/****************************************************************************** * FILE * Yamaha 3812 emulator interface - MAME VERSION * * CREATED BY * Ernesto Corvi * * UPDATE LOG * JB 28-04-2002 Fixed simultaneous usage of all three different chip types. * Used real sample rate when resample filter is active. * AAT 12-28-2001 Protected Y8950 from accessing unmapped port and keyboard handlers. * CHS 1999-01-09 Fixes new ym3812 emulation interface. * CHS 1998-10-23 Mame streaming sound chip update * EC 1998 Created Interface * * NOTES * ******************************************************************************/ #include #include #include "mamedef.h" //#include "attotime.h" //#include "sndintrf.h" //#include "streams.h" //#include "cpuintrf.h" #include "3812intf.h" #ifdef ENABLE_ALL_CORES #include "fmopl.h" #endif #define OPLTYPE_IS_OPL2 #include "adlibemu.h" #ifndef NULL #define NULL ((void *)0) #endif #define EC_DBOPL 0x00 // DosBox OPL (AdLibEmu) #ifdef ENABLE_ALL_CORES #define EC_MAME 0x01 // YM3826 core from MAME #endif typedef struct _ym3812_state ym3812_state; struct _ym3812_state { //sound_stream * stream; //emu_timer * timer[2]; void * chip; int EMU_CORE; //const ym3812_interface *intf; //const device_config *device; }; /*INLINE ym3812_state *get_safe_token(const device_config *device) { assert(device != NULL); assert(device->token != NULL); assert(device->type == SOUND); assert(sound_get_type(device) == SOUND_YM3812); return (ym3812_state *)device->token; }*/ #ifdef ENABLE_ALL_CORES static void IRQHandler(void *param,int irq) { //ym3812_state *info = (ym3812_state *)param; //if (info->intf->handler) (info->intf->handler)(info->device, irq ? ASSERT_LINE : CLEAR_LINE); //if (info->intf->handler) (info->intf->handler)(irq ? ASSERT_LINE : CLEAR_LINE); } #endif /*static TIMER_CALLBACK( timer_callback_0 ) { ym3812_state *info = (ym3812_state *)ptr; ym3812_timer_over(info->chip,0); } static TIMER_CALLBACK( timer_callback_1 ) { ym3812_state *info = (ym3812_state *)ptr; ym3812_timer_over(info->chip,1); }*/ //static void TimerHandler(void *param,int c,attotime period) #ifdef ENABLE_ALL_CORES static void TimerHandler(void *param,int c,int period) { //ym3812_state *info = (ym3812_state *)param; //if( attotime_compare(period, attotime_zero) == 0 ) if( period == 0 ) { /* Reset FM Timer */ //timer_enable(info->timer[c], 0); } else { /* Start FM Timer */ //timer_adjust_oneshot(info->timer[c], period, 0); } } #endif //static STREAM_UPDATE( ym3812_stream_update ) void ym3812_stream_update(void *param, stream_sample_t **outputs, int samples) { ym3812_state *info = (ym3812_state *)param; switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: ym3812_update_one(info->chip, outputs, samples); break; #endif case EC_DBOPL: adlib_OPL2_getsample(info->chip, outputs, samples); break; } } static stream_sample_t* DUMMYBUF[0x02] = {NULL, NULL}; static void _stream_update(void * param/*, int interval*/) { ym3812_state *info = (ym3812_state *)param; //stream_update(info->stream); switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: ym3812_update_one(info->chip, DUMMYBUF, 0); break; #endif case EC_DBOPL: adlib_OPL2_getsample(info->chip, DUMMYBUF, 0); break; } } //static DEVICE_START( ym3812 ) int device_start_ym3812(void **_info, int EMU_CORE, int clock, int CHIP_SAMPLING_MODE, int CHIP_SAMPLE_RATE) { //static const ym3812_interface dummy = { 0 }; //ym3812_state *info = get_safe_token(device); ym3812_state *info; int rate; #ifdef ENABLE_ALL_CORES if (EMU_CORE >= 0x02) EMU_CORE = EC_DBOPL; #else EMU_CORE = EC_DBOPL; #endif info = (ym3812_state *) calloc(1, sizeof(ym3812_state)); *_info = (void *) info; info->EMU_CORE = EMU_CORE; rate = (clock & 0x7FFFFFFF)/72; if ((CHIP_SAMPLING_MODE == 0x01 && rate < CHIP_SAMPLE_RATE) || CHIP_SAMPLING_MODE == 0x02) rate = CHIP_SAMPLE_RATE; //info->intf = device->static_config ? (const ym3812_interface *)device->static_config : &dummy; //info->intf = &dummy; //info->device = device; /* stream system initialize */ switch(EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: info->chip = ym3812_init(clock & 0x7FFFFFFF,rate); //assert_always(info->chip != NULL, "Error creating YM3812 chip"); //info->stream = stream_create(device,0,1,rate,info,ym3812_stream_update); /* YM3812 setup */ ym3812_set_timer_handler (info->chip, TimerHandler, info); ym3812_set_irq_handler (info->chip, IRQHandler, info); ym3812_set_update_handler(info->chip, _stream_update, info); //info->timer[0] = timer_alloc(device->machine, timer_callback_0, info); //info->timer[1] = timer_alloc(device->machine, timer_callback_1, info); break; #endif case EC_DBOPL: info->chip = adlib_OPL2_init(clock & 0x7FFFFFFF, rate, _stream_update, info); break; } return rate; } //static DEVICE_STOP( ym3812 ) void device_stop_ym3812(void *_info) { //ym3812_state *info = get_safe_token(device); ym3812_state *info = (ym3812_state *)_info; switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: ym3812_shutdown(info->chip); break; #endif case EC_DBOPL: adlib_OPL2_stop(info->chip); break; } free(info); } //static DEVICE_RESET( ym3812 ) void device_reset_ym3812(void *_info) { //ym3812_state *info = get_safe_token(device); ym3812_state *info = (ym3812_state *)_info; switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: ym3812_reset_chip(info->chip); break; #endif case EC_DBOPL: adlib_OPL2_reset(info->chip); break; } } //READ8_DEVICE_HANDLER( ym3812_r ) UINT8 ym3812_r(void *_info, offs_t offset) { //ym3812_state *info = get_safe_token(device); ym3812_state *info = (ym3812_state *)_info; switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: return ym3812_read(info->chip, offset & 1); #endif case EC_DBOPL: return adlib_OPL2_reg_read(info->chip, offset & 0x01); default: return 0x00; } } //WRITE8_DEVICE_HANDLER( ym3812_w ) void ym3812_w(void *_info, offs_t offset, UINT8 data) { //ym3812_state *info = get_safe_token(device); ym3812_state *info = (ym3812_state *)_info; switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: ym3812_write(info->chip, offset & 1, data); break; #endif case EC_DBOPL: adlib_OPL2_writeIO(info->chip, offset & 1, data); break; } } //READ8_DEVICE_HANDLER( ym3812_status_port_r ) UINT8 ym3812_status_port_r(void *info, offs_t offset) { return ym3812_r(info, 0); } //READ8_DEVICE_HANDLER( ym3812_read_port_r ) UINT8 ym3812_read_port_r(void *info, offs_t offset) { return ym3812_r(info, 1); } //WRITE8_DEVICE_HANDLER( ym3812_control_port_w ) void ym3812_control_port_w(void *info, offs_t offset, UINT8 data) { ym3812_w(info, 0, data); } //WRITE8_DEVICE_HANDLER( ym3812_write_port_w ) void ym3812_write_port_w(void *info, offs_t offset, UINT8 data) { ym3812_w(info, 1, data); } void ym3812_set_mute_mask(void *_info, UINT32 MuteMask) { ym3812_state *info = (ym3812_state *)_info; switch(info->EMU_CORE) { #ifdef ENABLE_ALL_CORES case EC_MAME: opl_set_mute_mask(info->chip, MuteMask); break; #endif case EC_DBOPL: adlib_OPL2_set_mute_mask(info->chip, MuteMask); break; } return; } /************************************************************************** * Generic get_info **************************************************************************/ /*DEVICE_GET_INFO( ym3812 ) { switch (state) { // --- the following bits of info are returned as 64-bit signed integers --- case DEVINFO_INT_TOKEN_BYTES: info->i = sizeof(ym3812_state); break; // --- the following bits of info are returned as pointers to data or functions --- case DEVINFO_FCT_START: info->start = DEVICE_START_NAME( ym3812 ); break; case DEVINFO_FCT_STOP: info->stop = DEVICE_STOP_NAME( ym3812 ); break; case DEVINFO_FCT_RESET: info->reset = DEVICE_RESET_NAME( ym3812 ); break; // --- the following bits of info are returned as NULL-terminated strings --- case DEVINFO_STR_NAME: strcpy(info->s, "YM3812"); break; case DEVINFO_STR_FAMILY: strcpy(info->s, "Yamaha FM"); break; case DEVINFO_STR_VERSION: strcpy(info->s, "1.0"); break; case DEVINFO_STR_SOURCE_FILE: strcpy(info->s, __FILE__); break; case DEVINFO_STR_CREDITS: strcpy(info->s, "Copyright Nicola Salmoria and the MAME Team"); break; } }*/