gcc/testsuite/g++.dg/ext/attr-const-pure.C - gcc - Git at Google

 // Bug c++/83503 - bogus -Wattributes for const and pure on function template
 // specialization
 // { dg-do compile }
 // { dg-options "-O -Wall -fdump-tree-optimized" }

 int global;

 template <class T>
 int __attribute__ ((pure))
 f (T);

 template <>
 int __attribute__ ((const)) f<int> (int);   // { dg-bogus "ignoring attribute .const." }

 void f_pure_primary_elim ();
 void f_pure_primary_keep ();
 void f_const_spec_elim ();

 void call_pure_primary_elim (double x)
 {
   // Only the first call to f(x) must be emitted, the second one
   // is expected to be eliminated because the primary template
   // is pure.
   int i0 = f (x);
   int i1 = f (x);
   if (i0 != i1)
     f_pure_primary_elim ();
 }

 void call_pure_primary_keep (const char *s)
 {
   // Both calls to f(x) must be emitted because the primary is
   // pure and may read global.
   int i0 = f (s);
   global = 123;
   int i1 = f (s);
   if (i0 != i1)
     f_pure_primary_keep ();
 }

 void call_const_spec_elim (int i)
 {
   // Only the first call to f(x) must be emitted, the second
   // one is expected to be eliminated again, this time because
   // unlike the pure primary, the specialization is const.
   int i0 = f (i);
   global = 123;
   int i1 = f (i);
   if (i0 != i1)
     f_const_spec_elim ();
 }

 template <class T>
 int __attribute__ ((const))
 g (T);

 template <>
 int __attribute__ ((pure)) g<int> (int);   // { dg-bogus "ignoring attribute .const." }

 template <class T>
 int __attribute__ ((const))
 h (T);

 template <class T>
 int __attribute__ ((pure))
 h (const T*);

 template <>
 int h<int> (int);

 template <>
 int h<int*> (int*);

 extern void h_const_primary_elim ();
 extern void h_pure_cstptr_elim ();
 extern void h_cstptr_keep ();
 extern void h_int_keep ();
 extern void h_intptr_keep ();

 void call_const_primary_elim (double x)
 {
   // Only the first call to h(x) must be emitted, the second one
   // is expected to be eliminated.
   int i0 = h (x);
   int i1 = h (x);

   if (i0 != i1)                   // must be folded into false
     h_const_primary_elim ();        // must be eliminated
 }

 void call_pure_cstptr_elim (const void *p)
 {
   // Only the first call to h(x) must be emitted, the second one
   // is expected to be eliminated.  This verifies that h<const
   // void*>*() is treated as const in this context.
   int i0 = h (p);
   int i1 = h (p);

   if (i0 != i1)                   // must be folded into false
     h_pure_cstptr_elim ();          // must be eliminated
 }

 void call_cstptr_keep (const void *p)
 {
   // Because of the store to the global, both calls to h(p) must
   // be emitted.  This verifies that h<const void*>*() is not
   // treated as const.
   int i0 = h (p);
   global = 123;
   int i1 = h (p);

   if (i0 != i1)                   // must not be folded
     h_cstptr_keep ();             // must be emitted
 }

 void call_int_keep (int i)
 {
   // Both calls to h(i) must be emitted.
   int i0 = h (i);
   int i1 = h (i);

   if (i0 != i1)                   // must not be folded
     h_int_keep ();                // must be emitted
 }

 void call_intptr_keep (int *ip)
 {
   // Both calls to h(ip) must be emitted.
   int i0 = h (ip);
   int i1 = h (ip);

   if (i0 != i1)                   // must not be folded
     h_intptr_keep ();             // must be emitted
 }

 // { dg-final { scan-tree-dump-not "f_pure_primary_elim" "optimized" } }
 // { dg-final { scan-tree-dump-not "f_const_primary_elim" "optimized" } }
 // { dg-final { scan-tree-dump-not "f_const_spec_elim" "optimized" } }
 // { dg-final { scan-tree-dump-not "h_pure_cstptr_elim" "optimized" } }

