/*********************************************************************************************************************
Last Fighting (C)2000 Subsino
driver by Luca Elia
PCB Layout
----------
|------------------------------------------------------|
|TDA1519A |
| VOL |
| HM86171 ULN2003 |
| LM324 |
| S-1 ULN2003 |
| |
| |-----| ULN2003 |
| |-----| |U1 | |
| V100.U7 |U6 | | | |
|J | | |-----| |
|A |-----| |
|M |
|M |
|A KM428C256 32MHz CXK58257 |
| |----ROM BOARD------| |
| | | V106.U16 |
| | U19 | SW1|
| | |-------| | |-----| |
| | |SUBSINO| | |H8 | |
| | |9623EX | | |-----| |3044 | |
| | |008 | | |EPM | |-----| |
| | |-------| | |7032 | |
| | CN2 | |-----| 3V_BATT|
|-----|-------------------|----------------------------|
Notes:
H8/3044 - Subsino re-badged Hitachi H8/3044 HD6433044A22F Microcontroller (QFP100)
The H8/3044 is a H8/3002 with 24bit address bus and has 32k MASKROM and 2k RAM, clock input is 16.000MHz [32/2]
MD0,MD1 & MD2 are configured to MODE 6 16M-Byte Expanded Mode with the on-chip 32k MASKROM enabled.
EPM7032 - Altera EPM7032LC44-15T CPLD (PLCC44)
CXK58257 - Sony CXK58257 32k x8 SRAM (SOP28)
KM428C256 - Samsung Semiconductor KM428C256 256k x8 Dual Port DRAM (SOJ40)
ULKN2003 - Toshiba ULN2003 High Voltage High Current Darlington Transistor Array comprising 7 NPN Darlinton pairs (DIP16)
HM86171 - Hualon Microelectronics HMC HM86171 VGA 256 colour RAMDAC (DIP28)
3V_BATT - 3 Volt Coin Battery. This is tied to the CXK58257 SRAM. It appears to be used as an EEPROM, as the game
has on-board settings in test mode and there's no DIPs and no EEPROM.
S-1 - ?? Probably some kind of audio OP AMP or DAC? (DIP8)
TDA1519A - Philips TDA1519A 22W BTL/Dual 11W Audio Power Amplifier IC (SIL9)
CN2 - 70 pin connector for connection of ROM board
SW1 - Push Button Test Switch
HSync - 15.75kHz
VSync - 60Hz
ROM BOARD - Small Daughterboard containing positions for 8x 16MBit SOP44 MASKROMs. Only positions 1-4 are populated.
Custom ICs -
U19 - SUBSINO 9623EX008 (QFP208)
H8/3044 - SUBSINO SS9689 6433044A22F, rebadged Hitachi H8/3044 MCU (QFP100)
U1 - SUBSINO SS9802 9933 (QFP100)
U6 - SUBSINO SS9804 0001 (QFP100)
ROMs -
V106.U16 - MX27C4000 4MBit DIP32 EPROM; Main Program
V100.U7 - ST M27C801 8MBit DIP32 EPROM; Audio Samples?
