Get the emulator to the point where it'll start to run code; it then fails,
because the version of Musashi I imported doesn't support floating point...
This commit is contained in:
parent
a8802c934b
commit
2cf39be752
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@ -79,7 +79,7 @@
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* If off, all interrupts will be autovectored and all interrupt requests will
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* auto-clear when the interrupt is serviced.
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*/
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#define M68K_EMULATE_INT_ACK OPT_SPECIFY_HANDLER
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#define M68K_EMULATE_INT_ACK OPT_OFF
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#define M68K_INT_ACK_CALLBACK(A) cpu_irq_ack(A)
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@ -98,7 +98,7 @@
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/* If ON, CPU will call the output reset callback when it encounters a reset
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* instruction.
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*/
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#define M68K_EMULATE_RESET OPT_SPECIFY_HANDLER
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#define M68K_EMULATE_RESET OPT_OFF
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#define M68K_RESET_CALLBACK() cpu_pulse_reset()
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@ -108,7 +108,7 @@
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* want to properly emulate the m68010 or higher. (moves uses function codes
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* to read/write data from different address spaces)
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*/
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#define M68K_EMULATE_FC OPT_SPECIFY_HANDLER
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#define M68K_EMULATE_FC OPT_OFF
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#define M68K_SET_FC_CALLBACK(A) cpu_set_fc(A)
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@ -144,7 +144,7 @@
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*/
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#define M68K_LOG_ENABLE OPT_OFF
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#define M68K_LOG_1010_1111 OPT_OFF
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#define M68K_LOG_FILEHANDLE some_file_handle
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#define M68K_LOG_FILEHANDLE stderr
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/* ----------------------------- COMPATIBILITY ---------------------------- */
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@ -166,7 +166,8 @@
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* NOTE: not enabling inline functions will SEVERELY slow down emulation.
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*/
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#ifndef INLINE
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#define INLINE static __inline__
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//#define INLINE static __inline__
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#define INLINE static
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#endif /* INLINE */
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#endif /* M68K_COMPILE_FOR_MAME */
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@ -7,22 +7,12 @@
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void disassemble_program();
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/* Memory-mapped IO ports */
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#define INPUT_ADDRESS 0x800000
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#define OUTPUT_ADDRESS 0x400000
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/* IRQ connections */
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#define IRQ_NMI_DEVICE 7
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#define IRQ_INPUT_DEVICE 2
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#define IRQ_OUTPUT_DEVICE 1
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/* Time between characters sent to output device (seconds) */
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#define OUTPUT_DEVICE_PERIOD 1
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/* ROM and RAM sizes */
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#define MAX_ROM 0xfff
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#define MAX_RAM 0xff
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#define ADDRESS_MASK 0xffffffff
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#define RAM_BASE 0x08000000
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#define RAM_TOP 0x08100000
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#define INIT_SP RAM_TOP
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#define INIT_PC 0x08000054
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/* Read/write macros */
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#define READ_BYTE(BASE, ADDR) (BASE)[ADDR]
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@ -42,8 +32,8 @@ void disassemble_program();
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(BASE)[(ADDR)+3] = (VAL)&0xff
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/* Prototypes */
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void exit_error(char* fmt, ...);
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static void exit_error(char* fmt, ...);
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static void syscall(void);
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unsigned int cpu_read_byte(unsigned int address);
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unsigned int cpu_read_word(unsigned int address);
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@ -51,47 +41,8 @@ unsigned int cpu_read_long(unsigned int address);
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void cpu_write_byte(unsigned int address, unsigned int value);
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void cpu_write_word(unsigned int address, unsigned int value);
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void cpu_write_long(unsigned int address, unsigned int value);
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void cpu_pulse_reset(void);
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void cpu_set_fc(unsigned int fc);
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int cpu_irq_ack(int level);
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void nmi_device_reset(void);
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void nmi_device_update(void);
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int nmi_device_ack(void);
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void input_device_reset(void);
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void input_device_update(void);
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int input_device_ack(void);
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unsigned int input_device_read(void);
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void input_device_write(unsigned int value);
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void output_device_reset(void);
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void output_device_update(void);
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int output_device_ack(void);
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unsigned int output_device_read(void);
