/******************************************************************************
MAGIC CARD - IMPERA
-------------------
Preliminary driver by Roberto Fresca, David Haywood & Angelo Salese
Games running on this hardware:
* Magic Card (set 1), Impera, 199?.
* Magic Card (set 2), Impera, 199?.
* Magic Card (set 3), Impera, 199?.
* Magic Card Export 94, Impera, 1994.
* Magic Card Jackpot (4.01), Impera, 1998.
* Magic Lotto Export (5.03), Impera, 1998.
*******************************************************************************
*** Hardware Notes ***
These are actually the specs of the Philips CD-i console.
Identified:
- CPU: 1x Philips SCC 68070 CCA84 (16 bits Microprocessor, PLCC) @ 15 MHz
- VSC: 1x Philips SCC 66470 CAB (Video and System Controller, QFP)
- Protection: 1x Dallas TimeKey DS1207-1 (for book-keeping protection)
- Crystals: 1x 30.0000 MHz.
1x 19.6608 MHz.
- PLDs: 1x PAL16L8ACN
1x PALCE18V8H-25
*******************************************************************************
*** General Notes ***
Impera released "Magic Card" in a custom 16-bits PCB.
The hardware was so expensive and they never have reached the expected sales,
so... they ported the game to Impera/Funworld 8bits boards, losing part of
graphics and sound/music quality. The new product was named "Magic Card II".
*******************************************************************************
Magic Card Jackpot 4.01
(Also Magic Lotto Export)
-------------------------
PCB Layout:
__________________________________________________________________________________________________
| |
| SERIAL NUMBER |___
| (A)_|
| __ _____ ___________ _________ ___|
| | | / \ |9524 GNN | |YMZ284-D | ___|
| | | |BATTERY| |HM514270AJ8| |_________| ___|
| |A | | +3V | |___________| ___|
| | | | | __________________ ________ __ ___|
| | | \_____/ ___________ | | |ULN2803A| |..| ___|
| |__| |9524 GNN | | MUSIC | |________| |..| ___|
| |HM514270AJ8| | TR9C1710-11PCA | |..|(J)_|
| |___________| | SA119X/9612 | _________ |..||
| ___ ___ |__________________| |74HC273N | |..||
| | | | | |_________| |..||
| | | | | |..||
| | B | | B | _________ _________ |..||
| | | | | | 74HC04N | |74HC245N | |__||
| | | | | |_________| |_________| |___
| |___| |___| A___|
| ___|
| _____ ______________ ___|
| | | | | ________ ___|
| | | | PHILIPS | ___ ___________ ________ |ULN2803A| ___|
| | | EI79465--A/02 | SCC66470CAB | | D | |PIC16F84-10| | E | |________| ___|
| | C | LPL-CPU V4.0 | 172632=1/2 | |___| |___________| |________| ___|
| | | MULTI GAME | DfD0032I3 | _________ ___|
| | | 8603186 | | |74HC273N | ___|
| | | | | |_________| ___|
| | | | | ___|
| |_____| |______________| _ _________ ___|
| |G| |74HC245N | ___|
| |_| |_________| ___|
| _______ _______ ___|
| |] [| |IC21 | ______ ___ ___|
| |] E [| | | |ALTERA| |___| __ ___|
| |] M [| | | | MAX | F _________ |..| ___|
| |] P [| | MAGIC | ________________ | | |74HC245N | |..| ___|
| |] T [| | CARD | | | |EPM712| |_________| |..| ___|
| |] Y [| |JACKPOT| | PHILIPS | |8SQC10| |..| ___|
| |] [| | | | SCC68070CCA84 | |0-15 | |..| ___|
| |] S [| |Version| | 213140-1 | |______| X_TAL's |__| ___|
| |] O [| | 4.01| | DfD0103V3 | _ _ _ ___|
| |] C [| | | | | ALL RIGHTS | | | | | | ___|
| |] K [| |Vnr.: | | | BY IMPERA |1| |2| |3| ___|
| |] E [| |11.7.98| | | |_| |_| |_| ___|
| |] T [| | | | | ___|
| |] [| | | |________________| ___|
| |]_____[| |27C4002| ___|
| |_______| |_______| ___________ ___|
| ___________________ |RTC2421 A | ___|
| | ::::::::::::: | |___________| Z___|
| |___________________| |
|__________________________________________________________________________________________________|
Xtal 1: 30.000 MHz.
