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-rw-r--r--src/emu/devcpu.h338
1 files changed, 169 insertions, 169 deletions
diff --git a/src/emu/devcpu.h b/src/emu/devcpu.h
index 35cff542e77..e52fb08d9e4 100644
--- a/src/emu/devcpu.h
+++ b/src/emu/devcpu.h
@@ -59,20 +59,20 @@ enum
{
// --- the following bits of info are returned as 64-bit signed integers ---
CPUINFO_INT_FIRST = 0x00000,
- CPUINFO_INT_ENDIANNESS = CPUINFO_INT_FIRST, // R/O: either ENDIANNESS_BIG or ENDIANNESS_LITTLE
- CPUINFO_INT_DATABUS_WIDTH, // R/O: data bus size for each address space (8,16,32,64)
+ CPUINFO_INT_ENDIANNESS = CPUINFO_INT_FIRST, // R/O: either ENDIANNESS_BIG or ENDIANNESS_LITTLE
+ CPUINFO_INT_DATABUS_WIDTH, // R/O: data bus size for each address space (8,16,32,64)
CPUINFO_INT_DATABUS_WIDTH_0 = CPUINFO_INT_DATABUS_WIDTH + 0,
CPUINFO_INT_DATABUS_WIDTH_1 = CPUINFO_INT_DATABUS_WIDTH + 1,
CPUINFO_INT_DATABUS_WIDTH_2 = CPUINFO_INT_DATABUS_WIDTH + 2,
CPUINFO_INT_DATABUS_WIDTH_3 = CPUINFO_INT_DATABUS_WIDTH + 3,
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, // R/O: address bus size for each address space (12-32)
CPUINFO_INT_ADDRBUS_WIDTH_0 = CPUINFO_INT_ADDRBUS_WIDTH + 0,
CPUINFO_INT_ADDRBUS_WIDTH_1 = CPUINFO_INT_ADDRBUS_WIDTH + 1,
CPUINFO_INT_ADDRBUS_WIDTH_2 = CPUINFO_INT_ADDRBUS_WIDTH + 2,
CPUINFO_INT_ADDRBUS_WIDTH_3 = CPUINFO_INT_ADDRBUS_WIDTH + 3,
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, // R/O: shift applied to addresses each address space (+3 means >>3, -1 means <<1)
CPUINFO_INT_ADDRBUS_SHIFT_0 = CPUINFO_INT_ADDRBUS_SHIFT + 0,
CPUINFO_INT_ADDRBUS_SHIFT_1 = CPUINFO_INT_ADDRBUS_SHIFT + 1,
CPUINFO_INT_ADDRBUS_SHIFT_2 = CPUINFO_INT_ADDRBUS_SHIFT + 2,
@@ -80,50 +80,50 @@ enum
CPUINFO_INT_ADDRBUS_SHIFT_LAST = CPUINFO_INT_ADDRBUS_SHIFT + ADDRESS_SPACES - 1,
// CPU-specific additionsg
- CPUINFO_INT_CONTEXT_SIZE = 0x04000, // R/O: size of CPU context in bytes
- CPUINFO_INT_INPUT_LINES, // R/O: number of input lines
- CPUINFO_INT_DEFAULT_IRQ_VECTOR, // R/O: default IRQ vector
- 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_LOGADDR_WIDTH, // R/O: address bus size for logical accesses in each space (0=same as physical)
+ CPUINFO_INT_CONTEXT_SIZE = 0x04000, // R/O: size of CPU context in bytes
+ CPUINFO_INT_INPUT_LINES, // R/O: number of input lines
+ CPUINFO_INT_DEFAULT_IRQ_VECTOR, // R/O: default IRQ vector
+ 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_LOGADDR_WIDTH, // R/O: address bus size for logical accesses in each space (0=same as physical)
CPUINFO_INT_LOGADDR_WIDTH_PROGRAM = CPUINFO_INT_LOGADDR_WIDTH + AS_PROGRAM,
CPUINFO_INT_LOGADDR_WIDTH_DATA = CPUINFO_INT_LOGADDR_WIDTH + AS_DATA,
CPUINFO_INT_LOGADDR_WIDTH_IO = CPUINFO_INT_LOGADDR_WIDTH + AS_IO,
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, // R/O: size of a page log 2 (i.e., 12=4096), or 0 if paging not supported
CPUINFO_INT_PAGE_SHIFT_PROGRAM = CPUINFO_INT_PAGE_SHIFT + AS_PROGRAM,
CPUINFO_INT_PAGE_SHIFT_DATA = CPUINFO_INT_PAGE_SHIFT + AS_DATA,
CPUINFO_INT_PAGE_SHIFT_IO = CPUINFO_INT_PAGE_SHIFT + AS_IO,
CPUINFO_INT_PAGE_SHIFT_LAST = CPUINFO_INT_PAGE_SHIFT + ADDRESS_SPACES - 1,
- CPUINFO_INT_INPUT_STATE, // R/W: states for each input line
+ 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_REGISTER = CPUINFO_INT_INPUT_STATE_LAST + 10, // R/W: values of up to MAX_REGs registers