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void output_device_write(unsigned int value);
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void int_controller_set(unsigned int value);
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void int_controller_clear(unsigned int value);
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void get_user_input(void);
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/* Data */
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unsigned int g_quit = 0; /* 1 if we want to quit */
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unsigned int g_nmi = 0; /* 1 if nmi pending */
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int g_input_device_value = -1; /* Current value in input device */
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unsigned int g_output_device_ready = 0; /* 1 if output device is ready */
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time_t g_output_device_last_output; /* Time of last char output */
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unsigned int g_int_controller_pending = 0; /* list of pending interrupts */
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unsigned int g_int_controller_highest_int = 0; /* Highest pending interrupt */
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unsigned char g_rom[MAX_ROM+1]; /* ROM */
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unsigned char g_ram[MAX_RAM+1]; /* RAM */
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unsigned int g_fc; /* Current function code from CPU */
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unsigned char g_ram[RAM_TOP - RAM_BASE];
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/* Exit with an error message. Use printf syntax. */
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@ -118,343 +69,67 @@ void exit_error(char* fmt, ...)
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exit(EXIT_FAILURE);
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}
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/* Read data from RAM, ROM, or a device */
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unsigned int cpu_read_byte(unsigned int address)
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static inline unsigned int transform_address(unsigned int address)
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{
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if(g_fc & 2) /* Program */
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{
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if(address > MAX_ROM)
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exit_error("Attempted to read byte from ROM address %08x", address);
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return READ_BYTE(g_rom, address);
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}
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/* Otherwise it's data space */
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switch(address)
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{
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case INPUT_ADDRESS:
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return input_device_read();
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case OUTPUT_ADDRESS:
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return output_device_read();
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default:
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break;
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}
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if(address > MAX_RAM)
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exit_error("Attempted to read byte from RAM address %08x", address);
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return READ_BYTE(g_ram, address);
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}
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unsigned int cpu_read_word(unsigned int address)
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{
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if(g_fc & 2) /* Program */
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{
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if(address > MAX_ROM)
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exit_error("Attempted to read word from ROM address %08x", address);
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return READ_WORD(g_rom, address);
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}
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/* Otherwise it's data space */
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switch(address)
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{
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case INPUT_ADDRESS:
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return input_device_read();
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case OUTPUT_ADDRESS:
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return output_device_read();
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default:
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break;
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}
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if(address > MAX_RAM)
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exit_error("Attempted to read word from RAM address %08x", address);
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return READ_WORD(g_ram, address);
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unsigned int i = (address & ADDRESS_MASK) - RAM_BASE;
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if (i >= (unsigned int)(RAM_TOP - RAM_BASE))
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exit_error("Attempted to read from RAM address %08x %08x", address, i);
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return i;
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}
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unsigned int cpu_read_long(unsigned int address)
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{
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if(g_fc & 2) /* Program */
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switch (address)
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{
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if(address > MAX_ROM)
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exit_error("Attempted to read long from ROM address %08x", address);
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return READ_LONG(g_rom, address);
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case 0x00: return INIT_SP;
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case 0x04: return INIT_PC;
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case 0x80: syscall(); return 0x10000;
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case 0x10000: return 0x4e73; /* rte */
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case 0x10004: return 0;
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default: return READ_LONG(g_ram, transform_address(address));
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}
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/* Otherwise it's data space */
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switch(address)
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{
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case INPUT_ADDRESS:
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return input_device_read();
