/* * PicoDrive - Internal Header File * (c) Copyright Dave, 2004 * (C) notaz, 2006-2010 * * This work is licensed under the terms of MAME license. * See COPYING file in the top-level directory. */ #ifndef PICO_INTERNAL_INCLUDED #define PICO_INTERNAL_INCLUDED #include #include #include #include "pico.h" #include "carthw/carthw.h" // #define USE_POLL_DETECT #ifndef PICO_INTERNAL #define PICO_INTERNAL #endif #ifndef PICO_INTERNAL_ASM #define PICO_INTERNAL_ASM #endif // to select core, define EMU_C68K, EMU_M68K or EMU_F68K in your makefile or project #ifdef __cplusplus extern "C" { #endif // ----------------------- 68000 CPU ----------------------- #ifdef EMU_C68K #include "../cpu/cyclone/Cyclone.h" extern struct Cyclone PicoCpuCM68k, PicoCpuCS68k; #define SekCyclesLeft PicoCpuCM68k.cycles // cycles left for this run #define SekCyclesLeftS68k PicoCpuCS68k.cycles #define SekPc (PicoCpuCM68k.pc-PicoCpuCM68k.membase) #define SekPcS68k (PicoCpuCS68k.pc-PicoCpuCS68k.membase) #define SekDar(x) (x < 8 ? PicoCpuCM68k.d[x] : PicoCpuCM68k.a[x - 8]) #define SekDarS68k(x) (x < 8 ? PicoCpuCS68k.d[x] : PicoCpuCS68k.a[x - 8]) #define SekSr CycloneGetSr(&PicoCpuCM68k) #define SekSrS68k CycloneGetSr(&PicoCpuCS68k) #define SekSetStop(x) { PicoCpuCM68k.state_flags&=~1; if (x) { PicoCpuCM68k.state_flags|=1; PicoCpuCM68k.cycles=0; } } #define SekSetStopS68k(x) { PicoCpuCS68k.state_flags&=~1; if (x) { PicoCpuCS68k.state_flags|=1; PicoCpuCS68k.cycles=0; } } #define SekIsStoppedM68k() (PicoCpuCM68k.state_flags&1) #define SekIsStoppedS68k() (PicoCpuCS68k.state_flags&1) #define SekShouldInterrupt() (PicoCpuCM68k.irq > (PicoCpuCM68k.srh&7)) #define SekNotPolling PicoCpuCM68k.not_pol #define SekNotPollingS68k PicoCpuCS68k.not_pol #define SekInterrupt(i) PicoCpuCM68k.irq=i #define SekIrqLevel PicoCpuCM68k.irq #endif #ifdef EMU_F68K #include "../cpu/fame/fame.h" extern M68K_CONTEXT PicoCpuFM68k, PicoCpuFS68k; #define SekCyclesLeft PicoCpuFM68k.io_cycle_counter #define SekCyclesLeftS68k PicoCpuFS68k.io_cycle_counter #define SekPc fm68k_get_pc(&PicoCpuFM68k) #define SekPcS68k fm68k_get_pc(&PicoCpuFS68k) #define SekDar(x) (x < 8 ? PicoCpuFM68k.dreg[x].D : PicoCpuFM68k.areg[x - 8].D) #define SekDarS68k(x) (x < 8 ? PicoCpuFS68k.dreg[x].D : PicoCpuFS68k.areg[x - 8].D) #define SekSr PicoCpuFM68k.sr #define SekSrS68k PicoCpuFS68k.sr #define SekSetStop(x) { \ PicoCpuFM68k.execinfo &= ~FM68K_HALTED; \ if (x) { PicoCpuFM68k.execinfo |= FM68K_HALTED; PicoCpuFM68k.io_cycle_counter = 0; } \ } #define SekSetStopS68k(x) { \ PicoCpuFS68k.execinfo &= ~FM68K_HALTED; \ if (x) { PicoCpuFS68k.execinfo |= FM68K_HALTED; PicoCpuFS68k.io_cycle_counter = 0; } \ } #define SekIsStoppedM68k() (PicoCpuFM68k.execinfo&FM68K_HALTED) #define SekIsStoppedS68k() (PicoCpuFS68k.execinfo&FM68K_HALTED) #define SekShouldInterrupt() fm68k_would_interrupt() #define SekNotPolling PicoCpuFM68k.not_polling #define SekNotPollingS68k PicoCpuFS68k.not_polling #define SekInterrupt(irq) PicoCpuFM68k.interrupts[0]=irq #define SekIrqLevel PicoCpuFM68k.interrupts[0] #endif #ifdef EMU_M68K #include "../cpu/musashi/m68kcpu.h" extern m68ki_cpu_core PicoCpuMM68k, PicoCpuMS68k; #ifndef SekCyclesLeft #define SekCyclesLeft PicoCpuMM68k.cyc_remaining_cycles #define SekCyclesLeftS68k PicoCpuMS68k.cyc_remaining_cycles #define SekPc m68k_get_reg(&PicoCpuMM68k, M68K_REG_PC) #define SekPcS68k m68k_get_reg(&PicoCpuMS68k, M68K_REG_PC) #define SekDar(x) PicoCpuMM68k.dar[x] #define SekDarS68k(x) PicoCpuMS68k.dar[x] #define SekSr m68k_get_reg(&PicoCpuMM68k, M68K_REG_SR) #define SekSrS68k m68k_get_reg(&PicoCpuMS68k, M68K_REG_SR) #define SekSetStop(x) { \ if(x) { SET_CYCLES(0); PicoCpuMM68k.stopped=STOP_LEVEL_STOP; } \ else