- CPUINFO_INT_SP = CPUINFO_INT_REGISTER + STATE_GENSP, // R/W: the current stack pointer value
- CPUINFO_INT_PC = CPUINFO_INT_REGISTER + STATE_GENPC, // R/W: the current PC value
- CPUINFO_INT_PREVIOUSPC = CPUINFO_INT_REGISTER + STATE_GENPCBASE, // R/W: the previous PC value
+ CPUINFO_INT_REGISTER = CPUINFO_INT_INPUT_STATE_LAST + 10, // R/W: values of up to MAX_REGs registers
+ CPUINFO_INT_SP = CPUINFO_INT_REGISTER + STATE_GENSP, // R/W: the current stack pointer value
+ CPUINFO_INT_PC = CPUINFO_INT_REGISTER + STATE_GENPC, // R/W: the current PC value
+ CPUINFO_INT_PREVIOUSPC = CPUINFO_INT_REGISTER + STATE_GENPCBASE, // R/W: the previous PC value
- CPUINFO_IS_OCTAL = CPUINFO_INT_REGISTER + MAX_REGS - 2, // R/O: determine if default is octal or hexadecimal
+ CPUINFO_IS_OCTAL = CPUINFO_INT_REGISTER + MAX_REGS - 2, // R/O: determine if default is octal or hexadecimal
CPUINFO_INT_REGISTER_LAST = CPUINFO_INT_REGISTER + MAX_REGS - 1,
- CPUINFO_INT_CPU_SPECIFIC = 0x08000, // R/W: CPU-specific values start here
+ 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_INTERNAL_MEMORY_MAP = CPUINFO_PTR_FIRST, // R/O: address_map_constructor map
+ CPUINFO_PTR_INTERNAL_MEMORY_MAP = CPUINFO_PTR_FIRST, // R/O: address_map_constructor map
CPUINFO_PTR_INTERNAL_MEMORY_MAP_0 = CPUINFO_PTR_INTERNAL_MEMORY_MAP + 0,
CPUINFO_PTR_INTERNAL_MEMORY_MAP_1 = CPUINFO_PTR_INTERNAL_MEMORY_MAP + 1,
CPUINFO_PTR_INTERNAL_MEMORY_MAP_2 = CPUINFO_PTR_INTERNAL_MEMORY_MAP + 2,
CPUINFO_PTR_INTERNAL_MEMORY_MAP_3 = CPUINFO_PTR_INTERNAL_MEMORY_MAP + 3,
CPUINFO_PTR_INTERNAL_MEMORY_MAP_LAST = CPUINFO_PTR_INTERNAL_MEMORY_MAP + ADDRESS_SPACES - 1,
- CPUINFO_PTR_DEFAULT_MEMORY_MAP, // R/O: address_map_constructor map
+ CPUINFO_PTR_DEFAULT_MEMORY_MAP, // R/O: address_map_constructor map
CPUINFO_PTR_DEFAULT_MEMORY_MAP_0 = CPUINFO_PTR_DEFAULT_MEMORY_MAP + 0,
CPUINFO_PTR_DEFAULT_MEMORY_MAP_1 = CPUINFO_PTR_DEFAULT_MEMORY_MAP + 1,
CPUINFO_PTR_DEFAULT_MEMORY_MAP_2 = CPUINFO_PTR_DEFAULT_MEMORY_MAP + 2,
@@ -134,45 +134,45 @@ enum
CPUINFO_PTR_INSTRUCTION_COUNTER = 0x14000,
// R/O: int *icount
- CPUINFO_PTR_CPU_SPECIFIC = 0x18000, // R/W: CPU-specific values start here
+ CPUINFO_PTR_CPU_SPECIFIC = 0x18000, // R/W: CPU-specific values start here
// --- the following bits of info are returned as pointers to functions ---
CPUINFO_FCT_FIRST = 0x20000,
// CPU-specific additions
- CPUINFO_FCT_SET_INFO = 0x24000, // R/O: void (*set_info)(legacy_cpu_device *device, UINT32 state, INT64 data, void *ptr)
- CPUINFO_FCT_INIT, // R/O: void (*init)(legacy_cpu_device *device, int index, int clock, int (*irqcallback)(legacy_cpu_device *device, int))
- CPUINFO_FCT_RESET, // R/O: void (*reset)(legacy_cpu_device *device)
- CPUINFO_FCT_EXIT, // R/O: void (*exit)(legacy_cpu_device *device)
- CPUINFO_FCT_EXECUTE, // R/O: int (*execute)(legacy_cpu_device *device, int cycles)
- CPUINFO_FCT_BURN, // R/O: void (*burn)(legacy_cpu_device *device, int cycles)
- CPUINFO_FCT_DISASSEMBLE, // R/O: offs_t (*disassemble)(legacy_cpu_device *device, char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram, int options)
- CPUINFO_FCT_TRANSLATE, // R/O: int (*translate)(legacy_cpu_device *device, address_spacenum space, int intention, offs_t *address)
- CPUINFO_FCT_READ, // R/O: int (*read)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 *value)
- CPUINFO_FCT_WRITE, // R/O: int (*write)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 value)
