Cyclone poll detection problem fixed

[picodrive.git] / Pico / PicoInt.h

// Pico Library - Internal Header File\r
\r
// (c) Copyright 2004 Dave, All rights reserved.\r
// (c) Copyright 2006,2007 Grazvydas "notaz" Ignotas, all rights reserved.\r
// Free for non-commercial use.\r
\r
// For commercial use, separate licencing terms must be obtained.\r
\r
#ifndef PICO_INTERNAL_INCLUDED\r
#define PICO_INTERNAL_INCLUDED\r
\r
#include <stdio.h>\r
#include <stdlib.h>\r
#include <string.h>\r
#include "Pico.h"\r
\r
//\r
#define USE_POLL_DETECT\r
\r
#ifndef PICO_INTERNAL\r
#define PICO_INTERNAL\r
#endif\r
#ifndef PICO_INTERNAL_ASM\r
#define PICO_INTERNAL_ASM\r
#endif\r
\r
// to select core, define EMU_C68K, EMU_M68K or EMU_F68K in your makefile or project\r
\r
#ifdef __cplusplus\r
extern "C" {\r
#endif\r
\r
\r
// ----------------------- 68000 CPU -----------------------\r
#ifdef EMU_C68K\r
#include "../cpu/Cyclone/Cyclone.h"\r
extern struct Cyclone PicoCpuCM68k, PicoCpuCS68k;\r
#define SekCyclesLeftNoMCD PicoCpuCM68k.cycles // cycles left for this run\r
#define SekCyclesLeft \\r
        (((PicoMCD&1) && (PicoOpt & 0x2000)) ? (SekCycleAim-SekCycleCnt) : SekCyclesLeftNoMCD)\r
#define SekCyclesLeftS68k \\r
        ((PicoOpt & 0x2000) ? (SekCycleAimS68k-SekCycleCntS68k) : PicoCpuCS68k.cycles)\r
#define SekSetCyclesLeftNoMCD(c) PicoCpuCM68k.cycles=c\r
#define SekSetCyclesLeft(c) { \\r
        if ((PicoMCD&1) && (PicoOpt & 0x2000)) SekCycleCnt=SekCycleAim-(c); else SekSetCyclesLeftNoMCD(c); \\r
}\r
#define SekPc (PicoCpuCM68k.pc-PicoCpuCM68k.membase)\r
#define SekPcS68k (PicoCpuCS68k.pc-PicoCpuCS68k.membase)\r
#define SekSetStop(x) { PicoCpuCM68k.state_flags&=~1; if (x) { PicoCpuCM68k.state_flags|=1; PicoCpuCM68k.cycles=0; } }\r
#define SekSetStopS68k(x) { PicoCpuCS68k.state_flags&=~1; if (x) { PicoCpuCS68k.state_flags|=1; PicoCpuCS68k.cycles=0; } }\r
#define SekIsStoppedS68k() (PicoCpuCS68k.state_flags&1)\r
#define SekShouldInterrupt (PicoCpuCM68k.irq > (PicoCpuCM68k.srh&7))\r
\r
#define SekInterrupt(i) PicoCpuCM68k.irq=i\r
\r
#ifdef EMU_M68K\r
#define EMU_CORE_DEBUG\r
#endif\r
#endif\r
\r
#ifdef EMU_F68K\r
#include "../cpu/fame/fame.h"\r
extern M68K_CONTEXT PicoCpuFM68k, PicoCpuFS68k;\r
#define SekCyclesLeftNoMCD PicoCpuFM68k.io_cycle_counter\r
#define SekCyclesLeft \\r
        (((PicoMCD&1) && (PicoOpt & 0x2000)) ? (SekCycleAim-SekCycleCnt) : SekCyclesLeftNoMCD)\r
#define SekCyclesLeftS68k \\r
        ((PicoOpt & 0x2000) ? (SekCycleAimS68k-SekCycleCntS68k) : PicoCpuFS68k.io_cycle_counter)\r
#define SekSetCyclesLeftNoMCD(c) PicoCpuFM68k.io_cycle_counter=c\r
#define SekSetCyclesLeft(c) { \\r
        if ((PicoMCD&1) && (PicoOpt & 0x2000)) SekCycleCnt=SekCycleAim-(c); else SekSetCyclesLeftNoMCD(c); \\r
}\r
#define SekPc     fm68k_get_pc(&PicoCpuFM68k)\r
#define SekPcS68k fm68k_get_pc(&PicoCpuFS68k)\r
#define SekSetStop(x) { \\r
        PicoCpuFM68k.execinfo &= ~FM68K_HALTED; \\r
        if (x) { PicoCpuFM68k.execinfo |= FM68K_HALTED; PicoCpuFM68k.io_cycle_counter = 0; } \\r