Xtal 2: 8.000 MHz.
Xtal 3: 19.660 MHz.
A = LT 0030 / LTC695CN / U18708
B = NEC Japan / D43256BGU-70LL / 0008XD041
C = MX B9819 / 29F1610MC-12C3 / M25685 / TAIWAN
D = 24C02C / 24C04 (Serial I2C Bus EEPROM with User-Defined Block Write Protection).
E = P0030SG / CD40106BCN
F = 74HCU04D
G = 74HC74D
Silkscreened on the solder side:
LEOTS.
2800
AT&S-F0 ML 94V-0
IMPERA AUSTRIA -------
TEL: 0043/7242/27116 V 4.0
FAX: 0043/7242/27053 -------
*******************************************************************************
TODO:
- Proper handling of the 68070 (68k with 32 address lines instead of 24)
& handle the extra features properly (UART,DMA,Timers etc.)
- Proper emulation of the 66470 Video Chip (still many unhandled features)
- Inputs;
- Unknown sound chip (it's an ADPCM with eight channels);
- Many unknown memory maps;
- Proper memory map and machine driver for magicardj & magicle.
(different sound chip, extra undumped rom and PIC controller)
*******************************************************************************/
#define CLOCK_A XTAL_30MHz
#define CLOCK_B XTAL_8MHz
#define CLOCK_C XTAL_19_6608MHz
#include "emu.h"
#include "cpu/m68000/m68000.h"
#include "sound/2413intf.h"
class magicard_state : public driver_device
{
public:
magicard_state(const machine_config &mconfig, device_type type, const char *tag)
: driver_device(mconfig, type, tag) { }
UINT16 *m_magicram;
UINT16 *m_pcab_vregs;
UINT16 *m_scc68070_ext_irqc_regs;
UINT16 *m_scc68070_iic_regs;
UINT16 *m_scc68070_uart_regs;
UINT16 *m_scc68070_timer_regs;
UINT16 *m_scc68070_int_irqc_regs;
UINT16 *m_scc68070_dma_ch1_regs;
UINT16 *m_scc68070_dma_ch2_regs;
UINT16 *m_scc68070_mmu_regs;
struct { int r,g,b,offs,offs_internal; } m_pal;
};
/*************************
* Video Hardware *
*************************/
/*
66470
video and system controller
19901219/wjvg
*/
/*
TODO: check this register,doesn't seem to be 100% correct.
1fffe0 csr = control and status register
w 00...... ........ DM = slow timing speed, normal dram mode
w 01...... ........ DM = fast timing speed, page dram mode
w 10...... ........ DM = fast timing speed, nibble dram mode
w 11...... ........ DM = slow timing speed, dual-port vram mode
w ..1..... ........ TD = 256/64 k dram's
w ...1.... ........ CG = enable character generator
w ....1... ........ DD = rom data acknowledge delay
w .....1.. ........ ED = early dtack
w ......0. ........ not used
w .......1 ........ BE = enable bus error (watchdog timer)
r ........ 1....... DA = vertical display active
r ........ .1...... FG = set during frame grabbing (if fg in dcr set)
r ........ ..xxx... not used
r ........ .....1.. IT2 = intn active
r ........ ......1. IT1 = pixac free and intn active
r ........ .......1 BE = bus error generated by watchdog timer
*/
/*63 at post test,6d all the time.*/
#define SCC_CSR_VREG (state->m_pcab_vregs[0x00/2] & 0xffff)
#define SCC_CG_VREG ((SCC_CSR_VREG & 0x10)>>4)
/*
1fffe2 dcr = display command register
w 1....... ........ DE = enable display
w .00..... ........ CF = 20 MHz (or 19.6608 MHz)
w .01..... ........ CF = 24 MHz
w .10..... ........ CF = 28.5 MHz
w .11..... ........ CF = 30 MHz
w ...1.... ........ FD = 60/50 Hz frame duration
w ....00.. ........ SM/SS = non-interlaced scan mode
w ....01.. ........ SM/SS = double frequency scan mode
w ....10.. ........ SM/SS = interlaced scan mode
w ....11.. ........ SM/SS = interlaced field repeat scan mode
w ......1. ........ LS = full screen/border
w .......1 ........ CM = logical/physical screen
w ........ 1....... FG = 4/8 bits per pixel
w ........ .1...... DF = enable frame grabbing
w ........ ..00.... IC/DC = ICA and DCA inactive
