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tigris/TIKI-100_emul-src/messaudio/cpuintrf.h

544 lines
25 KiB
C

/***************************************************************************
cpuintrf.h
Core CPU interface functions and definitions.
Copyright Nicola Salmoria and the MAME Team.
Visit http://mamedev.org for licensing and usage restrictions.
***************************************************************************/
#pragma once
#ifndef __CPUINTRF_H__
#define __CPUINTRF_H__
#include "cpuint.h"
#include "cpuexec.h"
#include "watchdog.h"
#include "mame.h"
#include "state.h"
/***************************************************************************
CONSTANTS
***************************************************************************/
#define MAX_CPU 8
/* Interrupt line constants */
enum
{
/* line states */
CLEAR_LINE = 0, /* clear (a fired, held or pulsed) line */
ASSERT_LINE, /* assert an interrupt immediately */
HOLD_LINE, /* hold interrupt line until acknowledged */
PULSE_LINE, /* pulse interrupt line for one instruction */
/* internal flags (not for use by drivers!) */
INTERNAL_CLEAR_LINE = 100 + CLEAR_LINE,
INTERNAL_ASSERT_LINE = 100 + ASSERT_LINE,
/* input lines */
MAX_INPUT_LINES = 32+3,
INPUT_LINE_IRQ0 = 0,
INPUT_LINE_IRQ1 = 1,
INPUT_LINE_IRQ2 = 2,
INPUT_LINE_IRQ3 = 3,
INPUT_LINE_IRQ4 = 4,
INPUT_LINE_IRQ5 = 5,
INPUT_LINE_IRQ6 = 6,
INPUT_LINE_IRQ7 = 7,
INPUT_LINE_IRQ8 = 8,
INPUT_LINE_IRQ9 = 9,
INPUT_LINE_NMI = MAX_INPUT_LINES - 3,
/* special input lines that are implemented in the core */
INPUT_LINE_RESET = MAX_INPUT_LINES - 2,
INPUT_LINE_HALT = MAX_INPUT_LINES - 1,
/* output lines */
MAX_OUTPUT_LINES = 32
};
/* Maximum number of registers of any CPU */
enum
{
MAX_REGS = 256
};
/* CPU information constants */
enum
{
/* --- the following bits of info are returned as 64-bit signed integers --- */
CPUINFO_INT_FIRST = 0x00000,
CPUINFO_INT_CONTEXT_SIZE = CPUINFO_INT_FIRST, /* R/O: size of CPU context in bytes */
CPUINFO_INT_INPUT_LINES, /* R/O: number of input lines */
CPUINFO_INT_OUTPUT_LINES, /* R/O: number of output lines */
CPUINFO_INT_DEFAULT_IRQ_VECTOR, /* R/O: default IRQ vector */
CPUINFO_INT_ENDIANNESS, /* R/O: either CPU_IS_BE or CPU_IS_LE */
CPUINFO_INT_CLOCK_MULTIPLIER, /* R/O: internal clock multiplier */
CPUINFO_INT_CLOCK_DIVIDER, /* R/O: internal clock divider */
CPUINFO_INT_MIN_INSTRUCTION_BYTES, /* R/O: minimum bytes per instruction */
CPUINFO_INT_MAX_INSTRUCTION_BYTES, /* R/O: maximum bytes per instruction */
CPUINFO_INT_MIN_CYCLES, /* R/O: minimum cycles for a single instruction */
CPUINFO_INT_MAX_CYCLES, /* R/O: maximum cycles for a single instruction */
CPUINFO_INT_DATABUS_WIDTH, /* R/O: data bus size for each address space (8,16,32,64) */
CPUINFO_INT_DATABUS_WIDTH_LAST = CPUINFO_INT_DATABUS_WIDTH + ADDRESS_SPACES - 1,
CPUINFO_INT_ADDRBUS_WIDTH, /* R/O: address bus size for each address space (12-32) */
CPUINFO_INT_ADDRBUS_WIDTH_LAST = CPUINFO_INT_ADDRBUS_WIDTH + ADDRESS_SPACES - 1,
CPUINFO_INT_ADDRBUS_SHIFT, /* R/O: shift applied to addresses each address space (+3 means >>3, -1 means <<1) */
