/* Taito Wolf System
Driver by Ville Linde
*/
#include "driver.h"
#include "cpu/i386/i386.h"
#include "memconv.h"
#include "devconv.h"
#include "machine/8237dma.h"
#include "machine/pic8259.h"
#include "machine/pit8253.h"
#include "machine/mc146818.h"
#include "machine/pcshare.h"
#include "machine/pci.h"
#include "machine/8042kbdc.h"
#include "machine/pckeybrd.h"
#include "machine/idectrl.h"
static void ide_interrupt(const device_config *device, int state);
static UINT32 *cga_ram;
static UINT32 *bios_ram;
static struct {
const device_config *pit8254;
const device_config *pic8259_1;
const device_config *pic8259_2;
const device_config *dma8237_1;
const device_config *dma8237_2;
} taitowlf_devices;
static const rgb_t cga_palette[16] =
{
MAKE_RGB( 0x00, 0x00, 0x00 ), MAKE_RGB( 0x00, 0x00, 0xaa ), MAKE_RGB( 0x00, 0xaa, 0x00 ), MAKE_RGB( 0x00, 0xaa, 0xaa ),
MAKE_RGB( 0xaa, 0x00, 0x00 ), MAKE_RGB( 0xaa, 0x00, 0xaa ), MAKE_RGB( 0xaa, 0x55, 0x00 ), MAKE_RGB( 0xaa, 0xaa, 0xaa ),
MAKE_RGB( 0x55, 0x55, 0x55 ), MAKE_RGB( 0x55, 0x55, 0xff ), MAKE_RGB( 0x55, 0xff, 0x55 ), MAKE_RGB( 0x55, 0xff, 0xff ),
MAKE_RGB( 0xff, 0x55, 0x55 ), MAKE_RGB( 0xff, 0x55, 0xff ), MAKE_RGB( 0xff, 0xff, 0x55 ), MAKE_RGB( 0xff, 0xff, 0xff ),
};
static VIDEO_START(taitowlf)
{
int i;
for (i=0; i < 16; i++)
{
palette_set_color(machine, i, cga_palette[i]);
}
}
static void draw_char(bitmap_t *bitmap, const rectangle *cliprect, const gfx_element *gfx, int ch, int att, int x, int y)
{
int i,j;
const UINT8 *dp;
int index = 0;
dp = gfx_element_get_data(gfx, ch);
for (j=y; j < y+8; j++)
{
UINT16 *p = BITMAP_ADDR16(bitmap, j, 0);
for (i=x; i < x+8; i++)
{
UINT8 pen = dp[index++];
if (pen)
p[i] = gfx->color_base + (att & 0xf);
else
p[i] = gfx->color_base + ((att >> 4) & 0x7);
}
}
}
static VIDEO_UPDATE(taitowlf)
{
int i, j;
const gfx_element *gfx = screen->machine->gfx[0];
UINT32 *cga = cga_ram;
int index = 0;
bitmap_fill(bitmap, cliprect, 0);
for (j=0; j < 25; j++)
{
for (i=0; i < 80; i+=2)
{
int att0 = (cga[index] >> 8) & 0xff;
int ch0 = (cga[index] >> 0) & 0xff;
int att1 = (cga[index] >> 24) & 0xff;
int ch1 = (cga[index] >> 16) & 0xff;
draw_char(bitmap, cliprect, gfx, ch0, att0, i*8, j*8);
draw_char(bitmap, cliprect, gfx, ch1, att1, (i*8)+8, j*8);
index++;
}
}
return 0;
}
static READ8_DEVICE_HANDLER(at_dma8237_2_r)
{
return dma8237_r(device, offset / 2);
}
static WRITE8_DEVICE_HANDLER(at_dma8237_2_w)
{
dma8237_w(device, offset / 2, data);
}
static READ32_DEVICE_HANDLER(at32_dma8237_2_r)
{
return read32le_with_read8_device_handler(at_dma8237_2_r, device, offset, mem_mask);
}
static WRITE32_DEVICE_HANDLER(at32_dma8237_2_w)
{
write32le_with_write8_device_handler(at_dma8237_2_w, device, offset, data, mem_mask);
}
// Intel 82439TX System Controller (MXTC)
static UINT8 mxtc_config_reg[256];
static UINT8 mxtc_config_r(const device_config *busdevice, const device_config *device, int function, int reg)