PicoCpuMM68k.stopped=0; \ } #define SekSetStopS68k(x) { \ if(x) { SET_CYCLES(0); PicoCpuMS68k.stopped=STOP_LEVEL_STOP; } \ else PicoCpuMS68k.stopped=0; \ } #define SekIsStoppedM68k() (PicoCpuMM68k.stopped==STOP_LEVEL_STOP) #define SekIsStoppedS68k() (PicoCpuMS68k.stopped==STOP_LEVEL_STOP) #define SekShouldInterrupt() (CPU_INT_LEVEL > FLAG_INT_MASK) #define SekNotPolling PicoCpuMM68k.not_polling #define SekNotPollingS68k PicoCpuMS68k.not_polling #define SekInterrupt(irq) { \ void *oldcontext = m68ki_cpu_p; \ m68k_set_context(&PicoCpuMM68k); \ m68k_set_irq(irq); \ m68k_set_context(oldcontext); \ } #define SekIrqLevel (PicoCpuMM68k.int_level >> 8) #endif #endif // EMU_M68K // while running, cnt represents target of current timeslice // while not in SekRun(), it's actual cycles done // (but always use SekCyclesDone() if you need current position) // cnt may change if timeslice is ended prematurely or extended, // so we use SekCycleAim for the actual target extern unsigned int SekCycleCnt; extern unsigned int SekCycleAim; // number of cycles done (can be checked anywhere) #define SekCyclesDone() (SekCycleCnt - SekCyclesLeft) // burn cycles while not in SekRun() and while in #define SekCyclesBurn(c) SekCycleCnt += c #define SekCyclesBurnRun(c) { \ SekCyclesLeft -= c; \ } // note: sometimes may extend timeslice to delay an irq #define SekEndRun(after) { \ SekCycleCnt -= SekCyclesLeft - (after); \ SekCyclesLeft = after; \ } extern unsigned int SekCycleCntS68k; extern unsigned int SekCycleAimS68k; #define SekEndRunS68k(after) { \ if (SekCyclesLeftS68k > (after)) { \ SekCycleCntS68k -= SekCyclesLeftS68k - (after); \ SekCyclesLeftS68k = after; \ } \ } #define SekCyclesDoneS68k() (SekCycleCntS68k - SekCyclesLeftS68k) // compare cycles, handling overflows // check if a > b #define CYCLES_GT(a, b) \ ((int)((a) - (b)) > 0) // check if a >= b #define CYCLES_GE(a, b) \ ((int)((a) - (b)) >= 0) // ----------------------- Z80 CPU ----------------------- #if defined(_USE_DRZ80) #include "../cpu/DrZ80/drz80.h" extern struct DrZ80 drZ80; #define z80_run(cycles) ((cycles) - DrZ80Run(&drZ80, cycles)) #define z80_run_nr(cycles) DrZ80Run(&drZ80, cycles) #define z80_int() drZ80.Z80_IRQ = 1 #define z80_int() drZ80.Z80_IRQ = 1 #define z80_nmi() drZ80.Z80IF |= 8 #define z80_cyclesLeft drZ80.cycles #define z80_pc() (drZ80.Z80PC - drZ80.Z80PC_BASE) #elif defined(_USE_CZ80) #include "../cpu/cz80/cz80.h" #define z80_run(cycles) Cz80_Exec(&CZ80, cycles) #define z80_run_nr(cycles) Cz80_Exec(&CZ80, cycles) #define z80_int() Cz80_Set_IRQ(&CZ80, 0, HOLD_LINE) #define z80_nmi() Cz80_Set_IRQ(&CZ80, IRQ_LINE_NMI, 0) #define z80_cyclesLeft (CZ80.ICount - CZ80.ExtraCycles) #define z80_pc() Cz80_Get_Reg(&CZ80, CZ80_PC) #else #define z80_run(cycles) (cycles) #define z80_run_nr(cycles) #define z80_int() #define z80_nmi() #endif #define Z80_STATE_SIZE 0x60 extern unsigned int last_z80_sync; extern int z80_cycle_cnt; /* 'done' z80 cycles before z80_run() */ extern int z80_cycle_aim; extern int z80_scanline; extern int z80_scanline_cycles; /* cycles done until z80_scanline */ #define z80_resetCycles() \ last_z80_sync = SekCyclesDone(); \ z80_cycle_cnt = z80_cycle_aim = z80_scanline = z80_scanline_cycles = 0; #define z80_cyclesDone() \ (z80_cycle_aim - z80_cyclesLeft) #define cycles_68k_to_z80(x) ((x)*957 >> 11) // ----------------------- SH2 CPU ----------------------- #include "cpu/sh2/sh2.h" extern SH2 sh2s[2]; #define msh2 sh2s[0] #define ssh2 sh2s[1] #ifndef DRC_SH2 # define sh2_end_run(sh2, after_) do { \ if ((sh2)->icount > (after_)) { \ (sh2)->cycles_timeslice -= (sh2)->icount - (after_); \ (sh2)->icount = after_; \ } \ } while (0) # define sh2_cycles_left(sh2) (sh2)->icount # define