/* Autor: Oscar Orallo Pelaez */\r
/* Fecha de comienzo: 03-10-2006 */\r
/* Ultima actualizacion: 08-10-2006 */\r
-/* Based on the excellent FAMEC emulator by Stèphane Dallongueville */\r
+/* Based on the excellent C68K emulator by Stèphane Dallongueville */\r
/****************************************************************************/\r
\r
#include <stdio.h>\r
#include <stdlib.h>\r
#include <string.h>\r
\r
+#ifdef __GNUC__\r
+#pragma GCC diagnostic ignored "-Wunused-variable"\r
+#endif\r
+\r
#include "fame.h"\r
\r
\r
// Options //\r
#define FAMEC_ROLL_INLINE\r
#define FAMEC_EMULATE_TRACE\r
-#define FAMEC_IRQ_CYCLES\r
#define FAMEC_CHECK_BRANCHES\r
-// #define FAMEC_USE_DATA_BANKS\r
-// #define FAMEC_EXTRA_INLINE\r
+#define FAMEC_EXTRA_INLINE\r
// #define FAMEC_DEBUG\r
-#define FAMEC_NO_GOTOS\r
+// #define FAMEC_NO_GOTOS\r
#define FAMEC_ADR_BITS 24\r
// #define FAMEC_FETCHBITS 8\r
#define FAMEC_DATABITS 8\r
+#define FAMEC_32BIT_PC\r
\r
#define USE_CYCLONE_TIMING\r
#define USE_CYCLONE_TIMING_DIV\r
+#define PICODRIVE_HACK\r
// Options //\r
\r
-\r
+#ifndef FAMEC_NO_GOTOS\r
+// computed gotos is a GNU extension\r
+#ifndef __GNUC__\r
+#define FAMEC_NO_GOTOS\r
+#endif\r
+// as of 3.3, clang takes over 3h to compile this in computed goto mode..\r
+#ifdef __clang__\r
+#define FAMEC_NO_GOTOS\r
+#endif\r
+#endif\r
+ \r
#undef INLINE\r
-#ifndef INLINE\r
+#ifdef _MSC_VER\r
+#define INLINE\r
+#else\r
#define INLINE __inline__\r
#endif\r
\r
#ifndef FAMEC_EXTRA_INLINE\r
#define FAMEC_EXTRA_INLINE\r
#else\r
+#undef FAMEC_EXTRA_INLINE\r
#define FAMEC_EXTRA_INLINE INLINE\r
#endif\r
\r
#undef s32\r
#endif\r
\r
+#ifdef uptr\r
+#undef uptr\r
+#endif\r
+\r
#define u8 unsigned char\r
#define s8 signed char\r
#define u16 unsigned short\r
#define s16 signed short\r
#define u32 unsigned int\r
#define s32 signed int\r
+#define uptr unsigned long\r
\r
/*\r
typedef unsigned char u8;\r
typedef signed int s32;\r
*/\r
\r
-#ifdef FAMEC_EMULATE_TRACE\r
-static u32 flag_T;\r
-#endif\r
-static u32 flag_C;\r
-static u32 flag_V;\r
-static u32 flag_NotZ;\r
-static u32 flag_N;\r
-static u32 flag_X; // 16 bytes aligned\r
-static u32 flag_S;\r
-static u32 flag_I;\r
-\r
#ifndef M68K_OK\r
#define M68K_OK 0\r
#endif\r
goto famec_Exec;\r
#endif\r
\r
+#define RET0() \\r
+ m68kcontext.io_cycle_counter = -6; \\r
+ goto famec_End;\r
+\r
#else\r
\r
#define NEXT \\r
m68kcontext.io_cycle_counter -= (A); \\r
return;\r
\r
+#define RET0() \\r
+ m68kcontext.io_cycle_counter = -6; \\r
+ return;\r
+\r
#endif\r
\r
#define M68K_PPL (m68kcontext.sr >> 8) & 7\r
\r
#define GET_PC \\r
- (u32)PC - BasePC;\r
+ (u32)((uptr)PC - BasePC)\r
+\r
+\r
+#ifdef FAMEC_CHECK_BRANCHES\r
+#define FORCE_ALIGNMENT(pc)\r
+#else\r
+#define FORCE_ALIGNMENT(pc) pc&=~1;\r
+#endif\r
+\r
