#include #include #include "picrin.h" #include "picrin/pair.h" #include "picrin/proc.h" #include "picrin/irep.h" #define GET_OPERAND(pic,n) ((pic)->sp[-1-(n)]) int pic_get_args(pic_state *pic, const char *format, ...) { char c; int i = 0, argc = pic->ci->argc - 1; va_list ap; bool opt = false; va_start(ap, format); while ((c = *format++)) { switch (c) { default: if (argc <= i && ! opt) { pic_error(pic, "wrong number of arguments"); } break; case '|': break; } /* in order to run out of all arguments passed to this function (i.e. do va_arg for each argument), optional argument existence check is done in every case closure */ switch (c) { case '|': opt = true; break; case 'o': { pic_value *p; p = va_arg(ap, pic_value*); if (i < argc) { *p = GET_OPERAND(pic,i); i++; } } break; case 'f': { double *f; f = va_arg(ap, double *); if (i < argc) { *f = pic_float(GET_OPERAND(pic,i)); i++; } } break; case 's': { pic_value str; char **cstr; size_t *len; cstr = va_arg(ap, char **); len = va_arg(ap, size_t *); if (i < argc) { str = GET_OPERAND(pic,i); *cstr = pic_str_ptr(str)->str; *len = pic_str_ptr(str)->len; i++; } } break; default: { pic_error(pic, "pic_get_args: invalid argument specifier given"); } } } if (argc > i) { pic_error(pic, "wrong number of arguments"); } va_end(ap); return i; } #if PIC_DIRECT_THREADED_VM # define VM_LOOP JUMP; # define CASE(x) L_##x: # define NEXT ++pc; JUMP; # define JUMP goto *oplabels[pc->insn]; # define VM_LOOP_END #else # define VM_LOOP for (;;) { switch (pc->insn) { # define CASE(x) case x: # define NEXT pc++; break # define JUMP break # define VM_LOOP_END } } #endif #define PUSH(v) (*++pic->sp = (v)) #define POP() (*pic->sp--) #define POPN(i) ((void)(pic->sp-=i)) #define PUSHCI() (++pic->ci) #define POPCI() (pic->ci--) pic_value pic_run(pic_state *pic, struct pic_proc *proc, pic_value args) { struct pic_code *pc; int ai = pic_gc_arena_preserve(pic); jmp_buf jmp; #if PIC_DIRECT_THREADED_VM static void *oplabels[] = { &&L_OP_POP, &&L_OP_PUSHNIL, &&L_OP_PUSHTRUE, &&L_OP_PUSHFALSE, &&L_OP_PUSHNUM, &&L_OP_PUSHCONST, &&L_OP_GREF, &&L_OP_GSET, &&L_OP_LREF, &&L_OP_JMP, &&L_OP_JMPIF, &&L_OP_CALL, &&L_OP_RET, &&L_OP_LAMBDA, &&L_OP_CONS, &&L_OP_CAR, &&L_OP_CDR, &&L_OP_NILP, &&L_OP_ADD, &&L_OP_SUB, &&L_OP_MUL, &&L_OP_DIV, &&L_OP_STOP }; #endif pc = proc->u.irep->code; if (setjmp(jmp) == 0) { pic->jmp = &jmp; } else { goto L_RAISE; } /* adjust call frame */ pic->sp[0] = pic_obj_value(proc); pic->ci->argc = 1; pic->ci->pc = NULL; pic->ci->sp = NULL; VM_LOOP { CASE(OP_POP) { POPN(1); NEXT; } CASE(OP_PUSHNIL) { PUSH(pic_nil_value()); NEXT; } CASE(OP_PUSHTRUE) { PUSH(pic_true_value()); NEXT; } CASE(OP_PUSHFALSE) { PUSH(pic_false_value()); NEXT; } CASE(OP_PUSHNUM) { PUSH(pic_float_value(pc->u.f)); NEXT; } CASE(OP_PUSHCONST) { PUSH(pic->pool[pc->u.i]); NEXT; } CASE(OP_GREF) { PUSH(pic->globals[pc->u.i]); NEXT; } CASE(OP_GSET) { pic->globals[pc->u.i] = POP(); NEXT; } CASE(OP_LREF) { PUSH(pic->ci->sp[pc->u.i]); NEXT; } CASE(OP_JMP) { pc += pc->u.i; JUMP; } CASE(OP_JMPIF) { pic_value v; v = POP(); if (! pic_false_p(v)) { pc += pc->u.i; JUMP; } NEXT; } CASE(OP_CALL) { pic_value c, v; pic_callinfo *ci; struct pic_proc *proc; c = pic->sp[0]; proc = pic_proc_ptr(c); ci = PUSHCI(); ci->argc = pc->u.i; ci->pc = pc; ci->sp = pic->sp; if (pic_proc_cfunc_p(c)) { v = proc->u.cfunc(pic); pic->sp -= ci->argc; POPCI(); PUSH(v); pic_gc_arena_restore(pic, ai); NEXT; } else { pc = proc->u.irep->code; pic_gc_arena_restore(pic, ai); JUMP; } } CASE(OP_RET) { pic_value v; pic_callinfo *ci; if (pic->errmsg) { L_RAISE: goto L_STOP; } else { v = POP(); ci = POPCI(); pc = ci->pc; pic->sp -= ci->argc; PUSH(v); } NEXT; } CASE(OP_LAMBDA) { struct pic_proc *proc; proc = pic_proc_new(pic, pic->irep[pc->u.i]); PUSH(pic_obj_value(proc)); pic_gc_arena_restore(pic, ai); NEXT; } CASE(OP_CONS) { pic_value a, b; pic_gc_protect(pic, a = POP()); pic_gc_protect(pic, b = POP()); PUSH(pic_cons(pic, a, b)); pic_gc_arena_restore(pic, ai); NEXT; } CASE(OP_CAR) { pic_value p; p = POP(); PUSH(pic_car(pic, p)); NEXT; } CASE(OP_CDR) { pic_value p; p = POP(); PUSH(pic_cdr(pic, p)); NEXT; } CASE(OP_NILP) { pic_value p; p = POP(); PUSH(pic_bool_value(pic_nil_p(p))); NEXT; } CASE(OP_ADD) { pic_value a, b; a = POP(); b = POP(); PUSH(pic_float_value(pic_float(a) + pic_float(b))); NEXT; } CASE(OP_SUB) { pic_value a, b; a = POP(); b = POP(); PUSH(pic_float_value(pic_float(a) - pic_float(b))); NEXT; } CASE(OP_MUL) { pic_value a, b; a = POP(); b = POP(); PUSH(pic_float_value(pic_float(a) * pic_float(b))); NEXT; } CASE(OP_DIV) { pic_value a, b; a = POP(); b = POP(); PUSH(pic_float_value(pic_float(a) / pic_float(b))); NEXT; } CASE(OP_STOP) { pic_value val; L_STOP: val = POP(); pic->jmp = NULL; if (pic->errmsg) { return pic_undef_value(); } #if VM_DEBUG puts("**VM END STATE**"); printf("stbase = %p\nsp = %p\n", pic->stbase, pic->sp); printf("cibase = %p\nci = %p\n", pic->cibase, pic->ci); if (pic->stbase != pic->sp) { pic_value *sp; printf("* stack trace:"); for (sp = pic->stbase; pic->sp != sp; ++sp) { pic_debug(pic, *sp); puts(""); } } #endif return val; } } VM_LOOP_END; }