Ejemplo n.º 1
0
static mover_t
generate_movi (const void *operand)
{
  static char buffer[1024];
  mover_t result;

  /* printf ("si?=%i ui?=%i\n", _siP (16, operand), _uiP (16, operand)); */

  result = (mover_t)(jit_set_ip (buffer).iptr);
  jit_leaf (1);

  jit_movi_p (JIT_R0, operand);
  jit_movr_p (JIT_RET, JIT_R0);

  jit_ret ();
  jit_flush_code (buffer, jit_get_ip ().ptr);

  return result;
}
Ejemplo n.º 2
0
int JIT_evaluate(ASTNode *root)
{
#ifdef __APPLE__
  // Mac OS X hack
  codeBuffer = mmap (NULL, 4096, PROT_EXEC | PROT_READ | PROT_WRITE,
                        MAP_PRIVATE | MAP_ANON, -1, 0);
#endif

  pifi function = (pifi) (jit_set_ip(codeBuffer).iptr);

  jit_leaf(1);
  int regs[MAX_REG] = {0};
  int ret = alloc_reg(regs);
  JIT_visit(root, regs, ret);
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);

  return function();
}
Ejemplo n.º 3
0
mod_t
generate_modi (int operand)
{
  static char buffer[1024];
  mod_t result;
  int arg;

  result = (mod_t)(jit_set_ip (buffer).iptr);
  jit_leaf (1);
  arg = jit_arg_i ();
  jit_getarg_i (JIT_R1, arg);

  jit_modi_i (JIT_R2, JIT_R1, operand);
  jit_movr_i (JIT_RET, JIT_R2);

  jit_ret ();
  jit_flush_code (buffer, jit_get_ip ().ptr);

  return result;
}
Ejemplo n.º 4
0
Archivo: incr.C Proyecto: pippijn/rasm
int main()
{
  pifi  myFunction= (pifi) (jit_set_ip(codeBuffer).iptr);
  int	ofs;				/* offset of the argument */

  jit_leaf(1);
  ofs = jit_arg_i();
  jit_getarg_i(JIT_R0, ofs);
  jit_addi_i(JIT_RET, JIT_R0, 1);
  jit_ret();
  jit_flush_code(codeBuffer, jit_get_ip().ptr);

  /* call the generated code, passing its size as argument */
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  printf("%d + 1 = %d\n", 5, myFunction(5));
#endif
  return 0;
}
Ejemplo n.º 5
0
int main()
{
  pifi      nfibs = (pifi) (jit_set_ip(codeBuffer).iptr);
  int	    in;				/* offset of the argument */
  jit_insn  *ref;			/* to patch the forward reference */
  jit_insn  *loop;			/* start of the loop */

        jit_prolog   (1);
  in =  jit_arg_ui   ();
        jit_getarg_ui(JIT_R2, in);              /* V0 = n */
        jit_movi_ui  (JIT_R1, 1);
  ref = jit_blti_ui  (jit_forward(), JIT_R2, 2);
        jit_subi_ui  (JIT_R2, JIT_R2, 1);
        jit_movi_ui  (JIT_R0, 1);

  loop= jit_get_label();
        jit_subi_ui  (JIT_R2, JIT_R2, 1);	/* we'll calculate one more */
        jit_addr_ui  (JIT_V0, JIT_R0, JIT_R1);  /* V0 = R0 + R1 */
        jit_movr_ui  (JIT_R0, JIT_R1);          /* R0 = R1 */
        jit_addi_ui  (JIT_R1, JIT_V0, 1);       /* R1 = V0 + 1 */
        jit_bnei_ui  (loop, JIT_R2, 0);         /* if (R2) goto loop; */

  jit_patch(ref);                               /* patch forward jump */
        jit_movr_ui  (JIT_RET, JIT_R1);         /* RET = R1 */
        jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);

