gcc/testsuite/gcc.dg/c99-const-expr-6.c - gcc - Git at Google

 /* Test for constant expressions: operands and casts not permitted in
    integer constant expressions.  */
 /* Origin: Joseph Myers <joseph@codesourcery.com> */
 /* { dg-do compile } */
 /* { dg-options "-std=iso9899:1999 -pedantic-errors" } */

 /* PR 29116.  */
 int n = 0, p[n * 0 + 1]; /* { dg-error "variabl" } */

 /* PR 31871.  */
 extern int c[1 + ((__INTPTR_TYPE__) (void *) 0)]; /* { dg-error "variab" } */

 /* Implicit conversions from floating-point constants are not OK,
    although explicit ones are.  */
 extern int c1[1.0 ? 1 : 0]; /* { dg-error "variab" } */

 extern int c2[(int)1.0 ? 1 : 0];

 extern int c3[1.0 && 1]; /* { dg-error "variab" } */

 extern int c4[(int)1.0 && 1];

 extern int c5[1.0 || 1]; /* { dg-error "variab" } */

 extern int c6[(int)1.0 || 1];

 /* Similar with various other cases where integer constant expressions
    are required.  */

 struct s {
   int a : (n * 0 + 1); /* { dg-error "constant" } */
 };

 enum e {
   E = (1 + ((__INTPTR_TYPE__) (void *) 0)), /* { dg-error "constant" } */
   E2 = 0
 };

 enum f {
   F = (1 ? 1 : n), /* { dg-error "constant" } */
   F2 = 0
 };

 /* Presume that a compound literal, being a reference to an anonymous
    variable, is not allowed in an integer constant expression
    regardless of what initializers it contains.  */
 enum g {
   G = (1 ? 1 : (int){0}), /* { dg-error "constant" } */
   G2 = 0
 };

 int v[2] = { [(n * 0 + 1)] = 1 }; /* { dg-error "constant|near initialization" } */

 void
 f (int a)
 {
   switch (a)
     {
     case (n * 0 + 1): /* { dg-error "constant" } */
       ;
     }
 }
	/* Test for constant expressions: operands and casts not permitted in
	integer constant expressions. */
	/* Origin: Joseph Myers <joseph@codesourcery.com> */
	/* { dg-do compile } */
	/* { dg-options "-std=iso9899:1999 -pedantic-errors" } */

	/* PR 29116. */
	int n = 0, p[n * 0 + 1]; /* { dg-error "variabl" } */

	/* PR 31871. */
	extern int c[1 + ((__INTPTR_TYPE__) (void ) 0)]; / { dg-error "variab" } */

	/* Implicit conversions from floating-point constants are not OK,
	although explicit ones are. */
	extern int c1[1.0 ? 1 : 0]; /* { dg-error "variab" } */

	extern int c2[(int)1.0 ? 1 : 0];

	extern int c3[1.0 && 1]; /* { dg-error "variab" } */

	extern int c4[(int)1.0 && 1];

	extern int c5[1.0 \|\| 1]; /* { dg-error "variab" } */

	extern int c6[(int)1.0 \|\| 1];

	/* Similar with various other cases where integer constant expressions
	are required. */

	struct s {
	int a : (n * 0 + 1); /* { dg-error "constant" } */
	};

	enum e {
	E = (1 + ((__INTPTR_TYPE__) (void ) 0)), / { dg-error "constant" } */
	E2 = 0
	};

	enum f {
	F = (1 ? 1 : n), /* { dg-error "constant" } */
	F2 = 0
	};

	/* Presume that a compound literal, being a reference to an anonymous
	variable, is not allowed in an integer constant expression
	regardless of what initializers it contains. */
	enum g {
	G = (1 ? 1 : (int){0}), /* { dg-error "constant" } */
	G2 = 0
	};

	int v[2] = { [(n * 0 + 1)] = 1 }; /* { dg-error "constant\|near initialization" } */

	void
	f (int a)
	{
	switch (a)
	{
	case (n * 0 + 1): /* { dg-error "constant" } */
	;
	}
	}