mirror of
https://github.com/Oibaf66/frodo-wii.git
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218 lines
4.5 KiB
C
218 lines
4.5 KiB
C
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/*
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* CPUC64.h - 6510 (C64) emulation (line based)
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*
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* Frodo (C) 1994-1997,2002 Christian Bauer
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*/
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#ifndef _CPU_C64_H
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#define _CPU_C64_H
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#include "C64.h"
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// Set this to 1 if the 6502 PC should be represented by a real pointer
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#ifndef FRODO_SC
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#ifndef PC_IS_POINTER
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#define PC_IS_POINTER 1
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#endif
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#endif
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// Set this to 1 for more precise CPU cycle calculation
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#ifndef PRECISE_CPU_CYCLES
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#define PRECISE_CPU_CYCLES 0
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#endif
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// Set this to 1 for instruction-aligned CIA emulation
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#ifndef PRECISE_CIA_CYCLES
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#define PRECISE_CIA_CYCLES 0
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#endif
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// Interrupt types
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enum {
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INT_VICIRQ,
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INT_CIAIRQ,
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INT_NMI
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// INT_RESET (private)
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};
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class MOS6569;
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class MOS6581;
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class MOS6526_1;
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class MOS6526_2;
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class REU;
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class IEC;
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struct MOS6510State;
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// 6510 emulation (C64)
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class MOS6510 {
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public:
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MOS6510(C64 *c64, uint8 *Ram, uint8 *Basic, uint8 *Kernal, uint8 *Char, uint8 *Color);
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#ifdef FRODO_SC
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void EmulateCycle(void); // Emulate one clock cycle
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#else
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int EmulateLine(int cycles_left); // Emulate until cycles_left underflows
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#endif
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void Reset(void);
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void AsyncReset(void); // Reset the CPU asynchronously
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void AsyncNMI(void); // Raise NMI asynchronously (NMI pulse)
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void GetState(MOS6510State *s);
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void SetState(MOS6510State *s);
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uint8 ExtReadByte(uint16 adr);
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void ExtWriteByte(uint16 adr, uint8 byte);
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uint8 REUReadByte(uint16 adr);
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void REUWriteByte(uint16 adr, uint8 byte);
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void TriggerVICIRQ(void);
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void ClearVICIRQ(void);
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void TriggerCIAIRQ(void);
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void ClearCIAIRQ(void);
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void TriggerNMI(void);
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void ClearNMI(void);
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int ExtConfig; // Memory configuration for ExtRead/WriteByte (0..7)
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MOS6569 *TheVIC; // Pointer to VIC
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MOS6581 *TheSID; // Pointer to SID
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MOS6526_1 *TheCIA1; // Pointer to CIA 1
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MOS6526_2 *TheCIA2; // Pointer to CIA 2
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REU *TheREU; // Pointer to REU
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IEC *TheIEC; // Pointer to drive array
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#ifdef FRODO_SC
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bool BALow; // BA line for Frodo SC
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#endif
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private:
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uint8 read_byte(uint16 adr);
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uint8 read_byte_io(uint16 adr);
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uint16 read_word(uint16 adr);
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void write_byte(uint16 adr, uint8 byte);
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void write_byte_io(uint16 adr, uint8 byte);
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uint8 read_zp(uint16 adr);
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uint16 read_zp_word(uint16 adr);
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void write_zp(uint16 adr, uint8 byte);
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void new_config(void);
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void jump(uint16 adr);
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void illegal_op(uint8 op, uint16 at);
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void illegal_jump(uint16 at, uint16 to);
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void do_adc(uint8 byte);
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void do_sbc(uint8 byte);
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uint8 read_emulator_id(uint16 adr);
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C64 *the_c64; // Pointer to C64 object
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uint8 *ram; // Pointer to main RAM
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uint8 *basic_rom, *kernal_rom, *char_rom, *color_ram; // Pointers to ROMs and color RAM
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union { // Pending interrupts
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uint8 intr[4]; // Index: See definitions above
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unsigned long intr_any;
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} interrupt;
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bool nmi_state; // State of NMI line
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uint8 n_flag, z_flag;
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bool v_flag, d_flag, i_flag, c_flag;
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uint8 a, x, y, sp;
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#if PC_IS_POINTER
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uint8 *pc, *pc_base;
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#else
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uint16 pc;
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#endif
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#ifdef FRODO_SC
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uint32 first_irq_cycle, first_nmi_cycle;
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uint8 state, op; // Current state and opcode
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uint16 ar, ar2; // Address registers
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uint8 rdbuf; // Data buffer for RMW instructions
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uint8 ddr, pr; // Processor port
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#else
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int borrowed_cycles; // Borrowed cycles from next line
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#endif
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bool basic_in, kernal_in, char_in, io_in;
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uint8 dfff_byte;
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};
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// 6510 state
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struct MOS6510State {
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uint8 a, x, y;
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uint8 p; // Processor flags
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uint8 ddr, pr; // Port
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uint16 pc, sp;
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uint8 intr[4]; // Interrupt state
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bool nmi_state;
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uint8 dfff_byte;
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bool instruction_complete;
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};
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// Interrupt functions
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#ifdef FRODO_SC
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inline void MOS6510::TriggerVICIRQ(void)
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{
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if (!(interrupt.intr[INT_VICIRQ] || interrupt.intr[INT_CIAIRQ]))
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first_irq_cycle = the_c64->CycleCounter;
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interrupt.intr[INT_VICIRQ] = true;
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}
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inline void MOS6510::TriggerCIAIRQ(void)
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{
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if (!(interrupt.intr[INT_VICIRQ] || interrupt.intr[INT_CIAIRQ]))
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first_irq_cycle = the_c64->CycleCounter;
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interrupt.intr[INT_CIAIRQ] = true;
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}
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inline void MOS6510::TriggerNMI(void)
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{
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if (!nmi_state) {
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nmi_state = true;
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interrupt.intr[INT_NMI] = true;
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first_nmi_cycle = the_c64->CycleCounter;
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}
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}
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#else
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inline void MOS6510::TriggerVICIRQ(void)
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{
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interrupt.intr[INT_VICIRQ] = true;
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}
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inline void MOS6510::TriggerCIAIRQ(void)
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{
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interrupt.intr[INT_CIAIRQ] = true;
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}
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inline void MOS6510::TriggerNMI(void)
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{
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if (!nmi_state) {
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nmi_state = true;
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interrupt.intr[INT_NMI] = true;
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}
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}
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#endif
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inline void MOS6510::ClearVICIRQ(void)
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{
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interrupt.intr[INT_VICIRQ] = false;
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}
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inline void MOS6510::ClearCIAIRQ(void)
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{
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interrupt.intr[INT_CIAIRQ] = false;
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}
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inline void MOS6510::ClearNMI(void)
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{
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nmi_state = false;
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}
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#endif
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