+#ifndef FAMEC_32BIT_PC\r
+\r
+#define SET_PC(A) \\r
+{ \\r
+ u32 pc = A; \\r
+ FORCE_ALIGNMENT(pc); \\r
+ BasePC = m68kcontext.Fetch[(pc >> M68K_FETCHSFT) & M68K_FETCHMASK]; \\r
+ PC = (u16*)((pc & M68K_ADR_MASK) + BasePC); \\r
+}\r
+\r
+#else\r
\r
#define SET_PC(A) \\r
- BasePC = g_m68kcontext->Fetch[((A) >> M68K_FETCHSFT) & M68K_FETCHMASK]; \\r
- /* BasePC -= (A) & 0xFF000000; */ \\r
- PC = (u16*)(((A) & M68K_ADR_MASK) + BasePC);\r
+{ \\r
+ u32 pc = A; \\r
+ FORCE_ALIGNMENT(pc); \\r
+ BasePC = m68kcontext.Fetch[(pc >> M68K_FETCHSFT) & M68K_FETCHMASK]; \\r
+ BasePC -= pc & 0xFF000000; \\r
+ PC = (u16*)(pc + BasePC); \\r
+}\r
\r
-#define SET_PC_BASE(P,B,A) \\r
- (B) = g_m68kcontext->Fetch[((A) >> M68K_FETCHSFT) & M68K_FETCHMASK]; \\r
- /* (B) -= (A) & 0xFF000000; */ \\r
- (P) = (u16*)(((A) & M68K_ADR_MASK) + (B));\r
+#endif\r
\r
\r
#define PRE_IO \\r
if (interrupt_chk__()) \\r
{ \\r
cycles_needed=m68kcontext.io_cycle_counter-(CLK); \\r
- m68kcontext.io_cycle_counter= (CLK); \\r
+ m68kcontext.io_cycle_counter=(CLK); \\r
}\r
\r
\r
#define CHECK_BRANCH_EXCEPTION(_PC_) \\r
if ((_PC_)&1) \\r
{ \\r
- u32 pr_PC=GET_PC; \\r
- m68kcontext.execinfo |= M68K_EMULATE_GROUP_0; \\r
- execute_exception_group_0(M68K_ADDRESS_ERROR_EX, 0, pr_PC, 0x12 ); \\r
+ u32 new_PC, pr_PC=GET_PC; \\r
+ m68kcontext.execinfo |= FM68K_EMULATE_GROUP_0; \\r
+ new_PC = execute_exception_group_0(M68K_ADDRESS_ERROR_EX, 0, pr_PC, 0x12 ); \\r
+ SET_PC(new_PC); \\r
CHECK_BRANCH_EXCEPTION_GOTO_END \\r
}\r
#else\r
#endif\r
\r
\r
-static int init_jump_table(void);\r
-\r
-/* Custom function handler */\r
-typedef void (*icust_handler_func)(u32 vector);\r
-\r
// global variable\r
///////////////////\r
\r
M68K_CONTEXT *g_m68kcontext;\r
#define m68kcontext (*g_m68kcontext)\r
\r
-/* static s32 io_cycle_counter; */\r
-static s32 cycles_needed=0;\r
-static u16 *PC;\r
-static u32 BasePC;\r
-// static u32 Fetch[M68K_FETCHBANK];\r
+#ifdef FAMEC_NO_GOTOS\r
+#define Opcode m68kcontext.Opcode\r
+#define cycles_needed m68kcontext.cycles_needed\r
+#define PC m68kcontext.PC\r
+#define BasePC m68kcontext.BasePC\r
+#define flag_C m68kcontext.flag_C\r
+#define flag_V m68kcontext.flag_V\r
+#define flag_NotZ m68kcontext.flag_NotZ\r
+#define flag_N m68kcontext.flag_N\r
+#define flag_X m68kcontext.flag_X\r
+#endif\r
+\r
+#define flag_T m68kcontext.flag_T\r
+#define flag_S m68kcontext.flag_S\r
+#define flag_I m68kcontext.flag_I\r
+\r
+static u32 initialised = 0;\r
+\r
+#ifdef PICODRIVE_HACK\r
+extern M68K_CONTEXT PicoCpuFM68k, PicoCpuFS68k;\r
+#endif\r
\r
/* Custom function handler */\r
typedef void (*opcode_func)(void);\r
\r
static opcode_func JumpTable[0x10000];\r
\r
-\r
-static u32 initialised = 0;\r
-\r
// exception cycle table (taken from musashi core)\r