- CPUINFO_FCT_READOP, // R/O: int (*readop)(legacy_cpu_device *device, UINT32 offset, int size, UINT64 *value)
- CPUINFO_FCT_DEBUG_INIT, // R/O: void (*debug_init)(legacy_cpu_device *device)
- CPUINFO_FCT_IMPORT_STATE, // R/O: void (*import_state)(legacy_cpu_device *device, const device_state_entry &entry)
- CPUINFO_FCT_EXPORT_STATE, // R/O: void (*export_state)(legacy_cpu_device *device, const device_state_entry &entry)
- CPUINFO_FCT_IMPORT_STRING, // R/O: void (*import_string)(legacy_cpu_device *device, const device_state_entry &entry, astring &string)
- CPUINFO_FCT_EXPORT_STRING, // R/O: void (*export_string)(legacy_cpu_device *device, const device_state_entry &entry, astring &string)
-
- CPUINFO_FCT_CPU_SPECIFIC = 0x28000, // R/W: CPU-specific values start here
+ CPUINFO_FCT_SET_INFO = 0x24000, // R/O: void (*set_info)(legacy_cpu_device *device, UINT32 state, INT64 data, void *ptr)
+ CPUINFO_FCT_INIT, // R/O: void (*init)(legacy_cpu_device *device, int index, int clock, int (*irqcallback)(legacy_cpu_device *device, int))
+ CPUINFO_FCT_RESET, // R/O: void (*reset)(legacy_cpu_device *device)
+ CPUINFO_FCT_EXIT, // R/O: void (*exit)(legacy_cpu_device *device)
+ CPUINFO_FCT_EXECUTE, // R/O: int (*execute)(legacy_cpu_device *device, int cycles)
+ CPUINFO_FCT_BURN, // R/O: void (*burn)(legacy_cpu_device *device, int cycles)
+ CPUINFO_FCT_DISASSEMBLE, // R/O: offs_t (*disassemble)(legacy_cpu_device *device, char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram, int options)
+ CPUINFO_FCT_TRANSLATE, // R/O: int (*translate)(legacy_cpu_device *device, address_spacenum space, int intention, offs_t *address)
+ CPUINFO_FCT_READ, // R/O: int (*read)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 *value)
+ CPUINFO_FCT_WRITE, // R/O: int (*write)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 value)
+ CPUINFO_FCT_READOP, // R/O: int (*readop)(legacy_cpu_device *device, UINT32 offset, int size, UINT64 *value)
+ CPUINFO_FCT_DEBUG_INIT, // R/O: void (*debug_init)(legacy_cpu_device *device)
+ CPUINFO_FCT_IMPORT_STATE, // R/O: void (*import_state)(legacy_cpu_device *device, const device_state_entry &entry)
+ CPUINFO_FCT_EXPORT_STATE, // R/O: void (*export_state)(legacy_cpu_device *device, const device_state_entry &entry)
+ CPUINFO_FCT_IMPORT_STRING, // R/O: void (*import_string)(legacy_cpu_device *device, const device_state_entry &entry, astring &string)
+ CPUINFO_FCT_EXPORT_STRING, // R/O: void (*export_string)(legacy_cpu_device *device, const device_state_entry &entry, astring &string)
+
+ CPUINFO_FCT_CPU_SPECIFIC = 0x28000, // R/W: CPU-specific values start here
// --- the following bits of info are returned as NULL-terminated strings ---
CPUINFO_STR_FIRST = 0x30000,
- CPUINFO_STR_NAME = CPUINFO_STR_FIRST, // R/O: name of the device
- CPUINFO_STR_SHORTNAME, // R/O: search path of device, used for media loading
- CPUINFO_STR_FAMILY, // R/O: family of the device
- CPUINFO_STR_VERSION, // R/O: version of the device
- CPUINFO_STR_SOURCE_FILE, // R/O: file containing the device implementation
- CPUINFO_STR_CREDITS, // R/O: credits for the device implementation
+ CPUINFO_STR_NAME = CPUINFO_STR_FIRST, // R/O: name of the device
+ CPUINFO_STR_SHORTNAME, // R/O: search path of device, used for media loading
+ CPUINFO_STR_FAMILY, // R/O: family of the device
+ CPUINFO_STR_VERSION, // R/O: version of the device
