/*
 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 BACKEND_H_
#define BACKEND_H_

#include <stdint.h>
#include <stdio.h>
#include "gen.h"

#define INVALID_OFFSET 0xFFFFFFFF
#define EXTENSION_WORD 0xFFFFFFFE
#define CYCLE_NEVER 0xFFFFFFFF

#if defined(X86_32) || defined(X86_64)
typedef struct {
	int32_t disp;
	uint8_t mode;
	uint8_t base;
	uint8_t index;
} host_ea;
#else
typedef struct {
	int32_t disp;
	uint8_t mode;
	uint8_t base;
} host_ea;
#endif

typedef struct {
	uint8_t  *base;
	int32_t  *offsets;
} native_map_slot;

typedef struct deferred_addr {
	struct deferred_addr *next;
	code_ptr             dest;
	uint32_t             address;
} deferred_addr;

typedef enum {
	READ_16,
	READ_8,
	WRITE_16,
	WRITE_8
} ftype;

#define MMAP_READ      0x01
#define MMAP_WRITE     0x02
#define MMAP_CODE      0x04
#define MMAP_PTR_IDX   0x08
#define MMAP_ONLY_ODD  0x10
#define MMAP_ONLY_EVEN 0x20
#define MMAP_FUNC_NULL 0x40
#define MMAP_BYTESWAP  0x80

typedef uint16_t (*read_16_fun)(uint32_t address, void * context);
typedef uint8_t (*read_8_fun)(uint32_t address, void * context);
typedef void * (*write_16_fun)(uint32_t address, void * context, uint16_t value);
typedef void * (*write_8_fun)(uint32_t address, void * context, uint8_t value);

typedef struct {
	uint32_t     start;
	uint32_t     end;
	uint32_t     mask;
	uint16_t     ptr_index;
	uint16_t     flags;
	void *       buffer;
	read_16_fun  read_16;
	write_16_fun write_16;
	read_8_fun   read_8;
	write_8_fun  write_8;
} memmap_chunk;

typedef struct {
	uint32_t flags;
	native_map_slot    *native_code_map;
	deferred_addr      *deferred;
	code_info          code;
	uint8_t            **ram_inst_sizes;
	memmap_chunk const *memmap;
	code_ptr           save_context;
	code_ptr           load_context;
	code_ptr           handle_cycle_limit;
	code_ptr           handle_cycle_limit_int;
	code_ptr           handle_code_write;
	code_ptr           handle_align_error_write;
	code_ptr           handle_align_error_read;
	uint32_t           memmap_chunks;
	uint32_t           address_mask;
	uint32_t           max_address;
	uint32_t           bus_cycles;
	uint32_t           clock_divider;
	int32_t            mem_ptr_off;
	int32_t            ram_flags_off;
	uint8_t            ram_flags_shift;
	uint8_t            address_size;
	uint8_t            byte_swap;
	uint8_t            context_reg;
	uint8_t            cycles;
	uint8_t            limit;
	uint8_t			   scratch1;
	uint8_t			   scratch2;
	uint8_t            align_error_mask;
} cpu_options;

typedef uint8_t * (*native_addr_func)(void * context, uint32_t address);

deferred_addr * defer_address(deferred_addr * old_head, uint32_t address, uint8_t *dest);
void remove_deferred_until(deferred_addr **head_ptr, deferred_addr * remove_to);
void process_deferred(deferred_addr ** head_ptr, void * context, native_addr_func get_native);

void cycles(cpu_options *opts, uint32_t num);
void check_cycles_int(cpu_options *opts, uint32_t address);
void check_cycles(cpu_options * opts);
void check_code_prologue(code_info *code);
void log_address(cpu_options *opts, uint32_t address, char * format);

code_ptr gen_mem_fun(cpu_options * opts, memmap_chunk const * memmap, uint32_t num_chunks, ftype fun_type, code_ptr *after_inc);
void * get_native_pointer(uint32_t address, void ** mem_pointers, cpu_options * opts);
uint32_t chunk_size(cpu_options *opts, memmap_chunk const *chunk);
uint32_t ram_size(cpu_options *opts);

#endif //BACKEND_H_