{
// mame_printf_debug("MXTC: read %d, %02X\n", function, reg);
return mxtc_config_reg[reg];
}
static void mxtc_config_w(const device_config *busdevice, const device_config *device, int function, int reg, UINT8 data)
{
// mame_printf_debug("%s:MXTC: write %d, %02X, %02X\n", cpuexec_describe_context(machine), function, reg, data);
switch(reg)
{
case 0x59: // PAM0
{
if (data & 0x10) // enable RAM access to region 0xf0000 - 0xfffff
{
memory_set_bankptr(busdevice->machine, 1, bios_ram);
}
else // disable RAM access (reads go to BIOS ROM)
{
memory_set_bankptr(busdevice->machine, 1, memory_region(busdevice->machine, "user1") + 0x30000);
}
break;
}
}
mxtc_config_reg[reg] = data;
}
static void intel82439tx_init(void)
{
mxtc_config_reg[0x60] = 0x02;
mxtc_config_reg[0x61] = 0x02;
mxtc_config_reg[0x62] = 0x02;
mxtc_config_reg[0x63] = 0x02;
mxtc_config_reg[0x64] = 0x02;
mxtc_config_reg[0x65] = 0x02;
}
static UINT32 intel82439tx_pci_r(const device_config *busdevice, const device_config *device, int function, int reg, UINT32 mem_mask)
{
UINT32 r = 0;
if (ACCESSING_BITS_24_31)
{
r |= mxtc_config_r(busdevice, device, function, reg + 3) << 24;
}
if (ACCESSING_BITS_16_23)
{
r |= mxtc_config_r(busdevice, device, function, reg + 2) << 16;
}
if (ACCESSING_BITS_8_15)
{
r |= mxtc_config_r(busdevice, device, function, reg + 1) << 8;
}
if (ACCESSING_BITS_0_7)
{
r |= mxtc_config_r(busdevice, device, function, reg + 0) << 0;
}
return r;
}
static void intel82439tx_pci_w(const device_config *busdevice, const device_config *device, int function, int reg, UINT32 data, UINT32 mem_mask)
{
if (ACCESSING_BITS_24_31)
{
mxtc_config_w(busdevice, device, function, reg + 3, (data >> 24) & 0xff);
}
if (ACCESSING_BITS_16_23)
{
mxtc_config_w(busdevice, device, function, reg + 2, (data >> 16) & 0xff);
}
if (ACCESSING_BITS_8_15)
{
mxtc_config_w(busdevice, device, function, reg + 1, (data >> 8) & 0xff);
}
if (ACCESSING_BITS_0_7)
{
mxtc_config_w(busdevice, device, function, reg + 0, (data >> 0) & 0xff);
}
}
// Intel 82371AB PCI-to-ISA / IDE bridge (PIIX4)
static UINT8 piix4_config_reg[4][256];
static UINT8 piix4_config_r(const device_config *busdevice, const device_config *device, int function, int reg)
{
// mame_printf_debug("PIIX4: read %d, %02X\n", function, reg);
return piix4_config_reg[function][reg];
}
static void piix4_config_w(const device_config *busdevice, const device_config *device, int function, int reg, UINT8 data)
{
// mame_printf_debug("%s:PIIX4: write %d, %02X, %02X\n", cpuexec_describe_context(machine), function, reg, data);
piix4_config_reg[function][reg] = data;
}
static UINT32 intel82371ab_pci_r(const device_config *busdevice, const device_config *device, int function, int reg, UINT32 mem_mask)
{
UINT32 r = 0;
if (ACCESSING_BITS_24_31)
{
r |= piix4_config_r(busdevice, device, function, reg + 3) << 24;