}\r
#define SekSetStopS68k(x) { \\r
        PicoCpuFS68k.execinfo &= ~FM68K_HALTED; \\r
        if (x) { PicoCpuFS68k.execinfo |= FM68K_HALTED; PicoCpuFS68k.io_cycle_counter = 0; } \\r
}\r
#define SekIsStoppedS68k() (PicoCpuFS68k.execinfo&FM68K_HALTED)\r
#define SekShouldInterrupt fm68k_would_interrupt()\r
\r
#define SekInterrupt(irq) PicoCpuFM68k.interrupts[0]=irq\r
\r
#ifdef EMU_M68K\r
#define EMU_CORE_DEBUG\r
#endif\r
#endif\r
\r
#ifdef EMU_M68K\r
#include "../cpu/musashi/m68kcpu.h"\r
extern m68ki_cpu_core PicoCpuMM68k, PicoCpuMS68k;\r
#ifndef SekCyclesLeft\r
#define SekCyclesLeftNoMCD PicoCpuMM68k.cyc_remaining_cycles\r
#define SekCyclesLeft \\r
        (((PicoMCD&1) && (PicoOpt & 0x2000)) ? (SekCycleAim-SekCycleCnt) : SekCyclesLeftNoMCD)\r
#define SekCyclesLeftS68k \\r
        ((PicoOpt & 0x2000) ? (SekCycleAimS68k-SekCycleCntS68k) : PicoCpuMS68k.cyc_remaining_cycles)\r
#define SekSetCyclesLeftNoMCD(c) SET_CYCLES(c)\r
#define SekSetCyclesLeft(c) { \\r
        if ((PicoMCD&1) && (PicoOpt & 0x2000)) SekCycleCnt=SekCycleAim-(c); else SET_CYCLES(c); \\r
}\r
#define SekPc m68k_get_reg(&PicoCpuMM68k, M68K_REG_PC)\r
#define SekPcS68k m68k_get_reg(&PicoCpuMS68k, M68K_REG_PC)\r
#define SekSetStop(x) { \\r
        if(x) { SET_CYCLES(0); PicoCpuMM68k.stopped=STOP_LEVEL_STOP; } \\r
        else PicoCpuMM68k.stopped=0; \\r
}\r
#define SekSetStopS68k(x) { \\r
        if(x) { SET_CYCLES(0); PicoCpuMS68k.stopped=STOP_LEVEL_STOP; } \\r
        else PicoCpuMS68k.stopped=0; \\r
}\r
#define SekIsStoppedS68k() (PicoCpuMS68k.stopped==STOP_LEVEL_STOP)\r
#define SekShouldInterrupt (CPU_INT_LEVEL > FLAG_INT_MASK)\r
\r
#define SekInterrupt(irq) { \\r
        void *oldcontext = m68ki_cpu_p; \\r
        m68k_set_context(&PicoCpuMM68k); \\r
        m68k_set_irq(irq); \\r
        m68k_set_context(oldcontext); \\r
}\r
\r
#endif\r
#endif\r
\r
extern int SekCycleCnt; // cycles done in this frame\r
extern int SekCycleAim; // cycle aim\r
extern unsigned int SekCycleCntT; // total cycle counter, updated once per frame\r
\r
#define SekCyclesReset() { \\r
        SekCycleCntT+=SekCycleAim; \\r
        SekCycleCnt-=SekCycleAim; \\r
        SekCycleAim=0; \\r
}\r
#define SekCyclesBurn(c)  SekCycleCnt+=c\r
#define SekCyclesDone()  (SekCycleAim-SekCyclesLeft)    // nuber of cycles done in this frame (can be checked anywhere)\r
#define SekCyclesDoneT() (SekCycleCntT+SekCyclesDone()) // total nuber of cycles done for this rom\r
\r
#define SekEndRun(after) { \\r
        SekCycleCnt -= SekCyclesLeft - after; \\r
        if(SekCycleCnt < 0) SekCycleCnt = 0; \\r
        SekSetCyclesLeft(after); \\r
}\r
\r
extern int SekCycleCntS68k;\r
extern int SekCycleAimS68k;\r
\r
#define SekCyclesResetS68k() { \\r
        SekCycleCntS68k-=SekCycleAimS68k; \\r
        SekCycleAimS68k=0; \\r
}\r
#define SekCyclesDoneS68k()  (SekCycleAimS68k-SekCyclesLeftS68k)\r
\r
#ifdef EMU_CORE_DEBUG\r
#undef SekSetCyclesLeftNoMCD\r
#undef SekSetCyclesLeft\r
#undef SekCyclesBurn\r
