    int     x;      /* Iterator */

    /* Compute brightness from hardware state */
    repeat = (int32_t) sim->vip.ram[sim->vip.dp.cta + 1] + 1;
    brt[1] = repeat * sim->vip.brtRest[0];
    brt[2] = repeat * sim->vip.brtRest[1];
    brt[3] = repeat * sim->vip.brtRest[2] + brt[2] + brt[1];

    /* Transform brightness values to 0..255 */
    for (x = 1; x < 4; x++)
        sim->vip.dp.brt[x] = brt[x] > 127 ? 255 : BRIGHT8[brt[x]];
}

/* Transfer one column of frame buffer pixels to output */
static void vipTransferColumn(VB *sim, int32_t eye) {
    int32_t  bits; /* Pixel bits from frame buffer */
    uint8_t *dest; /* Host frame image output */
    uint8_t *src;  /* Simulation frame buffer input */
    int      y, z; /* Iterators */

    /* Select destination address in host memory */
    dest = &sim->vip.output
        [sim->vip.dp.buffer][eye][sim->vip.dp.column];

    /* Output is disabled */
    if ((sim->vip.dp.disp & sim->vip.dp.synce) == 0) {
        for (y = 0; y < 224; y += 16)
        for (z = 0; z < 16; z++, dest += 384)
            *dest = 0;
        return;
    }

    /* Select source address in host memory */
    src = &sim->vip.ram[
        eye                << 16 |
        sim->vip.dp.buffer << 15 |
        sim->vip.dp.column <<  6
    ];

    /* Transfer all rows as words */
    for (y = 0; y < 224; y += 16, src += 4) {
        bits = busReadBuffer(src, VB_S32);
        for (z = 0; z < 16; bits >>= 2, z++, dest += 384)
            *dest = sim->vip.dp.brt[bits & 3];
    }

}

/* Process sub-component */
static int vipEmulateDisplay(VB *sim, uint32_t clocks) {

    /* Process all clocks */
    for (;;) {

        /* The next event is after the time remaining */
        if (sim->vip.dp.clocks > clocks) {
            sim->vip.dp.clocks -= clocks;
            sim->vip.dp.until  -= clocks;
            return 0;
        }

        /* Advance forward the component's number of clocks */
        clocks            -= sim->vip.dp.clocks;
        sim->vip.dp.until -= sim->vip.dp.clocks;
        sim->vip.dp.clocks = 0;

        /* Processing by operation phase */
        switch (sim->vip.dp.step) {

            case 0: /* 0ms - FCLK rising edge */
                sim->vip.dp.clocks = vipClocksMs(3);
                sim->vip.dp.fclk   = 1;
                sim->vip.dp.step   = 1;
                sim->vip.dp.until  = vipClocksMs(8);
                vipThrow(sim, 0x0010); /* FRAMESTART */

                /* Game frame */
                if (sim->vip.xp.xpen) {
                    if (sim->vip.xp.frame >= sim->vip.frmcyc) {
                        sim->vip.xp.frame = 0;

                        /* Initiate drawing procedure */
                        if (sim->vip.xp.step == 0) {
                            sim->vip.dp.buffer  ^= 1;
                            sim->vip.xp.overtime = 0;
                            sim->vip.xp.step     = 1;
                            vipThrow(sim, 0x0008); /* GAMESTART */
                        }

                        /* Drawing procedure has run into overtime */
                        else {
                            sim->vip.xp.overtime = 1;
                            vipThrow(sim, 0x8000); /* TIMEERR */
                        }

                    } else sim->vip.xp.frame++;
                }

                break;

            /* 0ms-3ms - Idle */

            case 1: /* 3ms - L*BSY rising edge */
                if (sim->vip.dp.buffer == 0)
                     sim->vip.dp.l0bsy = 1;
                else sim->vip.dp.l1bsy = 1;
                sim->vip.dp.column = 0;
                sim->vip.dp.cta    = 0x3DC00 | (uint32_t)sim->vip.cta.cta_l<<1;
                sim->vip.dp.step   = 2;
                vipComputeBrightness(sim);