}
if (ACCESSING_BITS_16_23)
{
r |= piix4_config_r(busdevice, device, function, reg + 2) << 16;
}
if (ACCESSING_BITS_8_15)
{
r |= piix4_config_r(busdevice, device, function, reg + 1) << 8;
}
if (ACCESSING_BITS_0_7)
{
r |= piix4_config_r(busdevice, device, function, reg + 0) << 0;
}
return r;
}
static void intel82371ab_pci_w(const device_config *busdevice, const device_config *device, int function, int reg, UINT32 data, UINT32 mem_mask)
{
if (ACCESSING_BITS_24_31)
{
piix4_config_w(busdevice, device, function, reg + 3, (data >> 24) & 0xff);
}
if (ACCESSING_BITS_16_23)
{
piix4_config_w(busdevice, device, function, reg + 2, (data >> 16) & 0xff);
}
if (ACCESSING_BITS_8_15)
{
piix4_config_w(busdevice, device, function, reg + 1, (data >> 8) & 0xff);
}
if (ACCESSING_BITS_0_7)
{
piix4_config_w(busdevice, device, function, reg + 0, (data >> 0) & 0xff);
}
}
// ISA Plug-n-Play
static WRITE32_HANDLER( pnp_config_w )
{
if (ACCESSING_BITS_8_15)
{
// mame_printf_debug("PNP Config: %02X\n", (data >> 8) & 0xff);
}
}
static WRITE32_HANDLER( pnp_data_w )
{
if (ACCESSING_BITS_8_15)
{
// mame_printf_debug("PNP Data: %02X\n", (data >> 8) & 0xff);
}
}
static READ32_DEVICE_HANDLER( ide_r )
{
return ide_controller32_r(device, 0x1f0/4 + offset, mem_mask);
}
static WRITE32_DEVICE_HANDLER( ide_w )
{
ide_controller32_w(device, 0x1f0/4 + offset, data, mem_mask);
}
static READ32_DEVICE_HANDLER( fdc_r )
{
return ide_controller32_r(device, 0x3f0/4 + offset, mem_mask);
}
static WRITE32_DEVICE_HANDLER( fdc_w )
{
//mame_printf_debug("FDC: write %08X, %08X, %08X\n", data, offset, mem_mask);
ide_controller32_w(device, 0x3f0/4 + offset, data, mem_mask);
}
static WRITE32_HANDLER(bios_ram_w)
{
if (mxtc_config_reg[0x59] & 0x20) // write to RAM if this region is write-enabled
{
COMBINE_DATA(bios_ram + offset);
}
}
/*************************************************************************
*
* PC DMA stuff
*
*************************************************************************/
static UINT8 dma_offset[2][4];
static UINT8 at_pages[0x10];
static READ8_HANDLER(at_page8_r)
{
UINT8 data = at_pages[offset % 0x10];
switch(offset % 8) {
case 1:
data = dma_offset[(offset / 8) & 1][2];
break;
case 2:
data = dma_offset[(offset / 8) & 1][3];
break;
case 3:
data = dma_offset[(offset / 8) & 1][1];
break;
case 7:
data = dma_offset[(offset / 8) & 1][0];
break;
}
return data;
}
static WRITE8_HANDLER(at_page8_w)
{
at_pages[offset % 0x10] = data;
switch(offset % 8) {
case 1:
dma_offset[(offset / 8) & 1][2] = data;
break;
case 2:
dma_offset[(offset / 8) & 1][3] = data;
break;
case 3:
dma_offset[(offset / 8) & 1][1] = data;
break;
case 7:
dma_offset[(offset / 8) & 1][0] = data;
break;
}
}
static DMA8237_MEM_READ( pc_dma_read_byte )
{
const address_space *space = cpu_get_address_space(device->machine->cpu[0], ADDRESS_SPACE_PROGRAM);
