#define PICO_INTERNAL_ASM\r
#endif\r
\r
-// to select core, define EMU_C68K, EMU_M68K or EMU_A68K in your makefile or project\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
// ----------------------- 68000 CPU -----------------------\r
#ifdef EMU_C68K\r
#include "../cpu/Cyclone/Cyclone.h"\r
-extern struct Cyclone PicoCpu, PicoCpuS68k;\r
-#define SekCyclesLeftNoMCD PicoCpu.cycles // cycles left for this run\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) : PicoCpuS68k.cycles)\r
-#define SekSetCyclesLeftNoMCD(c) PicoCpu.cycles=c\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 (PicoCpu.pc-PicoCpu.membase)\r
-#define SekPcS68k (PicoCpuS68k.pc-PicoCpuS68k.membase)\r
-#define SekSetStop(x) { PicoCpu.state_flags&=~1; if (x) { PicoCpu.state_flags|=1; PicoCpu.cycles=0; } }\r
-#define SekSetStopS68k(x) { PicoCpuS68k.state_flags&=~1; if (x) { PicoCpuS68k.state_flags|=1; PicoCpuS68k.cycles=0; } }\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
#endif\r
\r
-#ifdef EMU_A68K\r
-void __cdecl M68000_RUN();\r
-// The format of the data in a68k.asm (at the _M68000_regs location)\r
-struct A68KContext\r
-{\r
- unsigned int d[8],a[8];\r
- unsigned int isp,srh,ccr,xc,pc,irq,sr;\r
- int (*IrqCallback) (int nIrq);\r
- unsigned int ppc;\r
- void *pResetCallback;\r
- unsigned int sfc,dfc,usp,vbr;\r
- unsigned int AsmBank,CpuVersion;\r
-};\r
-struct A68KContext M68000_regs;\r
-extern int m68k_ICount;\r
-#define SekCyclesLeft m68k_ICount\r
-#define SekSetCyclesLeft(c) m68k_ICount=c\r
-#define SekPc M68000_regs.pc\r
+#ifdef EMU_F68K\r
+#include "../cpu/fame/fame.h"\r
+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 m68k_get_pc(&PicoCpuFM68k)\r
+#define SekPcS68k m68k_get_pc(&PicoCpuFS68k)\r
+#define SekSetStop(x) { \\r
+ PicoCpuFM68k.execinfo &= ~M68K_HALTED; \\r
+ if (x) { PicoCpuFM68k.execinfo |= M68K_HALTED; PicoCpuFM68k.io_cycle_counter = 0; } \\r
+}\r
+#define SekSetStopS68k(x) { \\r
+ PicoCpuFS68k.execinfo &= ~M68K_HALTED; \\r
+ if (x) { PicoCpuFS68k.execinfo |= M68K_HALTED; PicoCpuFS68k.io_cycle_counter = 0; } \\r
+}\r
#endif\r
\r
#ifdef EMU_M68K\r
#include "../cpu/musashi/m68kcpu.h"\r
-extern m68ki_cpu_core PicoM68kCPU; // MD's CPU\r
-extern m68ki_cpu_core PicoS68kCPU; // Mega CD's CPU\r
+extern m68ki_cpu_core PicoCpuMM68k, PicoCpuMS68k;\r
#ifndef SekCyclesLeft\r
-#define SekCyclesLeftNoMCD PicoM68kCPU.cyc_remaining_cycles\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) : PicoS68kCPU.cyc_remaining_cycles)\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(&PicoM68kCPU, M68K_REG_PC)\r
-#define SekPcS68k m68k_get_reg(&PicoS68kCPU, M68K_REG_PC)\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); PicoM68kCPU.stopped=STOP_LEVEL_STOP; } \\r
- else PicoM68kCPU.stopped=0; \\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); PicoS68kCPU.stopped=STOP_LEVEL_STOP; } \\r
- else PicoS68kCPU.stopped=0; \\r
+ if(x) { SET_CYCLES(0); PicoCpuMS68k.stopped=STOP_LEVEL_STOP; } \\r
+ else PicoCpuMS68k.stopped=0; \\r
}\r
#endif\r
#endif\r
#define SekEndRun(c)\r
#endif\r
\r
-extern int PicoMCD;\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
\r
// Memory.c\r
PICO_INTERNAL int PicoInitPc(unsigned int pc);\r
-PICO_INTERNAL_ASM unsigned int CPU_CALL PicoRead32(unsigned int a);\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 int SekInit(void);\r
PICO_INTERNAL int SekReset(void);\r
PICO_INTERNAL int SekInterrupt(int irq);\r
-PICO_INTERNAL void SekState(unsigned char *data);\r
+PICO_INTERNAL void SekState(int *data);\r
PICO_INTERNAL void SekSetRealTAS(int use_real);\r
\r
// cd/Sek.c\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 */\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_IO 0x1000 /* all i/o (TODO) */\r
\r
#define EL_STATUS 0x4000 /* status messages */\r
#define EL_ANOMALY 0x8000 /* some unexpected conditions */\r