CPUINFO_INT_ADDRBUS_SHIFT_LAST = CPUINFO_INT_ADDRBUS_SHIFT + ADDRESS_SPACES - 1,
CPUINFO_INT_LOGADDR_WIDTH, /* R/O: address bus size for logical accesses in each space (0=same as physical) */
CPUINFO_INT_LOGADDR_WIDTH_LAST = CPUINFO_INT_LOGADDR_WIDTH + ADDRESS_SPACES - 1,
CPUINFO_INT_PAGE_SHIFT, /* R/O: size of a page log 2 (i.e., 12=4096), or 0 if paging not supported */
CPUINFO_INT_PAGE_SHIFT_LAST = CPUINFO_INT_PAGE_SHIFT + ADDRESS_SPACES - 1,
CPUINFO_INT_SP, /* R/W: the current stack pointer value */
CPUINFO_INT_PC, /* R/W: the current PC value */
CPUINFO_INT_PREVIOUSPC, /* R/W: the previous PC value */
CPUINFO_INT_INPUT_STATE, /* R/W: states for each input line */
CPUINFO_INT_INPUT_STATE_LAST = CPUINFO_INT_INPUT_STATE + MAX_INPUT_LINES - 1,
CPUINFO_INT_OUTPUT_STATE, /* R/W: states for each output line */
CPUINFO_INT_OUTPUT_STATE_LAST = CPUINFO_INT_OUTPUT_STATE + MAX_OUTPUT_LINES - 1,
CPUINFO_INT_REGISTER, /* R/W: values of up to MAX_REGs registers */
CPUINFO_INT_REGISTER_LAST = CPUINFO_INT_REGISTER + MAX_REGS - 1,
CPUINFO_INT_CPU_SPECIFIC = 0x08000, /* R/W: CPU-specific values start here */
/* --- the following bits of info are returned as pointers to data or functions --- */
CPUINFO_PTR_FIRST = 0x10000,
CPUINFO_PTR_SET_INFO = CPUINFO_PTR_FIRST, /* R/O: void (*set_info)(UINT32 state, INT64 data, void *ptr) */
CPUINFO_PTR_GET_CONTEXT, /* R/O: void (*get_context)(void *buffer) */
CPUINFO_PTR_SET_CONTEXT, /* R/O: void (*set_context)(void *buffer) */
CPUINFO_PTR_INIT, /* R/O: void (*init)(int index, int clock, const void *config, int (*irqcallback)(int)) */
CPUINFO_PTR_RESET, /* R/O: void (*reset)(void) */
CPUINFO_PTR_EXIT, /* R/O: void (*exit)(void) */
CPUINFO_PTR_EXECUTE, /* R/O: int (*execute)(int cycles) */
CPUINFO_PTR_BURN, /* R/O: void (*burn)(int cycles) */
CPUINFO_PTR_DISASSEMBLE, /* R/O: offs_t (*disassemble)(char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram) */
CPUINFO_PTR_TRANSLATE, /* R/O: int (*translate)(int space, int intention, offs_t *address) */
CPUINFO_PTR_READ, /* R/O: int (*read)(int space, UINT32 offset, int size, UINT64 *value) */
CPUINFO_PTR_WRITE, /* R/O: int (*write)(int space, UINT32 offset, int size, UINT64 value) */
CPUINFO_PTR_READOP, /* R/O: int (*readop)(UINT32 offset, int size, UINT64 *value) */
CPUINFO_PTR_DEBUG_SETUP_COMMANDS, /* R/O: void (*setup_commands)(void) */
CPUINFO_PTR_INSTRUCTION_COUNTER, /* R/O: int *icount */
CPUINFO_PTR_INTERNAL_MEMORY_MAP, /* R/O: const addrmap_token *map */
CPUINFO_PTR_INTERNAL_MEMORY_MAP_LAST = CPUINFO_PTR_INTERNAL_MEMORY_MAP + ADDRESS_SPACES - 1,
CPUINFO_PTR_DEBUG_REGISTER_LIST, /* R/O: int *list: list of registers for the debugger */
CPUINFO_PTR_VALIDITY_CHECK, /* R/O: int (*validity_check)(const void *config) */
CPUINFO_PTR_CPU_SPECIFIC = 0x18000, /* R/W: CPU-specific values start here */
/* --- the following bits of info are returned as NULL-terminated strings --- */
CPUINFO_STR_FIRST = 0x20000,
CPUINFO_STR_NAME = CPUINFO_STR_FIRST, /* R/O: name of the CPU */
CPUINFO_STR_CORE_FAMILY, /* R/O: family of the CPU */
