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- /* Copyright (C) 2014-2016 Ben Kurtovic <ben.kurtovic@gmail.com>
- Released under the terms of the MIT License. See LICENSE for details. */
-
- #include "z80.h"
- #include "disassembler.h"
- #include "logging.h"
-
- #define REG_AF 0
- #define REG_BC 1
- #define REG_DE 2
- #define REG_HL 3
- #define REG_SP 4
- #define REG_AF_ 5
- #define REG_BC_ 6
- #define REG_DE_ 7
- #define REG_HL_ 8
-
- #define FLAG_CARRY 0
- #define FLAG_SUBTRACT 1
- #define FLAG_PARITY 2
- #define FLAG_OVERFLOW 2
- #define FLAG_UNDOC_3 3
- #define FLAG_HALFCARRY 4
- #define FLAG_UNDOC_5 5
- #define FLAG_ZERO 6
- #define FLAG_SIGN 7
-
- #define BINARY_FMT "0b%u%u%u%u%u%u%u%u" // Used by z80_dump_registers()
- #define BINARY_VAL(data) \
- (data & (1 << 7) ? 1 : 0), \
- (data & (1 << 6) ? 1 : 0), \
- (data & (1 << 5) ? 1 : 0), \
- (data & (1 << 4) ? 1 : 0), \
- (data & (1 << 3) ? 1 : 0), \
- (data & (1 << 2) ? 1 : 0), \
- (data & (1 << 1) ? 1 : 0), \
- (data & (1 << 0) ? 1 : 0)
-
- /*
- Initialize a Z80 object.
-
- Register values are invalid until z80_power() is called. No other Z80
- functions should be called before it.
- */
- void z80_init(Z80 *z80, MMU *mmu)
- {
- z80->mmu = mmu;
- z80->except = true;
- z80->exc_code = Z80_EXC_NOT_POWERED;
- z80->exc_data = 0;
- }
-
- /*
- Power on the Z80, setting registers to their default values.
-
- This also clears the exception flag, which is necessary before the Z80 can
- begin emulation.
- */
- void z80_power(Z80 *z80)
- {
- Z80RegFile *regfile = &z80->regfile;
-
- regfile->a = regfile->f = 0xFF;
- regfile->b = regfile->c = 0xFF;
- regfile->d = regfile->e = 0xFF;
- regfile->h = regfile->l = 0xFF;
- regfile->a_ = regfile->f_ = 0xFF;
- regfile->b_ = regfile->c_ = 0xFF;
- regfile->d_ = regfile->e_ = 0xFF;
- regfile->h_ = regfile->l_ = 0xFF;
-
- regfile->ix = 0xFFFF;
- regfile->iy = 0xFFFF;
- regfile->sp = 0xFFFF;
- regfile->pc = 0x0000;
-
- regfile->i = 0xFF;
- regfile->r = 0xFF;
-
- regfile->im_a = regfile->im_b = 0;
- regfile->iff1 = regfile->iff2 = 0;
-
- z80->except = false;
- z80->pending_cycles = 0;
-
- z80->trace.fresh = true;
- z80->trace.last_addr = 0;
- z80->trace.counter = 0;
- }
-
- /*
- Get the value of a register pair.
- */
- static inline uint16_t get_pair(Z80 *z80, uint8_t pair)
- {
- switch (pair) {
- case REG_AF: return (z80->regfile.a << 8) + z80->regfile.f;
- case REG_BC: return (z80->regfile.b << 8) + z80->regfile.c;
- case REG_DE: return (z80->regfile.d << 8) + z80->regfile.e;
- case REG_HL: return (z80->regfile.h << 8) + z80->regfile.l;
- case REG_AF_: return (z80->regfile.a_ << 8) + z80->regfile.f_;
- case REG_BC_: return (z80->regfile.b_ << 8) + z80->regfile.c_;
- case REG_DE_: return (z80->regfile.d_ << 8) + z80->regfile.e_;
- case REG_HL_: return (z80->regfile.h_ << 8) + z80->regfile.l_;
- case REG_SP: return z80->regfile.sp;
- }
- FATAL("invalid call: get_pair(z80, %u)", pair)
- }
-
- /*
- Set the value of a register pair.