#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *) codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  /* call the generated code, passing 36 as an argument */
  printf("nfibs(%d) = %d\n", 36, nfibs(36));
#endif
  return 0;
}
Ejemplo n.º 6
0
int main()
{
  pvfi		myFunction;		/* ptr to generated code */
  char		*start, *end;		/* a couple of labels */
  int		ofs;			/* to get the argument */

  codeBuffer = mmap(NULL, getpagesize(), PROT_READ | PROT_WRITE | PROT_EXEC,
                    MAP_PRIVATE | MAP_ANON, -1, 0);
  if (codeBuffer == MAP_FAILED) {
    perror("mmap");
    exit(0);
  }

  myFunction = (pvfi) (jit_set_ip(codeBuffer).vptr);
  start = jit_get_ip().ptr;
  jit_prolog(1);
  ofs = jit_arg_i();
  jit_movi_p(JIT_R0, "looks like %d bytes sufficed\n");
  jit_getarg_i(JIT_R1, ofs);
  jit_prepare_i(2);
    jit_pusharg_i(JIT_R1);		/* push in reverse order */
    jit_pusharg_p(JIT_R0);
  jit_finish(display_message);
  jit_ret();
  end = jit_get_ip().ptr;

  jit_flush_code(codeBuffer, end);

#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, codeBuffer, end);
#endif
#ifndef LIGHTNING_CROSS
  /* call the generated code, with a dummy argument */
  myFunction(1024);
#endif
  return 0;
}
Ejemplo n.º 7
0
Archivo: rpn.c Proyecto: pcpa/lightning
int
main ()
{
  pifi c2f, f2c;
  int i;

  codeBuffer = mmap(NULL, getpagesize(), PROT_READ | PROT_WRITE | PROT_EXEC,
                    MAP_PRIVATE | MAP_ANON, -1, 0);
  if (codeBuffer == MAP_FAILED) {
    perror("mmap");
    exit(0);
  }

  jit_set_ip (codeBuffer);
  c2f = compile_rpn ("32 x 9 * 5 / +");
  f2c = compile_rpn ("5 x 32_ + * 9 /");

#ifndef LIGHTNING_CROSS
  printf ("\nC:");
  for (i = 0; i <= 100; i += 10)
    printf ("%3d ", i);
  printf ("\nF:");
  for (i = 0; i <= 100; i += 10)
    printf ("%3d ", c2f (i));
  printf ("\n");

  printf ("\nF:");
  for (i = 32; i <= 212; i += 10)
    printf ("%3d ", i);
  printf ("\nC:");
  for (i = 32; i <= 212; i += 10)
    printf ("%3d ", f2c (i));
  printf ("\n");
#endif
  return 0;
}
Ejemplo n.º 8
0
int
main()
{
  jit_code code;
  volatile double x = 0.0;
  code.ptr = (char *) codeBuffer;

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jit_ldi_d(JIT_FPR0, &a);
  jit_movi_d(JIT_FPR1, 0.0);
  jit_gtr_d(JIT_R0, JIT_FPR0, JIT_FPR1);
  jit_ltr_d(JIT_R1, JIT_FPR0, JIT_FPR1);
  jit_subr_i(JIT_RET, JIT_R0, JIT_R1);	/* [greater] - [less] = -1/0/1 */
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  int_test("compare", code, -2.6, -2.4, 0, 2.4, 2.6);
#endif

#ifdef __GNUC__
  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jit_ldi_d(JIT_FPR0, &a);
  jit_movi_d(JIT_FPR1, 0.0);
  jit_eqr_d(JIT_R0, JIT_FPR0, JIT_FPR1);
  jit_ltgtr_d(JIT_R1, JIT_FPR0, JIT_FPR1);
  jit_lshi_i(JIT_R1, JIT_R1, 1);
  jit_orr_i(JIT_RET, JIT_R0, JIT_R1);
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  int_test("nans", code, x / x, 1 / (a - a), -1 / (a - a), 0.0, -2.0);
#endif
#else
  printf ("nans\t\t1 3 3 0 3\n");
#endif