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case OUTPUT_ADDRESS:
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return output_device_read();
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default:
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break;
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}
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if(address > MAX_RAM)
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exit_error("Attempted to read long from RAM address %08x", address);
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return READ_LONG(g_ram, address);
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}
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unsigned int cpu_read_word(unsigned int address)
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{
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unsigned int l = cpu_read_long(address & ~3);
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l >>= (address & 2) * 8;
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return l & 0xffff;
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}
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unsigned int cpu_read_byte(unsigned int address)
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{
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unsigned int l = cpu_read_long(address & ~3);
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l >>= (address & 3) * 8;
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return l & 0xff;
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}
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unsigned int cpu_read_word_dasm(unsigned int address)
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{
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if(address > MAX_ROM)
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exit_error("Disassembler attempted to read word from ROM address %08x", address);
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return READ_WORD(g_rom, address);
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return cpu_read_word(address);
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}
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unsigned int cpu_read_long_dasm(unsigned int address)
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{
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if(address > MAX_ROM)
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exit_error("Dasm attempted to read long from ROM address %08x", address);
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return READ_LONG(g_rom, address);
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return cpu_read_long(address);
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}
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/* Write data to RAM or a device */
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void cpu_write_byte(unsigned int address, unsigned int value)
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{
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if(g_fc & 2) /* Program */
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exit_error("Attempted to write %02x to ROM address %08x", value&0xff, address);
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/* Otherwise it's data space */
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switch(address)
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{
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case INPUT_ADDRESS:
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input_device_write(value&0xff);
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return;
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case OUTPUT_ADDRESS:
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output_device_write(value&0xff);
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return;
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default:
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break;
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}
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if(address > MAX_RAM)
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exit_error("Attempted to write %02x to RAM address %08x", value&0xff, address);
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WRITE_BYTE(g_ram, address, value);
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WRITE_BYTE(g_ram, transform_address(address), value);
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}
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void cpu_write_word(unsigned int address, unsigned int value)
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{
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if(g_fc & 2) /* Program */
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exit_error("Attempted to write %04x to ROM address %08x", value&0xffff, address);
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/* Otherwise it's data space */
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switch(address)
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{
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case INPUT_ADDRESS:
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input_device_write(value&0xffff);
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return;
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case OUTPUT_ADDRESS:
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output_device_write(value&0xffff);
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return;
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default:
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break;
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}
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if(address > MAX_RAM)
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exit_error("Attempted to write %04x to RAM address %08x", value&0xffff, address);
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WRITE_WORD(g_ram, address, value);
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WRITE_WORD(g_ram, transform_address(address), value);
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}
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void cpu_write_long(unsigned int address, unsigned int value)
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{
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if(g_fc & 2) /* Program */
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exit_error("Attempted to write %08x to ROM address %08x", value, address);
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/* Otherwise it's data space */
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switch(address)
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{
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case INPUT_ADDRESS:
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input_device_write(value);
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return;
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case OUTPUT_ADDRESS:
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output_device_write(value);
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return;
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default:
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break;
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}
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if(address > MAX_RAM)
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exit_error("Attempted to write %08x to RAM address %08x", value, address);