*********************************************************************************************************************/
#include "emu.h"
#include "deprecat.h"
#include "cpu/h83002/h8.h"
#include "machine/nvram.h"
class lastfght_state : public driver_device
{
public:
lastfght_state(const machine_config &mconfig, device_type type, const char *tag)
: driver_device(mconfig, type, tag) { }
/* video-related */
bitmap_t *m_bitmap[2];
int m_clr_offset;
int m_dest;
int m_hi;
int m_sx;
int m_sx1;
int m_dsx;
int m_sy;
int m_sy1;
int m_dsy;
int m_sp;
int m_sr;
int m_x;
int m_y;
int m_w;
int m_h;
unsigned m_base;
int m_view_roms;
/* misc */
UINT16 m_c00006;
/* devices */
device_t *m_maincpu;
/* memory */
UINT8 m_colorram[256 * 3];
};
/***************************************************************************
Video Hardware
***************************************************************************/
static VIDEO_START( lastfght )
{
lastfght_state *state = machine.driver_data<lastfght_state>();
int i;
for (i = 0; i < 2; i++)
state->m_bitmap[i] = machine.primary_screen->alloc_compatible_bitmap();
state->save_item(NAME(*state->m_bitmap[0]));
state->save_item(NAME(*state->m_bitmap[1]));
state->save_item(NAME(state->m_colorram));
}
static SCREEN_UPDATE( lastfght )
{
lastfght_state *state = screen->machine().driver_data<lastfght_state>();
#ifdef MAME_DEBUG
#if 1
// gfx roms viewer (toggle with enter, use pgup/down to browse)
int x, y, count = 0;
UINT8 *gfxdata = screen->machine().region("gfx1")->base();
UINT8 data;
if (screen->machine().input().code_pressed_once(KEYCODE_ENTER)) state->m_view_roms ^= 1;
if (state->m_view_roms)
{
if (screen->machine().input().code_pressed_once(KEYCODE_PGDN)) state->m_base += 512 * 256;
if (screen->machine().input().code_pressed_once(KEYCODE_PGUP)) state->m_base -= 512 * 256;
state->m_base %= screen->machine().region("gfx1")->bytes();
count = state->m_base;
bitmap_fill(bitmap, cliprect , get_black_pen(screen->machine()));
for (y = 0 ; y < 256; y++)
{
for (x = 0; x < 512; x++)
{
data = (((count & 0xf) == 0) && ((count & 0x1e00) == 0)) ? get_white_pen(screen->machine()) : gfxdata[count]; // white grid or data
*BITMAP_ADDR16(bitmap, y, x) = data;
count++;
}
}
popmessage("%x", state->m_base);
return 0;
}
#endif
#endif
copybitmap(bitmap, state->m_bitmap[state->m_dest ^ 1], 0, 0, 0, 0, cliprect);
return 0;
}
// Palette: HMC HM86171 VGA 256 colour RAMDAC
static WRITE16_HANDLER( colordac_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_0_7)
{
state->m_colorram[state->m_clr_offset] = data;
palette_set_color_rgb(space->machine(), state->m_clr_offset / 3,
pal6bit(state->m_colorram[(state->m_clr_offset / 3) * 3 + 0]),
pal6bit(state->m_colorram[(state->m_clr_offset / 3) * 3 + 1]),
pal6bit(state->m_colorram[(state->m_clr_offset / 3) * 3 + 2])
);
state->m_clr_offset = (state->m_clr_offset + 1) % (256 * 3);
}
if (ACCESSING_BITS_8_15)
{
state->m_clr_offset = (data >> 8) * 3;
}
}
// Blitter (supports zooming)
// high byte of a 16 bit register
static WRITE16_HANDLER( lastfght_hi_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
logerror("%06x: 600000.b = %02x\n", cpu_get_pc(&space->device()), data >> 8);
if (ACCESSING_BITS_0_7)
{
state->m_hi = data << 8;
//logerror("%06x: lastfght_hi = %02x\n", cpu_get_pc(&space->device()), data);
}
}
// screen x
static WRITE16_HANDLER( lastfght_x_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
logerror("%06x: 800008.b = %02x\n", cpu_get_pc(&space->device()), data >> 8);
if (ACCESSING_BITS_0_7)
{
state->m_x = state->m_hi | data;
//logerror("%06x: lastfght_x = %02x\n", cpu_get_pc(&space->device()),data);
}
}
// screen y, screen width - 1
static WRITE16_HANDLER( lastfght_yw_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
state->m_y = state->m_hi | (data >> 8);