static const s32 exception_cycle_table[256] =\r
{\r
/* Debe ser llamado para inicializar la tabla de saltos de instruccion */\r
/* No recibe parametros y no devuelve nada */\r
/***************************************************************************/\r
-void m68k_init(void)\r
+void fm68k_init(void)\r
{\r
#ifdef FAMEC_DEBUG\r
puts("Initializing FAME...");\r
#endif\r
\r
if (!initialised)\r
- m68k_emulate(0);\r
+ fm68k_emulate(0, 0);\r
\r
#ifdef FAMEC_DEBUG\r
puts("FAME initialized.");\r
/* M68K_NO_SUP_ADDR_SPACE (2): No se puede resetear porque no hay mapa */\r
/* de memoria supervisor de extraccion de opcodes */\r
/******************************************************************************/\r
-int m68k_reset(void)\r
+int fm68k_reset(void)\r
{\r
if (!initialised)\r
- m68k_emulate(0);\r
+ fm68k_emulate(0, 0);\r
\r
// Si la CPU esta en ejecucion, salir con M68K_RUNNING\r
if (m68kcontext.execinfo & M68K_RUNNING)\r
return M68K_RUNNING;\r
\r
// Resetear registros\r
- memset(&m68kcontext.dreg[0], 0, 16*4);\r
+ //memset(&m68kcontext.dreg[0], 0, 16*4);\r
\r
// Resetear interrupts, execinfo y ASP\r
m68kcontext.interrupts[0] = 0;\r
ASP = 0;\r
\r
// Fijar registro de estado\r
- m68kcontext.sr = 0x2700;\r
+ m68kcontext.sr = (m68kcontext.sr & 0xff) | 0x2700;\r
\r
// Obtener puntero de pila inicial y PC\r
AREG(7) = m68kcontext.read_long(0);\r
/* No recibe parametros */\r
/* Retorna 68k PC */\r
/****************************************************************************/\r
-u32 m68k_get_pc(M68K_CONTEXT *context)\r
+u32 fm68k_get_pc(M68K_CONTEXT *context)\r
{\r
- return (context->execinfo & M68K_RUNNING)?(u32)PC-BasePC:context->pc;\r
-}\r
-\r
-\r
-/***************************************************************************/\r
-/* m68k_get_register(register) */\r
-/* Parametro: Registro a obtener valor (indice) */\r
-/* Retorno: Valor del registro requerido */\r
-/* Observacion: En caso de que el indice no sea correcto */\r
-/* la funcion devolvera -1 */\r
-/***************************************************************************/\r
-u32 m68k_get_register(M68K_CONTEXT *context, m68k_register reg)\r
-{\r
- M68K_CONTEXT *oldcontext = g_m68kcontext;\r
- s32 ret;\r
-\r
- g_m68kcontext = context;\r
-\r
- switch (reg)\r
- {\r
- case M68K_REG_D0:\r
- case M68K_REG_D1:\r
- case M68K_REG_D2:\r
- case M68K_REG_D3:\r
- case M68K_REG_D4:\r
- case M68K_REG_D5:\r
- case M68K_REG_D6:\r
- case M68K_REG_D7:\r
- ret = DREG(reg - M68K_REG_D0);\r
- break;\r
-\r
- case M68K_REG_A0:\r
- case M68K_REG_A1:\r
- case M68K_REG_A2:\r
- case M68K_REG_A3:\r
- case M68K_REG_A4:\r
- case M68K_REG_A5:\r
- case M68K_REG_A6:\r
- case M68K_REG_A7:\r
- ret = AREG(reg - M68K_REG_A0);\r
- break;\r
-\r
- case M68K_REG_ASP:\r
- ret = ASP;\r
- break;\r
-\r
- case M68K_REG_PC:\r