+ CPUINFO_STR_SOURCE_FILE, // R/O: file containing the device implementation
+ CPUINFO_STR_CREDITS, // R/O: credits for the device implementation
// CPU-specific additions
- CPUINFO_STR_REGISTER = 0x34000 + 10, // R/O: string representation of up to MAX_REGs registers
- CPUINFO_STR_FLAGS = CPUINFO_STR_REGISTER + STATE_GENFLAGS, // R/O: string representation of the main flags value
+ CPUINFO_STR_REGISTER = 0x34000 + 10, // R/O: string representation of up to MAX_REGs registers
+ CPUINFO_STR_FLAGS = CPUINFO_STR_REGISTER + STATE_GENFLAGS, // R/O: string representation of the main flags value
CPUINFO_STR_REGISTER_LAST = CPUINFO_STR_REGISTER + MAX_REGS - 1,
- CPUINFO_STR_CPU_SPECIFIC = 0x38000 // R/W: CPU-specific values start here
+ CPUINFO_STR_CPU_SPECIFIC = 0x38000 // R/W: CPU-specific values start here
};
@@ -204,94 +204,94 @@ enum
//**************************************************************************
// macro for declaring the configuration and device classes of a legacy CPU device
-#define DECLARE_LEGACY_CPU_DEVICE(name, basename) \
+#define DECLARE_LEGACY_CPU_DEVICE(name, basename) \
\
-CPU_GET_INFO( basename ); \
+CPU_GET_INFO( basename ); \
\
-class basename##_device : public legacy_cpu_device \
-{ \
-public: \
- basename##_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, UINT32 clock); \
-}; \
+class basename##_device : public legacy_cpu_device \
+{ \
+public: \
+ basename##_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, UINT32 clock); \
+}; \
\
extern const device_type name;
// macro for defining the implementation needed for configuration and device classes
-#define DEFINE_LEGACY_CPU_DEVICE(name, basename) \
+#define DEFINE_LEGACY_CPU_DEVICE(name, basename) \
\
-basename##_device::basename##_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, UINT32 clock) \
- : legacy_cpu_device(mconfig, type, tag, owner, clock, CPU_GET_INFO_NAME(basename)) \
-{ \
-} \
+basename##_device::basename##_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, UINT32 clock) \
+ : legacy_cpu_device(mconfig, type, tag, owner, clock, CPU_GET_INFO_NAME(basename)) \
+{ \
+} \
\
const device_type name = &legacy_device_creator<basename##_device>
// CPU interface functions
-#define CPU_GET_INFO_NAME(name) cpu_get_info_##name
-#define CPU_GET_INFO(name) void CPU_GET_INFO_NAME(name)(legacy_cpu_device *device, UINT32 state, cpuinfo *info)
-#define CPU_GET_INFO_CALL(name) CPU_GET_INFO_NAME(name)(device, state, info)
+#define CPU_GET_INFO_NAME(name) cpu_get_info_##name
+#define CPU_GET_INFO(name) void CPU_GET_INFO_NAME(name)(legacy_cpu_device *device, UINT32 state, cpuinfo *info)
+#define CPU_GET_INFO_CALL(name) CPU_GET_INFO_NAME(name)(device, state, info)
-#define CPU_SET_INFO_NAME(name) cpu_set_info_##name
-#define CPU_SET_INFO(name) void CPU_SET_INFO_NAME(name)(legacy_cpu_device *device, UINT32 state, cpuinfo *info)
-#define CPU_SET_INFO_CALL(name) CPU_SET_INFO_NAME(name)(device, state, info)
+#define CPU_SET_INFO_NAME(name) cpu_set_info_##name
+#define CPU_SET_INFO(name) void CPU_SET_INFO_NAME(name)(legacy_cpu_device *device, UINT32 state, cpuinfo *info)
+#define CPU_SET_INFO_CALL(name) CPU_SET_INFO_NAME(name)(device, state, info)
-#define CPU_INIT_NAME(name) cpu_init_##name
-#define CPU_INIT(name) void CPU_INIT_NAME(name)(legacy_cpu_device *device, device_irq_acknowledge_callback irqcallback)