sh2_burn_cycles(sh2, n) (sh2)->icount -= n # define sh2_pc(sh2) (sh2)->ppc #else # define sh2_end_run(sh2, after_) do { \ int left_ = (signed int)(sh2)->sr >> 12; \ if (left_ > (after_)) { \ (sh2)->cycles_timeslice -= left_ - (after_); \ (sh2)->sr &= 0xfff; \ (sh2)->sr |= (after_) << 12; \ } \ } while (0) # define sh2_cycles_left(sh2) ((signed int)(sh2)->sr >> 12) # define sh2_burn_cycles(sh2, n) (sh2)->sr -= ((n) << 12) # define sh2_pc(sh2) (sh2)->pc #endif #define sh2_cycles_done(sh2) ((int)(sh2)->cycles_timeslice - sh2_cycles_left(sh2)) #define sh2_cycles_done_t(sh2) \ ((sh2)->m68krcycles_done * 3 + sh2_cycles_done(sh2)) #define sh2_cycles_done_m68k(sh2) \ ((sh2)->m68krcycles_done + (sh2_cycles_done(sh2) / 3)) #define sh2_reg(c, x) (c) ? ssh2.r[x] : msh2.r[x] #define sh2_gbr(c) (c) ? ssh2.gbr : msh2.gbr #define sh2_vbr(c) (c) ? ssh2.vbr : msh2.vbr #define sh2_sr(c) (((c) ? ssh2.sr : msh2.sr) & 0xfff) #define sh2_set_gbr(c, v) \ { if (c) ssh2.gbr = v; else msh2.gbr = v; } #define sh2_set_vbr(c, v) \ { if (c) ssh2.vbr = v; else msh2.vbr = v; } #define elprintf_sh2(sh2, w, f, ...) \ elprintf(w,"%csh2 "f,(sh2)->is_slave?'s':'m',##__VA_ARGS__) // --------------------------------------------------------- // main oscillator clock which controls timing #define OSC_NTSC 53693100 #define OSC_PAL 53203424 struct PicoVideo { unsigned char reg[0x20]; unsigned int command; // 32-bit Command unsigned char pending; // 1 if waiting for second half of 32-bit command unsigned char type; // Command type (v/c/vsram read/write) unsigned short addr; // Read/Write address int status; // Status bits unsigned char pending_ints; // pending interrupts: ??VH???? signed char lwrite_cnt; // VDP write count during active display line unsigned short v_counter; // V-counter unsigned char pad[0x10]; }; struct PicoMisc { unsigned char rotate; unsigned char z80Run; unsigned char padTHPhase[2]; // 02 phase of gamepad TH switches unsigned short scanline; // 04 0 to 261||311 char dirtyPal; // 06 Is the palette dirty (1 - change @ this frame, 2 - some time before) unsigned char hardware; // 07 Hardware value for country unsigned char pal; // 08 1=PAL 0=NTSC unsigned char sram_reg; // 09 SRAM reg. See SRR_* below unsigned short z80_bank68k; // 0a unsigned short pad0; unsigned char ncart_in; // 0e !cart_in unsigned char z80_reset; // 0f z80 reset held unsigned char padDelay[2]; // 10 gamepad phase time outs, so we count a delay unsigned short eeprom_addr; // EEPROM address register unsigned char eeprom_cycle; // EEPROM cycle number unsigned char eeprom_slave; // EEPROM slave word for X24C02 and better SRAMs unsigned char eeprom_status; unsigned char pad2; unsigned short dma_xfers; // 18 unsigned char eeprom_wb[2]; // EEPROM latch/write buffer unsigned int frame_count; // 1c for movies and idle det }; struct PicoMS { unsigned char carthw[0x10]; unsigned char io_ctl; unsigned char nmi_state; unsigned char pad[0x4e]; }; // some assembly stuff depend on these, do not touch! struct Pico { unsigned char ram[0x10000]; // 0x00000 scratch ram union { // vram is byteswapped for easier reads when drawing unsigned short vram[0x8000]; // 0x10000 unsigned char vramb[0x4000]; // VRAM in SMS mode }; unsigned char zram[0x2000]; // 0x20000 Z80 ram unsigned char ioports[0x10]; // XXX: fix asm and mv unsigned char pad[0xf0]; // unused unsigned short cram[0x40]; // 0x22100 unsigned short vsram[0x40]; // 0x22180 unsigned char *rom; // 0x22200 unsigned int romsize; // 0x22204 (on 32bits) struct PicoMisc m; struct PicoVideo video; struct PicoMS ms; }; // sram #define SRR_MAPPED (1 << 0) #define SRR_READONLY (1 << 1) #define SRF_ENABLED (1 << 0) #define SRF_EEPROM (1 << 1) struct PicoSRAM { unsigned char *data; // actual data unsigned int start; // start address in 68k address space unsigned int end; unsigned char flags; // 0c: SRF_* unsigned char unused2; unsigned char changed; unsigned char eeprom_type; // eeprom type: 0: 7bit (24C01), 2: 2 addr words (X24C02+), 3: 3 addr words unsigned char unused3; unsigned char eeprom_bit_cl; // bit number for cl unsigned char eeprom_bit_in; // bit number for in unsigned char eeprom_bit_out; // bit number for out unsigned int size; }; // MCD #define PCM_MIXBUF_LEN ((12500000 / 384) / 50 + 1) struct mcd_pcm { unsigned char control; // reg7 unsigned char enabled; // reg8 unsigned char cur_ch; unsigned char bank; unsigned int update_cycles; struct pcm_chan // 08, size 0x10 { unsigned char regs[8]; unsigned int addr; // .08: played sample address int pad; } ch[8]; }; #define PCD_ST_S68K_RST 1 struct mcd_misc { unsigned short hint_vector; unsigned char busreq; // not s68k_regs[1] unsigned char s68k_pend_ints; unsigned int state_flags; // 04 unsigned int stopwatch_base_c; unsigned short m68k_poll_a; unsigned short m68k_poll_cnt; unsigned short s68k_poll_a; unsigned short s68k_poll_cnt; unsigned int s68k_poll_clk; unsigned char bcram_reg; // 18: battery-backed RAM cart register unsigned char dmna_ret_2m; unsigned char need_sync; unsigned char pad3; int pad4[9]; }; typedef struct { unsigned char bios[0x20000]; // 000000: 128K union { // 020000: 512K unsigned char prg_ram[0x80000]; unsigned char prg_ram_b[4][0x20000]; }; union { // 0a0000: 256K struct { unsigned char word_ram2M[0x40000]; unsigned char unused0[0x20000]; }; struct { unsigned char unused1[0x20000]; unsigned char word_ram1M[2][0x20000]; }; }; union { // 100000: 64K unsigned char pcm_ram[0x10000]; unsigned char pcm_ram_b[0x10][0x1000]; }; unsigned char s68k_regs[0x200]; // 110000: GA, not CPU regs unsigned char bram[0x2000]; // 110200: 8K struct mcd_misc m; // 112200: misc struct mcd_pcm pcm; // 112240: int pcm_mixbuf[PCM_MIXBUF_LEN * 2]; int pcm_mixpos; char pcm_mixbuf_dirty; char pcm_regs_dirty; } mcd_state; // XXX: this will need to be reworked for cart+cd support. #define Pico_mcd ((mcd_state *)Pico.rom) // 32X #define P32XS_FM (1<<15) #define P32XS_nCART (1<< 8) #define P32XS_REN (1<< 7) #define P32XS_nRES (1<< 1) #define P32XS_ADEN (1<< 0) #define P32XS2_ADEN (1<< 9) #define P32XS_FULL (1<< 7) // DREQ FIFO full #define P32XS_68S (1<< 2) #define P32XS_DMA (1<< 1) #define P32XS_RV (1<< 0) #define P32XV_nPAL (1<<15) // VDP #define P32XV_PRI (1<< 7) #define P32XV_Mx (3<< 0) // display mode mask #define P32XV_SFT (1<< 0) #define P32XV_VBLK (1<<15) #define P32XV_HBLK (1<<14) #define P32XV_PEN (1<<13) #define P32XV_nFEN (1<< 1) #define P32XV_FS (1<< 0) #define P32XP_RTP (1<<7) // PWM control #define P32XP_FULL (1<<15) // PWM pulse #define P32XP_EMPTY (1<<14) #define P32XF_68KCPOLL (1 << 0) #define P32XF_68KVPOLL (1 << 1) #define P32XF_Z80_32X_IO (1 << 7) // z80 does 32x io #define P32XI_VRES (1 << 14/2) // IRL/2 #define P32XI_VINT (1 << 12/2) #define P32XI_HINT (1 << 10/2) #define P32XI_CMD (1 << 8/2) #define P32XI_PWM (1 << 6/2) // peripheral reg access #define PREG8(regs,offs) ((unsigned char *)regs)[offs ^ 3] #define DMAC_FIFO_LEN (4*2) #define PWM_BUFF_LEN 1024 // in one channel samples #define SH2_DRCBLK_RAM_SHIFT 1 #define SH2_DRCBLK_DA_SHIFT 1 #define SH2_READ_SHIFT 25 #define SH2_WRITE_SHIFT 25 struct Pico32x { unsigned short regs[0x20]; unsigned short vdp_regs[0x10]; // 0x40 unsigned short sh2_regs[3]; // 0x60 unsigned char pending_fb; unsigned char dirty_pal; unsigned int emu_flags; unsigned char sh2irq_mask[2]; unsigned char sh2irqi[2]; // individual unsigned int sh2irqs; // common irqs unsigned short