CPUINFO_STR_CORE_VERSION, /* R/O: version of the CPU core */
CPUINFO_STR_CORE_FILE, /* R/O: file containing the CPU core */
CPUINFO_STR_CORE_CREDITS, /* R/O: credits for the CPU core */
CPUINFO_STR_FLAGS, /* R/O: string representation of the main flags value */
CPUINFO_STR_REGISTER, /* R/O: string representation of up to MAX_REGs registers */
CPUINFO_STR_REGISTER_LAST = CPUINFO_STR_REGISTER + MAX_REGS - 1,
CPUINFO_STR_CPU_SPECIFIC = 0x28000 /* R/W: CPU-specific values start here */
};
/* get_reg/set_reg constants */
enum
{
/* This value is passed to activecpu_get_reg to retrieve the previous
* program counter value, ie. before a CPU emulation started
* to fetch opcodes and arguments for the current instrution. */
REG_PREVIOUSPC = CPUINFO_INT_PREVIOUSPC - CPUINFO_INT_REGISTER,
/* This value is passed to activecpu_get_reg to retrieve the current
* program counter value. */
REG_PC = CPUINFO_INT_PC - CPUINFO_INT_REGISTER,
/* This value is passed to activecpu_get_reg to retrieve the current
* stack pointer value. */
REG_SP = CPUINFO_INT_SP - CPUINFO_INT_REGISTER
};
/* Endianness constants */
enum
{
CPU_IS_LE = 0, /* emulated CPU is little endian */
CPU_IS_BE /* emulated CPU is big endian */
};
/* Translation intentions */
#define TRANSLATE_TYPE_MASK 0x03 /* read write or fetch */
#define TRANSLATE_USER_MASK 0x04 /* user mode or fully privileged */
#define TRANSLATE_DEBUG_MASK 0x08 /* debug mode (no side effects) */
#define TRANSLATE_READ 0 /* translate for read */
#define TRANSLATE_WRITE 1 /* translate for write */
#define TRANSLATE_FETCH 2 /* translate for instruction fetch */
#define TRANSLATE_READ_USER (TRANSLATE_READ | TRANSLATE_USER_MASK)
#define TRANSLATE_WRITE_USER (TRANSLATE_WRITE | TRANSLATE_USER_MASK)
#define TRANSLATE_FETCH_USER (TRANSLATE_FETCH | TRANSLATE_USER_MASK)
#define TRANSLATE_READ_DEBUG (TRANSLATE_READ | TRANSLATE_DEBUG_MASK)
#define TRANSLATE_WRITE_DEBUG (TRANSLATE_WRITE | TRANSLATE_DEBUG_MASK)
#define TRANSLATE_FETCH_DEBUG (TRANSLATE_FETCH | TRANSLATE_DEBUG_MASK)
/* Disassembler constants */
#define DASMFLAG_SUPPORTED 0x80000000 /* are disassembly flags supported? */
#define DASMFLAG_STEP_OUT 0x40000000 /* this instruction should be the end of a step out sequence */
#define DASMFLAG_STEP_OVER 0x20000000 /* this instruction should be stepped over by setting a breakpoint afterwards */
#define DASMFLAG_OVERINSTMASK 0x18000000 /* number of extra instructions to skip when stepping over */
#define DASMFLAG_OVERINSTSHIFT 27 /* bits to shift after masking to get the value */
#define DASMFLAG_LENGTHMASK 0x0000ffff /* the low 16-bits contain the actual length */
#define DASMFLAG_STEP_OVER_EXTRA(x) ((x) << DASMFLAG_OVERINSTSHIFT)
/***************************************************************************
TYPE DEFINITIONS
***************************************************************************/
/* forward declaration of this union */
typedef union _cpuinfo cpuinfo;
/* define the various callback functions */
typedef void (*cpu_get_info_func)(UINT32 state, cpuinfo *info);
typedef void (*cpu_set_info_func)(UINT32 state, cpuinfo *info);