- ret = m68k_get_pc(context);\r
- break;\r
-\r
- case M68K_REG_SR:\r
- ret = m68kcontext.sr;\r
- break;\r
-\r
- default:\r
- ret = M68K_INV_REG;\r
- break;\r
- }\r
-\r
- g_m68kcontext = oldcontext;\r
- return ret;\r
-}\r
-\r
-/***********************************************************************/\r
-/* m68k_set_register(register,value) */\r
-/* Parametros: Registro (indice) y valor a asignar */\r
-/* Retorno: Exito de la operacion */\r
-/* 0 La operacion se ha realizado satisfactoriamente */\r
-/* 1 El indice del registro no es valido (fuera de limites) */\r
-/***********************************************************************/\r
-u32 m68k_set_register(M68K_CONTEXT *context, m68k_register reg, u32 value)\r
-{\r
- M68K_CONTEXT *oldcontext = g_m68kcontext;\r
- s32 ret = M68K_OK;\r
-\r
- g_m68kcontext = context;\r
-\r
- switch (reg)\r
- {\r
- case M68K_REG_D0:\r
- case M68K_REG_D1:\r
- case M68K_REG_D2:\r
- case M68K_REG_D3:\r
- case M68K_REG_D4:\r
- case M68K_REG_D5:\r
- case M68K_REG_D6:\r
- case M68K_REG_D7:\r
- DREG(reg - M68K_REG_D0) = value;\r
- break;\r
-\r
- case M68K_REG_A0:\r
- case M68K_REG_A1:\r
- case M68K_REG_A2:\r
- case M68K_REG_A3:\r
- case M68K_REG_A4:\r
- case M68K_REG_A5:\r
- case M68K_REG_A6:\r
- case M68K_REG_A7:\r
- AREG(reg - M68K_REG_A0) = value;\r
- break;\r
-\r
- case M68K_REG_ASP:\r
- ASP = value;\r
- break;\r
-\r
- case M68K_REG_PC:\r
- if (m68kcontext.execinfo & M68K_RUNNING)\r
- {\r
- SET_PC(value & M68K_ADR_MASK);\r
- }\r
- else\r
- {\r
- m68kcontext.pc = value;\r
- }\r
- break;\r
-\r
- case M68K_REG_SR:\r
- m68kcontext.sr = value & 0xFFFF;\r
- break;\r
-\r
- default:\r
- ret = M68K_INV_REG;\r
- break;\r
- }\r
-\r
- g_m68kcontext = oldcontext;\r
- return ret;\r
+#ifdef FAMEC_NO_GOTOS\r
+ return (context->execinfo & M68K_RUNNING)?(uptr)PC-BasePC:context->pc;\r
+#else\r
+ return context->pc; // approximate PC in this mode\r
+#endif\r
}\r
\r
\r
return 0;\r
}\r
\r
+int fm68k_would_interrupt(void)\r
+{\r
+ return interrupt_chk__();\r
+}\r
\r
-static FAMEC_EXTRA_INLINE void execute_exception(s32 vect)\r
+static FAMEC_EXTRA_INLINE u32 execute_exception(s32 vect, u32 oldPC, u32 oldSR)\r
{\r
- extern u32 flag_S;\r
-#ifndef FAMEC_IRQ_CYCLES\r
- if ((vect<24)||(vect>31))\r
-#endif\r
+ u32 newPC;\r
+ //u32 oldSR = GET_SR;\r
+\r
m68kcontext.io_cycle_counter -= exception_cycle_table[vect];\r
- {\r
- u32 newPC;\r
- u32 oldPC;\r
- u32 oldSR = GET_SR;\r
\r
- PRE_IO\r
+ PRE_IO\r
\r
- READ_LONG_F(vect * 4, newPC)\r
+ READ_LONG_F(vect * 4, newPC)\r
\r
- /* swap A7 and USP */\r
- if (!flag_S)\r
- {\r
- u32 tmpSP;\r
+ /* swap A7 and USP */\r
+ if (!flag_S)\r
+ {\r
+ u32 tmpSP;\r
\r
- tmpSP = ASP;\r
- ASP = AREG(7);\r
- AREG(7) = tmpSP;\r
- }\r
+ tmpSP = ASP;\r
+ ASP = AREG(7);\r