 // { dg-final { scan-tree-dump-times "f_pure_primary_keep" 1 "optimized" } }
 // { dg-final { scan-tree-dump-times "h_cstptr_keep" 1 "optimized" } }
 // { dg-final { scan-tree-dump-times "h_int_keep" 1 "optimized" } }
 // { dg-final { scan-tree-dump-times "h_intptr_keep" 1 "optimized" } }
	// Bug c++/83503 - bogus -Wattributes for const and pure on function template
	// specialization
	// { dg-do compile }
	// { dg-options "-O -Wall -fdump-tree-optimized" }

	int global;

	template <class T>
	int __attribute__ ((pure))
	f (T);

	template <>
	int __attribute__ ((const)) f<int> (int); // { dg-bogus "ignoring attribute .const." }

	void f_pure_primary_elim ();
	void f_pure_primary_keep ();
	void f_const_spec_elim ();

	void call_pure_primary_elim (double x)
	{
	// Only the first call to f(x) must be emitted, the second one
	// is expected to be eliminated because the primary template
	// is pure.
	int i0 = f (x);
	int i1 = f (x);
	if (i0 != i1)
	f_pure_primary_elim ();
	}

	void call_pure_primary_keep (const char *s)
	{
	// Both calls to f(x) must be emitted because the primary is
	// pure and may read global.
	int i0 = f (s);
	global = 123;
	int i1 = f (s);
	if (i0 != i1)
	f_pure_primary_keep ();
	}

	void call_const_spec_elim (int i)
	{
	// Only the first call to f(x) must be emitted, the second
	// one is expected to be eliminated again, this time because
	// unlike the pure primary, the specialization is const.
	int i0 = f (i);
	global = 123;
	int i1 = f (i);
	if (i0 != i1)
	f_const_spec_elim ();
	}

	template <class T>
	int __attribute__ ((const))
	g (T);

	template <>
	int __attribute__ ((pure)) g<int> (int); // { dg-bogus "ignoring attribute .const." }

	template <class T>
	int __attribute__ ((const))
	h (T);

	template <class T>
	int __attribute__ ((pure))
	h (const T*);

	template <>
	int h<int> (int);

	template <>
	int h<int> (int);

	extern void h_const_primary_elim ();
	extern void h_pure_cstptr_elim ();
	extern void h_cstptr_keep ();
	extern void h_int_keep ();
	extern void h_intptr_keep ();

	void call_const_primary_elim (double x)
	{
	// Only the first call to h(x) must be emitted, the second one
	// is expected to be eliminated.
	int i0 = h (x);
	int i1 = h (x);

	if (i0 != i1) // must be folded into false
	h_const_primary_elim (); // must be eliminated
	}

	void call_pure_cstptr_elim (const void *p)
	{
	// Only the first call to h(x) must be emitted, the second one
	// is expected to be eliminated. This verifies that h<const
	// void>() is treated as const in this context.
	int i0 = h (p);
	int i1 = h (p);

	if (i0 != i1) // must be folded into false
	h_pure_cstptr_elim (); // must be eliminated
	}

	void call_cstptr_keep (const void *p)
	{
	// Because of the store to the global, both calls to h(p) must
	// be emitted. This verifies that h<const void>() is not
	// treated as const.
	int i0 = h (p);
	global = 123;
	int i1 = h (p);

	if (i0 != i1) // must not be folded
	h_cstptr_keep (); // must be emitted
	}

	void call_int_keep (int i)
	{
	// Both calls to h(i) must be emitted.
	int i0 = h (i);
	int i1 = h (i);

	if (i0 != i1) // must not be folded
	h_int_keep (); // must be emitted
	}

	void call_intptr_keep (int *ip)
	{
	// Both calls to h(ip) must be emitted.
	int i0 = h (ip);
	int i1 = h (ip);

	if (i0 != i1) // must not be folded
	h_intptr_keep (); // must be emitted
	}

	// { dg-final { scan-tree-dump-not "f_pure_primary_elim" "optimized" } }
	// { dg-final { scan-tree-dump-not "f_const_primary_elim" "optimized" } }
	// { dg-final { scan-tree-dump-not "f_const_spec_elim" "optimized" } }
	// { dg-final { scan-tree-dump-not "h_pure_cstptr_elim" "optimized" } }

	// { dg-final { scan-tree-dump-times "f_pure_primary_keep" 1 "optimized" } }
	// { dg-final { scan-tree-dump-times "h_cstptr_keep" 1 "optimized" } }
	// { dg-final { scan-tree-dump-times "h_int_keep" 1 "optimized" } }
	// { dg-final { scan-tree-dump-times "h_intptr_keep" 1 "optimized" } }