- */
- static inline void set_pair(Z80 *z80, uint8_t pair, uint16_t value)
- {
- switch (pair) {
- case REG_AF: z80->regfile.a = value >> 8; z80->regfile.f = value; break;
- case REG_BC: z80->regfile.b = value >> 8; z80->regfile.c = value; break;
- case REG_DE: z80->regfile.d = value >> 8; z80->regfile.e = value; break;
- case REG_HL: z80->regfile.h = value >> 8; z80->regfile.l = value; break;
- case REG_AF_: z80->regfile.a_ = value >> 8; z80->regfile.f_ = value; break;
- case REG_BC_: z80->regfile.b_ = value >> 8; z80->regfile.c_ = value; break;
- case REG_DE_: z80->regfile.d_ = value >> 8; z80->regfile.e_ = value; break;
- case REG_HL_: z80->regfile.h_ = value >> 8; z80->regfile.l_ = value; break;
- case REG_SP: z80->regfile.sp = value; break;
- default:
- FATAL("invalid call: set_pair(z80, %u, 0x%04X)", pair, value)
- }
- }
-
- /*
- Return whether a particular flag is set in the F register.
- */
- static inline bool get_flag(const Z80 *z80, uint8_t flag)
- {
- return z80->regfile.f & (1 << flag);
- }
-
- /*
- Return whether a particular flag is set in the F' register.
- */
- static inline bool get_shadow_flag(const Z80 *z80, uint8_t flag)
- {
- return z80->regfile.f_ & (1 << flag);
- }
-
- /*
- Update the F register flags according to the set bits in the mask.
- */
- static inline void update_flags(Z80 *z80, bool c, bool n, bool pv, bool f3,
- bool h, bool f5, bool z, bool s, uint8_t mask)
- {
- z80->regfile.f = (~mask & z80->regfile.f) | (mask & (
- c << FLAG_CARRY |
- n << FLAG_SUBTRACT |
- pv << FLAG_PARITY |
- f3 << FLAG_UNDOC_3 |
- h << FLAG_HALFCARRY |
- f5 << FLAG_UNDOC_5 |
- z << FLAG_ZERO |
- s << FLAG_SIGN));
- }
-
- /*
- Extract an 8-bit register from the given opcode and return a pointer to it.
- */
- static inline uint8_t* extract_reg(Z80 *z80, uint8_t opcode)
- {
- switch (opcode & 0x38) {
- case 0x00: return &z80->regfile.b;
- case 0x08: return &z80->regfile.c;
- case 0x10: return &z80->regfile.d;
- case 0x18: return &z80->regfile.e;
- case 0x20: return &z80->regfile.h;
- case 0x28: return &z80->regfile.l;
- case 0x38: return &z80->regfile.a;
- }
- FATAL("invalid call: extract_reg(z80, 0x%02X)", opcode)
- }
-
- /*
- Extract a register pair from the given opcode and return its identifer.
- */
- static inline uint8_t extract_pair(uint8_t opcode)
- {
- switch (opcode & 0x30) {
- case 0x00: return REG_BC;
- case 0x10: return REG_DE;
- case 0x20: return REG_HL;
- case 0x30: return REG_SP;
- }
- FATAL("invalid call: extract_pair(0x%02X)", opcode)
- }
-
- /*
- Return the CPU's current interrupt mode.
- */
- static inline uint8_t get_interrupt_mode(const Z80 *z80)
- {
- if (!z80->regfile.im_a)
- return 0;
- if (!z80->regfile.im_b)
- return 1;
- return 2;
- }
-
- /*
- Increment the refresh counter register, R.
- */
- static inline void increment_refresh_counter(Z80 *z80)
- {
- z80->regfile.r = (z80->regfile.r & 0x80) | ((z80->regfile.r + 1) & 0x7F);
- }
-
- #include "z80_ops.inc.c"
-
- /*
- @TRACE_LEVEL
- Trace the instruction about to be executed by the CPU.
- */
- static inline void trace_instruction(Z80 *z80)
- {
- if (z80->regfile.pc == z80->trace.last_addr && !z80->trace.fresh) {
- z80->trace.counter++;
- if (!(z80->trace.counter % (1 << 14)))
- TRACE_NOEOL("repeat last: %llu times\r", z80->trace.counter);
- return;
- }
- if (z80->trace.fresh) {
- TRACE("PC ADDR RAW INSTR\tARGS")
- TRACE("------- --- -----\t----")
- z80->trace.fresh = false;
- }
-
- z80->trace.last_addr = z80->regfile.pc;
- z80->trace.counter = 0;
-
- uint32_t quad = mmu_read_quad(z80->mmu, z80->regfile.pc);
- uint8_t bytes[4] = {quad, quad >> 8, quad >> 16, quad >> 24};
- DisasInstr *instr = disassemble_instruction(bytes);
-
- TRACE("0x%04X: %11s %s", z80->regfile.pc, instr->bytestr, instr->line)
- disas_instr_free(instr);
- }
-
- /*
- Emulate the given number of cycles of the Z80, or until an exception.