                /* Fallthrough */
            case 2: /* 3ms-8ms - Display left frame buffer */
                if ((sim->vip.dp.column & 3) == 0)
                    vipComputeBrightness(sim);
                vipTransferColumn(sim, 0);
                sim->vip.dp.clocks =
                    260 + (0xA94 >> sim->vip.dp.column % 12 & 1);
                sim->vip.dp.column++;
                if ((sim->vip.dp.column & 3) == 0)
                    sim->vip.dp.cta -= 2;
                if (sim->vip.dp.column == 384)
                    sim->vip.dp.step = 3;
                break;

            case 3: /* 8ms - L*BSY falling edge */
                if (sim->vip.dp.buffer == 0)
                     sim->vip.dp.l0bsy = 0;
                else sim->vip.dp.l1bsy = 0;
                sim->vip.dp.clocks = vipClocksMs(2);
                sim->vip.dp.step   = 4;
                sim->vip.dp.until  = vipClocksMs(10);
                vipThrow(sim, 0x0002); /* LFBEND */
                break;

            /* 8ms-10ms - Idle */

            case 4: /* 10ms - FCLK falling edge */
                sim->vip.dp.clocks = vipClocksMs(3);
                sim->vip.dp.fclk   = 0;
                sim->vip.dp.step   = 5;
                break;

            /* 10ms-13ms - Idle */

            case 5: /* 13ms - R*BSY rising edge */
                if (sim->vip.dp.buffer == 0)
                     sim->vip.dp.r0bsy = 1;
                else sim->vip.dp.r1bsy = 1;
                sim->vip.dp.column = 0;
                sim->vip.dp.cta    = 0x3DE00 | (uint32_t)sim->vip.cta.cta_r<<1;
                sim->vip.dp.step   = 6;

                /* Fallthrough */
            case 6: /* 13ms-18ms - Display right frame buffer */
                if ((sim->vip.dp.column & 3) == 0)
                    vipComputeBrightness(sim);
                vipTransferColumn(sim, 1);
                sim->vip.dp.clocks =
                    260 + (0xA94 >> sim->vip.dp.column % 12 & 1);
                sim->vip.dp.column++;
                if ((sim->vip.dp.column & 3) == 0)
                    sim->vip.dp.cta -= 2;
                if (sim->vip.dp.column == 384)
                    sim->vip.dp.step = 7;
                break;

            case 7: /* 18ms - R*BSY falling edge */
                if (sim->vip.dp.buffer == 0)
                     sim->vip.dp.r0bsy = 0;
                else sim->vip.dp.r1bsy = 0;
                sim->vip.dp.clocks = vipClocksMs(2);
                sim->vip.dp.step   = 0;
                sim->vip.dp.until  = vipClocksMs(2);
                vipThrow(sim, 0x0004); /* RFBEND */
                if (vipOnFrame(sim))
                    return 1;
                break;

            /* 18ms-20ms - Idle */

        }
    }

    return 0;
}



/****************************** Pixel Processor ******************************/

/* Draw an object group into shadow memory */
static void vipDrawObjects(VB *sim, int group) {
    uint8_t *dest;       /* Pointer to object position in shadow memory */
    int      fx;         /* Output horizontal position */
    int      fy;         /* Output vertical position */
    uint8_t *obj;        /* Pointer to object attributes in host memory */
    int32_t  ox;         /* Eye horizontal position */
    int      pixel;      /* Character input pixel */
    int      start;      /* Index of first object in group */
    int      stop;       /* Index of last object in group */
    int      sx;         /* Input horizontal position */
    int      sy;         /* Input vertical position */
    int32_t  top;        /* Window boundary */
    int      i, o, x, y; /* Iterators */

    /* Object attributes */
    uint32_t attr1;      /* Attribute bits */
    uint32_t attr2;      /* Attribute bits */
    int      jhflp;      /* Is flipped horizontally */
    int32_t  jp;         /* Stereo parallax */
    int      jvflp;      /* Is flipped vetically */
    int32_t  jx;         /* Base horizontal position */
    int32_t  jy;         /* Vertical position */
    uint8_t *plt;        /* Palette */
    uint8_t *src;        /* Pointer to character source data in host memory */

