C++ (Cpp) rel_typeの例

コード例 #1

ファイル: instruction_operands.hpp プロジェクト: dmsh/factor

	int number_of_parameters()
	{
		switch(rel_type())
		{
		case RT_VM:
			return 1;
		case RT_DLSYM:
			return 2;
		case RT_ENTRY_POINT:
		case RT_ENTRY_POINT_PIC:
		case RT_ENTRY_POINT_PIC_TAIL:
		case RT_LITERAL:
		case RT_HERE:
		case RT_UNTAGGED:
		case RT_THIS:
		case RT_MEGAMORPHIC_CACHE_HITS:
		case RT_CARDS_OFFSET:
		case RT_DECKS_OFFSET:
		case RT_EXCEPTION_HANDLER:
			return 0;
		default:
			critical_error("Bad rel type",rel_type());
			return -1; /* Can't happen */
		}
	}

コード例 #2

ファイル: expr.c プロジェクト: cherry-wb/Hot-Fuzz

PUBLIC type tc_expr(tree t, env e)
#endif
{
     switch (t->x_kind) {
     case REF:
	  return ref_type((sym) t->x_tag, t->x_params, e, t);
	  
     case INGEN:
	  return ref_type((sym) t->x_tag,
			  list2(t->x_param1, t->x_param2), e, t);

     case PREGEN:
	  return ref_type((sym) t->x_tag, list1(t->x_param), e, t);

     case NUMBER:
	  return nat_type;
	  
     case SEXPR: {
	  def d;
	  frame params;

	  if (! open_sref(t->x_ref, e, &d, &params))
	       return err_type;

	  if ((tok) t->x_ref->x_sref_decor != empty) {
	       tc_error(t->x_loc, "Decoration ignored in schema reference");
	       tc_e_etc("Expression: %z", t);
	       tc_e_end();
	  }

	  if (t->x_ref->x_sref_renames != nil) {
	       tc_error(t->x_loc, "Renaming ignored in schema reference");
	       tc_e_etc("Expression: %z", t);
	       tc_e_end();
	  }

	  if (! aflag && d->d_abbrev)
	       return mk_power(mk_abbrev(d, params));
	  else
	       return mk_power(seal(mk_sproduct(d->d_schema), params));
     }

     case POWER: {
	  type tt1, tt2;	  
	  if (! anal_power(tt1 = tc_expr(t->x_arg, e), &tt2, t->x_arg)) {
	       tc_error(t->x_loc, "Argument of \\power must be a set");
	       tc_e_etc("Expression: %z", t);
	       tc_e_etc("Arg type:   %t", tt1);
	       tc_e_end();
	  }
	  return mk_power(mk_power(tt2));
     }
	   
     case TUPLE : {
	  type a[MAX_ARGS];
	  int n = 0;
	  tree u;
	       
	  for (u = t->x_elements; u != nil; u = cdr(u)) {
	       if (n >= MAX_ARGS)
		    panic("tc_expr - tuple too big");
	       a[n++] = tc_expr(car(u), e);
	  }
	  return mk_cproduct(n, a);
     }

     case CROSS: {
	  type a[MAX_ARGS];
	  type tt1, tt2;
	  int n = 0;
	  tree u;

	  for (u = t->x_factors; u != nil; u = cdr(u)) {
	       if (n >= MAX_ARGS)
		    panic("tc_expr - product too big");
	       tt1 = tc_expr(car(u), e);
	       if (! anal_power(tt1, &tt2, car(u))) {
		    tc_error(t->x_loc,
			     "Argument %d of \\cross must be a set", n+1);
		    tc_e_etc("Expression: %z", t);
		    tc_e_etc("Arg %d type: %t", n+1, tt1);
		    tc_e_end();
	       }
	       a[n++] = tt2;
	  }
	  return mk_power(mk_cproduct(n, a));
     }

     case EXT:
     case SEQ:
     case BAG: {
	  type elem_type;
	  type tt;
	  tree u;