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WRITE_LONG(g_ram, address, value);
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}
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/* Called when the CPU pulses the RESET line */
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void cpu_pulse_reset(void)
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{
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nmi_device_reset();
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output_device_reset();
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input_device_reset();
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}
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/* Called when the CPU changes the function code pins */
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void cpu_set_fc(unsigned int fc)
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{
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g_fc = fc;
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}
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/* Called when the CPU acknowledges an interrupt */
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int cpu_irq_ack(int level)
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{
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switch(level)
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{
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case IRQ_NMI_DEVICE:
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return nmi_device_ack();
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case IRQ_INPUT_DEVICE:
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return input_device_ack();
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case IRQ_OUTPUT_DEVICE:
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return output_device_ack();
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}
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return M68K_INT_ACK_SPURIOUS;
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}
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/* Implementation for the NMI device */
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void nmi_device_reset(void)
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{
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g_nmi = 0;
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}
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void nmi_device_update(void)
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{
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if(g_nmi)
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{
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g_nmi = 0;
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int_controller_set(IRQ_NMI_DEVICE);
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}
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}
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int nmi_device_ack(void)
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{
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printf("\nNMI\n");fflush(stdout);
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int_controller_clear(IRQ_NMI_DEVICE);
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return M68K_INT_ACK_AUTOVECTOR;
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}
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/* Implementation for the input device */
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void input_device_reset(void)
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{
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g_input_device_value = -1;
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int_controller_clear(IRQ_INPUT_DEVICE);
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}
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void input_device_update(void)
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{
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if(g_input_device_value >= 0)
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int_controller_set(IRQ_INPUT_DEVICE);
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}
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int input_device_ack(void)
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{
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return M68K_INT_ACK_AUTOVECTOR;
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}
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unsigned int input_device_read(void)
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{
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int value = g_input_device_value > 0 ? g_input_device_value : 0;
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int_controller_clear(IRQ_INPUT_DEVICE);
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g_input_device_value = -1;
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return value;
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}
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void input_device_write(unsigned int value)
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{
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}
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/* Implementation for the output device */
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void output_device_reset(void)
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{
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g_output_device_last_output = time(NULL);
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g_output_device_ready = 0;
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int_controller_clear(IRQ_OUTPUT_DEVICE);
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}
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void output_device_update(void)
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{
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if(!g_output_device_ready)
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{
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if((time(NULL) - g_output_device_last_output) >= OUTPUT_DEVICE_PERIOD)
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{
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g_output_device_ready = 1;
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int_controller_set(IRQ_OUTPUT_DEVICE);
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}
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}
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}
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int output_device_ack(void)
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{
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return M68K_INT_ACK_AUTOVECTOR;
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}
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unsigned int output_device_read(void)
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{
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int_controller_clear(IRQ_OUTPUT_DEVICE);
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return 0;
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}
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void output_device_write(unsigned int value)
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{
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char ch;
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if(g_output_device_ready)
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{
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ch = value & 0xff;