offs_t page_offset = (((offs_t) dma_offset[0][channel]) << 16)
& 0xFF0000;
return memory_read_byte(space, page_offset + offset);
}
static DMA8237_MEM_WRITE( pc_dma_write_byte )
{
const address_space *space = cpu_get_address_space(device->machine->cpu[0], ADDRESS_SPACE_PROGRAM);
offs_t page_offset = (((offs_t) dma_offset[0][channel]) << 16)
& 0xFF0000;
memory_write_byte(space, page_offset + offset, data);
}
static const struct dma8237_interface dma8237_1_config =
{
"maincpu",
1.0e-6, // 1us
pc_dma_read_byte,
pc_dma_write_byte,
{ 0, 0, NULL, NULL },
{ 0, 0, NULL, NULL },
NULL
};
static const struct dma8237_interface dma8237_2_config =
{
"maincpu",
1.0e-6, // 1us
NULL,
NULL,
{ NULL, NULL, NULL, NULL },
{ NULL, NULL, NULL, NULL },
NULL
};
static READ32_HANDLER(at_page32_r)
{
return read32le_with_read8_handler(at_page8_r, space, offset, mem_mask);
}
static WRITE32_HANDLER(at_page32_w)
{
write32le_with_write8_handler(at_page8_w, space, offset, data, mem_mask);
}
/*****************************************************************************/
static ADDRESS_MAP_START( taitowlf_map, ADDRESS_SPACE_PROGRAM, 32 )
AM_RANGE(0x00000000, 0x0009ffff) AM_RAM
AM_RANGE(0x000a0000, 0x000affff) AM_RAM
AM_RANGE(0x000b0000, 0x000b7fff) AM_RAM AM_BASE(&cga_ram)
AM_RANGE(0x000e0000, 0x000effff) AM_RAM
AM_RANGE(0x000f0000, 0x000fffff) AM_ROMBANK(1)
AM_RANGE(0x000f0000, 0x000fffff) AM_WRITE(bios_ram_w)
AM_RANGE(0x00100000, 0x01ffffff) AM_RAM
AM_RANGE(0xfffc0000, 0xffffffff) AM_ROM AM_REGION("user1", 0) /* System BIOS */
ADDRESS_MAP_END
static ADDRESS_MAP_START(taitowlf_io, ADDRESS_SPACE_IO, 32)
AM_RANGE(0x0000, 0x001f) AM_DEVREADWRITE8("dma8237_1", dma8237_r, dma8237_w, 0xffffffff)
AM_RANGE(0x0020, 0x003f) AM_DEVREADWRITE8("pic8259_1", pic8259_r, pic8259_w, 0xffffffff)
AM_RANGE(0x0040, 0x005f) AM_DEVREADWRITE8("pit8254", pit8253_r, pit8253_w, 0xffffffff)
AM_RANGE(0x0060, 0x006f) AM_READWRITE(kbdc8042_32le_r, kbdc8042_32le_w)
AM_RANGE(0x0070, 0x007f) AM_READWRITE(mc146818_port32le_r, mc146818_port32le_w)
AM_RANGE(0x0080, 0x009f) AM_READWRITE(at_page32_r, at_page32_w)
AM_RANGE(0x00a0, 0x00bf) AM_DEVREADWRITE8("pic8259_2", pic8259_r, pic8259_w, 0xffffffff)
AM_RANGE(0x00c0, 0x00df) AM_DEVREADWRITE("dma8237_2", at32_dma8237_2_r, at32_dma8237_2_w)
AM_RANGE(0x00e8, 0x00eb) AM_NOP
AM_RANGE(0x01f0, 0x01f7) AM_DEVREADWRITE("ide", ide_r, ide_w)
AM_RANGE(0x0300, 0x03af) AM_NOP
AM_RANGE(0x03b0, 0x03df) AM_NOP
AM_RANGE(0x0278, 0x027b) AM_WRITE(pnp_config_w)
AM_RANGE(0x03f0, 0x03ff) AM_DEVREADWRITE("ide", fdc_r, fdc_w)
AM_RANGE(0x0a78, 0x0a7b) AM_WRITE(pnp_data_w)
AM_RANGE(0x0cf8, 0x0cff) AM_DEVREADWRITE("pcibus", pci_32le_r, pci_32le_w)
ADDRESS_MAP_END
/*****************************************************************************/
static const gfx_layout CGA_charlayout =
{
8,8, /* 8 x 16 characters */
256, /* 256 characters */