#undef SekEndRun\r
#define SekSetCyclesLeftNoMCD(c)\r
#define SekSetCyclesLeft(c)\r
#define SekCyclesBurn(c) c\r
#define SekEndRun(c)\r
#endif\r
\r
// ----------------------- Z80 CPU -----------------------\r
\r
#if defined(_USE_MZ80)\r
#include "../../cpu/mz80/mz80.h"\r
\r
#define z80_run(cycles)    mz80_run(cycles)\r
#define z80_run_nr(cycles) mz80_run(cycles)\r
#define z80_int()          mz80int(0)\r
#define z80_resetCycles()  mz80GetElapsedTicks(1)\r
\r
#elif defined(_USE_DRZ80)\r
#include "../../cpu/DrZ80/drz80.h"\r
\r
extern struct DrZ80 drZ80;\r
\r
#define z80_run(cycles)    ((cycles) - DrZ80Run(&drZ80, cycles))\r
#define z80_run_nr(cycles) DrZ80Run(&drZ80, cycles)\r
#define z80_int() { \\r
  drZ80.z80irqvector = 0xFF; /* default IRQ vector RST opcode */ \\r
  drZ80.Z80_IRQ = 1; \\r
}\r
#define z80_resetCycles()\r
\r
#elif defined(_USE_CZ80)\r
#include "../../cpu/cz80/cz80.h"\r
\r
#define z80_run(cycles)    Cz80_Exec(&CZ80, cycles)\r
#define z80_run_nr(cycles) Cz80_Exec(&CZ80, cycles)\r
#define z80_int()          Cz80_Set_IRQ(&CZ80, 0, HOLD_LINE)\r
#define z80_resetCycles()\r
\r
#else\r
\r
#define z80_run(cycles)    (cycles)\r
#define z80_run_nr(cycles)\r
#define z80_int()\r
#define z80_resetCycles()\r
\r
#endif\r
\r
// ---------------------------------------------------------\r
\r
extern int PicoMCD;\r
\r
// main oscillator clock which controls timing\r
#define OSC_NTSC 53693100\r
// seems to be accurate, see scans from http://www.hot.ee/tmeeco/\r
#define OSC_PAL  53203424\r
\r
struct PicoVideo\r
{\r
  unsigned char reg[0x20];\r
  unsigned int command;       // 32-bit Command\r
  unsigned char pending;      // 1 if waiting for second half of 32-bit command\r
  unsigned char type;         // Command type (v/c/vsram read/write)\r
  unsigned short addr;        // Read/Write address\r
  int status;                 // Status bits\r
  unsigned char pending_ints; // pending interrupts: ??VH????\r
  signed char lwrite_cnt;     // VDP write count during active display line\r
  unsigned char pad[0x12];\r
};\r
\r
struct PicoMisc\r
{\r
  unsigned char rotate;\r
  unsigned char z80Run;\r
  unsigned char padTHPhase[2]; // 02 phase of gamepad TH switches\r
  short scanline;              // 04 0 to 261||311; -1 in fast mode\r
  char dirtyPal;               // 06 Is the palette dirty (1 - change @ this frame, 2 - some time before)\r
  unsigned char hardware;      // 07 Hardware value for country\r
  unsigned char pal;           // 08 1=PAL 0=NTSC\r
  unsigned char sram_reg;      // SRAM mode register. bit0: allow read? bit1: deny write? bit2: EEPROM? bit4: detected? (header or by access)\r
  unsigned short z80_bank68k;  // 0a\r
  unsigned short z80_lastaddr; // this is for Z80 faking\r
  unsigned char  z80_fakeval;\r
  unsigned char  pad0;\r
  unsigned char  padDelay[2];  // 10 gamepad phase time outs, so we count a delay\r
  unsigned short eeprom_addr;  // EEPROM address register\r
  unsigned char  eeprom_cycle; // EEPROM SRAM cycle number\r