w ........ ..01.... IC/DC = ICA active, reduced DCA mode (DCA sz=16 byts)
w ........ ..10.... IC/DC = ICA active, DCA inactive
w ........ ..11.... IC/DC = ICA active, DCA active (DCA size=64 bytes)
w ........ ....aaaa VSR:H = video start address (MSB's)
*/
#define SCC_DCR_VREG (state->m_pcab_vregs[0x02/2] & 0xffff)
#define SCC_DE_VREG ((SCC_DCR_VREG & 0x8000)>>15)
#define SCC_FG_VREG ((SCC_DCR_VREG & 0x0080)>>7)
#define SCC_VSR_VREG_H ((SCC_DCR_VREG & 0xf)>>0)
/*
1fffe4 vsr = video start register
w aaaaaaaa aaaaaaaa VSR:L = video start address (LSB's)
*/
#define SCC_VSR_VREG_L (state->m_pcab_vregs[0x04/2] & 0xffff)
#define SCC_VSR_VREG ((SCC_VSR_VREG_H)<<16) | (SCC_VSR_VREG_L)
/*
1fffe6 bcr = border colour register
w ........ nnnnnnnn in 8 bit mode
w ........ nnnn.... in 4 bit mode
*/
/*
(Note: not present on the original vreg listing)
1fffe8 dcr2 = display command register 2
w x....... ........ not used
w .nn..... ........ OM = lower port of the video mode (with CM)
w ...1.... ........ ID = Indipendent DCA bit
w ....nn.. ........ MF = Mosaic Factor (2,4,8,16)
w ......nn ........ FT = File Type (0/1 = bitmap, 2 = RLE, 3 = Mosaic)
w ........ xxxx.... not used
w ........ ....aaaa "data" (dunno the purpose...)
*/
#define SCC_DCR2_VREG (state->m_pcab_vregs[0x08/2] & 0xffff)
/*
(Note: not present on the original vreg listing)
1fffea dcp = ???
w aaaaaaaa aaaaaa-- "data" (dunno the purpose...)
w -------- ------xx not used
*/
/*
1fffec swm = selective write mask register
w nnnnnnnn ........ mask
*/
/*
1fffee stm = selective mask register
w ........ nnnnnnnn mask
*/
/*
1ffff0 a = source register a
w nnnnnnnn nnnnnnnn source
*/
#define SCC_SRCA_VREG (state->m_pcab_vregs[0x10/2] & 0xffff)
/*
1ffff2 b = destination register b
rw nnnnnnnn nnnnnnnn destination
*/
#define SCC_DSTB_VREG (state->m_pcab_vregs[0x12/2] & 0xffff)
/*
1ffff4 pcr = pixac command register
w 1....... ........ 4N = 8/4 bits per pixel
w .1....00 ....x00. COL = enable colour2 function
w .1....00 .....01. COL = enable colour1 function
w .1...0.. .....10. COL = enable bcolour2 function
w .1...0.. .....11. COL = enable bcolour1 function
w ..1..000 ....x00. EXC = enable exchange function
w ..1..000 .....01. EXC = enable swap function
w ..1..000 .....10. EXC = enable inverted exchange function
w ..1..000 .....11. EXC = enable inverted swap function
w ...1..0. ....x00. CPY = enable copy type b function
w ...1...0 ....x10. CPY = enable copy type a function
w ...1..0. .....01. CPY = enable patch type b function
w ...1...0 .....11. CPY = enable patch type a function
w ....1000 .....00. CMP = enable compare function
w ....1000 .....10. CMP = enable compact function
w .....1.. ........ RTL = manipulate right to left
w ......1. ........ SHK = shrink picture by factor 2
w .......1 ........ ZOM = zoom picture by factor 2
w ........ nnnn.... LGF = logical function
w ........ 0000.... LGF = d=r
w ........ 0001.... LGF = d=~r
w ........ 0010.... LGF = d=0
w ........ 0011.... LGF = d=1
w ........ 0100.... LGF = d=~(d^r)
w ........ 0101.... LGF = d=d^r
w ........ 0110.... LGF = d=d&r
w ........ 0111.... LGF = d=~d&r
w ........ 1000.... LGF = d=~d&~r
w ........ 1001.... LGF = d=d&~r
w ........ 1010.... LGF = d=~d|r
w ........ 1011.... LGF = d=d|r
w ........ 1100.... LGF = d=d|~r
w ........ 1101.... LGF = d=~d|~r
w ........ 1110.... LGF = d=d
w ........ 1111.... LGF = d=~d
w ........ ....1... INV = invert transparancy state of source bits
w ........ .....1.. BIT = copy: enable copy type a
w ........ .....1.. BIT = colour: enable bcolour/colour
w ........ .....1.. BIT = compare: compact/compare
w ........ ......1. TT = perform transparancy test
w ........ .......0
*/