    /* Process all objects in the group */
    start = group == 0 ? 0 : (sim->vip.spt[group - 1] + 1) & 1023;
    stop  = sim->vip.spt[group];
    top   = (int32_t) sim->vip.xp.sbcount << 3;
    for (o = stop; o != -1; o = o == start ? -1 : (o - 1) & 1023) {
        obj = &sim->vip.ram[0x3E000 | o << 3];

        /* Validate object is enabled */
        attr1 = busReadBuffer(obj + 2, VB_U16);
        if ((attr1 & 0xC000) == 0) /* JLON, JRON */
            continue;

        /* Validate Y position */
        jy = (int8_t) obj[4];
        if (jy < 7)
            jy &= 0xFF;
        if (jy < top - 7 || jy > 223)
            continue;

        /* Parse attributes */
        jx    = SignExtend(busReadBuffer(obj, VB_U16), 10);
        jp    = SignExtend(attr1, 10);
        attr2 = busReadBuffer(obj + 6, VB_U16);
        jhflp = attr2 >> 13 & 1;
        jvflp = attr2 >> 12 & 1;

        /* Locate palette and character state in host memory */
        plt = sim->vip.jplt[attr2 >> 14];
        src = vipCharacter(sim, attr2); 

        /* Draw the character */
        for (i = 0; i < 2; i++) {
            if ((attr1 >> (15 - i) & 1) == 0) /* J*ON */
                continue;
            ox   = jx - (i == 0 ? jp : -jp);
            dest = &sim->vip.shadow[i][ox * 224 + jy];

            /* Draw all columns */
            for (x = 0; x < 8; x++, dest += 224) {
                fx = ox + x;
                if (fx < 0 || fx > 383)
                    continue;
                sx = jhflp ? 7 - x : x;

                /* Draw all rows */
                for (y = 0; y < 8; y++) {
                    fy = jy + y;
                    if (fy < top || fy > 223)
                        continue;
                    sy    = jvflp ? 7 - y : y;
                    pixel = src[sy << 1 | sx >> 2] >> ((sx & 3) << 1) & 3;
                    if (pixel != 0)
                        dest[y] = plt[pixel]; /* TODO: Research clocks */
                } /* y */

            } /* x */

        } /* i */

    }

}

/* Draw a background world into shadow memory */
static void vipDrawWorld(VB *sim, uint8_t *world, uint16_t attr) {
    uint8_t *bg;      /* Background arrangement */
    uint16_t bgAttr;  /* BG map cell attributes */
    int32_t  bgh;     /* Height of background in BG maps, minus 1 */
    int32_t  bgw;     /* Width of background in BG maps, minus 1 */
    int32_t  bottom;  /* Window bottom edge position */
    int32_t  bp;      /* Eye BG map source parallax */
    int32_t  bx;      /* BG horizontal map source position */
    int32_t  by;      /* BG vertical map source position */
    uint8_t *cell;    /* Pointer to BG map cell in host memory */
    uint8_t *chr;     /* Pointer to character data in host memory */
    int32_t  cx;      /* BG cell/character horizontal pixel source position */
    int32_t  cy;      /* BG cell/character vertical pixel source position */
    uint8_t *dest;    /* Pointer to output in shadow memory */
    int32_t  left;    /* Window left edge position */
    uint32_t param;   /* Current line parameter address */
    int8_t   pixel;   /* Character pixel value */
    int32_t  right;   /* Window right edge position */
    int32_t  top;     /* Window top edge position */
    int32_t  wx;      /* Eye horizontal position */
    int32_t  i, x, y; /* Iterators */

    /* World attributes */
    int32_t  base;       /* BG map base index */
    int      bgm;        /* BG mode */
    int32_t  dx;         /* Affine per-pixel X delta */
    int32_t  dy;         /* Affine per-pixel Y delta */
    int16_t  gp;         /* Window stereo parallax */
    int16_t  gx;         /* Window base horizontal position */
    int16_t  gy;         /* Window vertical position */
    int16_t  h;          /* Window height */
    int16_t  hofst;      /* H-bias shift */
    int32_t  mp;         /* BG map source stereo parallax */
    int32_t  mx = 0;     /* BG map horizontal source */
    int32_t  my = 0;     /* BG map vertical source */
    int32_t  scx;        /* Background width shift amount */
    int32_t  scy;        /* Background height shift amount */
    uint8_t *over;       /* Pointer to overplane "cell" in host memory */
    uint32_t params = 0; /* Base address of line parameters */
    int16_t  w;          /* Window width */