  unsigned char  eeprom_slave; // EEPROM slave word for X24C02 and better SRAMs\r
  unsigned char prot_bytes[2]; // simple protection faking\r
  unsigned short dma_xfers;\r
  unsigned char pad[2];\r
  unsigned int  frame_count; // mainly for movies\r
};\r
\r
// some assembly stuff depend on these, do not touch!\r
struct Pico\r
{\r
  unsigned char ram[0x10000];  // 0x00000 scratch ram\r
  unsigned short vram[0x8000]; // 0x10000\r
  unsigned char zram[0x2000];  // 0x20000 Z80 ram\r
  unsigned char ioports[0x10];\r
  unsigned int pad[0x3c];      // unused\r
  unsigned short cram[0x40];   // 0x22100\r
  unsigned short vsram[0x40];  // 0x22180\r
\r
  unsigned char *rom;          // 0x22200\r
  unsigned int romsize;        // 0x22204\r
\r
  struct PicoMisc m;\r
  struct PicoVideo video;\r
};\r
\r
// sram\r
struct PicoSRAM\r
{\r
  unsigned char *data;          // actual data\r
  unsigned int start;           // start address in 68k address space\r
  unsigned int end;\r
  unsigned char unused1;        // 0c: unused\r
  unsigned char unused2;\r
  unsigned char changed;\r
  unsigned char eeprom_type;    // eeprom type: 0: 7bit (24C01), 2: device with 2 addr words (X24C02+), 3: dev with 3 addr words\r
  unsigned char eeprom_abits;   // eeprom access must be odd addr for: bit0 ~ cl, bit1 ~ out\r
  unsigned char eeprom_bit_cl;  // bit number for cl\r
  unsigned char eeprom_bit_in;  // bit number for in\r
  unsigned char eeprom_bit_out; // bit number for out\r
};\r
\r
// MCD\r
#include "cd/cd_sys.h"\r
#include "cd/LC89510.h"\r
#include "cd/gfx_cd.h"\r
\r
struct mcd_pcm\r
{\r
        unsigned char control; // reg7\r
        unsigned char enabled; // reg8\r
        unsigned char cur_ch;\r
        unsigned char bank;\r
        int pad1;\r
\r
        struct pcm_chan                 // 08, size 0x10\r
        {\r
                unsigned char regs[8];\r
                unsigned int  addr;     // .08: played sample address\r
                int pad;\r
        } ch[8];\r
};\r
\r
struct mcd_misc\r
{\r
        unsigned short hint_vector;\r
        unsigned char  busreq;\r
        unsigned char  s68k_pend_ints;\r
        unsigned int   state_flags;     // 04: emu state: reset_pending, dmna_pending\r
        unsigned int   counter75hz;\r
        unsigned short audio_offset;    // 0c: for savestates: play pointer offset (0-1023)\r
        unsigned char  audio_track;     // playing audio track # (zero based)\r
        char           pad1;\r
        int            timer_int3;      // 10\r
        unsigned int   timer_stopwatch;\r
        unsigned char  bcram_reg;       // 18: battery-backed RAM cart register\r
        unsigned char  pad2;\r
        unsigned short pad3;\r
        int pad[9];\r
};\r
\r
typedef struct\r
{\r
        unsigned char bios[0x20000];                    // 000000: 128K\r
        union {                                         // 020000: 512K\r
                unsigned char prg_ram[0x80000];\r
                unsigned char prg_ram_b[4][0x20000];\r