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printf("%c", ch);
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g_output_device_last_output = time(NULL);
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g_output_device_ready = 0;
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int_controller_clear(IRQ_OUTPUT_DEVICE);
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}
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}
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/* Implementation for the interrupt controller */
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void int_controller_set(unsigned int value)
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{
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unsigned int old_pending = g_int_controller_pending;
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g_int_controller_pending |= (1<<value);
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if(old_pending != g_int_controller_pending && value > g_int_controller_highest_int)
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{
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g_int_controller_highest_int = value;
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m68k_set_irq(g_int_controller_highest_int);
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}
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}
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void int_controller_clear(unsigned int value)
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{
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g_int_controller_pending &= ~(1<<value);
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for(g_int_controller_highest_int = 7;g_int_controller_highest_int > 0;g_int_controller_highest_int--)
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if(g_int_controller_pending & (1<<g_int_controller_highest_int))
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break;
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m68k_set_irq(g_int_controller_highest_int);
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}
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/* Parse user input and update any devices that need user input */
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void get_user_input(void)
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{
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static int last_ch = -1;
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int ch = -1; /* not supported */
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//int ch = osd_get_char();
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if(ch >= 0)
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{
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switch(ch)
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{
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case 0x1b:
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g_quit = 1;
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break;
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case '~':
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if(last_ch != ch)
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g_nmi = 1;
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break;
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default:
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g_input_device_value = ch;
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}
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}
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last_ch = ch;
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WRITE_LONG(g_ram, transform_address(address), value);
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}
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/* Disassembler */
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|
@ -493,22 +168,35 @@ void disassemble_program()
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void cpu_instr_callback()
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{
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/* The following code would print out instructions as they are executed */
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/*
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/* The following code would print out instructions as they are executed */
|
||||
|
||||
#if 1
|
||||
static char buff[100];
|
||||
static char buff2[100];
|
||||
static unsigned int pc;
|
||||
static unsigned int instr_size;
|
||||
|
||||
pc = m68k_get_reg(NULL, M68K_REG_PC);
|
||||
instr_size = m68k_disassemble(buff, pc, M68K_CPU_TYPE_68000);
|
||||
instr_size = m68k_disassemble(buff, pc, M68K_CPU_TYPE_68020);
|
||||
make_hex(buff2, pc, instr_size);
|
||||
printf("E %03x: %-20s: %s\n", pc, buff2, buff);
|
||||
fflush(stdout);
|
||||
*/
|
||||
#endif
|
||||
}
|
||||
|
||||
static void syscall(void)
|
||||
{
|
||||
int s = m68k_get_reg(NULL, M68K_REG_D0);
|
||||
switch (s)
|
||||
{
|
||||
case 45: /* brk */
|
||||
m68k_set_reg(M68K_REG_D0, RAM_TOP-0x1000);
|
||||
break;
|
||||
|
||||
default:
|
||||
exit_error("unknown system call %d", s);
|
||||
}
|
||||
}
|
||||
|
||||
/* The main loop */
|
||||
int main(int argc, char* argv[])
|
||||
|
@ -524,38 +212,42 @@ int main(int argc, char* argv[])
|
|||
if((fhandle = fopen(argv[1], "rb")) == NULL)
|
||||
exit_error("Unable to open %s", argv[1]);
|
||||
|
||||
if(fread(g_rom, 1, MAX_ROM+1, fhandle) <= 0)
|
||||
if(fread(g_ram, 1, RAM_TOP - RAM_BASE, fhandle) <= 0)
|
||||
exit_error("Error reading %s", argv[1]);
|
||||
|
||||
// disassemble_program();
|
||||
|
||||
m68k_init();
|
||||
m68k_set_cpu_type(M68K_CPU_TYPE_68000);
|
||||
m68k_set_cpu_type(M68K_CPU_TYPE_68020);
|
||||
m68k_pulse_reset();
|
||||
input_device_reset();
|
||||
output_device_reset();
|
||||
nmi_device_reset();
|
||||
|
||||
g_quit = 0;
|
||||
while(!g_quit)
|
||||
/* On entry, the Linux stack looks like this.
|
||||
*
|
||||
* sp+.. NULL
|
||||
* sp+8+(4*argc) env (X quads)
|
||||
* sp+4+(4*argc) NULL
|
||||
* sp+4 argv (argc quads)
|
||||
* sp argc
|
||||
*
|
||||
* We'll set it up with a bodgy stack frame with argc=0 just to keep the
|
||||
* startup code happy.
|
||||
*/
|
||||
|
||||
{
|
||||
// Our loop requires some interleaving to allow us to update the
|
||||
// input, output, and nmi devices.
|
||||
|
||||
get_user_input();
|
||||
|
||||
// Values to execute determine the interleave rate.
|
||||
// Smaller values allow for more accurate interleaving with multiple
|
||||
// devices/CPUs but is more processor intensive.
|
||||
// 100000 is usually a good value to start at, then work from there.
|
||||
|
||||
// Note that I am not emulating the correct clock speed!
|
||||
m68k_execute(100000);
|
||||
output_device_update();
|
||||
input_device_update();
|
||||
nmi_device_update();
|
||||
unsigned int sp = INIT_SP;
|
||||
cpu_write_long(sp -= 4, 0);
|
||||
unsigned int envp = sp;
|
||||
cpu_write_long(sp -= 4, envp);
|
||||
cpu_write_long(sp -= 4, 0);
|
||||
unsigned long argv = sp;
|
||||
cpu_write_long(sp -= 4, argv);
|
||||
cpu_write_long(sp -= 4, 0);
|
||||
m68k_set_reg(M68K_REG_SP, sp);
|
||||
}
|
||||
|
||||
for (;;)
|
||||
m68k_execute(100000);
|
||||
|
||||
return 0;
|
||||
}
|
||||
|
||||
|
|
7
plat/linux68k/tests/build.lua
Normal file
7
plat/linux68k/tests/build.lua
Normal file
|
@ -0,0 +1,7 @@
|
|||
include("tests/plat/build.lua")
|
||||
|
||||
plat_testsuite {
|
||||
name = "tests",
|
||||
plat = "linux68k",
|
||||
method = "plat/linux68k/emu+emu68k"
|
||||
}
|
Loading…
Reference in a new issue