//logerror("%06x: lastfght_y = %02x\n", cpu_get_pc(&space->device()), data >> 8);
}
if (ACCESSING_BITS_0_7)
{
state->m_w = state->m_hi | data;
//logerror("%06x: lastfght_w = %02x\n", cpu_get_pc(&space->device()), data);
}
}
// screen height - 1
static WRITE16_HANDLER( lastfght_h_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
state->m_h = state->m_hi | (data >> 8);
//logerror("%06x: lastfght_h = %02x\n", cpu_get_pc(&space->device()), data >> 8);
}
if (ACCESSING_BITS_0_7)
logerror("%06x: 80000d.b = %02x\n", cpu_get_pc(&space->device()), data);
}
// source delta x << 6, source x << 6
static WRITE16_HANDLER( lastfght_sx_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
state->m_dsx = state->m_hi | (data >> 8);
//logerror("%06x: lastfght_dsx = %02x\n", cpu_get_pc(&space->device()), data >> 8);
}
if (ACCESSING_BITS_0_7)
{
state->m_sx = state->m_hi | data;
//logerror("%06x: lastfght_sx = %02x\n", cpu_get_pc(&space->device()), data);
}
}
// source y << 6, source y1 << 6
static WRITE16_HANDLER( lastfght_sy_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
state->m_sy = state->m_hi | (data >> 8);
//logerror("%06x: lastfght_sy = %02x\n", cpu_get_pc(&space->device()), data >> 8);
}
if (ACCESSING_BITS_0_7)
{
state->m_sy1 = state->m_hi | data;
//logerror("%06x: lastfght_sy1 = %02x\n", cpu_get_pc(&space->device()), data);
}
}
// source rom (0x200000 bytes), source page (512x256 bytes)
static WRITE16_HANDLER( lastfght_sr_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
state->m_sp = (state->m_hi >> 8) >> 4;
//logerror("%06x: lastfght_sp = %02x\n", cpu_get_pc(&space->device()), data >> 8);
}
if (ACCESSING_BITS_0_7)
{
state->m_sr = data;
//logerror("%06x: lastfght_sr = %02x\n", cpu_get_pc(&space->device()), data);
}
}
// source x1 << 6, source delta y << 6
static WRITE16_HANDLER( lastfght_sd_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
state->m_sx1 = state->m_hi | (data >> 8);
//logerror("%06x: lastfght_sx1 = %02x\n", cpu_get_pc(&space->device()), data >> 8);
}
if (ACCESSING_BITS_0_7)
{
state->m_dsy = state->m_hi | data;
//logerror("%06x: lastfght_dsy = %02x\n", cpu_get_pc(&space->device()), data);
}
}
// start blit
static WRITE16_HANDLER( lastfght_blit_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_8_15)
{
int x, y, addr;
UINT8 *gfxdata = space->machine().region( "gfx1" )->base();
bitmap_t *dest = state->m_bitmap[state->m_dest];
#if 0
logerror("%06x: blit x %03x, y %03x, w %03x, h %03x, sx %03x.%02x, sx1 %03x.%02x, dsx %03x.%02x, sy %03x.%02x, sy1 %03x.%02x, dsy %03x.%02x, sp %02x, sr %02x, data %02x\n", cpu_get_pc(&space->device()),
state->m_x, state->m_y, state->m_w + 1, state->m_h + 1,
state->m_sx >> 6, state->m_sx & 0x3f, state->m_sx1 >> 6, state->m_dsx & 0x3f, state->m_sx1 >> 6, state->m_sx1 & 0x3f,
state->m_sy >> 6, state->m_sy & 0x3f, state->m_sy1 >> 6, state->m_dsy & 0x3f, state->m_sy1 >> 6, state->m_sy1 & 0x3f,
state->m_sp, state->m_sr,
data >> 8);
#endif
for (y = 0; y <= state->m_h; y++)
{
for (x = 0; x <= state->m_w; x++)
{
addr = (((state->m_sx + state->m_sx1 + state->m_dsx * x) >> 6) & 0x1ff) +
(((state->m_sy + state->m_sy1 + state->m_dsy * y) >> 6) & 0xff) * 0x200 +
state->m_sp * 0x200 * 0x100 + state->m_sr * 0x200000;
data = gfxdata[addr];
if (data && (state->m_x + x >= 0) && (state->m_x + x < 512) && (state->m_y + y >= 0) && (state->m_y + y < 256))
*BITMAP_ADDR16(dest, state->m_y + y, state->m_x + x) = data;
}
}
}
if (ACCESSING_BITS_0_7)
logerror("%06x: 600007.b = %02x\n", cpu_get_pc(&space->device()), data);
}
// toggle framebuffer
static WRITE16_HANDLER( lastfght_dest_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
if (ACCESSING_BITS_0_7)
state->m_dest ^= 1;
}
static READ16_HANDLER( lastfght_c00000_r )
{
// high byte:
// bit 7 = blitter busy
// bit 6 = blitter?