typedef void (*cpu_get_context_func)(void *buffer);
typedef void (*cpu_set_context_func)(void *buffer);
typedef void (*cpu_init_func)(int index, int clock, const void *config, int (*irqcallback)(int));
typedef void (*cpu_reset_func)(void);
typedef void (*cpu_exit_func)(void);
typedef int (*cpu_execute_func)(int cycles);
typedef void (*cpu_burn_func)(int cycles);
typedef offs_t (*cpu_disassemble_func)(char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram);
typedef int (*cpu_translate_func)(int space, int intention, offs_t *address);
typedef int (*cpu_read_func)(int space, UINT32 offset, int size, UINT64 *value);
typedef int (*cpu_write_func)(int space, UINT32 offset, int size, UINT64 value);
typedef int (*cpu_readop_func)(UINT32 offset, int size, UINT64 *value);
typedef void (*cpu_setup_commands_func)(void);
typedef int (*cpu_validity_check_func)(const game_driver *driver, const void *config);
/* cpuinfo union used to pass data to/from the get_info/set_info functions */
union _cpuinfo
{
INT64 i; /* generic integers */
void * p; /* generic pointers */
genf * f; /* generic function pointers */
char * s; /* generic strings */
cpu_set_info_func setinfo; /* CPUINFO_PTR_SET_INFO */
cpu_get_context_func getcontext; /* CPUINFO_PTR_GET_CONTEXT */
cpu_set_context_func setcontext; /* CPUINFO_PTR_SET_CONTEXT */
cpu_init_func init; /* CPUINFO_PTR_INIT */
cpu_reset_func reset; /* CPUINFO_PTR_RESET */
cpu_exit_func exit; /* CPUINFO_PTR_EXIT */
cpu_execute_func execute; /* CPUINFO_PTR_EXECUTE */
cpu_burn_func burn; /* CPUINFO_PTR_BURN */
cpu_disassemble_func disassemble; /* CPUINFO_PTR_DISASSEMBLE */
cpu_translate_func translate; /* CPUINFO_PTR_TRANSLATE */
cpu_read_func read; /* CPUINFO_PTR_READ */
cpu_write_func write; /* CPUINFO_PTR_WRITE */
cpu_readop_func readop; /* CPUINFO_PTR_READOP */
cpu_setup_commands_func setup_commands; /* CPUINFO_PTR_DEBUG_SETUP_COMMANDS */
int * icount; /* CPUINFO_PTR_INSTRUCTION_COUNTER */
const addrmap8_token * internal_map8; /* CPUINFO_PTR_INTERNAL_MEMORY_MAP */
const addrmap16_token * internal_map16; /* CPUINFO_PTR_INTERNAL_MEMORY_MAP */
const addrmap32_token * internal_map32; /* CPUINFO_PTR_INTERNAL_MEMORY_MAP */
const addrmap64_token * internal_map64; /* CPUINFO_PTR_INTERNAL_MEMORY_MAP */
cpu_validity_check_func validity_check; /* CPUINFO_PTR_VALIDITY_CHECK */
};
typedef struct _cpu_interface cpu_interface;
struct _cpu_interface
{
/* table of core functions */
cpu_get_info_func get_info;
cpu_set_info_func set_info;
cpu_get_context_func get_context;
cpu_set_context_func set_context;
cpu_init_func init;
cpu_reset_func reset;
cpu_exit_func exit;
cpu_execute_func execute;
cpu_burn_func burn;
cpu_disassemble_func disassemble;
cpu_translate_func translate;
/* other info */
size_t context_size;
INT8 address_shift;
int * icount;
};
/***************************************************************************
CORE CPU INTERFACE FUNCTIONS
***************************************************************************/
/* reset the internal CPU tracking */
void cpuintrf_init(running_machine *machine);
