/****************************************************************************** * * CZ80 (Z80 CPU emulator) version 0.9 * Compiled with Dev-C++ * Copyright 2004-2005 St駱hane Dallongeville * * (Modified by NJ) * *****************************************************************************/ #include #include #include #include "cz80.h" #if PICODRIVE_HACKS #undef EMU_M68K #include #endif #ifndef ALIGN_DATA #ifdef _MSC_VER #define ALIGN_DATA #define inline #undef CZ80_USE_JUMPTABLE #define CZ80_USE_JUMPTABLE 0 #else #define ALIGN_DATA __attribute__((aligned(4))) #endif #endif #define CF 0x01 #define NF 0x02 #define PF 0x04 #define VF PF #define XF 0x08 #define HF 0x10 #define YF 0x20 #define ZF 0x40 #define SF 0x80 /****************************************************************************** マクロ ******************************************************************************/ #include "cz80macro.h" /****************************************************************************** グローバル構造体 ******************************************************************************/ cz80_struc ALIGN_DATA CZ80; /****************************************************************************** ローカル変数 ******************************************************************************/ static UINT8 ALIGN_DATA cz80_bad_address[1 << CZ80_FETCH_SFT]; static UINT8 ALIGN_DATA SZ[256]; static UINT8 ALIGN_DATA SZP[256]; static UINT8 ALIGN_DATA SZ_BIT[256]; static UINT8 ALIGN_DATA SZHV_inc[256]; static UINT8 ALIGN_DATA SZHV_dec[256]; #if CZ80_BIG_FLAGS_ARRAY static UINT8 ALIGN_DATA SZHVC_add[2*256*256]; static UINT8 ALIGN_DATA SZHVC_sub[2*256*256]; #endif /****************************************************************************** ローカル関数 ******************************************************************************/ /*-------------------------------------------------------- 割り込みコールバック --------------------------------------------------------*/ static INT32 Cz80_Interrupt_Callback(INT32 line) { return 0xff; } /****************************************************************************** CZ80インタフェース関数 ******************************************************************************/ /*-------------------------------------------------------- CPU初期化 --------------------------------------------------------*/ void Cz80_Init(cz80_struc *CPU) { UINT32 i, j, p; #if CZ80_BIG_FLAGS_ARRAY int oldval, newval, val; UINT8 *padd, *padc, *psub, *psbc; #endif memset(CPU, 0, sizeof(cz80_struc)); memset(cz80_bad_address, 0xff, sizeof(cz80_bad_address)); for (i = 0; i < CZ80_FETCH_BANK; i++) { CPU->Fetch[i] = (UINT32)cz80_bad_address; #if CZ80_ENCRYPTED_ROM CPU->OPFetch[i] = 0; #endif } // flags tables initialisation for (i = 0; i < 256; i++) { SZ[i] = i & (SF | YF | XF); if (!i) SZ[i] |= ZF; SZ_BIT[i] = i & (SF | YF | XF); if (!i) SZ_BIT[i] |= ZF | PF; for (j = 0, p = 0; j < 8; j++) if (i & (1 << j)) p++; SZP[i] = SZ[i]; if (!(p & 1)) SZP[i] |= PF; SZHV_inc[i] = SZ[i]; if(i == 0x80) SZHV_inc[i] |= VF; if((i & 0x0f) == 0x00) SZHV_inc[i] |= HF; SZHV_dec[i] = SZ[i] | NF; if (i == 0x7f) SZHV_dec[i] |= VF; if ((i & 0x0f) == 0x0f) SZHV_dec[i] |= HF; } #if CZ80_BIG_FLAGS_ARRAY padd = &SZHVC_add[ 0*256]; padc = &SZHVC_add[256*256]; psub = &SZHVC_sub[ 0*256]; psbc = &SZHVC_sub[256*256]; for (oldval = 0; oldval < 256; oldval++) { for (newval = 0; newval < 256; newval++) { /* add or adc w/o carry set */ val = newval - oldval; *padd = (newval) ? ((newval & 0x80) ? SF : 0) : ZF; *padd |= (newval & (YF | XF)); /* undocumented flag bits 5+3 */ if ((newval & 0x0f) < (oldval & 0x0f)) *padd |= HF; if (newval < oldval ) *padd |= CF; if ((val ^ oldval ^ 0x80) & (val ^ newval) & 0x80) *padd |= VF; padd++; /* adc with carry set */ val = newval - oldval - 1; *padc = (newval) ? ((newval & 0x80) ? SF : 0) : ZF; *padc |= (newval & (YF | XF)); /* undocumented flag bits 5+3 */ if ((newval & 0x0f) <= (oldval & 0x0f)) *padc |= HF; if (newval <= oldval) *padc |= CF; if ((val ^ oldval ^ 0x80) & (val ^ newval) & 0x80) *padc |= VF; padc++; /* cp, sub or sbc w/o carry set */ val = oldval - newval; *psub = NF | ((newval) ? ((newval & 0x80) ? SF : 0) : ZF); *psub |= (newval & (YF | XF)); /* undocumented flag bits 5+3 */ if ((newval & 0x0f) > (oldval & 0x0f)) *psub |= HF; if (newval > oldval) *psub |= CF; if ((val^oldval) & (oldval^newval) & 0x80) *psub |= VF; psub++; /* sbc with carry set */ val = oldval - newval - 1; *psbc = NF | ((newval) ? ((newval & 0x80) ? SF : 0) : ZF); *psbc |= (newval & (YF | XF)); /* undocumented flag bits 5+3 */ if ((newval & 0x0f) >= (oldval & 0x0f)) *psbc |= HF; if (newval >= oldval) *psbc |= CF; if ((val ^ oldval) & (oldval^newval) & 0x80) *psbc |= VF; psbc++; } } #endif CPU->pzR8[0] = &zB; CPU->pzR8[1] = &zC; CPU->pzR8[2] = &zD; CPU->pzR8[3] = &zE; CPU->pzR8[4] = &zH; CPU->pzR8[5] = &zL; CPU->pzR8[6] = &zF; // 処理の都合上、Aと入れ替え CPU->pzR8[7] = &zA; // 処理の都合上、Fと入れ替え CPU->pzR16[0] = pzBC; CPU->pzR16[1] = pzDE; CPU->pzR16[2] = pzHL; CPU->pzR16[3] = pzAF; zIX = zIY = 0xffff; zF = ZF; CPU->Interrupt_Callback = Cz80_Interrupt_Callback; } /*-------------------------------------------------------- CPUリセット --------------------------------------------------------*/ void Cz80_Reset(cz80_struc *CPU) { memset(CPU, 0, (INT32)&CPU->BasePC - (INT32)CPU); Cz80_Set_Reg(CPU, CZ80_PC, 0); } /* */ #if PICODRIVE_HACKS static inline unsigned char picodrive_read(unsigned short a) { return (a < 0x4000) ? Pico.zram[a&0x1fff] : z80_read(a); } #endif /*-------------------------------------------------------- CPU実行 --------------------------------------------------------*/ INT32 Cz80_Exec(cz80_struc *CPU, INT32 cycles) { #if CZ80_USE_JUMPTABLE #include "cz80jmp.c" #endif UINT32 PC; #if CZ80_ENCRYPTED_ROM INT32 OPBase; #endif UINT32 Opcode; UINT32 adr = 0; UINT32 res; UINT32 val; int afterEI = 0; union16 *data; PC = CPU->PC; #if CZ80_ENCRYPTED_ROM OPBase = CPU->OPBase; #endif CPU->ICount = cycles - CPU->ExtraCycles; CPU->ExtraCycles = 0; if (!CPU->HaltState) { Cz80_Exec: if (CPU->ICount > 0) { Cz80_Exec_nocheck: data = pzHL; Opcode = READ_OP(); #if CZ80_EMULATE_R_EXACTLY zR++; #endif #include "cz80_op.c" } if (afterEI) { afterEI = 0; Cz80_Check_Interrupt: if (CPU->IRQState != CLEAR_LINE) { CHECK_INT CPU->ICount -= CPU->ExtraCycles; CPU->ExtraCycles = 0; } goto Cz80_Exec; } } else CPU->ICount = 0; Cz80_Exec_End: CPU->PC = PC; #if CZ80_ENCRYPTED_ROM CPU->OPBase = OPBase; #endif cycles -= CPU->ICount; #if !CZ80_EMULATE_R_EXACTLY zR = (zR + (cycles >> 2)) & 0x7f; #endif return cycles; } /*-------------------------------------------------------- 割り込み処理 --------------------------------------------------------*/ void Cz80_Set_IRQ(cz80_struc *CPU, INT32 line, INT32 state) { if (line == IRQ_LINE_NMI) { zIFF1 = 0; CPU->ExtraCycles += 11; CPU->HaltState = 0; PUSH_16(CPU->PC - CPU->BasePC) Cz80_Set_Reg(CPU, CZ80_PC, 0x66); } else { CPU->IRQState = state; if (state != CLEAR_LINE) { UINT32 PC = CPU->PC; #if CZ80_ENCRYPTED_ROM INT32 OPBase = CPU->OPBase; #endif CPU->IRQLine = line; CHECK_INT CPU->PC = PC; #if CZ80_ENCRYPTED_ROM CPU->OPBase = OPBase; #endif } } } /*-------------------------------------------------------- レジスタ取得 --------------------------------------------------------*/ UINT32 Cz80_Get_Reg(cz80_struc *CPU, INT32 regnum) { switch (regnum) { case CZ80_PC: return (CPU->PC - CPU->BasePC); case CZ80_SP: return zSP; case CZ80_AF: return zAF; case CZ80_BC: return zBC; case CZ80_DE: return zDE; case CZ80_HL: return zHL; case CZ80_IX: return zIX; case CZ80_IY: return zIY; case CZ80_AF2: return zAF2; case CZ80_BC2: return zBC2; case CZ80_DE2: return zDE2; case CZ80_HL2: return zHL2; case CZ80_R: return zR; case CZ80_I: return zI; case CZ80_IM: return zIM; case CZ80_IFF1: return zIFF1; case CZ80_IFF2: return zIFF2; case CZ80_HALT: return CPU->HaltState; case CZ80_IRQ: return CPU->IRQState; default: return 0; } } /*-------------------------------------------------------- レジスタ設定 --------------------------------------------------------*/ void Cz80_Set_Reg(cz80_struc *CPU, INT32 regnum, UINT32 val) { switch (regnum) { case CZ80_PC: CPU->BasePC = CPU->Fetch[val >> CZ80_FETCH_SFT]; #if CZ80_ENCRYPTED_ROM CPU->OPBase = CPU->OPFetch[val >> CZ80_FETCH_SFT]; #endif CPU->PC = val + CPU->BasePC; break; case CZ80_SP: zSP = val; break; case CZ80_AF: zAF = val; break; case CZ80_BC: zBC = val; break; case CZ80_DE: zDE = val; break; case CZ80_HL: zHL = val; break; case CZ80_IX: zIX = val; break; case CZ80_IY: zIY = val; break; case CZ80_AF2: zAF2 = val; break; case CZ80_BC2: zBC2 = val; break; case CZ80_DE2: zDE2 = val; break; case CZ80_HL2: zHL2 = val; break; case CZ80_R: zR = val; break; case CZ80_I: zI = val; break; case CZ80_IM: zIM = val; break; case CZ80_IFF1: zIFF1 = val; break; case CZ80_IFF2: zIFF2 = val; break; case CZ80_HALT: CPU->HaltState = val; break; case CZ80_IRQ: CPU->IRQState = val; break; default: break; } } /*-------------------------------------------------------- フェッチアドレス設定 --------------------------------------------------------*/ void Cz80_Set_Fetch(cz80_struc *CPU, UINT32 low_adr, UINT32 high_adr, UINT32 fetch_adr) { int i, j; i = low_adr >> CZ80_FETCH_SFT; j = high_adr >> CZ80_FETCH_SFT; fetch_adr -= i << CZ80_FETCH_SFT; while (i <= j) { CPU->Fetch[i] = fetch_adr; #if CZ80_ENCRYPTED_ROM CPU->OPFetch[i] = 0; #endif i++; } } /*-------------------------------------------------------- フェッチアドレス設定 (暗号化ROM対応) --------------------------------------------------------*/ #if CZ80_ENCRYPTED_ROM void Cz80_Set_Encrypt_Range(cz80_struc *CPU, UINT32 low_adr, UINT32 high_adr, UINT32 decrypted_rom) { int i, j; i = low_adr >> CZ80_FETCH_SFT; j = high_adr >> CZ80_FETCH_SFT; decrypted_rom -= i << CZ80_FETCH_SFT; while (i <= j) { CPU->OPFetch[i] = (INT32)decrypted_rom - (INT32)CPU->Fetch[i]; i++; } } #endif /*-------------------------------------------------------- メモリリード/ライト関数設定 --------------------------------------------------------*/ void Cz80_Set_ReadB(cz80_struc *CPU, UINT8 (*Func)(UINT32 address)) { CPU->Read_Byte = Func; } void Cz80_Set_WriteB(cz80_struc *CPU, void (*Func)(UINT32 address, UINT8 data)) { CPU->Write_Byte = Func; } /*-------------------------------------------------------- ポートリード/ライト関数設定 --------------------------------------------------------*/ void Cz80_Set_INPort(cz80_struc *CPU, UINT8 (*Func)(UINT16 port)) { CPU->IN_Port = Func; } void Cz80_Set_OUTPort(cz80_struc *CPU, void (*Func)(UINT16 port, UINT8 value)) { CPU->OUT_Port = Func; } /*-------------------------------------------------------- コールバック関数設定 --------------------------------------------------------*/ void Cz80_Set_IRQ_Callback(cz80_struc *CPU, INT32 (*Func)(INT32 irqline)) { CPU->Interrupt_Callback = Func; }