dmac_fifo[DMAC_FIFO_LEN]; unsigned int pad[4]; unsigned int dmac0_fifo_ptr; unsigned short vdp_fbcr_fake; unsigned short pad2; unsigned char comm_dirty_68k; unsigned char comm_dirty_sh2; unsigned char pwm_irq_cnt; unsigned char pad1; unsigned short pwm_p[2]; // pwm pos in fifo unsigned int pwm_cycle_p; // pwm play cursor (32x cycles) unsigned int reserved[6]; }; struct Pico32xMem { unsigned char sdram[0x40000]; #ifdef DRC_SH2 unsigned short drcblk_ram[1 << (18 - SH2_DRCBLK_RAM_SHIFT)]; #endif unsigned short dram[2][0x20000/2]; // AKA fb union { unsigned char m68k_rom[0x100]; unsigned char m68k_rom_bank[0x10000]; // M68K_BANK_SIZE }; #ifdef DRC_SH2 unsigned short drcblk_da[2][1 << (12 - SH2_DRCBLK_DA_SHIFT)]; #endif union { unsigned char b[0x800]; unsigned short w[0x800/2]; } sh2_rom_m; union { unsigned char b[0x400]; unsigned short w[0x400/2]; } sh2_rom_s; unsigned short pal[0x100]; unsigned short pal_native[0x100]; // converted to native (for renderer) signed short pwm[2*PWM_BUFF_LEN]; // PWM buffer for current frame signed short pwm_current[2]; // current converted samples unsigned short pwm_fifo[2][4]; // [0] - current raw, others - fifo entries }; // cart.c extern int PicoCartResize(int newsize); extern void Byteswap(void *dst, const void *src, int len); extern void (*PicoCartMemSetup)(void); // debug.c int CM_compareRun(int cyc, int is_sub); // draw.c PICO_INTERNAL void PicoFrameStart(void); void PicoDrawSync(int to, int blank_last_line); void BackFill(int reg7, int sh); void FinalizeLine555(int sh, int line); extern int (*PicoScanBegin)(unsigned int num); extern int (*PicoScanEnd)(unsigned int num); extern int DrawScanline; #define MAX_LINE_SPRITES 29 extern unsigned char HighLnSpr[240][3 + MAX_LINE_SPRITES]; extern void *DrawLineDestBase; extern int DrawLineDestIncrement; // draw2.c PICO_INTERNAL void PicoFrameFull(); // mode4.c void PicoFrameStartMode4(void); void PicoLineMode4(int line); void PicoDoHighPal555M4(void); void PicoDrawSetOutputMode4(pdso_t which); // memory.c PICO_INTERNAL void PicoMemSetup(void); unsigned int PicoRead8_io(unsigned int a); unsigned int PicoRead16_io(unsigned int a); void PicoWrite8_io(unsigned int a, unsigned int d); void PicoWrite16_io(unsigned int a, unsigned int d); // pico/memory.c PICO_INTERNAL void PicoMemSetupPico(void); // cd/cdc.c void cdc_init(void); void cdc_reset(void); void cdc_dma_update(void); int cdc_decoder_update(unsigned char header[4]); void cdc_reg_w(unsigned char data); unsigned char cdc_reg_r(void); unsigned short cdc_host_r(void); // cd/cdd.c void cdd_reset(void); void cdd_read_data(unsigned char *dst); void cdd_read_audio(short *buffer, unsigned int samples); void cdd_update(void); void cdd_process(void); // cd/cd_image.c int load_cd_image(const char *cd_img_name, int *type); // cd/gfx.c void gfx_init(void); void gfx_start(unsigned int base); void gfx_update(unsigned int cycles); // cd/gfx_dma.c void DmaSlowCell(unsigned int source, unsigned int a, int len, unsigned char inc); // cd/memory.c PICO_INTERNAL void PicoMemSetupCD(void); unsigned int PicoRead8_mcd_io(unsigned int a); unsigned int PicoRead16_mcd_io(unsigned int a); void PicoWrite8_mcd_io(unsigned int a, unsigned int d); void PicoWrite16_mcd_io(unsigned int a, unsigned int d); void pcd_state_loaded_mem(void); // pico.c extern struct Pico Pico; extern struct PicoSRAM SRam; extern int PicoPadInt[2]; extern int emustatus; extern int scanlines_total; extern void (*PicoResetHook)(void); extern void (*PicoLineHook)(void); PICO_INTERNAL int CheckDMA(void); PICO_INTERNAL void PicoDetectRegion(void); PICO_INTERNAL void PicoSyncZ80(unsigned int m68k_cycles_done); // cd/mcd.c #define PCDS_IEN1 (1<<1) #define PCDS_IEN2 (1<<2) #define PCDS_IEN3 (1<<3) #define PCDS_IEN4 (1<<4) #define PCDS_IEN5 (1<<5) #define PCDS_IEN6 (1<<6) PICO_INTERNAL void PicoInitMCD(void); PICO_INTERNAL void PicoExitMCD(void); PICO_INTERNAL void PicoPowerMCD(void); PICO_INTERNAL int PicoResetMCD(void); PICO_INTERNAL void PicoFrameMCD(void); enum pcd_event { PCD_EVENT_CDC, PCD_EVENT_TIMER3, PCD_EVENT_GFX, PCD_EVENT_DMA, PCD_EVENT_COUNT, }; extern unsigned int pcd_event_times[PCD_EVENT_COUNT]; void pcd_event_schedule(unsigned int now, enum pcd_event event, int after); void pcd_event_schedule_s68k(enum pcd_event event, int after); void pcd_prepare_frame(void); unsigned int pcd_cycles_m68k_to_s68k(unsigned int c); int pcd_sync_s68k(unsigned int m68k_target, int m68k_poll_sync); void pcd_run_cpus(int m68k_cycles); void pcd_soft_reset(void); void pcd_state_loaded(void); // cd/pcm.c void pcd_pcm_sync(unsigned int to); void pcd_pcm_update(int *buffer, int length, int stereo); void pcd_pcm_write(unsigned int a, unsigned int d); unsigned int pcd_pcm_read(unsigned int a); // pico/pico.c PICO_INTERNAL void PicoInitPico(void); PICO_INTERNAL void PicoReratePico(void); // pico/xpcm.c PICO_INTERNAL void PicoPicoPCMUpdate(short *buffer, int length, int stereo); PICO_INTERNAL void PicoPicoPCMReset(void); PICO_INTERNAL void PicoPicoPCMRerate(int xpcm_rate); // sek.c PICO_INTERNAL void SekInit(void); PICO_INTERNAL int SekReset(void); PICO_INTERNAL void SekState(int *data); PICO_INTERNAL void SekSetRealTAS(int use_real); PICO_INTERNAL void SekPackCpu(unsigned char *cpu, int is_sub); PICO_INTERNAL void SekUnpackCpu(const unsigned char *cpu, int is_sub); void SekStepM68k(void); void SekInitIdleDet(void); void SekFinishIdleDet(void); #if defined(CPU_CMP_R) || defined(CPU_CMP_W) void SekTrace(int is_s68k); #else #define SekTrace(x) #endif // cd/sek.c PICO_INTERNAL void SekInitS68k(void); PICO_INTERNAL int SekResetS68k(void); PICO_INTERNAL int SekInterruptS68k(int irq); void SekInterruptClearS68k(int irq); // sound/sound.c extern int PsndLen_exc_cnt; extern int PsndLen_exc_add; extern int timer_a_next_oflow, timer_a_step; // in z80 cycles extern int timer_b_next_oflow, timer_b_step; void cdda_start_play(int lba_base, int lba_offset, int lb_len); void ym2612_sync_timers(int z80_cycles, int mode_old, int mode_new); void ym2612_pack_state(void); void ym2612_unpack_state(void); #define TIMER_NO_OFLOW 0x70000000 // tA = 72 * (1024 - NA) / M #define TIMER_A_TICK_ZCYCLES 17203 // tB = 1152 * (256 - NA) / M #define TIMER_B_TICK_ZCYCLES 262800 // 275251 broken, see Dai Makaimura #define timers_cycle() \ if (timer_a_next_oflow > 0 && timer_a_next_oflow < TIMER_NO_OFLOW) \ timer_a_next_oflow -= Pico.m.pal ? 70938*256 : 59659*256; \ if (timer_b_next_oflow > 0 && timer_b_next_oflow < TIMER_NO_OFLOW) \ timer_b_next_oflow -= Pico.m.pal ? 70938*256 : 59659*256; \ ym2612_sync_timers(0, ym2612.OPN.ST.mode, ym2612.OPN.ST.mode); #define timers_reset() \ timer_a_next_oflow = timer_b_next_oflow = TIMER_NO_OFLOW; \ timer_a_step = TIMER_A_TICK_ZCYCLES * 1024; \ timer_b_step = TIMER_B_TICK_ZCYCLES * 256; // videoport.c extern int line_base_cycles; PICO_INTERNAL_ASM void PicoVideoWrite(unsigned int a,unsigned short d); PICO_INTERNAL_ASM unsigned int PicoVideoRead(unsigned int a); PICO_INTERNAL_ASM unsigned int PicoVideoRead8(unsigned int a); extern int (*PicoDmaHook)(unsigned int source, int len, unsigned short **srcp, unsigned short **limitp); // misc.c PICO_INTERNAL_ASM void memcpy16(unsigned short *dest, unsigned short *src, int count); PICO_INTERNAL_ASM void memcpy16bswap(unsigned short *dest, void *src, int count); PICO_INTERNAL_ASM void memcpy32(void *dest, const void *src, int count); // 32bit word count PICO_INTERNAL_ASM