#define SCC_PCR_VREG (state->m_pcab_vregs[0x14/2] & 0xffff)
/*
1ffff6 mask = mask register
w ........ ....nnnn mask nibbles/0
*/
/*
1ffff8 shift = shift register
w ......nn ........ shift by .. during source alignment
*/
/*
1ffffa index = index register
w ........ ......nn bcolour: use bit .. in the source word
w ........ ......nn compact: nibble .. will hold the result
*/
/*
1ffffc fc/bc = foreground/background colour register
w nnnnnnnn ........ FC = foreground colour
w ........ nnnnnnnn BC = background colour
*/
/*
1ffffe tc = transparent colour register
w nnnnnnnn ........ transparent colour
*/
static VIDEO_START(magicard)
{
}
static SCREEN_UPDATE(magicard)
{
magicard_state *state = screen->machine().driver_data<magicard_state>();
int x,y;
UINT32 count;
bitmap_fill(bitmap, cliprect, get_black_pen(screen->machine())); //TODO
if(!(SCC_DE_VREG)) //display enable
return 0;
count = ((SCC_VSR_VREG)/2);
if(SCC_FG_VREG) //4bpp gfx
{
for(y=0;y<300;y++)
{
for(x=0;x<84;x++)
{
UINT32 color;
color = ((state->m_magicram[count]) & 0x000f)>>0;
if(((x*4)+3)<screen->visible_area().max_x && ((y)+0)<screen->visible_area().max_y)
*BITMAP_ADDR32(bitmap, y, (x*4)+3) = screen->machine().pens[color];
color = ((state->m_magicram[count]) & 0x00f0)>>4;
if(((x*4)+2)<screen->visible_area().max_x && ((y)+0)<screen->visible_area().max_y)
*BITMAP_ADDR32(bitmap, y, (x*4)+2) = screen->machine().pens[color];
color = ((state->m_magicram[count]) & 0x0f00)>>8;
if(((x*4)+1)<screen->visible_area().max_x && ((y)+0)<screen->visible_area().max_y)
*BITMAP_ADDR32(bitmap, y, (x*4)+1) = screen->machine().pens[color];
color = ((state->m_magicram[count]) & 0xf000)>>12;
if(((x*4)+0)<screen->visible_area().max_x && ((y)+0)<screen->visible_area().max_y)
*BITMAP_ADDR32(bitmap, y, (x*4)+0) = screen->machine().pens[color];
count++;
}
}
}
else //8bpp gfx
{
for(y=0;y<300;y++)
{
for(x=0;x<168;x++)
{
UINT32 color;
color = ((state->m_magicram[count]) & 0x00ff)>>0;
if(((x*2)+1)<screen->visible_area().max_x && ((y)+0)<screen->visible_area().max_y)
*BITMAP_ADDR32(bitmap, y, (x*2)+1) = screen->machine().pens[color];
color = ((state->m_magicram[count]) & 0xff00)>>8;
if(((x*2)+0)<screen->visible_area().max_x && ((y)+0)<screen->visible_area().max_y)
*BITMAP_ADDR32(bitmap, y, (x*2)+0) = screen->machine().pens[color];
count++;
}
}
}
return 0;
}
/*************************
* R/W Handlers *
*************************/
static READ16_HANDLER( test_r )
{
return space->machine().rand();
}
static WRITE16_HANDLER( paletteram_io_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
switch(offset*2)
{
case 0:
state->m_pal.offs = data;
state->m_pal.offs_internal = 0;
break;
case 4:
break;
case 2:
switch(state->m_pal.offs_internal)
{
case 0:
state->m_pal.r = ((data & 0x3f) << 2) | ((data & 0x30) >> 4);
state->m_pal.offs_internal++;
break;
case 1:
state->m_pal.g = ((data & 0x3f) << 2) | ((data & 0x30) >> 4);
state->m_pal.offs_internal++;
break;
case 2:
state->m_pal.b = ((data & 0x3f) << 2) | ((data & 0x30) >> 4);
palette_set_color(space->machine(), state->m_pal.offs, MAKE_RGB(state->m_pal.r, state->m_pal.g, state->m_pal.b));
state->m_pal.offs_internal = 0;
state->m_pal.offs++;
break;
}
break;
}
}
static READ16_HANDLER( philips_66470_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
switch(offset)
{
// case 0/2:
// return space->machine().rand(); //TODO
}
//printf("[%04x]\n",offset*2);
return state->m_pcab_vregs[offset];
}
static WRITE16_HANDLER( philips_66470_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
COMBINE_DATA(&state->m_pcab_vregs[offset]);
// if(offset == 0x10/2)
// {
//printf("%04x %04x %04x\n",data,state->m_pcab_vregs[0x12/2],state->m_pcab_vregs[0x14/2]);