-#define CPU_INIT_CALL(name) CPU_INIT_NAME(name)(device, irqcallback)
+#define CPU_INIT_NAME(name) cpu_init_##name
+#define CPU_INIT(name) void CPU_INIT_NAME(name)(legacy_cpu_device *device, device_irq_acknowledge_callback irqcallback)
+#define CPU_INIT_CALL(name) CPU_INIT_NAME(name)(device, irqcallback)
-#define CPU_RESET_NAME(name) cpu_reset_##name
-#define CPU_RESET(name) void CPU_RESET_NAME(name)(legacy_cpu_device *device)
-#define CPU_RESET_CALL(name) CPU_RESET_NAME(name)(device)
+#define CPU_RESET_NAME(name) cpu_reset_##name
+#define CPU_RESET(name) void CPU_RESET_NAME(name)(legacy_cpu_device *device)
+#define CPU_RESET_CALL(name) CPU_RESET_NAME(name)(device)
-#define CPU_EXIT_NAME(name) cpu_exit_##name
-#define CPU_EXIT(name) void CPU_EXIT_NAME(name)(legacy_cpu_device *device)
-#define CPU_EXIT_CALL(name) CPU_EXIT_NAME(name)(device)
+#define CPU_EXIT_NAME(name) cpu_exit_##name
+#define CPU_EXIT(name) void CPU_EXIT_NAME(name)(legacy_cpu_device *device)
+#define CPU_EXIT_CALL(name) CPU_EXIT_NAME(name)(device)
-#define CPU_EXECUTE_NAME(name) cpu_execute_##name
-#define CPU_EXECUTE(name) void CPU_EXECUTE_NAME(name)(legacy_cpu_device *device)
-#define CPU_EXECUTE_CALL(name) CPU_EXECUTE_NAME(name)(device, cycles)
+#define CPU_EXECUTE_NAME(name) cpu_execute_##name
+#define CPU_EXECUTE(name) void CPU_EXECUTE_NAME(name)(legacy_cpu_device *device)
+#define CPU_EXECUTE_CALL(name) CPU_EXECUTE_NAME(name)(device, cycles)
-#define CPU_BURN_NAME(name) cpu_burn_##name
-#define CPU_BURN(name) void CPU_BURN_NAME(name)(legacy_cpu_device *device, int cycles)
-#define CPU_BURN_CALL(name) CPU_BURN_NAME(name)(device, cycles)
+#define CPU_BURN_NAME(name) cpu_burn_##name
+#define CPU_BURN(name) void CPU_BURN_NAME(name)(legacy_cpu_device *device, int cycles)
+#define CPU_BURN_CALL(name) CPU_BURN_NAME(name)(device, cycles)
-#define CPU_TRANSLATE_NAME(name) cpu_translate_##name
-#define CPU_TRANSLATE(name) int CPU_TRANSLATE_NAME(name)(legacy_cpu_device *device, address_spacenum space, int intention, offs_t *address)
-#define CPU_TRANSLATE_CALL(name) CPU_TRANSLATE_NAME(name)(device, space, intention, address)
+#define CPU_TRANSLATE_NAME(name) cpu_translate_##name
+#define CPU_TRANSLATE(name) int CPU_TRANSLATE_NAME(name)(legacy_cpu_device *device, address_spacenum space, int intention, offs_t *address)
+#define CPU_TRANSLATE_CALL(name) CPU_TRANSLATE_NAME(name)(device, space, intention, address)
-#define CPU_READ_NAME(name) cpu_read_##name
-#define CPU_READ(name) int CPU_READ_NAME(name)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 *value)
-#define CPU_READ_CALL(name) CPU_READ_NAME(name)(device, space, offset, size, value)
+#define CPU_READ_NAME(name) cpu_read_##name
+#define CPU_READ(name) int CPU_READ_NAME(name)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 *value)
+#define CPU_READ_CALL(name) CPU_READ_NAME(name)(device, space, offset, size, value)
-#define CPU_WRITE_NAME(name) cpu_write_##name
-#define CPU_WRITE(name) int CPU_WRITE_NAME(name)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 value)
-#define CPU_WRITE_CALL(name) CPU_WRITE_NAME(name)(device, space, offset, size, value)
+#define CPU_WRITE_NAME(name) cpu_write_##name
+#define CPU_WRITE(name) int CPU_WRITE_NAME(name)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 value)
+#define CPU_WRITE_CALL(name) CPU_WRITE_NAME(name)(device, space, offset, size, value)