1, /* 1 bits per pixel */
{ 0 }, /* no bitplanes; 1 bit per pixel */
/* x offsets */
{ 0,1,2,3,4,5,6,7 },
/* y offsets */
{ 0*8,1*8,2*8,3*8,
4*8,5*8,6*8,7*8 },
8*8 /* every char takes 8 bytes */
};
static GFXDECODE_START( CGA )
/* Support up to four CGA fonts */
GFXDECODE_ENTRY( "gfx1", 0x0000, CGA_charlayout, 0, 256 ) /* Font 0 */
GFXDECODE_ENTRY( "gfx1", 0x0800, CGA_charlayout, 0, 256 ) /* Font 1 */
GFXDECODE_ENTRY( "gfx1", 0x1000, CGA_charlayout, 0, 256 ) /* Font 2 */
GFXDECODE_ENTRY( "gfx1", 0x1800, CGA_charlayout, 0, 256 ) /* Font 3*/
GFXDECODE_END
#define AT_KEYB_HELPER(bit, text, key1) \
PORT_BIT( bit, IP_ACTIVE_HIGH, IPT_KEYBOARD) PORT_NAME(text) PORT_CODE(key1)
static INPUT_PORTS_START(taitowlf)
PORT_START("pc_keyboard_0")
PORT_BIT ( 0x0001, 0x0000, IPT_UNUSED ) /* unused scancode 0 */
AT_KEYB_HELPER( 0x0002, "Esc", KEYCODE_Q ) /* Esc 01 81 */
PORT_START("pc_keyboard_1")
AT_KEYB_HELPER( 0x0020, "Y", KEYCODE_Y ) /* Y 15 95 */
AT_KEYB_HELPER( 0x1000, "Enter", KEYCODE_ENTER ) /* Enter 1C 9C */
PORT_START("pc_keyboard_2")
PORT_START("pc_keyboard_3")
AT_KEYB_HELPER( 0x0002, "N", KEYCODE_N ) /* N 31 B1 */
AT_KEYB_HELPER( 0x0800, "F1", KEYCODE_S ) /* F1 3B BB */
PORT_START("pc_keyboard_4")
PORT_START("pc_keyboard_5")
PORT_START("pc_keyboard_6")
AT_KEYB_HELPER( 0x0040, "(MF2)Cursor Up", KEYCODE_UP ) /* Up 67 e7 */
AT_KEYB_HELPER( 0x0080, "(MF2)Page Up", KEYCODE_PGUP ) /* Page Up 68 e8 */
AT_KEYB_HELPER( 0x0100, "(MF2)Cursor Left", KEYCODE_LEFT ) /* Left 69 e9 */
AT_KEYB_HELPER( 0x0200, "(MF2)Cursor Right", KEYCODE_RIGHT ) /* Right 6a ea */
AT_KEYB_HELPER( 0x0800, "(MF2)Cursor Down", KEYCODE_DOWN ) /* Down 6c ec */
AT_KEYB_HELPER( 0x1000, "(MF2)Page Down", KEYCODE_PGDN ) /* Page Down 6d ed */
AT_KEYB_HELPER( 0x4000, "Del", KEYCODE_A ) /* Delete 6f ef */
PORT_START("pc_keyboard_7")
INPUT_PORTS_END
static IRQ_CALLBACK(irq_callback)
{
int r = 0;
r = pic8259_acknowledge( taitowlf_devices.pic8259_2);
if (r==0)
{
r = pic8259_acknowledge( taitowlf_devices.pic8259_1);
}
return r;
}
static MACHINE_START(taitowlf)
{
cpu_set_irq_callback(machine->cpu[0], irq_callback);
taitowlf_devices.pit8254 = devtag_get_device( machine, "pit8254" );
taitowlf_devices.pic8259_1 = devtag_get_device( machine, "pic8259_1" );
taitowlf_devices.pic8259_2 = devtag_get_device( machine, "pic8259_2" );
taitowlf_devices.dma8237_1 = devtag_get_device( machine, "dma8237_1" );
taitowlf_devices.dma8237_2 = devtag_get_device( machine, "dma8237_2" );
}
static MACHINE_RESET(taitowlf)
{
memory_set_bankptr(machine, 1, memory_region(machine, "user1") + 0x30000);
}
/*************************************************************
*
* pic8259 configuration
*
*************************************************************/
static PIC8259_SET_INT_LINE( taitowlf_pic8259_1_set_int_line ) {
cpu_set_input_line(device->machine->cpu[0], 0, interrupt ? HOLD_LINE : CLEAR_LINE);