//state->m_pcab_vregs[0x12/2] = state->m_pcab_vregs[0x10/2];
// }
}
/* scc68070 specific stuff (to be moved) */
static READ16_HANDLER( scc68070_ext_irqc_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
return state->m_scc68070_ext_irqc_regs[offset];
}
static WRITE16_HANDLER( scc68070_ext_irqc_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_ext_irqc_regs[offset] = data;
}
static READ16_HANDLER( scc68070_iic_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
//printf("%04x\n",offset*2);
switch(offset)
{
case 0x04/2: return state->m_scc68070_iic_regs[offset] & 0xef; //iic status register, bit 4 = pending irq
}
return state->m_scc68070_iic_regs[offset];
}
static WRITE16_HANDLER( scc68070_iic_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_iic_regs[offset] = data;
}
static READ16_HANDLER( scc68070_uart_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
//printf("%02x\n",offset*2);
switch(offset)
{
case 0x02/2: return space->machine().rand(); //uart mode register
}
return state->m_scc68070_uart_regs[offset];
}
static WRITE16_HANDLER( scc68070_uart_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_uart_regs[offset] = data;
}
static READ16_HANDLER( scc68070_timer_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
return state->m_scc68070_timer_regs[offset];
}
static WRITE16_HANDLER( scc68070_timer_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_timer_regs[offset] = data;
}
static READ16_HANDLER( scc68070_int_irqc_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
return state->m_scc68070_int_irqc_regs[offset];
}
static WRITE16_HANDLER( scc68070_int_irqc_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_int_irqc_regs[offset] = data;
}
static READ16_HANDLER( scc68070_dma_ch1_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
return state->m_scc68070_dma_ch1_regs[offset];
}
static WRITE16_HANDLER( scc68070_dma_ch1_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_dma_ch1_regs[offset] = data;
}
static READ16_HANDLER( scc68070_dma_ch2_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
return state->m_scc68070_dma_ch2_regs[offset];
}
static WRITE16_HANDLER( scc68070_dma_ch2_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_dma_ch2_regs[offset] = data;
}
static READ16_HANDLER( scc68070_mmu_r )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
return state->m_scc68070_mmu_regs[offset];
}
static WRITE16_HANDLER( scc68070_mmu_w )
{
magicard_state *state = space->machine().driver_data<magicard_state>();
state->m_scc68070_mmu_regs[offset] = data;
switch(offset)
{
case 0x0000/2:
if(data & 0x80) //throw an error if the (unemulated) MMU is enabled
fatalerror("SCC68070: MMU enable bit active");
break;
}
}
/*************************
* Memory Maps *
*************************/
static ADDRESS_MAP_START( magicard_mem, AS_PROGRAM, 16 )
// ADDRESS_MAP_GLOBAL_MASK(0x1fffff)
AM_RANGE(0x00000000, 0x0017ffff) AM_MIRROR(0x7fe00000) AM_RAM AM_BASE_MEMBER(magicard_state, m_magicram) /*only 0-7ffff accessed in Magic Card*/
AM_RANGE(0x00180000, 0x001ffbff) AM_MIRROR(0x7fe00000) AM_RAM AM_REGION("maincpu", 0)
/* 001ffc00-001ffdff System I/O */
AM_RANGE(0x001ffc00, 0x001ffc01) AM_MIRROR(0x7fe00000) AM_READ(test_r)
AM_RANGE(0x001ffc40, 0x001ffc41) AM_MIRROR(0x7fe00000) AM_READ(test_r)
AM_RANGE(0x001ffd00, 0x001ffd05) AM_MIRROR(0x7fe00000) AM_WRITE(paletteram_io_w) //RAMDAC
/*not the right sound chip,unknown type,it should be an ADPCM with 8 channels.*/
AM_RANGE(0x001ffd40, 0x001ffd43) AM_MIRROR(0x7fe00000) AM_DEVWRITE8("ymsnd", ym2413_w, 0x00ff)
AM_RANGE(0x001ffd80, 0x001ffd81) AM_MIRROR(0x7fe00000) AM_READ(test_r)
AM_RANGE(0x001ffd80, 0x001ffd81) AM_MIRROR(0x7fe00000) AM_WRITENOP //?