/* set up the interface for one CPU of a given type */
int cpuintrf_init_cpu(int cpunum, cpu_type cputype, int clock, const void *config, int (*irqcallback)(int));
/* clean up the interface for one CPU */
void cpuintrf_exit_cpu(int cpunum);
/* remember the previous context and set a new one */
void cpuintrf_push_context(int cpunum);
/* restore the previous context */
void cpuintrf_pop_context(void);
/* circular string buffer */
char *cpuintrf_temp_str(void);
/* set the dasm override handler */
void cpuintrf_set_dasm_override(int cpunum, offs_t (*dasm_override)(char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram));
/***************************************************************************
ACTIVE CPU ACCCESSORS
***************************************************************************/
/* get info accessors */
INT64 activecpu_get_info_int(UINT32 state);
void *activecpu_get_info_ptr(UINT32 state);
genf *activecpu_get_info_fct(UINT32 state);
const char *activecpu_get_info_string(UINT32 state);
/* set info accessors */
void activecpu_set_info_int(UINT32 state, INT64 data);
void activecpu_set_info_ptr(UINT32 state, void *data);
void activecpu_set_info_fct(UINT32 state, genf *data);
/* apply a +/- to the current icount */
void activecpu_adjust_icount(int delta);
/* return the current icount */
int activecpu_get_icount(void);
/* ensure banking is reset properly */
void activecpu_reset_banking(void);
/* set the input line on a CPU -- drivers use cpu_set_input_line() */
void activecpu_set_input_line(int irqline, int state);
/* return the PC, corrected to a byte offset, on the active CPU */
offs_t activecpu_get_physical_pc_byte(void);
/* update the banking on the active CPU */
void activecpu_set_opbase(offs_t val);
/* disassemble a line at a given PC on the active CPU */
offs_t activecpu_dasm(char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram);
#define activecpu_context_size() activecpu_get_info_int(CPUINFO_INT_CONTEXT_SIZE)
#define activecpu_input_lines() activecpu_get_info_int(CPUINFO_INT_INPUT_LINES)
#define activecpu_output_lines() activecpu_get_info_int(CPUINFO_INT_OUTPUT_LINES)
#define activecpu_default_irq_vector() activecpu_get_info_int(CPUINFO_INT_DEFAULT_IRQ_VECTOR)
#define activecpu_endianness() activecpu_get_info_int(CPUINFO_INT_ENDIANNESS)
#define activecpu_clock_multiplier() activecpu_get_info_int(CPUINFO_INT_CLOCK_MULTIPLIER)
#define activecpu_clock_divider() activecpu_get_info_int(CPUINFO_INT_CLOCK_DIVIDER)
#define activecpu_min_instruction_bytes() activecpu_get_info_int(CPUINFO_INT_MIN_INSTRUCTION_BYTES)
#define activecpu_max_instruction_bytes() activecpu_get_info_int(CPUINFO_INT_MAX_INSTRUCTION_BYTES)
#define activecpu_min_cycles() activecpu_get_info_int(CPUINFO_INT_MIN_CYCLES)
#define activecpu_max_cycles() activecpu_get_info_int(CPUINFO_INT_MAX_CYCLES)
#define activecpu_databus_width(space) activecpu_get_info_int(CPUINFO_INT_DATABUS_WIDTH + (space))
#define activecpu_addrbus_width(space) activecpu_get_info_int(CPUINFO_INT_ADDRBUS_WIDTH + (space))