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jit_ldi_d(JIT_FPR0, &a);
  jit_truncr_d_i(JIT_RET, JIT_FPR0);
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  int_test("trunc", code, -2.6, -2.4, 0, 2.4, 2.6);
  int_test("trunc", code, -3, -2, 0, 2, 3);
#endif

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jit_ldi_d(JIT_FPR0, &a);
  jit_ceilr_d_i(JIT_RET, JIT_FPR0);
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  int_test("ceil", code, -2.6, -2.4, 0, 2.4, 2.6);
  int_test("ceil", code, -3, -2, 0, 2, 3);
#endif

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jit_ldi_d(JIT_FPR0, &a);
  jit_floorr_d_i(JIT_RET, JIT_FPR0);
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  int_test("floor", code, -2.6, -2.4, 0, 2.4, 2.6);
  int_test("floor", code, -3, -2, 0, 2, 3);
#endif

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jit_ldi_d(JIT_FPR0, &a);
  jit_roundr_d_i(JIT_RET, JIT_FPR0);
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  int_test("round", code, -2.6, -2.4, 0, 2.4, 2.6);
  int_test("round", code, -3, -2, 0, 2, 3);
#endif

#if 0 && defined JIT_TRANSCENDENTAL
  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jitfp_sti_d(&a,
    jitfp_log(
      jitfp_exp(jitfp_imm(1.0))
    )
  );
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
  code.vptr();
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  printf("log e = \t%f\n", a);
#endif

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jitfp_sti_d(&a,
    jitfp_atn(
      jitfp_imm(1.732050807657)
    )
  );
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
  code.vptr();
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  printf("pi =         \t%f\n", a*3);
#endif

  jit_set_ip(codeBuffer);
  jit_leaf(0);
  jitfp_sti_d(&a,
    jitfp_tan(
      jitfp_ldi_d(&a)
    )
  );
  jit_ret();

  jit_flush_code(codeBuffer, jit_get_ip().ptr);
  code.vptr();
#ifdef LIGHTNING_DISASSEMBLE
  disassemble(stderr, (char *)codeBuffer, jit_get_ip().ptr);
#endif
#ifndef LIGHTNING_CROSS
  printf("tan^2 pi/3 = \t%f\n", a*a);
#endif

#endif /* JIT_TRANSCEDENTAL */

  return (0);
}
Ejemplo n.º 9
0
void
run_gnulightning(void)
{
    struct bfi * n = bfprog;
    int maxstack = 0, stackptr = 0;
    char *strbuf = 0;
    size_t maxstrlen = 0;
#ifdef GNULIGHTv1
    jit_insn** loopstack = 0;
    jit_insn *codeBuffer;
    void * startptr;
    int argp;
#endif
#ifdef GNULIGHTv2
    jit_node_t    *start, *end;	    /* For size of code */
    jit_node_t** loopstack = 0;
    jit_node_t    *argp;
#endif

    if (cell_size == 8) tape_step = 1; else
    tape_step = sizeof(int);

#ifdef GNULIGHTv1
    /* TODO: Use mmap for allocating memory, the x86 execute protection
     * bit is on the segment so Linux has to say thay everything below
     * a specific address is executable. If you ask mmap for executable
     * memory it can put it below the current value. The mprotect()
     * function can't do this.
     */
    if (total_nodes < 4096)
	codeBuffer = malloc(65536);
    else
	codeBuffer = malloc(16 * total_nodes);
    save_ptr_for_free(codeBuffer);

    codeptr = (codeptr_t) jit_set_ip(codeBuffer).vptr;
    startptr = jit_get_ip().ptr;
    /* Function call prolog */
    jit_prolog(1);
    /* Get the data area pointer */
    argp = jit_arg_p();
    jit_getarg_p(REG_P, argp);
#endif