}
static PIC8259_SET_INT_LINE( taitowlf_pic8259_2_set_int_line ) {
pic8259_set_irq_line( taitowlf_devices.pic8259_1, 2, interrupt);
}
static const struct pic8259_interface taitowlf_pic8259_1_config = {
taitowlf_pic8259_1_set_int_line
};
static const struct pic8259_interface taitowlf_pic8259_2_config = {
taitowlf_pic8259_2_set_int_line
};
/*************************************************************
*
* pit8254 configuration
*
*************************************************************/
static PIT8253_OUTPUT_CHANGED( pc_timer0_w )
{
pic8259_set_irq_line(taitowlf_devices.pic8259_1, 0, state);
}
static const struct pit8253_config taitowlf_pit8254_config =
{
{
{
4772720/4, /* heartbeat IRQ */
pc_timer0_w
}, {
4772720/4, /* dram refresh */
NULL
}, {
4772720/4, /* pio port c pin 4, and speaker polling enough */
NULL
}
}
};
static MACHINE_DRIVER_START(taitowlf)
/* basic machine hardware */
MDRV_CPU_ADD("maincpu", PENTIUM, 200000000)
MDRV_CPU_PROGRAM_MAP(taitowlf_map, 0)
MDRV_CPU_IO_MAP(taitowlf_io, 0)
MDRV_MACHINE_START(taitowlf)
MDRV_MACHINE_RESET(taitowlf)
MDRV_PCI_BUS_ADD("pcibus", 0)
MDRV_PCI_BUS_DEVICE(0, NULL, intel82439tx_pci_r, intel82439tx_pci_w)
MDRV_PCI_BUS_DEVICE(7, NULL, intel82371ab_pci_r, intel82371ab_pci_w)
MDRV_PIT8254_ADD( "pit8254", taitowlf_pit8254_config )
MDRV_DMA8237_ADD( "dma8237_1", dma8237_1_config )
MDRV_DMA8237_ADD( "dma8237_2", dma8237_2_config )
MDRV_PIC8259_ADD( "pic8259_1", taitowlf_pic8259_1_config )
MDRV_PIC8259_ADD( "pic8259_2", taitowlf_pic8259_2_config )
MDRV_IDE_CONTROLLER_ADD("ide", ide_interrupt)
MDRV_NVRAM_HANDLER( mc146818 )
/* video hardware */
MDRV_SCREEN_ADD("screen", RASTER)
MDRV_SCREEN_REFRESH_RATE(60)
MDRV_SCREEN_VBLANK_TIME(ATTOSECONDS_IN_USEC(0))
MDRV_SCREEN_FORMAT(BITMAP_FORMAT_INDEXED16)
MDRV_SCREEN_SIZE(640, 480)
MDRV_SCREEN_VISIBLE_AREA(0, 639, 0, 199)
MDRV_GFXDECODE(CGA)
MDRV_PALETTE_LENGTH(16)
MDRV_VIDEO_START(taitowlf)
MDRV_VIDEO_UPDATE(taitowlf)
MACHINE_DRIVER_END
static void set_gate_a20(running_machine *machine, int a20)
{
cpu_set_input_line(machine->cpu[0], INPUT_LINE_A20, a20);
}
static void keyboard_interrupt(running_machine *machine, int state)
{
pic8259_set_irq_line(taitowlf_devices.pic8259_1, 1, state);
}
static void ide_interrupt(const device_config *device, int state)
{
pic8259_set_irq_line(taitowlf_devices.pic8259_2, 6, state);
}
static int taitowlf_get_out2(running_machine *machine) {
return pit8253_get_output(taitowlf_devices.pit8254, 2 );
}
static const struct kbdc8042_interface at8042 =
{
KBDC8042_AT386, set_gate_a20, keyboard_interrupt, taitowlf_get_out2
};
static void taitowlf_set_keyb_int(running_machine *machine, int state) {
pic8259_set_irq_line(taitowlf_devices.pic8259_1, 1, state);
}
static DRIVER_INIT( taitowlf )
{
bios_ram = auto_malloc(0x10000);
init_pc_common(machine, PCCOMMON_KEYBOARD_AT, taitowlf_set_keyb_int);