#define activecpu_addrbus_shift(space) activecpu_get_info_int(CPUINFO_INT_ADDRBUS_SHIFT + (space))
#define activecpu_logaddr_width(space) activecpu_get_info_int(CPUINFO_INT_LOGADDR_WIDTH + (space))
#define activecpu_page_shift(space) activecpu_get_info_int(CPUINFO_INT_PAGE_SHIFT + (space))
#define activecpu_get_reg(reg) activecpu_get_info_int(CPUINFO_INT_REGISTER + (reg))
#define activecpu_debug_register_list() activecpu_get_info_ptr(CPUINFO_PTR_DEBUG_REGISTER_LIST)
#define activecpu_name() activecpu_get_info_string(CPUINFO_STR_NAME)
#define activecpu_core_family() activecpu_get_info_string(CPUINFO_STR_CORE_FAMILY)
#define activecpu_core_version() activecpu_get_info_string(CPUINFO_STR_CORE_VERSION)
#define activecpu_core_file() activecpu_get_info_string(CPUINFO_STR_CORE_FILE)
#define activecpu_core_credits() activecpu_get_info_string(CPUINFO_STR_CORE_CREDITS)
#define activecpu_flags() activecpu_get_info_string(CPUINFO_STR_FLAGS)
#define activecpu_irq_string(irq) activecpu_get_info_string(CPUINFO_STR_IRQ_STATE + (irq))
#define activecpu_reg_string(reg) activecpu_get_info_string(CPUINFO_STR_REGISTER + (reg))
#define activecpu_set_reg(reg, val) activecpu_set_info_int(CPUINFO_INT_REGISTER + (reg), (val))
/***************************************************************************
SPECIFIC CPU ACCCESSORS
***************************************************************************/
/* get info accessors */
INT64 cpunum_get_info_int(int cpunum, UINT32 state);
void *cpunum_get_info_ptr(int cpunum, UINT32 state);
genf *cpunum_get_info_fct(int cpunum, UINT32 state);
const char *cpunum_get_info_string(int cpunum, UINT32 state);
/* set info accessors */
void cpunum_set_info_int(int cpunum, UINT32 state, INT64 data);
void cpunum_set_info_ptr(int cpunum, UINT32 state, void *data);
void cpunum_set_info_fct(int cpunum, UINT32 state, genf *data);
/* execute the requested cycles on a given CPU */
int cpunum_execute(int cpunum, int cycles);
/* signal a reset for a given CPU */
void cpunum_reset(int cpunum);
/* read a byte from another CPU's memory space */
UINT8 cpunum_read_byte(int cpunum, offs_t address);
/* write a byte from another CPU's memory space */
void cpunum_write_byte(int cpunum, offs_t address, UINT8 data);
/* return a pointer to the saved context of a given CPU, or NULL if the
context is active (and contained within the CPU core */
void *cpunum_get_context_ptr(int cpunum);
/* return the PC, corrected to a byte offset, on a given CPU */
offs_t cpunum_get_physical_pc_byte(int cpunum);
/* update the banking on a given CPU */
void cpunum_set_opbase(int cpunum, offs_t val);
/* disassemble a line at a given PC on a given CPU */
offs_t cpunum_dasm(int cpunum, char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram);
#define cpunum_context_size(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_CONTEXT_SIZE)
#define cpunum_input_lines(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_INPUT_LINES)
#define cpunum_output_lines(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_OUTPUT_LINES)
#define cpunum_default_irq_vector(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_DEFAULT_IRQ_VECTOR)