void memset32(void *dest, int c, int count); // eeprom.c void EEPROM_write8(unsigned int a, unsigned int d); void EEPROM_write16(unsigned int d); unsigned int EEPROM_read(void); // z80 functionality wrappers PICO_INTERNAL void z80_init(void); PICO_INTERNAL void z80_pack(void *data); PICO_INTERNAL int z80_unpack(const void *data); PICO_INTERNAL void z80_reset(void); PICO_INTERNAL void z80_exit(void); // cd/misc.c PICO_INTERNAL_ASM void wram_2M_to_1M(unsigned char *m); PICO_INTERNAL_ASM void wram_1M_to_2M(unsigned char *m); // sound/sound.c PICO_INTERNAL void PsndReset(void); PICO_INTERNAL void PsndDoDAC(int line_to); PICO_INTERNAL void PsndClear(void); PICO_INTERNAL void PsndGetSamples(int y); PICO_INTERNAL void PsndGetSamplesMS(void); extern int PsndDacLine; // sms.c #ifndef NO_SMS void PicoPowerMS(void); void PicoResetMS(void); void PicoMemSetupMS(void); void PicoStateLoadedMS(void); void PicoFrameMS(void); void PicoFrameDrawOnlyMS(void); #else #define PicoPowerMS() #define PicoResetMS() #define PicoMemSetupMS() #define PicoStateLoadedMS() #define PicoFrameMS() #define PicoFrameDrawOnlyMS() #endif // 32x/32x.c #ifndef NO_32X extern struct Pico32x Pico32x; enum p32x_event { P32X_EVENT_PWM, P32X_EVENT_FILLEND, P32X_EVENT_HINT, P32X_EVENT_COUNT, }; extern unsigned int p32x_event_times[P32X_EVENT_COUNT]; void Pico32xInit(void); void PicoPower32x(void); void PicoReset32x(void); void Pico32xStartup(void); void PicoFrame32x(void); void p32x_sync_sh2s(unsigned int m68k_target); void p32x_sync_other_sh2(SH2 *sh2, unsigned int m68k_target); void p32x_update_irls(SH2 *active_sh2, int m68k_cycles); void p32x_trigger_irq(SH2 *sh2, int m68k_cycles, unsigned int mask); void p32x_update_cmd_irq(SH2 *sh2, int m68k_cycles); void p32x_reset_sh2s(void); void p32x_event_schedule(unsigned int now, enum p32x_event event, int after); void p32x_event_schedule_sh2(SH2 *sh2, enum p32x_event event, int after); void p32x_schedule_hint(SH2 *sh2, int m68k_cycles); // 32x/memory.c struct Pico32xMem *Pico32xMem; unsigned int PicoRead8_32x(unsigned int a); unsigned int PicoRead16_32x(unsigned int a); void PicoWrite8_32x(unsigned int a, unsigned int d); void PicoWrite16_32x(unsigned int a, unsigned int d); void PicoMemSetup32x(void); void Pico32xSwapDRAM(int b); void p32x_m68k_poll_event(unsigned int flags); void p32x_sh2_poll_event(SH2 *sh2, unsigned int flags, unsigned int m68k_cycles); // 32x/draw.c void PicoDrawSetOutFormat32x(pdso_t which, int use_32x_line_mode); void FinalizeLine32xRGB555(int sh, int line); void PicoDraw32xLayer(int offs, int lines, int mdbg); void PicoDraw32xLayerMdOnly(int offs, int lines); extern int (*PicoScan32xBegin)(unsigned int num); extern int (*PicoScan32xEnd)(unsigned int num); enum { PDM32X_OFF, PDM32X_32X_ONLY, PDM32X_BOTH, }; extern int Pico32xDrawMode; // 32x/pwm.c unsigned int p32x_pwm_read16(unsigned int a, SH2 *sh2, unsigned int m68k_cycles); void p32x_pwm_write16(unsigned int a, unsigned int d, SH2 *sh2, unsigned int m68k_cycles); void p32x_pwm_update(int *buf32, int length, int stereo); void p32x_pwm_ctl_changed(void); void p32x_pwm_schedule(unsigned int m68k_now); void p32x_pwm_schedule_sh2(SH2 *sh2); void p32x_pwm_sync_to_sh2(SH2 *sh2); void p32x_pwm_irq_event(unsigned int m68k_now); void p32x_pwm_state_loaded(void); // 32x/sh2soc.c void p32x_dreq0_trigger(void); void p32x_dreq1_trigger(void); void p32x_timers_recalc(void); void p32x_timers_do(unsigned int m68k_slice); void sh2_peripheral_reset(SH2 *sh2); unsigned int sh2_peripheral_read8(unsigned int a, SH2 *sh2); unsigned int sh2_peripheral_read16(unsigned int a, SH2 *sh2); unsigned int sh2_peripheral_read32(unsigned int a, SH2 *sh2); void REGPARM(3) sh2_peripheral_write8(unsigned