-#define CPU_READOP_NAME(name) cpu_readop_##name
-#define CPU_READOP(name) int CPU_READOP_NAME(name)(legacy_cpu_device *device, UINT32 offset, int size, UINT64 *value)
-#define CPU_READOP_CALL(name) CPU_READOP_NAME(name)(device, offset, size, value)
+#define CPU_READOP_NAME(name) cpu_readop_##name
+#define CPU_READOP(name) int CPU_READOP_NAME(name)(legacy_cpu_device *device, UINT32 offset, int size, UINT64 *value)
+#define CPU_READOP_CALL(name) CPU_READOP_NAME(name)(device, offset, size, value)
-#define CPU_DEBUG_INIT_NAME(name) cpu_debug_init_##name
-#define CPU_DEBUG_INIT(name) void CPU_DEBUG_INIT_NAME(name)(legacy_cpu_device *device)
-#define CPU_DEBUG_INIT_CALL(name) CPU_DEBUG_INIT_NAME(name)(device)
+#define CPU_DEBUG_INIT_NAME(name) cpu_debug_init_##name
+#define CPU_DEBUG_INIT(name) void CPU_DEBUG_INIT_NAME(name)(legacy_cpu_device *device)
+#define CPU_DEBUG_INIT_CALL(name) CPU_DEBUG_INIT_NAME(name)(device)
-#define CPU_DISASSEMBLE_NAME(name) cpu_disassemble_##name
-#define CPU_DISASSEMBLE(name) offs_t CPU_DISASSEMBLE_NAME(name)(legacy_cpu_device *device, char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram, int options)
-#define CPU_DISASSEMBLE_CALL(name) CPU_DISASSEMBLE_NAME(name)(device, buffer, pc, oprom, opram, options)
+#define CPU_DISASSEMBLE_NAME(name) cpu_disassemble_##name
+#define CPU_DISASSEMBLE(name) offs_t CPU_DISASSEMBLE_NAME(name)(legacy_cpu_device *device, char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram, int options)
+#define CPU_DISASSEMBLE_CALL(name) CPU_DISASSEMBLE_NAME(name)(device, buffer, pc, oprom, opram, options)
-#define CPU_IMPORT_STATE_NAME(name) cpu_state_import_##name
-#define CPU_IMPORT_STATE(name) void CPU_IMPORT_STATE_NAME(name)(legacy_cpu_device *device, const device_state_entry &entry)
-#define CPU_IMPORT_STATE_CALL(name) CPU_IMPORT_STATE_NAME(name)(device, entry)
+#define CPU_IMPORT_STATE_NAME(name) cpu_state_import_##name
+#define CPU_IMPORT_STATE(name) void CPU_IMPORT_STATE_NAME(name)(legacy_cpu_device *device, const device_state_entry &entry)
+#define CPU_IMPORT_STATE_CALL(name) CPU_IMPORT_STATE_NAME(name)(device, entry)
-#define CPU_EXPORT_STATE_NAME(name) cpu_state_export_##name
-#define CPU_EXPORT_STATE(name) void CPU_EXPORT_STATE_NAME(name)(legacy_cpu_device *device, const device_state_entry &entry)
-#define CPU_EXPORT_STATE_CALL(name) CPU_EXPORT_STATE_NAME(name)(device, entry)
+#define CPU_EXPORT_STATE_NAME(name) cpu_state_export_##name
+#define CPU_EXPORT_STATE(name) void CPU_EXPORT_STATE_NAME(name)(legacy_cpu_device *device, const device_state_entry &entry)
+#define CPU_EXPORT_STATE_CALL(name) CPU_EXPORT_STATE_NAME(name)(device, entry)
-#define CPU_EXPORT_STRING_NAME(name) cpu_string_export_##name
-#define CPU_EXPORT_STRING(name) void CPU_EXPORT_STRING_NAME(name)(legacy_cpu_device *device, const device_state_entry &entry, astring &string)
-#define CPU_EXPORT_STRING_CALL(name) CPU_EXPORT_STRING_NAME(name)(device, entry, string)
+#define CPU_EXPORT_STRING_NAME(name) cpu_string_export_##name
+#define CPU_EXPORT_STRING(name) void CPU_EXPORT_STRING_NAME(name)(legacy_cpu_device *device, const device_state_entry &entry, astring &string)
+#define CPU_EXPORT_STRING_CALL(name) CPU_EXPORT_STRING_NAME(name)(device, entry, string)
// this template function creates a stub which constructs a device