#define cpunum_endianness(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_ENDIANNESS)
#define cpunum_clock_multiplier(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_CLOCK_MULTIPLIER)
#define cpunum_clock_divider(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_CLOCK_DIVIDER)
#define cpunum_min_instruction_bytes(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_MIN_INSTRUCTION_BYTES)
#define cpunum_max_instruction_bytes(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_MAX_INSTRUCTION_BYTES)
#define cpunum_min_cycles(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_MIN_CYCLES)
#define cpunum_max_cycles(cpunum) cpunum_get_info_int(cpunum, CPUINFO_INT_MAX_CYCLES)
#define cpunum_databus_width(cpunum, space) cpunum_get_info_int(cpunum, CPUINFO_INT_DATABUS_WIDTH + (space))
#define cpunum_addrbus_width(cpunum, space) cpunum_get_info_int(cpunum, CPUINFO_INT_ADDRBUS_WIDTH + (space))
#define cpunum_addrbus_shift(cpunum, space) cpunum_get_info_int(cpunum, CPUINFO_INT_ADDRBUS_SHIFT + (space))
#define cpunum_logaddr_width(cpunum, space) cpunum_get_info_int(cpunum, CPUINFO_INT_LOGADDR_WIDTH + (space))
#define cpunum_page_shift(cpunum, space) cpunum_get_info_int(cpunum, CPUINFO_INT_PAGE_SHIFT + (space))
#define cpunum_get_reg(cpunum, reg) cpunum_get_info_int(cpunum, CPUINFO_INT_REGISTER + (reg))
#define cpunum_debug_register_list(cpunum) cpunum_get_info_ptr(cpunum, CPUINFO_PTR_DEBUG_REGISTER_LIST)
#define cpunum_name(cpunum) cpunum_get_info_string(cpunum, CPUINFO_STR_NAME)
#define cpunum_core_family(cpunum) cpunum_get_info_string(cpunum, CPUINFO_STR_CORE_FAMILY)
#define cpunum_core_version(cpunum) cpunum_get_info_string(cpunum, CPUINFO_STR_CORE_VERSION)
#define cpunum_core_file(cpunum) cpunum_get_info_string(cpunum, CPUINFO_STR_CORE_FILE)
#define cpunum_core_credits(cpunum) cpunum_get_info_string(cpunum, CPUINFO_STR_CORE_CREDITS)
#define cpunum_flags(cpunum) cpunum_get_info_string(cpunum, CPUINFO_STR_FLAGS)
#define cpunum_irq_string(cpunum, irq) cpunum_get_info_string(cpunum, CPUINFO_STR_IRQ_STATE + (irq))
#define cpunum_reg_string(cpunum, reg) cpunum_get_info_string(cpunum, CPUINFO_STR_REGISTER + (reg))
#define cpunum_set_reg(cpunum, reg, val) cpunum_set_info_int(cpunum, CPUINFO_INT_REGISTER + (reg), (val))
/***************************************************************************
CPU TYPE ACCCESSORS
***************************************************************************/
/* get info accessors */
INT64 cputype_get_info_int(cpu_type cputype, UINT32 state);
void *cputype_get_info_ptr(cpu_type cputype, UINT32 state);
genf *cputype_get_info_fct(cpu_type cputype, UINT32 state);
const char *cputype_get_info_string(cpu_type cputype, UINT32 state);
#define cputype_context_size(cputype) cputype_get_info_int(cputype, CPUINFO_INT_CONTEXT_SIZE)
#define cputype_input_lines(cputype) cputype_get_info_int(cputype, CPUINFO_INT_INPUT_LINES)
#define cputype_output_lines(cputype) cputype_get_info_int(cputype, CPUINFO_INT_OUTPUT_LINES)