AM_RANGE(0x001fff80, 0x001fffbf) AM_MIRROR(0x7fe00000) AM_RAM //DRAM I/O, not accessed by this game, CD buffer?
AM_RANGE(0x001fffe0, 0x001fffff) AM_MIRROR(0x7fe00000) AM_READWRITE(philips_66470_r,philips_66470_w) AM_BASE_MEMBER(magicard_state, m_pcab_vregs) //video registers
AM_RANGE(0x80001000, 0x8000100f) AM_READWRITE(scc68070_ext_irqc_r,scc68070_ext_irqc_w) AM_BASE_MEMBER(magicard_state, m_scc68070_ext_irqc_regs) //lir
AM_RANGE(0x80002000, 0x8000200f) AM_READWRITE(scc68070_iic_r,scc68070_iic_w) AM_BASE_MEMBER(magicard_state, m_scc68070_iic_regs) //i2c
AM_RANGE(0x80002010, 0x8000201f) AM_READWRITE(scc68070_uart_r,scc68070_uart_w) AM_BASE_MEMBER(magicard_state, m_scc68070_uart_regs)
AM_RANGE(0x80002020, 0x8000202f) AM_READWRITE(scc68070_timer_r,scc68070_timer_w) AM_BASE_MEMBER(magicard_state, m_scc68070_timer_regs)
AM_RANGE(0x80002040, 0x8000204f) AM_READWRITE(scc68070_int_irqc_r,scc68070_int_irqc_w) AM_BASE_MEMBER(magicard_state, m_scc68070_int_irqc_regs)
AM_RANGE(0x80004000, 0x8000403f) AM_READWRITE(scc68070_dma_ch1_r,scc68070_dma_ch1_w) AM_BASE_MEMBER(magicard_state, m_scc68070_dma_ch1_regs)
AM_RANGE(0x80004040, 0x8000407f) AM_READWRITE(scc68070_dma_ch2_r,scc68070_dma_ch2_w) AM_BASE_MEMBER(magicard_state, m_scc68070_dma_ch2_regs)
AM_RANGE(0x80008000, 0x8000807f) AM_READWRITE(scc68070_mmu_r,scc68070_mmu_w) AM_BASE_MEMBER(magicard_state, m_scc68070_mmu_regs)
ADDRESS_MAP_END
/*************************
* Input ports *
*************************/
static INPUT_PORTS_START( magicard )
INPUT_PORTS_END
static MACHINE_RESET( magicard )
{
magicard_state *state = machine.driver_data<magicard_state>();
UINT16 *src = (UINT16*)machine.region("maincpu" )->base();
UINT16 *dst = state->m_magicram;
memcpy (dst, src, 0x80000);
machine.device("maincpu")->reset();
}
/*************************
* Machine Drivers *
*************************/
/*Probably there's a mask somewhere if it REALLY uses irqs at all...irq vectors dynamically changes after some time.*/
static INTERRUPT_GEN( magicard_irq )
{
if(device->machine().input().code_pressed(KEYCODE_Z)) //vblank?