#ifdef GNULIGHTv2
    init_jit(NULL); // argv[0]);
    _jit = jit_new_state();
    start = jit_note(__FILE__, __LINE__);
    jit_prolog();

    /* Get the data area pointer */
    argp = jit_arg();
    jit_getarg(REG_P, argp);
#endif

    while(n)
    {
	switch(n->type)
	{
	case T_MOV:
	    if (acc_loaded)
		acc_offset -= n->count;

	    jit_addi(REG_P, REG_P, n->count * tape_step);
	    break;

	case T_ADD:
	    load_acc_offset(n->offset);
	    set_acc_offset(n->offset);

	    jit_addi(REG_ACC, REG_ACC, n->count);
	    break;

	case T_SET:
	    set_acc_offset(n->offset);
	    if (acc_const && acc_const_val == n->count) {
		;
	    } else if (acc_const && acc_const_val+1 == n->count) {
		jit_addi(REG_ACC, REG_ACC, 1);
            } else if (acc_const && acc_const_val-1 == n->count) {
		jit_addi(REG_ACC, REG_ACC, -1);
            } else {
		jit_movi(REG_ACC, n->count);
            }
            acc_const = 1;
            acc_const_val = n->count;
            break;

	case T_CALC:
	    if (n->offset == n->offset2 && n->count2 == 1) {
		load_acc_offset(n->offset);
		set_acc_offset(n->offset);
		if (n->count)
		    jit_addi(REG_ACC, REG_ACC, n->count);
	    } else if (n->count2 != 0) {
		load_acc_offset(n->offset2);
		set_acc_offset(n->offset);
		if (n->count2 == -1)
		    jit_negr(REG_ACC, REG_ACC);
		else if (n->count2 != 1)
		    jit_muli(REG_ACC, REG_ACC, n->count2);
		if (n->count)
		    jit_addi(REG_ACC, REG_ACC, n->count);
	    } else {
		clean_acc();
		set_acc_offset(n->offset);

		jit_movi(REG_ACC, n->count);
		if (n->count2 != 0) {
		    if (tape_step > 1)
			jit_ldxi_i(REG_A1, REG_P, n->offset2 * tape_step);
		    else
			jit_ldxi_uc(REG_A1, REG_P, n->offset2);
		    if (n->count2 == -1)
			jit_negr(REG_A1, REG_A1);
		    else if (n->count2 != 1)
			jit_muli(REG_A1, REG_A1, n->count2);
		    jit_addr(REG_ACC, REG_ACC, REG_A1);
		}
	    }

	    if (n->count3 != 0) {
		if (tape_step > 1)
		    jit_ldxi_i(REG_A1, REG_P, n->offset3 * tape_step);
		else
		    jit_ldxi_uc(REG_A1, REG_P, n->offset3);
		if (n->count3 == -1)
		    jit_negr(REG_A1, REG_A1);
		else if (n->count3 != 1)
		    jit_muli(REG_A1, REG_A1, n->count3);
		jit_addr(REG_ACC, REG_ACC, REG_A1);
	    }
	    break;

	case T_IF: case T_MULT: case T_CMULT:
	case T_WHL:
	    load_acc_offset(n->offset);
	    clean_acc();
	    acc_const = acc_loaded = 0;

	    if (stackptr >= maxstack) {
		loopstack = realloc(loopstack,
			    ((maxstack+=32)+2)*sizeof(*loopstack));
		if (loopstack == 0) {
		    perror("loop stack realloc failure");
		    exit(1);
		}
	    }

	    if (cell_mask > 0 && acc_hi_dirty) {
		if (cell_mask == 0xFF)
		    jit_extr_uc(REG_ACC,REG_ACC);
		else
		    jit_andi(REG_ACC, REG_ACC, cell_mask);
	    }