return 0x4000;
}
static READ16_HANDLER( lastfght_c00002_r )
{
// high byte:
// mask 0x1c: from sound?
return (space->machine().rand() & 0x1c00) | input_port_read(space->machine(), "IN0");
}
static READ16_HANDLER( lastfght_c00004_r )
{
return input_port_read(space->machine(), "IN1");
}
static READ16_HANDLER( lastfght_c00006_r )
{
// low byte:
// bit 7 = protection?
// bit 5 = blitter?
return input_port_read(space->machine(), "IN2");
}
static WRITE16_HANDLER( lastfght_c00006_w )
{
lastfght_state *state = space->machine().driver_data<lastfght_state>();
COMBINE_DATA(&state->m_c00006);
// popmessage("%04x", state->m_c00006);
}
static READ16_HANDLER( lastfght_sound_r )
{
// low byte:
// bit 3
return 8;
}
static WRITE16_HANDLER( lastfght_sound_w )
{
if (ACCESSING_BITS_8_15)
logerror("%06x: sound_w msb = %02x\n", cpu_get_pc(&space->device()), data >> 8);
if (ACCESSING_BITS_0_7)
logerror("%06x: sound_w lsb = %02x\n", cpu_get_pc(&space->device()), data);
}
/***************************************************************************
Memory Maps
***************************************************************************/
static ADDRESS_MAP_START( lastfght_map, AS_PROGRAM, 16 )
ADDRESS_MAP_GLOBAL_MASK(0xffffff)
AM_RANGE( 0x000000, 0x07ffff ) AM_ROM AM_REGION("maincpu", 0)
AM_RANGE( 0x080000, 0x0fffff ) AM_ROM AM_REGION("maincpu", 0)
AM_RANGE( 0x200000, 0x20ffff ) AM_RAM AM_SHARE("nvram") // battery
AM_RANGE( 0x600000, 0x600001 ) AM_WRITE( lastfght_hi_w )
AM_RANGE( 0x600002, 0x600003 ) AM_READWRITE( lastfght_sound_r, lastfght_sound_w )
AM_RANGE( 0x600006, 0x600007 ) AM_WRITE( lastfght_blit_w )
AM_RANGE( 0x600008, 0x600009 ) AM_WRITE( colordac_w )
AM_RANGE( 0x60000a, 0x60000b ) AM_WRITENOP // colordac?
AM_RANGE( 0x800000, 0x800001 ) AM_WRITE( lastfght_sx_w )
AM_RANGE( 0x800002, 0x800003 ) AM_WRITE( lastfght_sd_w )
AM_RANGE( 0x800004, 0x800005 ) AM_WRITE( lastfght_sy_w )
AM_RANGE( 0x800006, 0x800007 ) AM_WRITE( lastfght_sr_w )
AM_RANGE( 0x800008, 0x800009 ) AM_WRITE( lastfght_x_w )
AM_RANGE( 0x80000a, 0x80000b ) AM_WRITE( lastfght_yw_w )
AM_RANGE( 0x80000c, 0x80000d ) AM_WRITE( lastfght_h_w )
AM_RANGE( 0x800014, 0x800015 ) AM_WRITE( lastfght_dest_w )
AM_RANGE( 0xc00000, 0xc00001 ) AM_READ( lastfght_c00000_r )
AM_RANGE( 0xc00002, 0xc00003 ) AM_READ( lastfght_c00002_r )
AM_RANGE( 0xc00004, 0xc00005 ) AM_READ( lastfght_c00004_r )
AM_RANGE( 0xc00006, 0xc00007 ) AM_READWRITE( lastfght_c00006_r, lastfght_c00006_w )
AM_RANGE( 0xff0000, 0xffffff ) AM_RAM
ADDRESS_MAP_END
/***************************************************************************
Input Ports
***************************************************************************/
static INPUT_PORTS_START( lastfght )
PORT_START("IN0") /* IN0 - c00002&3 */
PORT_BIT( 0x0001, IP_ACTIVE_LOW, IPT_SERVICE1 )
PORT_BIT( 0x0002, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0004, IP_ACTIVE_LOW, IPT_OTHER ) PORT_NAME("Reset") PORT_CODE(KEYCODE_F1)