        };\r
        union {                                         // 0a0000: 256K\r
                struct {\r
                        unsigned char word_ram2M[0x40000];\r
                        unsigned char unused[0x20000];\r
                };\r
                struct {\r
                        unsigned char unused[0x20000];\r
                        unsigned char word_ram1M[2][0x20000];\r
                };\r
        };\r
        union {                                         // 100000: 64K\r
                unsigned char pcm_ram[0x10000];\r
                unsigned char pcm_ram_b[0x10][0x1000];\r
        };\r
        unsigned char s68k_regs[0x200];                 // 110000: GA, not CPU regs\r
        unsigned char bram[0x2000];                     // 110200: 8K\r
        struct mcd_misc m;                              // 112200: misc\r
        struct mcd_pcm pcm;                             // 112240:\r
        _scd_toc TOC;                                   // not to be saved\r
        CDD  cdd;\r
        CDC  cdc;\r
        _scd scd;\r
        Rot_Comp rot_comp;\r
} mcd_state;\r
\r
#define Pico_mcd ((mcd_state *)Pico.rom)\r
\r
// Area.c\r
PICO_INTERNAL int PicoAreaPackCpu(unsigned char *cpu, int is_sub);\r
PICO_INTERNAL int PicoAreaUnpackCpu(unsigned char *cpu, int is_sub);\r
\r
// cd/Area.c\r
PICO_INTERNAL int PicoCdSaveState(void *file);\r
PICO_INTERNAL int PicoCdLoadState(void *file);\r
\r
// Cart.c\r
PICO_INTERNAL void PicoCartDetect(void);\r
\r
// Debug.c\r
int CM_compareRun(int cyc, int is_sub);\r
\r
// Draw.c\r
PICO_INTERNAL int PicoLine(int scan);\r
PICO_INTERNAL void PicoFrameStart(void);\r
\r
// Draw2.c\r
PICO_INTERNAL void PicoFrameFull();\r
\r
// Memory.c\r
PICO_INTERNAL int PicoInitPc(unsigned int pc);\r
PICO_INTERNAL_ASM unsigned int PicoRead32(unsigned int a);\r
PICO_INTERNAL void PicoMemSetup(void);\r
PICO_INTERNAL_ASM void PicoMemReset(void);\r
PICO_INTERNAL int PadRead(int i);\r
PICO_INTERNAL unsigned char z80_read(unsigned short a);\r
#ifndef _USE_CZ80\r
PICO_INTERNAL_ASM void z80_write(unsigned char data, unsigned short a);\r
PICO_INTERNAL void z80_write16(unsigned short data, unsigned short a);\r
PICO_INTERNAL unsigned short z80_read16(unsigned short a);\r
#else\r
PICO_INTERNAL_ASM void z80_write(unsigned int a, unsigned char data);\r
#endif\r
\r
// cd/Memory.c\r
PICO_INTERNAL void PicoMemSetupCD(void);\r
PICO_INTERNAL_ASM void PicoMemResetCD(int r3);\r
PICO_INTERNAL_ASM void PicoMemResetCDdecode(int r3);\r
\r
// Pico.c\r
extern struct Pico Pico;\r
extern struct PicoSRAM SRam;\r
extern int emustatus;\r
extern int z80startCycle, z80stopCycle; // in 68k cycles\r
PICO_INTERNAL int CheckDMA(void);\r
\r
// cd/Pico.c\r
PICO_INTERNAL int  PicoInitMCD(void);\r
PICO_INTERNAL void PicoExitMCD(void);\r
PICO_INTERNAL int PicoResetMCD(int hard);\r
PICO_INTERNAL int PicoFrameMCD(void);\r
\r
// Sek.c\r
PICO_INTERNAL int SekInit(void);\r
PICO_INTERNAL int SekReset(void);\r
PICO_INTERNAL void SekState(int *data);\r