mc146818_init(machine, MC146818_STANDARD);
intel82439tx_init();
kbdc8042_init(machine, &at8042);
}
/*****************************************************************************/
ROM_START(pf2012)
ROM_REGION32_LE(0x40000, "user1", 0)
ROM_LOAD("p5tx-la.bin", 0x00000, 0x40000, CRC(072e6d51) SHA1(70414349b37e478fc28ecbaba47ad1033ae583b7))
ROM_REGION(0x08100, "gfx1", 0)
ROM_LOAD("cga.chr", 0x00000, 0x01000, CRC(42009069) SHA1(ed08559ce2d7f97f68b9f540bddad5b6295294dd))
ROM_REGION32_LE(0x400000, "user3", 0) // Program ROM disk
ROM_LOAD("u1.bin", 0x000000, 0x200000, CRC(8f4c09cb) SHA1(0969a92fec819868881683c580f9e01cbedf4ad2))
ROM_LOAD("u2.bin", 0x200000, 0x200000, CRC(59881781) SHA1(85ff074ab2a922eac37cf96f0bf153a2dac55aa4))
ROM_REGION32_LE(0x4000000, "user4", 0) // Data ROM disk
ROM_LOAD("e59-01.u20", 0x0000000, 0x800000, CRC(701d3a9a) SHA1(34c9f34f4da34bb8eed85a4efd1d9eea47a21d77) )
ROM_LOAD("e59-02.u23", 0x0800000, 0x800000, CRC(626df682) SHA1(35bb4f91201734ce7ccdc640a75030aaca3d1151) )
ROM_LOAD("e59-03.u26", 0x1000000, 0x800000, CRC(74e4efde) SHA1(630235c2e4a11f615b5f3b8c93e1e645da09eefe) )
ROM_LOAD("e59-04.u21", 0x1800000, 0x800000, CRC(c900e8df) SHA1(93c06b8f5082e33f0dcc41f1be6a79283de16c40) )
ROM_LOAD("e59-05.u24", 0x2000000, 0x800000, CRC(85b0954c) SHA1(1b533d5888d56d1510c79f790e4fa708f77e836f) )
ROM_LOAD("e59-06.u27", 0x2800000, 0x800000, CRC(0573a113) SHA1(ee76a71dfd31289a9a5428653a36d01d914fc5d9) )
ROM_LOAD("e59-07.u22", 0x3000000, 0x800000, CRC(1f0ddcdc) SHA1(72ffe08f5effab093bdfe9863f8a11f80e914272) )
ROM_LOAD("e59-08.u25", 0x3800000, 0x800000, CRC(8db38ffd) SHA1(4b71ea86fb774ba6a8ac45abf4191af64af007e7) )
ROM_REGION(0x1400000, "samples", 0) // ZOOM sample data
ROM_LOAD("e59-09.u29", 0x0000000, 0x800000, CRC(d0da5c50) SHA1(56fb3c38f35244720d32a44fed28e6b58c7851f7) )
ROM_LOAD("e59-10.u32", 0x0800000, 0x800000, CRC(4c0e0a5c) SHA1(6454befa3a1dd532eb2a760129dcd7e611508730) )
ROM_LOAD("e59-11.u33", 0x1000000, 0x400000, CRC(c90a896d) SHA1(2b62992f20e4ca9634e7953fe2c553906de44f04) )
ROM_REGION(0x180000, "cpu1", 0) // MN10200 program
ROM_LOAD("e59-12.u13", 0x000000, 0x80000, CRC(9a473a7e) SHA1(b0ec7b0ae2b33a32da98899aa79d44e8e318ceb7) )
ROM_LOAD("e59-13.u15", 0x080000, 0x80000, CRC(77719880) SHA1(8382dd2dfb0dae60a3831ed6d3ff08539e2d94eb) )
ROM_LOAD("e59-14.u14", 0x100000, 0x40000, CRC(d440887c) SHA1(d965871860d757bc9111e9adb2303a633c662d6b) )
ROM_LOAD("e59-15.u16", 0x140000, 0x40000, CRC(eae8e523) SHA1(8a054d3ded7248a7906c4f0bec755ddce53e2023) )
ROM_REGION(0x20000, "user5", 0) // bootscreen
ROM_LOAD("e58-04.u71", 0x000000, 0x20000, CRC(500e6113) SHA1(93226706517c02e336f96bdf9443785158e7becf) )
ROM_END
/*****************************************************************************/
GAME(1997, pf2012, 0, taitowlf, taitowlf, taitowlf, ROT0, "Taito", "Psychic Force 2012", GAME_NOT_WORKING | GAME_NO_SOUND)