PORT_BIT( 0x0008, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0010, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0020, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0040, IP_ACTIVE_LOW, IPT_SERVICE )
PORT_BIT( 0x0080, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0100, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0200, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0400, IP_ACTIVE_HIGH,IPT_SPECIAL )
PORT_BIT( 0x0800, IP_ACTIVE_HIGH,IPT_SPECIAL )
PORT_BIT( 0x1000, IP_ACTIVE_HIGH,IPT_SPECIAL )
PORT_BIT( 0x2000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x4000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x8000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_START("IN1") /* IN1 - c00004&5 */
PORT_BIT( 0x0001, IP_ACTIVE_LOW, IPT_BUTTON1 )
PORT_BIT( 0x0002, IP_ACTIVE_LOW, IPT_BUTTON2 )
PORT_BIT( 0x0004, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0008, IP_ACTIVE_LOW, IPT_JOYSTICK_UP )
PORT_BIT( 0x0010, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0020, IP_ACTIVE_LOW, IPT_START1 )
PORT_BIT( 0x0040, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0080, IP_ACTIVE_LOW, IPT_JOYSTICK_DOWN )
PORT_BIT( 0x0100, IP_ACTIVE_LOW, IPT_JOYSTICK_LEFT )
PORT_BIT( 0x0200, IP_ACTIVE_LOW, IPT_JOYSTICK_RIGHT )
PORT_BIT( 0x0400, IP_ACTIVE_LOW, IPT_JOYSTICK_LEFT ) PORT_PLAYER(2)
PORT_BIT( 0x0800, IP_ACTIVE_LOW, IPT_JOYSTICK_RIGHT ) PORT_PLAYER(2)
PORT_BIT( 0x1000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x2000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x4000, IP_ACTIVE_LOW, IPT_COIN1 )
PORT_BIT( 0x8000, IP_ACTIVE_LOW, IPT_COIN2 )
PORT_START("IN2") /* IN2 - c00006&7 */
PORT_BIT( 0x0001, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0002, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0004, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0008, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0010, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0020, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0040, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0080, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0100, IP_ACTIVE_LOW, IPT_BUTTON1 ) PORT_PLAYER(2)
PORT_BIT( 0x0200, IP_ACTIVE_LOW, IPT_BUTTON2 ) PORT_PLAYER(2)
PORT_BIT( 0x0400, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x0800, IP_ACTIVE_LOW, IPT_JOYSTICK_UP ) PORT_PLAYER(2)
PORT_BIT( 0x1000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x2000, IP_ACTIVE_LOW, IPT_START2 )
PORT_BIT( 0x4000, IP_ACTIVE_LOW, IPT_UNKNOWN )
PORT_BIT( 0x8000, IP_ACTIVE_LOW, IPT_JOYSTICK_DOWN ) PORT_PLAYER(2)
INPUT_PORTS_END
/***************************************************************************
Machine Drivers
***************************************************************************/
static INTERRUPT_GEN( unknown_interrupt )
{
lastfght_state *state = device->machine().driver_data<lastfght_state>();
switch (cpu_getiloops(device))
{
case 0:
generic_pulse_irq_line(device, 0);
break;
default:
device_set_input_line(state->m_maincpu, H8_METRO_TIMER_HACK, HOLD_LINE);
break;
}
}
static MACHINE_START( lastfght )
