Mercurial > repos > blastem
view z80_to_x86.h @ 987:1f09994e92c5
Initial stab at implementing address error exceptions. Need to fill in the value of IR, undefined bits of last stack frame word and properly deal with address errors that occur during exception processing.
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Tue, 26 Apr 2016 23:13:37 -0700 |
| parents | 1eb616b8cbe9 |
| children | 6b07af1515b5 |
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/* Copyright 2013 Michael Pavone This file is part of BlastEm. BlastEm is free software distributed under the terms of the GNU General Public License version 3 or greater. See COPYING for full license text. */ #ifndef Z80_TO_X86_H_ #define Z80_TO_X86_H_ #include "z80inst.h" #include "backend.h" #define ZNUM_MEM_AREAS 4 #ifdef Z80_LOG_ADDRESS #define ZMAX_NATIVE_SIZE 255 #else #define ZMAX_NATIVE_SIZE 160 #endif enum { ZF_C = 0, ZF_N, ZF_PV, ZF_H, ZF_Z, ZF_S, ZF_NUM }; typedef void (*z80_run_fun)(void * context); typedef struct { cpu_options gen; code_ptr save_context_scratch; code_ptr load_context_scratch; code_ptr native_addr; code_ptr retrans_stub; code_ptr do_sync; code_ptr read_8; code_ptr write_8; code_ptr read_8_noinc; code_ptr write_8_noinc; code_ptr read_16; code_ptr write_16_highfirst; code_ptr write_16_lowfirst; code_ptr read_io; code_ptr write_io; uint32_t flags; int8_t regs[Z80_UNUSED]; z80_run_fun run; } z80_options; typedef struct { void * native_pc; uint16_t sp; uint8_t flags[ZF_NUM]; uint16_t bank_reg; uint8_t regs[Z80_A+1]; uint8_t im; uint8_t alt_regs[Z80_A+1]; uint32_t target_cycle; uint32_t current_cycle; uint8_t alt_flags[ZF_NUM]; uint8_t * mem_pointers[ZNUM_MEM_AREAS]; uint8_t iff1; uint8_t iff2; uint16_t scratch1; uint16_t scratch2; void * extra_pc; uint32_t sync_cycle; uint32_t int_cycle; native_map_slot * static_code_map; native_map_slot * banked_code_map; z80_options * options; void * system; uint8_t ram_code_flags[(8 * 1024)/128/8]; uint32_t int_enable_cycle; uint16_t pc; uint32_t int_pulse_start; uint32_t int_pulse_end; uint8_t breakpoint_flags[(16 * 1024)/sizeof(uint8_t)]; uint8_t * bp_handler; uint8_t * bp_stub; uint8_t * interp_code[256]; uint8_t reset; uint8_t busreq; uint8_t busack; } z80_context; void translate_z80_stream(z80_context * context, uint32_t address); void init_z80_opts(z80_options * options, memmap_chunk const * chunks, uint32_t num_chunks, memmap_chunk const * io_chunks, uint32_t num_io_chunks, uint32_t clock_divider); void z80_options_free(z80_options *opts); void init_z80_context(z80_context * context, z80_options * options); code_ptr z80_get_native_address(z80_context * context, uint32_t address); code_ptr z80_get_native_address_trans(z80_context * context, uint32_t address); z80_context * z80_handle_code_write(uint32_t address, z80_context * context); void z80_reset(z80_context * context); void zinsert_breakpoint(z80_context * context, uint16_t address, uint8_t * bp_handler); void zremove_breakpoint(z80_context * context, uint16_t address); void z80_run(z80_context * context, uint32_t target_cycle); void z80_assert_reset(z80_context * context, uint32_t cycle); void z80_clear_reset(z80_context * context, uint32_t cycle); void z80_assert_busreq(z80_context * context, uint32_t cycle); void z80_clear_busreq(z80_context * context, uint32_t cycle); uint8_t z80_get_busack(z80_context * context, uint32_t cycle); void z80_adjust_cycles(z80_context * context, uint32_t deduction); //to be provided by system code void z80_next_int_pulse(z80_context * z_context); #endif //Z80_TO_X86_H_