int a, unsigned int d, SH2 *sh2); void REGPARM(3) sh2_peripheral_write16(unsigned int a, unsigned int d, SH2 *sh2); void REGPARM(3) sh2_peripheral_write32(unsigned int a, unsigned int d, SH2 *sh2); #else #define Pico32xInit() #define PicoPower32x() #define PicoReset32x() #define PicoFrame32x() #define Pico32xStateLoaded() #define FinalizeLine32xRGB555 NULL #define p32x_pwm_update(...) #define p32x_timers_recalc() #endif /* avoid dependency on newer glibc */ static __inline int isspace_(int c) { return (0x09 <= c && c <= 0x0d) || c == ' '; } #ifndef ARRAY_SIZE #define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0])) #endif // emulation event logging #ifndef EL_LOGMASK # ifdef __x86_64__ // HACK # define EL_LOGMASK (EL_STATUS|EL_IDLE|EL_ANOMALY) # else # define EL_LOGMASK (EL_STATUS) # endif #endif #define EL_HVCNT 0x00000001 /* hv counter reads */ #define EL_SR 0x00000002 /* SR reads */ #define EL_INTS 0x00000004 /* ints and acks */ #define EL_YMTIMER 0x00000008 /* ym2612 timer stuff */ #define EL_INTSW 0x00000010 /* log irq switching on/off */ #define EL_ASVDP 0x00000020 /* VDP accesses during active scan */ #define EL_VDPDMA 0x00000040 /* VDP DMA transfers and their timing */ #define EL_BUSREQ 0x00000080 /* z80 busreq r/w or reset w */ #define EL_Z80BNK 0x00000100 /* z80 i/o through bank area */ #define EL_SRAMIO 0x00000200 /* sram i/o */ #define EL_EEPROM 0x00000400 /* eeprom debug */ #define EL_UIO 0x00000800 /* unmapped i/o */ #define EL_IO 0x00001000 /* all i/o */ #define EL_CDPOLL 0x00002000 /* MCD: log poll detection */ #define EL_SVP 0x00004000 /* SVP stuff */ #define EL_PICOHW 0x00008000 /* Pico stuff */ #define EL_IDLE 0x00010000 /* idle loop det. */ #define EL_CDREGS 0x00020000 /* MCD: register access */ #define EL_CDREG3 0x00040000 /* MCD: register 3 only */ #define EL_32X 0x00080000 #define EL_PWM 0x00100000 /* 32X PWM stuff (LOTS of output) */ #define EL_32XP 0x00200000 /* 32X peripherals */ #define EL_CD 0x00400000 /* MCD */ #define EL_STATUS 0x40000000 /* status messages */ #define EL_ANOMALY 0x80000000 /* some unexpected conditions (during emulation) */ #if EL_LOGMASK #define elprintf(w,f,...) \ do { \ if ((w) & EL_LOGMASK) \ lprintf("%05i:%03i: " f "\n",Pico.m.frame_count,Pico.m.scanline,##__VA_ARGS__); \ } while (0) #elif defined(_MSC_VER) #define elprintf #else #define elprintf(w,f,...) #endif // profiling #ifdef PPROF #include #else #define pprof_init() #define pprof_finish() #define pprof_start(x) #define pprof_end(...) #define pprof_end_sub(...) #endif #ifdef EVT_LOG enum evt { EVT_FRAME_START, EVT_NEXT_LINE, EVT_RUN_START, EVT_RUN_END, EVT_POLL_START, EVT_POLL_END, EVT_CNT }; enum evt_cpu { EVT_M68K, EVT_S68K, EVT_MSH2, EVT_SSH2, EVT_CPU_CNT }; void pevt_log(unsigned int cycles, enum evt_cpu c, enum evt e); void pevt_dump(void); #define pevt_log_m68k(e) \ pevt_log(SekCyclesDone(), EVT_M68K, e) #define pevt_log_m68k_o(e) \ pevt_log(SekCyclesDone(), EVT_M68K, e) #define pevt_log_sh2(sh2, e) \ pevt_log(sh2_cycles_done_m68k(sh2), EVT_MSH2 + (sh2)->is_slave, e) #define pevt_log_sh2_o(sh2, e) \ pevt_log((sh2)->m68krcycles_done, EVT_MSH2 + (sh2)->is_slave, e) #else #define pevt_log(c, e) #define pevt_log_m68k(e) #define pevt_log_m68k_o(e) #define pevt_log_sh2(sh2, e) #define pevt_log_sh2_o(sh2, e) #define pevt_dump() #endif // misc #ifdef _MSC_VER #define cdprintf #else #define cdprintf(x...) #endif #if defined(__GNUC__) && defined(__i386__) #define REGPARM(x) __attribute__((regparm(x))) #else #define REGPARM(x) #endif #ifdef __GNUC__ #define NOINLINE __attribute__((noinline)) #else #define NOINLINE #endif #ifdef __cplusplus } // End of extern "C" #endif #endif // PICO_INTERNAL_INCLUDED