#ifdef GNULIGHTv1
	    loopstack[stackptr] = jit_beqi_i(jit_forward(), REG_ACC, 0);
	    loopstack[stackptr+1] = jit_get_label();
#endif
#ifdef GNULIGHTv2
	    loopstack[stackptr] = jit_beqi(REG_ACC, 0);
	    loopstack[stackptr+1] = jit_label();
#endif
	    stackptr += 2;
	    break;

	case T_END:
	    load_acc_offset(n->offset);
	    clean_acc();

	    stackptr -= 2;
	    if (stackptr < 0) {
		fprintf(stderr, "Code gen failure: Stack pointer negative.\n");
		exit(1);
	    }

	    if (cell_mask > 0 && acc_hi_dirty) {
		if (cell_mask == 0xFF)
		    jit_extr_uc(REG_ACC,REG_ACC);
		else
		    jit_andi(REG_ACC, REG_ACC, cell_mask);
	    }

#ifdef GNULIGHTv1
	    jit_bnei_i(loopstack[stackptr+1], REG_ACC, 0);
	    jit_patch(loopstack[stackptr]);
#endif
#ifdef GNULIGHTv2
	    {
		jit_node_t *ref;
		ref = jit_bnei(REG_ACC, 0);
		jit_patch_at(ref, loopstack[stackptr+1]);
		jit_patch(loopstack[stackptr]);
	    }
#endif
	    break;

	case T_ENDIF:
	    clean_acc();
	    acc_const = acc_loaded = 0;

	    stackptr -= 2;
	    if (stackptr < 0) {
		fprintf(stderr, "Code gen failure: Stack pointer negative.\n");
		exit(1);
	    }
	    jit_patch(loopstack[stackptr]);
	    break;

	case T_PRT:
	    clean_acc();
	    load_acc_offset(n->offset);
	    acc_loaded = 0;

#ifdef GNULIGHTv1
	    jit_prepare_i(1);
	    jit_pusharg_i(REG_ACC);
	    jit_finish(putch);
#endif
#ifdef GNULIGHTv2
	    jit_prepare();
	    jit_pushargr(REG_ACC);
	    jit_finishi(putch);
#endif
	    break;

	case T_CHR:
	    clean_acc();
	    acc_const = acc_loaded = 0;

	    if (n->count <= 0 || (n->count >= 127 && iostyle == 1) ||
		    !n->next || n->next->type != T_CHR) {
		jit_movi(REG_ACC, n->count);
#ifdef GNULIGHTv1
		jit_prepare_i(1);
		jit_pusharg_i(REG_ACC);
		jit_finish(putch);
#endif
#ifdef GNULIGHTv2
		jit_prepare();
		jit_pushargr(REG_ACC);
		jit_finishi(putch);
#endif
	    } else {
		unsigned i = 0;
		struct bfi * v = n;
		char *s;
		while(v->next && v->next->type == T_CHR &&
			v->next->count > 0 &&
			    (v->next->count < 127 || iostyle != 1)) {

		    if (i+2 > maxstrlen) {
			if (maxstrlen) maxstrlen *= 2; else maxstrlen = 4096;
			strbuf = realloc(strbuf, maxstrlen);
			if (!strbuf) {
			    fprintf(stderr, "Reallocate of string buffer failed\n");
			    exit(42);
			}
		    }

		    strbuf[i++] = (char) /*GCC -Wconversion*/ v->count;
		    n = v;
		    v = v->next;
		}
		strbuf[i] = 0;
		s = strdup(strbuf);
		if (!s) {
		    fprintf(stderr, "Save of string failed\n");
		    exit(43);
		}
		save_ptr_for_free(s);

#ifdef GNULIGHTv1
		jit_movi_p(REG_ACC, s);
		jit_prepare_i(1);
		jit_pusharg_i(REG_ACC);
		jit_finish(puts_without_nl);
#endif
#ifdef GNULIGHTv2
		jit_prepare();
		jit_pushargi((jit_word_t) s);
		jit_finishi(puts_without_nl);
#endif
	    }
	    break;

	case T_INP:
	    load_acc_offset(n->offset);
	    set_acc_offset(n->offset);

