/* how much ram the system has */
#define DCPU16_RAM 0x10000
+#define DCPU16_INTERRUPT_QUEUE_SIZE 256
+
+extern const char * const dcpu16_reg_names[];
+enum dcpu16_register_indexes {
+ DCPU16_REG_A = 0,
+ DCPU16_REG_B,
+ DCPU16_REG_C,
+ DCPU16_REG_X,
+ DCPU16_REG_Y,
+ DCPU16_REG_Z,
+ DCPU16_REG_I,
+ DCPU16_REG_J,
+ DCPU16_REG_PC,
+ DCPU16_REG_SP,
+ DCPU16_REG_EX,
+ DCPU16_REG_IA,
+ DCPU16_REG__NUM
+};
/* a self-contained dcpu16 core */
struct dcpu16 {
+ void (*warn_cb_)(char *fmt, ...);
+ void (*trace_cb_)(char *fmt, ...);
+
struct dcpu16_acct_cb *cb_table_; /* list of callbacks to invoke for certain events */
size_t cb_table_entries_; /* callback list maintenance */
size_t cb_table_allocated_; /* callback list maintenance */
+
+ struct dcpu16_hw *hw_table_; /* list of hardware attached to system */
+ size_t hw_table_entries_; /* hardware list maintenance */
+ size_t hw_table_allocated_; /* hardware list maintenance */
+
unsigned int skip_ : 1; /* skip execution of next instruction */
+ unsigned int interrupts_deferred_ : 1; /* queue software interrupts */
+ unsigned int on_fire_ : 1; /* cpu is on fire */
DCPU16_WORD reg_work_[2]; /* work registers for holding literal values while decoding instructions */
+ DCPU16_WORD interrupts_[DCPU16_INTERRUPT_QUEUE_SIZE]; /* fifo of pending interrupts */
+ size_t interrupts_head_; /* interrupt queue maintenance */
+ size_t interrupts_tail_; /* interrupt queue maintenance */
unsigned long long cycle; /* number of cycles this core has executed */
- DCPU16_WORD reg[8]; /* system registers, a b c x y z i j */
- DCPU16_WORD pc; /* program counter */
- DCPU16_WORD sp; /* stack pointer */
- DCPU16_WORD o; /* overflow */
+ DCPU16_WORD reg[DCPU16_REG__NUM]; /* system registers, a b c x y z i j */
DCPU16_WORD ram[DCPU16_RAM]; /* memory */
};
/* these are used for accounting/watchpointing/modules/&c */
typedef unsigned int dcpu16_acct_event;
typedef void (dcpu16_ev_cb_t)(struct dcpu16 *, dcpu16_acct_event, DCPU16_WORD, void *);
-#define DCPU16_ACCT_EV_READ (1<<1)
-#define DCPU16_ACCT_EV_WRITE (1<<2)
-#define DCPU16_ACCT_EV_NOP (1<<3)
-#define DCPU16_ACCT_EV_RESET (1<<4)
+#define DCPU16_ACCT_EV_CYCLE (1<<1)
+#define DCPU16_ACCT_EV_READ (1<<2)
+#define DCPU16_ACCT_EV_WRITE (1<<3)
+#define DCPU16_ACCT_EV_NOP (1<<4)
+#define DCPU16_ACCT_EV_RESET (1<<5)
struct dcpu16_acct_cb {
dcpu16_ev_cb_t *fn;
void *data;
dcpu16_acct_event mask;
};
+typedef void (dcpu16_hw_signal_t)(struct dcpu16 *, void *);
+/* these are used to define hardware attached to the system */
+struct dcpu16_hw {
+ struct dcpu16 *vm; /* which system do I belong to */
+ char *name_;
+
+ DCPU16_WORD id_l;
+ DCPU16_WORD id_h;
+ DCPU16_WORD ver;
+ DCPU16_WORD mfg_l;
+ DCPU16_WORD mfg_h;
+
+ dcpu16_hw_signal_t *hwi;
+ dcpu16_hw_signal_t *cycle;
+ dcpu16_hw_signal_t *reset;
+ void *data;
+};
+
/* instantiate a new core */
struct dcpu16 *dcpu16_new(void);
/* print the contents of ram from second to third argument */
void dcpu16_dump_ram(struct dcpu16 *, DCPU16_WORD, DCPU16_WORD);
+/* print words in buf as asm */
+DCPU16_WORD dcpu16_mnemonify_buf(DCPU16_WORD *);
+
/* print the instruction at the specified address, returns number of words consumed in decoding */
DCPU16_WORD dcpu16_disassemble_print(struct dcpu16 *, DCPU16_WORD);
+/* register new 'hardware' device with system */
+int dcpu16_hw_add(struct dcpu16 *, struct dcpu16_hw *);
+
/* register a callback for an accounting event */
-int dcpu16_acct_add(struct dcpu16 *, dcpu16_acct_event mask, dcpu16_ev_cb_t *fn, void *data);
+int dcpu16_acct_add(struct dcpu16 *, dcpu16_acct_event, dcpu16_ev_cb_t *, void *);
/* execute the next instruction */
void dcpu16_step(struct dcpu16 *);
/* release a core */
void dcpu16_delete(struct dcpu16 **);
+int dcpu16_interrupt(struct dcpu16 *, DCPU16_WORD);
+
/* register callbacks to handle warning and debug messages, default is writing to stderr, may be set to null */
void dcpu16_warn_cb_set(void (*)(char *, ...));
void dcpu16_trace_cb_set(void (*)(char *, ...));