    /* Validate the world isn't below the frame */
    gy = busReadBuffer(world + 6, VB_S16);
    if (gy > 223)
        return;

    /* Validate the world isn't above the frame, and height is positive */
    bgm = attr >> 12 & 3;
    y   = bgm == 2 ? 0 : 8;
    h   = busReadBuffer(world + 16, VB_S16) + 1;
    if (h < y)
        h = y;
    if (h == 0)
        return;
    bottom = gy + h - 1;
    top    = (int32_t) sim->vip.xp.sbcount << 3;
    if (bottom < top)
        return;
    if (bottom > 223)
        bottom = 223;
    if (top < gy)
        top = gy;

    /* Validate width is positive */
    w = SignExtend(busReadBuffer(world + 14, VB_U16), bgm == 2 ? 10 : 13) + 1;
    if (w < 1)
        return;

    /* Parse attributes */
    bg   = (uint8_t *) BG_TEMPLATES[attr >> 8 & 15];
    gx   = SignExtend(busReadBuffer(world + 2, VB_U16), 10);
    gp   = SignExtend(busReadBuffer(world + 4, VB_U16), 10);
    over = (attr & 0x0080) ? world + 20 : NULL;
    scx  = attr >> 10 & 3;
    scy  = attr >>  8 & 3;
    bgw  = (1 << scx) - 1;
    bgh  = (1 << scy) - 1;
    base = attr & 15 & ~((1 << (scx + scy < 3 ? scx + scy : 3)) - 1);
    if (bgm != 2) {
        mx = SignExtend(busReadBuffer(world +  8, VB_U16), 13);
        mp = SignExtend(busReadBuffer(world + 10, VB_U16), 15);
        my = SignExtend(busReadBuffer(world + 12, VB_U16), 13);
    }
    if (bgm != 0) {
        params = 0x20000 + (top - gy) * (bgm == 1 ? 4 : 16) +
            ((uint32_t) busReadBuffer(world + 18, VB_U16) << 1);
    }
    else hofst = 0;

    /* Draw the world */
    for (i = 0; i < 2; i++) {

        /* Validate world is enabled */
        if ((attr & (int32_t) 0x8000 >> i) == 0) /* LON, RON */
            continue;

        /* Validate the world isn't right of frame */
        wx = gx - (i == 0 ? gp : -gp);
        if (wx > 383)
            return;
        left = wx < 0 ? 0 : wx;

        /* Validate the world isn't left of frame */
        right = wx + w - 1;
        if (right < 0)
            return;
        if (right > 383)
            right = 383;

        /* BG source parallax */
        if (bgm != 2)
            bp = i == 0 ? -mp : mp;

        /* Draw all rows */
        for (y = top, param = params; y <= bottom; y++) {

            /* Parse line parameters */
            switch (bgm) {
                case 1: /* H-bias */
                    hofst  = SignExtend(vipParam(param | i << 1), 13);
                    param += 4;
                    break;
                case 2: /* Affine */
                    dx =  (int32_t) (int16_t) vipParam(param|6) << 7;
                    dy =  (int32_t) (int16_t) vipParam(param|8) << 7;
                    mp =  (int32_t) (int16_t) vipParam(param|2);
                    mp = left - wx - ((mp < 0) ^ i ? mp : 0);
                    mx = ((int32_t) (int16_t) vipParam(param  ) << 13) + dx*mp;
                    my = ((int32_t) (int16_t) vipParam(param|4) << 13) + dy*mp;
                    param += 16;
            }

            /* Select output in shadow memory */
            dest = &sim->vip.shadow[i][left * 224 + y];

            /* Draw all columns */
            for (x = left; x <= right; x++, dest += 224) {