{
lastfght_state *state = machine.driver_data<lastfght_state>();
state->m_maincpu = machine.device("maincpu");
state->save_item(NAME(state->m_clr_offset));
state->save_item(NAME(state->m_dest));
state->save_item(NAME(state->m_hi));
state->save_item(NAME(state->m_sx));
state->save_item(NAME(state->m_sx1));
state->save_item(NAME(state->m_dsx));
state->save_item(NAME(state->m_sy));
state->save_item(NAME(state->m_sy1));
state->save_item(NAME(state->m_dsy));
state->save_item(NAME(state->m_sp));
state->save_item(NAME(state->m_sr));
state->save_item(NAME(state->m_x));
state->save_item(NAME(state->m_y));
state->save_item(NAME(state->m_w));
state->save_item(NAME(state->m_h));
state->save_item(NAME(state->m_c00006));
}
static MACHINE_RESET( lastfght )
{
lastfght_state *state = machine.driver_data<lastfght_state>();
state->m_clr_offset = 0;
state->m_dest = 0;
state->m_hi = 0;
state->m_sx = 0;
state->m_sx1 = 0;
state->m_dsx = 0;
state->m_sy = 0;
state->m_sy1 = 0;
state->m_dsy = 0;
state->m_sp = 0;
state->m_sr = 0;
state->m_x = 0;
state->m_y = 0;
state->m_w = 0;
state->m_h = 0;
state->m_c00006 = 0;
}
static MACHINE_CONFIG_START( lastfght, lastfght_state )
/* basic machine hardware */
MCFG_CPU_ADD("maincpu", H83044, 32000000/2)
MCFG_CPU_PROGRAM_MAP( lastfght_map)
MCFG_CPU_VBLANK_INT_HACK(unknown_interrupt,2)
MCFG_NVRAM_ADD_0FILL("nvram")
MCFG_MACHINE_START(lastfght)
MCFG_MACHINE_RESET(lastfght)
/* video hardware */
MCFG_PALETTE_LENGTH( 256 )
MCFG_SCREEN_ADD("screen", RASTER)
MCFG_SCREEN_FORMAT(BITMAP_FORMAT_INDEXED16)
MCFG_SCREEN_SIZE( 512, 256 )
MCFG_SCREEN_VISIBLE_AREA( 0, 512-1, 0, 256-16-1 )
MCFG_SCREEN_REFRESH_RATE( 60 )
MCFG_SCREEN_UPDATE( lastfght )
MCFG_VIDEO_START( lastfght )
MACHINE_CONFIG_END
/***************************************************************************
ROMs Loading
***************************************************************************/
ROM_START( lastfght )
ROM_REGION( 0x100000, "maincpu", 0 ) // H8/3044 program
ROM_LOAD( "v106.u16", 0x000000, 0x080000, CRC(7aec89f4) SHA1(7cff00844ad82a0f8d19b1bd07ba3a2bced69d66) )
ROM_REGION( 0x800000, "gfx1", 0 ) // Blitter data
ROM_LOAD( "1.b1", 0x000000, 0x200000, CRC(6c438136) SHA1(138934e948bbd6bd80f354f037badedef6cd8cb1) )
ROM_LOAD( "2.b2", 0x200000, 0x200000, CRC(9710bcff) SHA1(0291385489a065ed895c99ae7197fdeac0a0e2a0) )
ROM_LOAD( "3.b3", 0x400000, 0x200000, CRC(4236c79a) SHA1(94f093d12c096d38d1e7278796f6d58e4ba14e2e) )
ROM_LOAD( "4.b4", 0x600000, 0x200000, CRC(68153b0f) SHA1(46ddf37d5885f411e0e6de9c7e8969ba3a00f17f) )
ROM_REGION( 0x100000, "samples", 0 ) // Samples
ROM_LOAD( "v100.u7", 0x000000, 0x100000, CRC(c134378c) SHA1(999c75f3a7890421cfd904a926ca377ee43a6825) )
ROM_END
static DRIVER_INIT(lastfght)
{
UINT16 *rom = (UINT16*)machine.region("maincpu")->base();
// pass initial check (protection ? hw?)
rom[0x00354 / 2] = 0x403e;
// rts -> rte
rom[0x01b86 / 2] = 0x5670;
}
GAME( 2000, lastfght, 0, lastfght, lastfght, lastfght, ROT0, "Subsino", "Last Fighting", GAME_NO_SOUND | GAME_SUPPORTS_SAVE )