-
- The return value indicates whether the exception flag is set. If it is,
- then emulation must be stopped because further calls to z80_do_cycles()
- will have no effect. The exception flag can be reset with z80_power().
- */
- bool z80_do_cycles(Z80 *z80, double cycles)
- {
- cycles -= z80->pending_cycles;
- while (cycles > 0 && !z80->except) {
- uint8_t opcode = mmu_read_byte(z80->mmu, z80->regfile.pc);
- increment_refresh_counter(z80);
- if (TRACE_LEVEL)
- trace_instruction(z80);
- cycles -= (*instruction_lookup_table[opcode])(z80, opcode);
- }
-
- z80->pending_cycles = -cycles;
- return z80->except;
- }
-
- /*
- @DEBUG_LEVEL
- Print out all register values to stdout.
- */
- void z80_dump_registers(const Z80 *z80)
- {
- const Z80RegFile *rf = &z80->regfile;
- DEBUG("Dumping Z80 register values:")
-
- DEBUG("- AF: 0x%02X%02X (%03d, %03d)", rf->a, rf->f, rf->a, rf->f)
- DEBUG("- BC: 0x%02X%02X (%03d, %03d)", rf->b, rf->c, rf->b, rf->c)
- DEBUG("- DE: 0x%02X%02X (%03d, %03d)", rf->d, rf->e, rf->d, rf->e)
- DEBUG("- HL: 0x%02X%02X (%03d, %03d)", rf->h, rf->l, rf->h, rf->l)
-
- DEBUG("- AF': 0x%02X%02X (%03d, %03d)", rf->a_, rf->f_, rf->a_, rf->f_)
- DEBUG("- BC': 0x%02X%02X (%03d, %03d)", rf->b_, rf->c_, rf->b_, rf->c_)
- DEBUG("- DE': 0x%02X%02X (%03d, %03d)", rf->d_, rf->e_, rf->d_, rf->e_)
- DEBUG("- HL': 0x%02X%02X (%03d, %03d)", rf->h_, rf->l_, rf->h_, rf->l_)
-
- DEBUG("- IX: 0x%04X (%05d)", rf->ix, rf->ix)
- DEBUG("- IY: 0x%04X (%05d)", rf->iy, rf->iy)
- DEBUG("- SP: 0x%04X (%05d)", rf->sp, rf->sp)
- DEBUG("- PC: 0x%04X (%05d)", rf->pc, rf->pc)
-
- DEBUG("- I: 0x%2X (%03d)", rf->i, rf->i)
- DEBUG("- R: 0x%2X (%03d)", rf->r, rf->r)
-
- DEBUG("- F: "BINARY_FMT" (C: %u, N: %u, P/V: %u, H: %u, Z: %u, S: %u)",
- BINARY_VAL(rf->f),
- get_flag(z80, FLAG_CARRY),
- get_flag(z80, FLAG_SUBTRACT),
- get_flag(z80, FLAG_PARITY),
- get_flag(z80, FLAG_HALFCARRY),
- get_flag(z80, FLAG_ZERO),
- get_flag(z80, FLAG_SIGN))
-
- DEBUG("- F': "BINARY_FMT" (C: %u, N: %u, P/V: %u, H: %u, Z: %u, S: %u)",
- BINARY_VAL(rf->f_),
- get_shadow_flag(z80, FLAG_CARRY),
- get_shadow_flag(z80, FLAG_SUBTRACT),
- get_shadow_flag(z80, FLAG_PARITY),
- get_shadow_flag(z80, FLAG_HALFCARRY),
- get_shadow_flag(z80, FLAG_ZERO),
- get_shadow_flag(z80, FLAG_SIGN))
-
- DEBUG("- IM: 0b%u%u (mode: %u)", rf->im_a, rf->im_b,
- get_interrupt_mode(z80))
- DEBUG("- IFF: 1: %u, 2: %u", rf->iff1, rf->iff2)
- }
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