device_set_input_line_and_vector(device, 1, HOLD_LINE,0xe4/4);
if(device->machine().input().code_pressed(KEYCODE_X)) //uart irq
device_set_input_line_and_vector(device, 1, HOLD_LINE,0xf0/4);
}
static MACHINE_CONFIG_START( magicard, magicard_state )
MCFG_CPU_ADD("maincpu", SCC68070, CLOCK_A/2) /* SCC-68070 CCA84 datasheet */
MCFG_CPU_PROGRAM_MAP(magicard_mem)
MCFG_CPU_VBLANK_INT("screen", magicard_irq) /* no interrupts? (it erases the vectors..) */
MCFG_SCREEN_ADD("screen", RASTER)
MCFG_SCREEN_REFRESH_RATE(60)
MCFG_SCREEN_VBLANK_TIME(ATTOSECONDS_IN_USEC(0))
MCFG_SCREEN_FORMAT(BITMAP_FORMAT_RGB32)
MCFG_SCREEN_SIZE(400, 300)
MCFG_SCREEN_VISIBLE_AREA(0, 320-1, 0, 256-1) //dynamic resolution,TODO
MCFG_SCREEN_UPDATE(magicard)
MCFG_PALETTE_LENGTH(0x100)
MCFG_VIDEO_START(magicard)
MCFG_MACHINE_RESET(magicard)
MCFG_SPEAKER_STANDARD_MONO("mono")
MCFG_SOUND_ADD("ymsnd", YM2413, CLOCK_A/12)
MCFG_SOUND_ROUTE(ALL_OUTPUTS, "mono", 1.0)
MACHINE_CONFIG_END
/*************************
* Rom Load *
*************************/
ROM_START( magicard )
ROM_REGION( 0x80000, "maincpu", 0 ) /* 68070 Code & GFX */
ROM_LOAD16_WORD_SWAP( "magicorg.bin", 0x000000, 0x80000, CRC(810edf9f) SHA1(0f1638a789a4be7413aa019b4e198353ba9c12d9) )
ROM_REGION( 0x0100, "sereeprom", 0 ) /* Serial EPROM */
ROM_LOAD16_WORD_SWAP("mgorigee.bin", 0x0000, 0x0100, CRC(73522889) SHA1(3e10d6c1585c3a63cff717a0b950528d5373c781) )
ROM_END
ROM_START( magicarda )
ROM_REGION( 0x80000, "maincpu", 0 ) /* 68070 Code & GFX */
ROM_LOAD16_WORD_SWAP( "mcorigg2.bin", 0x00000, 0x20000, CRC(48546aa9) SHA1(23099a5e4c9f2c3386496f6d7f5bb7d435a6fb16) )
ROM_RELOAD( 0x40000, 0x20000 )
ROM_LOAD16_WORD_SWAP( "mcorigg1.bin", 0x20000, 0x20000, CRC(c9e4a38d) SHA1(812e5826b27c7ad98142a0f52fbdb6b61a2e31d7) )
ROM_RELOAD( 0x40001, 0x20000 )
ROM_REGION( 0x0100, "sereeprom", 0 ) /* Serial EPROM */
ROM_LOAD("mgorigee.bin", 0x0000, 0x0100, CRC(73522889) SHA1(3e10d6c1585c3a63cff717a0b950528d5373c781) )
ROM_END
ROM_START( magicardb )
ROM_REGION( 0x80000, "maincpu", 0 ) /* 68070 Code & GFX */
ROM_LOAD16_WORD_SWAP( "mg_8.bin", 0x00000, 0x80000, CRC(f5499765) SHA1(63bcf40b91b43b218c1f9ec1d126a856f35d0844) )
/*bigger than the other sets?*/
ROM_REGION( 0x20000, "other", 0 ) /* unknown */
ROM_LOAD16_WORD_SWAP("mg_u3.bin", 0x00000, 0x20000, CRC(2116de31) SHA1(fb9c21ca936532e7c342db4bcaaac31c478b1a35) )
ROM_END
ROM_START( magicardj )
ROM_REGION( 0x80000, "maincpu", 0 ) /* 68070 Code & GFX */
ROM_LOAD16_WORD_SWAP( "27c4002.ic21", 0x00000, 0x80000, CRC(ab2ed583) SHA1(a2d7148b785a8dfce8cff3b15ada293d65561c98) )
ROM_REGION( 0x0100, "pic16f84", 0 ) /* protected */
ROM_LOAD("pic16f84.ic29", 0x0000, 0x0100, BAD_DUMP CRC(0d968558) SHA1(b376885ac8452b6cbf9ced81b1080bfd570d9b91) )
ROM_REGION( 0x200000, "other", 0 ) /* unknown contents */