                /* Locate the pixel in the background */
                if (bgm != 2) { /* Normal, H-bias */
                    cx  = x - wx + mx + bp + hofst;
                    cy  = y - gy + my;
                } else { /* Affine */
                    cx  = (int16_t) (mx >> 16);
                    cy  = (int16_t) (my >> 16);
                    mx += dx;
                    my += dy;
                }

                /* Locate the BG map in the background */
                bx   = SignExtend(cx >> 9, 23);
                by   = SignExtend(cy >> 9, 23);
                cell = NULL;

                /* BG map is out of bounds */
                if (bx < 0 || bx > bgw || by < 0 || by > bgh) {
                    if (over == NULL) {
                        bx &= bgw;
                        by &= bgh;
                    }
                    else {
                        cell = over;
                        continue; /* TODO: Research overplane */
                    }
                }

                /* Locate the cell in the BG map */
                if (cell == NULL) {
                    cell = &sim->vip.ram[
                        0x20000                           |
                        (base + bg[by << scx | bx]) << 13 |
                        (cy << 4 & 0x1F80)                |
                        (cx >> 2 & 0x007E)
                    ];
                }

                /* Extract the pixel from the character */
                bgAttr = busReadBuffer(cell, VB_U16);
                chr    = vipCharacter(sim, bgAttr);
                cx     = (bgAttr & 0x2000 ? 7 - cx : cx) & 7;
                cy     = (bgAttr & 0x1000 ? 7 - cy : cy) & 7;
                pixel  = chr[cy << 1 | cx >> 2] >> ((cx & 3) << 1) & 3;

                /* Write the pixel into shadow memory */
                if (pixel != 0)
                    *dest = sim->vip.gplt[bgAttr >> 14 & 3][pixel];

            } /* x */

        } /* y */

    } /* i */

}

/* Draw the current graphics configuration into shadow memory */
static void vipRender(VB *sim) {
    uint16_t  attr;   /* World attribute bits */
    int       group;  /* Next object group index */
    uint16_t *timing; /* Column timing in host memory */
    uint8_t  *world;  /* World attribute source in host memory */
    int32_t   x, y;   /* Iterators */

    /* Erase all pixels */
    for (x = 0; x < 384*224; x += 224)
    for (y = (int32_t) sim->vip.xp.sbcount << 3; y < 224; y++)
        sim->vip.shadow[0][x + y] = sim->vip.shadow[1][x + y] = sim->vip.bkcol;

    /* Process all worlds */
    group = 3;
    world = &sim->vip.ram[0x3DBE0]; /* World 31 */
    for (x = 31; x >= 0; x--, world -= 32) {
        attr = busReadBuffer(world, VB_U16);

        /* Non-graphical world */
        if (attr & 0x0040) /* END */
            break;    /* Control world */
        if ((attr & 0xC000) == 0) /* LON, RON */
            continue; /* Dummy world */

        /* Object world */
        if ((attr >> 12 & 3) == 3) {
            vipDrawObjects(sim, group);
            group = (group - 1) & 3;
        }

        /* Background world */
        else if (attr & 0xC000) /* LON, RON */
            vipDrawWorld(sim, world, attr);
    }

    /*
      Supply filler timings for each group of 8 rows of pixels
        Using 2.8ms experimental measurement for empty frame
        = 125 clocks every 24 halfwords
    */
    timing = &sim->vip.halfwords[(uint32_t) sim->vip.xp.sbcount * 384];
    x      = sim->vip.xp.column;
    for (y = sim->vip.xp.sbcount; y < 28; y++, x = 0)
    for (; x < 384; x++, timing++)
        *timing = 5 + ((uint32_t) 0x210884 >> x % 24 & 1);
}

/* Transfer one halfword from shadow pixel memory to the frame buffer */
static void vipTransferHalfword(VB *sim) {
    uint32_t bits0;  /* Upper 4 pixels from shadow memory */
    uint32_t bits1;  /* Lower 4 pixels from shadow memory */
    uint8_t *dest;   /* Pointer to frame buffer data in host memory */
    uint32_t offset; /* Position of halfword in shadow memory */
    uint8_t *src;    /* Pointer to pixel data in host memory */
    int      i;      /* Iterator */