+ AREG(7) = tmpSP;\r
+ }\r
\r
- oldPC = (u32)(PC) - BasePC;\r
- PUSH_32_F(oldPC)\r
- PUSH_16_F(oldSR)\r
+ //oldPC = GET_PC;\r
+ PUSH_32_F(oldPC)\r
+ PUSH_16_F(oldSR)\r
\r
- /* adjust SR */\r
- flag_S = M68K_SR_S;\r
+ /* adjust SR */\r
+ flag_S = M68K_SR_S;\r
\r
- newPC&=M68K_ADR_MASK;\r
+#ifndef FAMEC_32BIT_PC\r
+ newPC&=M68K_ADR_MASK\r
+#endif\r
+#ifdef FAMEC_CHECK_BRANCHES\r
+ newPC&=~1; // don't crash on games with bad vector tables\r
+#endif\r
\r
- SET_PC(newPC)\r
+ // SET_PC(newPC)\r
\r
- POST_IO\r
- }\r
+ POST_IO\r
+\r
+ return newPC;\r
}\r
\r
-static FAMEC_EXTRA_INLINE void execute_exception_group_0(s32 vect, u16 inst_reg, s32 addr, u16 spec_info)\r
+static FAMEC_EXTRA_INLINE u32 execute_exception_group_0(s32 vect, s32 addr, u16 spec_info, u32 oldSR)\r
{\r
- execute_exception(vect);\r
+ u32 newPC;\r
+ u16 inst_reg = 0;\r
+ newPC = execute_exception(vect, addr, oldSR);\r
//if (!(m68kcontext.icust_handler && m68kcontext.icust_handler[vect]))\r
{\r
PUSH_16_F(inst_reg);\r
PUSH_32_F(addr);\r
PUSH_16_F(spec_info);\r
}\r
+ return newPC;\r
}\r
\r
\r
-static void setup_jumptable(void);\r
-static u32 Opcode;\r
-\r
#ifdef FAMEC_NO_GOTOS\r
\r
#define OPCODE(N_OP) static void OP_##N_OP(void)\r
// main exec function\r
//////////////////////\r
\r
-int m68k_emulate(s32 cycles)\r
+int fm68k_emulate(s32 cycles, int idle_mode)\r
{\r
+#ifndef FAMEC_NO_GOTOS\r
+ u32 Opcode;\r
+ s32 cycles_needed;\r
+ u16 *PC;\r
+ uptr BasePC;\r
+ u32 flag_C;\r
+ u32 flag_V;\r
+ u32 flag_NotZ;\r
+ u32 flag_N;\r
+ u32 flag_X;\r
+#endif\r
+\r
if (!initialised)\r
{\r
-#ifdef FAMEC_NO_GOTOS\r
- init_jump_table();\r
- return 0;\r
-#else\r
goto init_jump_table;\r
-#endif\r
}\r
\r
- /* Comprobar si la CPU esta detenida debido a un doble error de bus */\r
- if (m68kcontext.execinfo & M68K_FAULTED) return -1;\r
+#ifdef PICODRIVE_HACK\r
+ if (idle_mode == 1) goto idle_install;\r
+ else if (idle_mode == 2) goto idle_remove;\r
+#endif\r
+\r
+ // won't emulate double fault\r
+ // if (m68kcontext.execinfo & M68K_FAULTED) return -1;\r
+\r
+ // Cache PPL\r
+ flag_I = M68K_PPL;\r
\r
- if (m68kcontext.execinfo & M68K_HALTED)\r
+ if (m68kcontext.execinfo & FM68K_HALTED)\r
{\r
if (interrupt_chk__() <= 0)\r
{\r
return cycles;\r
}\r
- m68kcontext.execinfo &= ~M68K_HALTED;\r
+ m68kcontext.execinfo &= ~FM68K_HALTED;\r
}\r
\r
#ifdef FAMEC_DEBUG\r
// Cache SR\r
SET_SR(m68kcontext.sr)\r
\r
- // Cache PPL\r
- flag_I = M68K_PPL;\r
-\r
// Fijar PC\r
SET_PC(m68kcontext.pc)\r
\r
cycles_needed = 0;\r
\r
#ifdef FAMEC_EMULATE_TRACE\r
- if (!(m68kcontext.execinfo & M68K_EMULATE_TRACE))\r
+ if (!(m68kcontext.execinfo & FM68K_EMULATE_TRACE))\r
#endif\r
{\r
s32 line=interrupt_chk__();\r
else\r
m68kcontext.interrupts[0] = 0;\r
\r
- execute_exception(line + 0x18);\r