#ifdef GNULIGHTv1
	    jit_prepare_i(1);
	    jit_pusharg_i(REG_ACC);
	    jit_finish(getch);
	    jit_retval_i(REG_ACC);
#endif
#ifdef GNULIGHTv2
	    jit_prepare();
	    jit_pushargr(REG_ACC);
	    jit_finishi(getch);
	    jit_retval(REG_ACC);
#endif
	    break;

	case T_STOP:
#ifdef GNULIGHTv1
	    jit_prepare_i(0);
	    jit_finish(failout);
#endif
#ifdef GNULIGHTv2
	    jit_prepare();
	    jit_finishi(failout);
#endif
	    break;

	case T_NOP:
	case T_DUMP:
	    fprintf(stderr, "Warning on code generation: "
		    "%s node: ptr+%d, cnt=%d, @(%d,%d).\n",
		    tokennames[n->type],
		    n->offset, n->count, n->line, n->col);
	    break;

	default:
	    fprintf(stderr, "Code gen error: "
		    "%s\t"
		    "%d:%d, %d:%d, %d:%d\n",
		    tokennames[n->type],
		    n->offset, n->count,
		    n->offset2, n->count2,
		    n->offset3, n->count3);
	    exit(1);
	}
	n=n->next;

#if 0 /*def GNULIGHTv2 */
	if(n && enable_trace) {
	    char *p, buf[250];
	    clean_acc();
	    acc_loaded = 0;

	    sprintf(buf, "@(%d,%d)\n", n->line, n->col);
	    p = strdup(buf);
	    save_ptr_for_free(p);

	    jit_prepare();
	    jit_pushargi((jit_word_t) p);
	    jit_finishi(puts_without_nl);
	}
#endif

#ifdef GNULIGHTv1
	/* TODO -- Check for codeBuffer overflow (add jmp to new) */
#endif
    }

    jit_ret();

    if (strbuf) { maxstrlen = 0; free(strbuf); strbuf = 0; }

    delete_tree();

#ifdef GNULIGHTv1
    jit_flush_code(startptr, jit_get_ip().ptr);

    if (verbose)
	fprintf(stderr, "Generated %d bytes of V1 GNU Lightning code, running\n",
		(int)(jit_get_ip().ptr - (char*)startptr));

    start_runclock();
    codeptr(map_hugeram());
    finish_runclock(&run_time, &io_time);
#endif

#ifdef GNULIGHTv2
    jit_epilog();
    end = jit_note(__FILE__, __LINE__);
    codeptr = jit_emit();

    if (verbose)
	fprintf(stderr, "Generated %d bytes of V2 GNU Lightning code, running\n",
	    (int)((char*)jit_address(end) - (char*)jit_address(start)));

    jit_clear_state();
    // jit_disassemble();

    start_runclock();
    codeptr(map_hugeram());
    finish_runclock(&run_time, &io_time);
#endif

#if 0
  /* This code writes the generated instructions to a file
   * so we can disassemble it using:  ndisasm -b 32/64 code.bin  */
    {
#ifdef GNULIGHTv1
	char   *p = startptr;
	int     s = jit_get_ip().ptr - p;
#endif
#ifdef GNULIGHTv2
	char   *p = (char*)jit_address(start);
	int     s = (char*)jit_address(end) - p;
#endif
	FILE   *fp = fopen("code.bin", "w");
	int     i;
	for (i = 0; i < s; ++i) {
	    fputc(p[i], fp);
	}
	fclose(fp);
    }
#endif

#ifdef GNULIGHTv2
    jit_destroy_state();
    finish_jit();
#endif

    codeptr = 0;
    if (loopstack) { free(loopstack); loopstack = 0; }
    free_saved_memory();
}