    /* Determine the output address in frame buffer memory */
    dest = &sim->vip.ram[
        (uint32_t) (sim->vip.dp.buffer ^ 1) << 15 |
        (uint32_t)  sim->vip.xp.column      <<  6 |
        (uint32_t)  sim->vip.xp.sbcount     <<  1
    ];

    /* Transfer halfwords to each eye's frame buffer */
    offset = (uint32_t) sim->vip.xp.column * 224 +
        ((uint32_t) sim->vip.xp.sbcount << 3);
    for (i = 0; i < 2; i++, dest += 0x10000) {
        src   = &sim->vip.shadow[i][offset];
        bits0 = busReadBuffer(src    , VB_S32);
        bits1 = busReadBuffer(src + 4, VB_S32);
        busWriteBuffer(dest, VB_U16,
            (bits0       & 0x0003) |
            (bits0 >>  6 & 0x000C) |
            (bits0 >> 12 & 0x0030) |
            (bits0 >> 18 & 0x00C0) |
            (bits1 <<  8 & 0x0300) |
            (bits1 <<  2 & 0x0C00) |
            (bits1 >>  4 & 0x3000) |
            (bits1 >> 10 & 0xC000)
        );
    }

}

/* Process sub-component */
static void vipEmulateDrawing(VB *sim, uint32_t clocks) {

    /* Process all clocks */
    for (;;) {

        /* The next event is after the time remaining */
        if (sim->vip.xp.clocks > clocks) {
            sim->vip.xp.clocks -= clocks;
            sim->vip.xp.until  -= clocks;
            return;
        }

        /* Advance forward the component's number of clocks */
        clocks            -= sim->vip.xp.clocks;
        sim->vip.xp.until -= sim->vip.xp.clocks;
        sim->vip.xp.clocks = 0;

        /* Processing by operation phase */
        switch (sim->vip.xp.step) {

            case 1: /* Initialization */
                sim->vip.xp.halfword = 0;
                sim->vip.xp.sbcount  = 0;
                if (sim->vip.dp.buffer == 0)
                     sim->vip.xp.f1bsy = 1;
                else sim->vip.xp.f0bsy = 1;
                vipRender(sim);

                /* Fallthrough */
            case 2: /* Begin drawing halfwords */
                sim->vip.xp.column = 0;
                sim->vip.xp.sbout  = 2240; /* 112us */
                sim->vip.xp.step   = 3;
                sim->vip.xp.until  = 2000; /* 100us */
                if (sim->vip.xp.sbcount == sim->vip.xp.sbcmp)
                    vipThrow(sim, 0x2000); /* SBHIT */

                /* Fallthrough */
            case 3: /* Draw one halfword */
                vipTransferHalfword(sim);
                sim->vip.xp.clocks = sim->vip.halfwords[sim->vip.xp.halfword];
                sim->vip.xp.column  ++;
                sim->vip.xp.halfword++;
                if (sim->vip.xp.column < 384)
                    break;

                /* Transition to a new line of halfwords */
                sim->vip.xp.sbcount++;
                sim->vip.xp.step = sim->vip.xp.sbcount == 28 ? 4 : 2;
                break;

            case 4: /* Drawing complete */
                sim->vip.xp.step = 0;
                if (sim->vip.dp.buffer == 0)
                     sim->vip.xp.f1bsy = 0;
                else sim->vip.xp.f0bsy = 0;
                vipThrow(sim, 0x4000); /* XPEND */
                return;
        }

    }

    return; /* Unreachable */
}



/***************************** Library Functions *****************************/

/* Process component */
static int vipEmulate(VB *sim, uint32_t clocks) {

    /* Process sub-components */
    int brk = vipEmulateDisplay(sim, clocks);
    if (sim->vip.xp.step != 0)
        vipEmulateDrawing(sim, clocks);

    /* Process SBOUT */
    if (sim->vip.xp.sbout != 0) {
        if (sim->vip.xp.sbout <= clocks) {
            sim->vip.xp.sbout = 0;
        } else sim->vip.xp.sbout -= clocks;
    }

    return brk;
}

/* Read a typed value from the VIP bus */
static void vipRead(VB *sim, uint32_t address, int type, int32_t *value) {