+ SET_PC(execute_exception(line + 0x18, GET_PC, GET_SR));\r
flag_I = (u32)line;\r
+ if (m68kcontext.io_cycle_counter <= 0) goto famec_End;\r
}\r
#ifdef FAMEC_EMULATE_TRACE\r
else\r
if (flag_T)\r
{\r
- m68kcontext.execinfo |= M68K_EMULATE_TRACE;\r
- cycles_needed= m68kcontext.io_cycle_counter;\r
+ m68kcontext.execinfo |= FM68K_EMULATE_TRACE;\r
+ cycles_needed = m68kcontext.io_cycle_counter;\r
m68kcontext.io_cycle_counter=0;\r
}\r
#endif\r
}\r
\r
\r
-#ifndef FAMEC_NO_GOTOS\r
+//#ifndef FAMEC_NO_GOTOS\r
famec_Exec:\r
-#endif\r
+//#endif\r
\r
#ifdef FAMEC_DEBUG\r
printf("Antes de NEXT... PC = %p\n", PC);\r
#endif\r
\r
#ifdef FAMEC_EMULATE_TRACE\r
- if (m68kcontext.execinfo & M68K_EMULATE_TRACE)\r
+ if (m68kcontext.execinfo & FM68K_EMULATE_TRACE)\r
{\r
- m68kcontext.io_cycle_counter= cycles_needed;\r
- m68kcontext.execinfo &= ~M68K_EMULATE_TRACE;\r
- m68kcontext.execinfo |= M68K_DO_TRACE;\r
- execute_exception(M68K_TRACE_EX);\r
+ m68kcontext.io_cycle_counter = cycles_needed;\r
+ cycles_needed = 0;\r
+ m68kcontext.execinfo &= ~FM68K_EMULATE_TRACE;\r
+ m68kcontext.execinfo |= FM68K_DO_TRACE;\r
+ SET_PC(execute_exception(M68K_TRACE_EX, GET_PC, GET_SR));\r
flag_T=0;\r
if (m68kcontext.io_cycle_counter > 0)\r
{\r
- NEXT\r
+ //NEXT\r
+ goto famec_Exec;\r
}\r
}\r
else\r
#endif\r
- if (cycles_needed>0)\r
+ if (cycles_needed != 0)\r
{\r
- s32 line=interrupt_chk__();\r
- m68kcontext.io_cycle_counter= cycles_needed;\r
+ u32 line;\r
+ m68kcontext.io_cycle_counter = cycles_needed;\r
+ cycles_needed = 0;\r
+ if (m68kcontext.io_cycle_counter <= 0) goto famec_End;\r
+ line=interrupt_chk__();\r
if (line>0)\r
{\r
if (m68kcontext.iack_handler != NULL)\r
else\r
m68kcontext.interrupts[0] = 0;\r
\r
- execute_exception(line + 0x18);\r
+ SET_PC(execute_exception(line + 0x18, GET_PC, GET_SR));\r
flag_I = (u32)line;\r
}\r
#ifdef FAMEC_EMULATE_TRACE\r
- else if (!(flag_T))\r
+ if (!(flag_T))\r
#endif\r
if (m68kcontext.io_cycle_counter > 0)\r
{\r
- NEXT\r
+ //NEXT\r
+ goto famec_Exec;\r
}\r
}\r
\r
+famec_End:\r
m68kcontext.sr = GET_SR;\r
m68kcontext.pc = GET_PC;\r
\r
\r
return cycles - m68kcontext.io_cycle_counter;\r
\r
-#ifdef FAMEC_NO_GOTOS\r
-}\r
-\r
-static int init_jump_table(void)\r
-{{\r
-#else\r
init_jump_table:\r
{\r
-#endif\r
u32 i, j;\r
\r
for(i = 0x0000; i <= 0xFFFF; i += 0x0001)\r
JumpTable[0x1EC0 + i] = CAST_OP(0x1EC0);\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
JumpTable[0x1F00 + i] = CAST_OP(0x1F00);\r
+#if 0\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0x1008 + i + j] = CAST_OP(0x1008);\r
JumpTable[0x1EC8 + i] = CAST_OP(0x1EC8);\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
JumpTable[0x1F08 + i] = CAST_OP(0x1F08);\r
+#endif\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0x1010 + i + j] = CAST_OP(0x1010);\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0x9000 + i + j] = CAST_OP(0x9000);\r