PICO_INTERNAL void SekSetRealTAS(int use_real);\r
\r
// cd/Sek.c\r
PICO_INTERNAL int SekInitS68k(void);\r
PICO_INTERNAL int SekResetS68k(void);\r
PICO_INTERNAL int SekInterruptS68k(int irq);\r
\r
// sound/sound.c\r
extern int PsndLen_exc_cnt;\r
extern int PsndLen_exc_add;\r
\r
// VideoPort.c\r
PICO_INTERNAL_ASM void PicoVideoWrite(unsigned int a,unsigned short d);\r
PICO_INTERNAL_ASM unsigned int PicoVideoRead(unsigned int a);\r
\r
// Misc.c\r
PICO_INTERNAL void SRAMWriteEEPROM(unsigned int d);\r
PICO_INTERNAL void SRAMUpdPending(unsigned int a, unsigned int d);\r
PICO_INTERNAL_ASM unsigned int SRAMReadEEPROM(void);\r
PICO_INTERNAL_ASM void memcpy16(unsigned short *dest, unsigned short *src, int count);\r
PICO_INTERNAL_ASM void memcpy16bswap(unsigned short *dest, void *src, int count);\r
PICO_INTERNAL_ASM void memcpy32(int *dest, int *src, int count); // 32bit word count\r
PICO_INTERNAL_ASM void memset32(int *dest, int c, int count);\r
\r
// cd/Misc.c\r
PICO_INTERNAL_ASM void wram_2M_to_1M(unsigned char *m);\r
PICO_INTERNAL_ASM void wram_1M_to_2M(unsigned char *m);\r
\r
// cd/buffering.c\r
PICO_INTERNAL void PicoCDBufferRead(void *dest, int lba);\r
\r
// sound/sound.c\r
PICO_INTERNAL void PsndReset(void);\r
PICO_INTERNAL void Psnd_timers_and_dac(int raster);\r
PICO_INTERNAL int  PsndRender(int offset, int length);\r
PICO_INTERNAL void PsndClear(void);\r
// z80 functionality wrappers\r
PICO_INTERNAL void z80_init(void);\r
PICO_INTERNAL void z80_pack(unsigned char *data);\r
PICO_INTERNAL void z80_unpack(unsigned char *data);\r
PICO_INTERNAL void z80_reset(void);\r
PICO_INTERNAL void z80_exit(void);\r
\r
\r
#ifdef __cplusplus\r
} // End of extern "C"\r
#endif\r
\r
// emulation event logging\r
#ifndef EL_LOGMASK\r
#define EL_LOGMASK 0\r
#endif\r
\r
#define EL_HVCNT   0x0001 /* hv counter reads */\r
#define EL_SR      0x0002 /* SR reads */\r
#define EL_INTS    0x0004 /* ints and acks */\r
#define EL_YM2612R 0x0008 /* 68k ym2612 reads */\r
#define EL_INTSW   0x0010 /* log irq switching on/off */\r
#define EL_ASVDP   0x0020 /* VDP accesses during active scan */\r
#define EL_VDPDMA  0x0040 /* VDP DMA transfers and their timing */\r
#define EL_BUSREQ  0x0080 /* z80 busreq r/w or reset w */\r
#define EL_Z80BNK  0x0100 /* z80 i/o through bank area */\r
#define EL_SRAMIO  0x0200 /* sram i/o */\r
#define EL_EEPROM  0x0400 /* eeprom debug */\r
#define EL_UIO     0x0800 /* unmapped i/o */\r
#define EL_IO      0x1000 /* all i/o */\r
#define EL_CDPOLL  0x2000 /* MCD: log poll detection */\r
\r
#define EL_STATUS  0x4000 /* status messages */\r
#define EL_ANOMALY 0x8000 /* some unexpected conditions (during emulation) */\r
\r
#if EL_LOGMASK\r
extern void lprintf(const char *fmt, ...);\r
#define elprintf(w,f,...) \\r
{ \\r
        if ((w) & EL_LOGMASK) \\r
                lprintf("%05i:%03i: " f "\n",Pico.m.frame_count,Pico.m.scanline,##__VA_ARGS__); \\r
}\r
#else\r
#define elprintf(w,f,...)\r
#endif\r
\r
#endif // PICO_INTERNAL_INCLUDED\r
\r