    /* Working variables */
    address &= 0x0007FFFF;

    /* RAM */
    if (address < 0x40000)
        *value = busReadBuffer(&sim->vip.ram[address], type);

    /* Unmapped */
    else if (address < 0x5E000)
        *value = 0;

    /* I/O register */
    else if (address < 0x60000)
        *value = vipReadIO(sim, address, type);

    /* Unmapped */
    else if (address < 0x78000)
        *value = 0;

    /* Mirrors of character memory */
    else {
        address = 0x06000 | (address << 2 & 0x18000) | (address & 0x01FFF);
        *value  = busReadBuffer(&sim->vip.ram[address], type);
    }

}

/* Simulate a hardware reset */
static void vipReset(VB *sim) {
    int x, y; /* Iterators */

    /* Normal */
    sim->vip.intenb   = 0x0000;
    sim->vip.dp.disp  = 0;
    sim->vip.dp.re    = 0;
    sim->vip.dp.synce = 0;
    sim->vip.xp.xpen  = 0;

    /* Extra (the hardware does not do this) */
    sim->vip.bkcol     = 0;
    sim->vip.cta.cta_l = 0xFA;
    sim->vip.cta.cta_r = 0xFA;
    sim->vip.frmcyc    = 0;
    sim->vip.intpnd    = 0x0000;
    for (x = 0; x < 0x40000; x++)
        sim->vip.ram[x] = 0;
    for (x = 0; x < 4; x++) {
        sim->vip.brtRest[x] = 0;
        sim->vip.spt    [x] = 0;
        for (y = 0; y < 4; y++) {
            sim->vip.gplt[x][y] = 0;
            sim->vip.jplt[x][y] = 0;
        }
    }

    /* Display processor extra (the hardware does not do this) */
    sim->vip.dp.fclk    = 0;
    sim->vip.dp.l0bsy   = 0;
    sim->vip.dp.l1bsy   = 0;
    sim->vip.dp.lock    = 0;
    sim->vip.dp.r0bsy   = 0;
    sim->vip.dp.r1bsy   = 0;
    sim->vip.dp.scanrdy = 1;

    /* Pixel processor extra (the hardware does not do this) */
    sim->vip.xp.f0bsy    = 0;
    sim->vip.xp.f1bsy    = 0;
    sim->vip.xp.overtime = 0;
    sim->vip.xp.sbcmp    = 0;
    sim->vip.xp.sbcount  = 0;
    sim->vip.xp.sbout    = 0;

    /* Display processor other */
    sim->vip.dp.brt[0] = 0;
    sim->vip.dp.buffer = 0; /* TODO: Hardware might actually do this */
    sim->vip.dp.clocks = 0;
    sim->vip.dp.step   = 0;
    sim->vip.dp.until  = 0;

    /* Pixel processor other */
    sim->vip.xp.clocks = 0;
    sim->vip.xp.step   = 0;
    sim->vip.xp.until  = 0;
}

/* Determine how many clocks are guaranteed to process */
static uint32_t vipUntil(VB *sim, uint32_t clocks) {
    if (clocks > sim->vip.dp.until)
        clocks = sim->vip.dp.until;
    if (sim->vip.xp.step != 0 && clocks > sim->vip.xp.until)
        clocks = sim->vip.xp.until;
    return clocks;
}

/* Write a typed value to the VIP bus */
static void vipWrite(VB*sim,uint32_t address,int type,int32_t value,int debug){

    /* Working variables */
    address &= 0x0007FFFF;

    /* RAM */
    if (address < 0x40000)
        busWriteBuffer(&sim->vip.ram[address], type, value);

    /* Unmapped */
    else if (address < 0x5E000)
        ;

    /* I/O register */
    else if (address < 0x60000)
        vipWriteIO(sim, address, type, value, debug);

    /* Unmapped */
    else if (address < 0x78000)
        ;

    /* Mirrors of character memory */
    else {
        address = 0x06000 | (address << 2 & 0x18000) | (address & 0x01FFF);
        busWriteBuffer(&sim->vip.ram[address], type, value);
    }

}



#endif /* VBAPI */