+#if 0\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0x9008 + i + j] = CAST_OP(0x9008);\r
+#endif\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0x9010 + i + j] = CAST_OP(0x9010);\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0xB000 + i + j] = CAST_OP(0xB000);\r
+#if 0\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0xB008 + i + j] = CAST_OP(0xB008);\r
+#endif\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0xB010 + i + j] = CAST_OP(0xB010);\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0xD000 + i + j] = CAST_OP(0xD000);\r
+#if 0\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0xD008 + i + j] = CAST_OP(0xD008);\r
+#endif\r
for(i = 0x0000; i <= 0x0007; i += 0x0001)\r
for(j = 0x0000; j <= 0x0E00; j += 0x0200)\r
JumpTable[0xD010 + i + j] = CAST_OP(0xD010);\r
\r
initialised = 1;\r
return 0;\r
-}}\r
+}\r
+\r
+#ifdef PICODRIVE_HACK\r
+\r
+#define INSTALL_IDLE(fake_op_base,real_op,detector,idle_handler,normal_handler) \\r
+ JumpTable[fake_op_base] = CAST_OP(idle_handler); \\r
+ JumpTable[fake_op_base|0x0200] = CAST_OP(normal_handler); \\r
+ JumpTable[real_op] = CAST_OP(detector)\r
+\r
+#define UNDO_IDLE(fake_op_base,real_op,normal_handler) \\r
+ JumpTable[fake_op_base] = JumpTable[fake_op_base|0x0200] = CAST_OP(0x4AFC); \\r
+ JumpTable[real_op] = CAST_OP(normal_handler)\r
+\r
+idle_install:\r
+ // printf("install..\n");\r
+ INSTALL_IDLE(0x71fa, 0x66fa, idle_detector_bcc8, 0x6601_idle, 0x6601);\r
+ INSTALL_IDLE(0x71f8, 0x66f8, idle_detector_bcc8, 0x6601_idle, 0x6601);\r
+ INSTALL_IDLE(0x71f6, 0x66f6, idle_detector_bcc8, 0x6601_idle, 0x6601);\r
+ INSTALL_IDLE(0x71f2, 0x66f2, idle_detector_bcc8, 0x6601_idle, 0x6601);\r
+ INSTALL_IDLE(0x75fa, 0x67fa, idle_detector_bcc8, 0x6701_idle, 0x6701);\r
+ INSTALL_IDLE(0x75f8, 0x67f8, idle_detector_bcc8, 0x6701_idle, 0x6701);\r
+ INSTALL_IDLE(0x75f6, 0x67f6, idle_detector_bcc8, 0x6701_idle, 0x6701);\r
+ INSTALL_IDLE(0x75f2, 0x67f2, idle_detector_bcc8, 0x6701_idle, 0x6701);\r
+ INSTALL_IDLE(0x7dfe, 0x60fe, idle_detector_bcc8, 0x6001_idle, 0x6001);\r
+ INSTALL_IDLE(0x7dfc, 0x60fc, idle_detector_bcc8, 0x6001_idle, 0x6001);\r
+ return 0;\r
+\r
+idle_remove:\r
+ // printf("remove..\n");\r
+ UNDO_IDLE(0x71fa, 0x66fa, 0x6601);\r
+ UNDO_IDLE(0x71f8, 0x66f8, 0x6601);\r
+ UNDO_IDLE(0x71f6, 0x66f6, 0x6601);\r
+ UNDO_IDLE(0x71f2, 0x66f2, 0x6601);\r
+ UNDO_IDLE(0x75fa, 0x67fa, 0x6701);\r
+ UNDO_IDLE(0x75f8, 0x67f8, 0x6701);\r
+ UNDO_IDLE(0x75f6, 0x67f6, 0x6701);\r
+ UNDO_IDLE(0x75f2, 0x67f2, 0x6701);\r
+ UNDO_IDLE(0x7dfe, 0x60fe, 0x6001);\r
+ UNDO_IDLE(0x7dfc, 0x60fc, 0x6001);\r
+ return 0;\r
+\r
+#endif\r
+}\r
\r
+void *get_jumptab(void) { return JumpTable; }\r
\r