	  if (t->x_elements == nil)
	       elem_type = new_typevar(t);
	  else {
	       elem_type = tc_expr(car(t->x_elements), e);
	       for (u = cdr(t->x_elements); u != nil; u = cdr(u)) {
		    if (unify(elem_type, tt = tc_expr(car(u), e)))
			 elem_type = type_union(elem_type, arid, tt, arid);
		    else {
			 tc_error(t->x_loc, "Type mismatch in %s display",
				  (t->x_kind == EXT ? "set" :
				   t->x_kind == SEQ ? "sequence" : "bag"));
			 tc_e_etc("Expression: %z", car(u));
			 tc_e_etc("Has type:   %t", tt);
			 tc_e_etc("Expected:   %t", elem_type);
			 tc_e_end();
		    }
	       }
	  }
	  switch (t->x_kind) {
	  case EXT:
	       return mk_power(elem_type);
	  case SEQ:
	       return (aflag ? rel_type(num_type, elem_type) 
			     : mk_seq(elem_type));
	  case BAG:
	       return (aflag ? rel_type(elem_type, num_type) 
			     : mk_bag(elem_type));
	  }
     }

     case THETA: 
	  return theta_type(t, e, (type) NULL, t);

     case BINDING: {
	  tree u;
	  env e1 = new_env(e);
	  for (u = t->x_elements; u != nil; u = cdr(u))
	       add_def(VAR, (sym) car(u)->x_lhs, 
		       tc_expr(car(u)->x_rhs, e), e1);
	  return mk_sproduct(mk_schema(e1));
     }

     case SELECT: {
	  type a = tc_expr(t->x_arg, e);

	  if (type_kind(a) != SPRODUCT) {
	       tc_error(t->x_loc,
			"Argument of selection must have schema type");
	       tc_e_etc("Expression: %z", t);
	       tc_e_etc("Arg type:   %t", a);
	       tc_e_end();
	       mark_error();
	       return err_type;
	  }

	  switch (t->x_field->x_kind) {
	  case IDENT:
	       return (comp_type(a, (sym) t->x_field, t, t->x_loc));

	  case THETA:
	       return (theta_type(t->x_field, e, a, t));

	  default:
	       bad_tag("tc_expr.SELECT", t->x_field->x_kind);
	       return (type) NULL;
	  }
     }

     case APPLY:
	  return tc_apply(APPLY, t, t->x_arg1, t->x_arg2, e);

     case INOP:
	  return tc_apply(INOP, t, simply(t->x_op, t->x_loc), 
			  pair(t->x_rand1, t->x_rand2), e);

     case POSTOP:
	  return tc_apply(POSTOP, t, simply(t->x_op, t->x_loc), 
			  t->x_rand, e);

     case LAMBDA: {
	  env e1 = tc_schema(t->x_bvar, e);
	  type dom = tc_expr(char_tuple(t->x_bvar), e1);
	  type ran = tc_expr(t->x_body, e1);
	  return (aflag ? rel_type(dom, ran) : mk_pfun(dom, ran));
     }
    
     case COMP:
     case MU: {
	  env e1 = tc_schema(t->x_bvar, e);
	  type a = tc_expr(exists(t->x_body) ? the(t->x_body) :
			   char_tuple(t->x_bvar), e1);
	  return (t->x_kind == COMP ? mk_power(a) : a);
     }

     case LETEXPR:
	  return tc_expr(t->x_body, tc_letdefs(t->x_defs, e));

     case IF: {
	  type a, b;
	  tc_pred(t->x_if, e);
	  a = tc_expr(t->x_then, e);
	  b = tc_expr(t->x_else, e);
	  if (unify(a, b))
	       return type_union(a, arid, b, arid);
	  else {
	       tc_error(t->x_loc,
			"Type mismatch in conditional expression");
	       tc_e_etc("Expression: %z", t);
	       tc_e_etc("Then type:  %t", a);
	       tc_e_etc("Else type:  %t", b);
	       tc_e_end();
	       return err_type;
	  }
     }

     default:
	  bad_tag("tc_expr", t->x_kind);
	  /* dummy */ return (type) NULL;
     }
}