@@ -319,10 +319,10 @@ typedef void (*cpu_reset_func)(legacy_cpu_device *device);
typedef void (*cpu_exit_func)(legacy_cpu_device *device);
typedef void (*cpu_execute_func)(legacy_cpu_device *device);
typedef void (*cpu_burn_func)(legacy_cpu_device *device, int cycles);
-typedef int (*cpu_translate_func)(legacy_cpu_device *device, address_spacenum space, int intention, offs_t *address);
-typedef int (*cpu_read_func)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 *value);
-typedef int (*cpu_write_func)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 value);
-typedef int (*cpu_readop_func)(legacy_cpu_device *device, UINT32 offset, int size, UINT64 *value);
+typedef int (*cpu_translate_func)(legacy_cpu_device *device, address_spacenum space, int intention, offs_t *address);
+typedef int (*cpu_read_func)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 *value);
+typedef int (*cpu_write_func)(legacy_cpu_device *device, address_spacenum space, UINT32 offset, int size, UINT64 value);
+typedef int (*cpu_readop_func)(legacy_cpu_device *device, UINT32 offset, int size, UINT64 *value);
typedef void (*cpu_debug_init_func)(legacy_cpu_device *device);
typedef offs_t (*cpu_disassemble_func)(legacy_cpu_device *device, char *buffer, offs_t pc, const UINT8 *oprom, const UINT8 *opram, int options);
typedef void (*cpu_state_io_func)(legacy_cpu_device *device, const device_state_entry &entry);
@@ -332,43 +332,43 @@ typedef void (*cpu_string_io_func)(legacy_cpu_device *device, const device_state
// 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_FCT_SET_INFO
- cpu_init_func init; // CPUINFO_FCT_INIT
- cpu_reset_func reset; // CPUINFO_FCT_RESET
- cpu_exit_func exit; // CPUINFO_FCT_EXIT
- cpu_execute_func execute; // CPUINFO_FCT_EXECUTE
- cpu_burn_func burn; // CPUINFO_FCT_BURN
- cpu_translate_func translate; // CPUINFO_FCT_TRANSLATE
- cpu_read_func read; // CPUINFO_FCT_READ
- cpu_write_func write; // CPUINFO_FCT_WRITE
- cpu_readop_func readop; // CPUINFO_FCT_READOP
- cpu_debug_init_func debug_init; // CPUINFO_FCT_DEBUG_INIT
- cpu_disassemble_func disassemble; // CPUINFO_FCT_DISASSEMBLE
- cpu_state_io_func import_state; // CPUINFO_FCT_IMPORT_STATE
- cpu_state_io_func export_state; // CPUINFO_FCT_EXPORT_STATE
- cpu_string_io_func import_string; // CPUINFO_FCT_IMPORT_STRING
- cpu_string_io_func export_string; // CPUINFO_FCT_EXPORT_STRING
- int * icount; // CPUINFO_PTR_INSTRUCTION_COUNTER
- address_map_constructor internal_map8; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
- address_map_constructor internal_map16; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
- address_map_constructor internal_map32; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
- address_map_constructor internal_map64; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
- address_map_constructor default_map8; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
- address_map_constructor default_map16; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
- address_map_constructor default_map32; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
- address_map_constructor default_map64; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
+ INT64 i; // generic integers
+ void * p; // generic pointers
+ genf * f; // generic function pointers
+ char * s; // generic strings
+
+ cpu_set_info_func setinfo; // CPUINFO_FCT_SET_INFO
+ cpu_init_func init; // CPUINFO_FCT_INIT