ROM_LOAD("29f1610mc.ic30", 0x000000, 0x200000, NO_DUMP )
ROM_REGION( 0x0100, "sereeprom", 0 ) /* Serial EPROM */
ROM_LOAD("24c02c.ic26", 0x0000, 0x0100, CRC(b5c86862) SHA1(0debc0f7e7c506e5a4e2cae152548d80ad72fc2e) )
ROM_END
/*
Magic Card Export 94
International Ver. 2.11a
Vnr.29.07.94 CHECKSUM: A63D
1 x Philips SCC66470CAB 383610
1 x Philips SCC68070 CCA84 347141
1 x ESI1 I9631
1 x MUSIC TR9C1710-11PCA SA121X/9617
1 x YAMAHA YM2149F 9614
XTAL:
Q1: 19.6608 Mhz
Q2: 30.000 Mhz
Q3: 3686.400 1Q08/95
*/
ROM_START( magicarde )
ROM_REGION( 0x80000, "maincpu", 0 ) /* 68070 Code & GFX */
ROM_LOAD16_WORD_SWAP( "27c4002.ic21", 0x00000, 0x80000, CRC(b5f24412) SHA1(73ff05c19132932a419fef0d5dc985440ce70e83) )
ROM_REGION( 0x0200, "pic16c54", 0 ) /* protected */
ROM_LOAD("pic16c54.ic29", 0x0000, 0x0200, BAD_DUMP CRC(73224200) SHA1(c9a1038146647430759d570bb5626047a476a05b) )
ROM_REGION( 0x0100, "sereeprom", 0 ) /* Serial EPROM */
ROM_LOAD("st24c02.ic26", 0x0000, 0x0100, CRC(98287c67) SHA1(ad34e55c1ce4f77c27049dac88050ed3c94af1a0) )
ROM_END
ROM_START( magicle )
ROM_REGION( 0x80000, "maincpu", 0 ) /* 68070 Code & GFX */
ROM_LOAD16_WORD_SWAP( "27c4002.ic21", 0x00000, 0x80000, CRC(73328346) SHA1(fca5f8a93f25377e659c2b291674d706ca37400e) )
ROM_REGION( 0x0100, "pic16f84", 0 ) /* protected */
ROM_LOAD("pic16f84.ic29", 0x0000, 0x0100, BAD_DUMP CRC(0d968558) SHA1(b376885ac8452b6cbf9ced81b1080bfd570d9b91) )
ROM_REGION( 0x200000, "other", 0 ) /* unknown contents */
ROM_LOAD("29f1610mc.ic30", 0x000000, 0x200000, NO_DUMP )
ROM_REGION( 0x0200, "sereeprom", 0 ) /* Serial EPROM */
ROM_LOAD("24c04a.ic26", 0x0000, 0x0200, CRC(48c4f473) SHA1(5355313cc96f655096e13bfae78be3ba2dfe8a2d) )
ROM_END
/*************************
* Driver Init *
*************************/
static DRIVER_INIT( magicard )
{
//...
}
/*************************
* Game Drivers *
*************************/
/* YEAR NAME PARENT MACHINE INPUT INIT ROT COMPANY FULLNAME FLAGS... */
GAME( 199?, magicard, 0, magicard, magicard, magicard, ROT0, "Impera", "Magic Card (set 1)", GAME_NO_SOUND | GAME_NOT_WORKING )
GAME( 199?, magicarda, magicard, magicard, magicard, magicard, ROT0, "Impera", "Magic Card (set 2)", GAME_NO_SOUND | GAME_NOT_WORKING )
GAME( 199?, magicardb, magicard, magicard, magicard, magicard, ROT0, "Impera", "Magic Card (set 3)", GAME_NO_SOUND | GAME_NOT_WORKING )
GAME( 1994, magicarde, magicard, magicard, magicard, magicard, ROT0, "Impera", "Magic Card Export 94", GAME_NO_SOUND | GAME_NOT_WORKING )
GAME( 1998, magicardj, magicard, magicard, magicard, magicard, ROT0, "Impera", "Magic Card Jackpot (4.01)", GAME_NO_SOUND | GAME_NOT_WORKING )
GAME( 2001, magicle, 0, magicard, magicard, magicard, ROT0, "Impera", "Magic Lotto Export (5.03)", GAME_NO_SOUND | GAME_NOT_WORKING )