#define cputype_default_irq_vector(cputype) cputype_get_info_int(cputype, CPUINFO_INT_DEFAULT_IRQ_VECTOR)
#define cputype_endianness(cputype) cputype_get_info_int(cputype, CPUINFO_INT_ENDIANNESS)
#define cputype_clock_multiplier(cputype) cputype_get_info_int(cputype, CPUINFO_INT_CLOCK_MULTIPLIER)
#define cputype_clock_divider(cputype) cputype_get_info_int(cputype, CPUINFO_INT_CLOCK_DIVIDER)
#define cputype_min_instruction_bytes(cputype) cputype_get_info_int(cputype, CPUINFO_INT_MIN_INSTRUCTION_BYTES)
#define cputype_max_instruction_bytes(cputype) cputype_get_info_int(cputype, CPUINFO_INT_MAX_INSTRUCTION_BYTES)
#define cputype_min_cycles(cputype) cputype_get_info_int(cputype, CPUINFO_INT_MIN_CYCLES)
#define cputype_max_cycles(cputype) cputype_get_info_int(cputype, CPUINFO_INT_MAX_CYCLES)
#define cputype_databus_width(cputype, space) cputype_get_info_int(cputype, CPUINFO_INT_DATABUS_WIDTH + (space))
#define cputype_addrbus_width(cputype, space) cputype_get_info_int(cputype, CPUINFO_INT_ADDRBUS_WIDTH + (space))
#define cputype_addrbus_shift(cputype, space) cputype_get_info_int(cputype, CPUINFO_INT_ADDRBUS_SHIFT + (space))
#define cputype_page_shift(cputype, space) cputype_get_info_int(cputype, CPUINFO_INT_PAGE_SHIFT + (space))
#define cputype_debug_register_list(cputype) cputype_get_info_ptr(cputype, CPUINFO_PTR_DEBUG_REGISTER_LIST)
#define cputype_name(cputype) cputype_get_info_string(cputype, CPUINFO_STR_NAME)
#define cputype_core_family(cputype) cputype_get_info_string(cputype, CPUINFO_STR_CORE_FAMILY)
#define cputype_core_version(cputype) cputype_get_info_string(cputype, CPUINFO_STR_CORE_VERSION)
#define cputype_core_file(cputype) cputype_get_info_string(cputype, CPUINFO_STR_CORE_FILE)
#define cputype_core_credits(cputype) cputype_get_info_string(cputype, CPUINFO_STR_CORE_CREDITS)
/***************************************************************************
MACROS
***************************************************************************/
#define activecpu_get_previouspc() ((offs_t)activecpu_get_reg(REG_PREVIOUSPC))
#define activecpu_get_pc() ((offs_t)activecpu_get_reg(REG_PC))
#define activecpu_get_sp() activecpu_get_reg(REG_SP)
/***************************************************************************
CPU INTERFACE ACCESSORS
***************************************************************************/
/* return a pointer to the interface struct for a given CPU type */
INLINE const cpu_interface *cputype_get_interface(cpu_type cputype)
{
extern cpu_interface cpuintrf[];
return &cpuintrf[cputype];
}
/* return a the index of the active CPU */
INLINE int cpu_getactivecpu(void)
{
extern int activecpu;
return activecpu;
}
/* return a the index of the executing CPU */
INLINE int cpu_getexecutingcpu(void)
{
extern int executingcpu;
return executingcpu;
}
/* return a the total number of registered CPUs */
INLINE int cpu_gettotalcpu(void)
{
extern int totalcpu;
return totalcpu;
}
/* return the current PC or ~0 if no CPU is active */
INLINE offs_t safe_activecpu_get_pc(void)
{
return (cpu_getactivecpu() >= 0) ? activecpu_get_pc() : ~0;
}
#endif /* __CPUINTRF_H__ */