+ cpu_reset_func reset; // CPUINFO_FCT_RESET
+ cpu_exit_func exit; // CPUINFO_FCT_EXIT
+ cpu_execute_func execute; // CPUINFO_FCT_EXECUTE
+ cpu_burn_func burn; // CPUINFO_FCT_BURN
+ cpu_translate_func translate; // CPUINFO_FCT_TRANSLATE
+ cpu_read_func read; // CPUINFO_FCT_READ
+ cpu_write_func write; // CPUINFO_FCT_WRITE
+ cpu_readop_func readop; // CPUINFO_FCT_READOP
+ cpu_debug_init_func debug_init; // CPUINFO_FCT_DEBUG_INIT
+ cpu_disassemble_func disassemble; // CPUINFO_FCT_DISASSEMBLE
+ cpu_state_io_func import_state; // CPUINFO_FCT_IMPORT_STATE
+ cpu_state_io_func export_state; // CPUINFO_FCT_EXPORT_STATE
+ cpu_string_io_func import_string; // CPUINFO_FCT_IMPORT_STRING
+ cpu_string_io_func export_string; // CPUINFO_FCT_EXPORT_STRING
+ int * icount; // CPUINFO_PTR_INSTRUCTION_COUNTER
+ address_map_constructor internal_map8; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
+ address_map_constructor internal_map16; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
+ address_map_constructor internal_map32; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
+ address_map_constructor internal_map64; // CPUINFO_PTR_INTERNAL_MEMORY_MAP
+ address_map_constructor default_map8; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
+ address_map_constructor default_map16; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
+ address_map_constructor default_map32; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
+ address_map_constructor default_map64; // CPUINFO_PTR_DEFAULT_MEMORY_MAP
};
// ======================> cpu_device
-class cpu_device : public device_t,
+class cpu_device : public device_t,
public device_execute_interface,
public device_memory_interface,
public device_state_interface,
@@ -442,27 +442,27 @@ protected:
protected:
// internal state
- cpu_get_info_func m_get_info;
- address_space_config m_space_config[3]; // array of address space configs
- void * m_token; // pointer to our state
-
- cpu_set_info_func m_set_info; // extracted legacy function pointers
- cpu_execute_func m_execute; //
- cpu_burn_func m_burn; //
- cpu_translate_func m_translate; //
- cpu_read_func m_read; //
- cpu_write_func m_write; //
- cpu_readop_func m_readop; //
- cpu_disassemble_func m_disassemble; //
- cpu_state_io_func m_state_import; //
- cpu_state_io_func m_state_export; //
- cpu_string_io_func m_string_export; //
- cpu_exit_func m_exit; //
-
- UINT64 m_state_io; // temporary buffer for state I/O
- bool m_using_legacy_state; // true if we are using the old-style state access
- bool m_inited;
+ cpu_get_info_func m_get_info;
+ address_space_config m_space_config[3]; // array of address space configs
+ void * m_token; // pointer to our state
+
+ cpu_set_info_func m_set_info; // extracted legacy function pointers
+ cpu_execute_func m_execute; //
+ cpu_burn_func m_burn; //
+ cpu_translate_func m_translate; //
+ cpu_read_func m_read; //
+ cpu_write_func m_write; //
+ cpu_readop_func m_readop; //
+ cpu_disassemble_func m_disassemble; //
+ cpu_state_io_func m_state_import; //
+ cpu_state_io_func m_state_export; //
+ cpu_string_io_func m_string_export; //
+ cpu_exit_func m_exit; //
+
+ UINT64 m_state_io; // temporary buffer for state I/O
+ bool m_using_legacy_state; // true if we are using the old-style state access
+ bool m_inited;
};
-#endif /* __CPUINTRF_H__ */
+#endif /* __CPUINTRF_H__ */