safecode/tools/clang/test/SemaCXX/cxx1y-array-runtime-bound.cpp - llvm-archive - Git at Google

 // RUN: %clang_cc1 -std=c++1y %s -verify -triple=x86_64-linux-gnu -pedantic-errors

 // FIXME: many diagnostics here say 'variably modified type'.
 //        catch this case and say 'array of runtime bound' instead.

 namespace std { struct type_info; }

 struct S {
   int arr[__SIZE_MAX__ / 32];
 };
 S s[32]; // expected-error {{array is too large}}

 int n;
 int a[n]; // expected-error {{not allowed at file scope}}

 struct T {
   int a[n]; // expected-error {{fields must have a constant size}}
   static int b[n]; // expected-error {{not allowed at file scope}}
 };

 int g(int n, int a[n]);

 template<typename T> struct X {};
 template<int N, int[N]> struct Y {};
 template<int[n]> struct Z {}; // expected-error {{of variably modified type}}

 int f(int n) {
   int arb[n]; // expected-note 3{{here}}
   [arb] {} (); // expected-error {{cannot be captured}}

   // FIXME: an array of runtime bound can be captured by reference.
   [&arb] { // expected-error {{cannot be captured}}
     // Capturing the array implicitly captures the bound, if we need it
     // in a range-based for loop.
     for (auto &n : arb) { } // expected-error {{cannot be captured}}
   } ();

   X<int[n]> x; // expected-error {{variably modified type}}

   int arb_neg[-1]; // expected-error {{negative size}}
   int arb_of_array[n][2];
   int arr[3] = { 1, 2, 3, 4 }; // expected-error {{excess elements}}
   char foo[4] = "fool"; // expected-error {{initializer-string for char array is too long}}

   static int not_auto1[n]; // expected-error {{can not have 'static'}}
   extern int not_auto2[n]; // expected-error {{can not have 'extern'}}
   // FIXME: say 'thread_local' not 'static'.
   thread_local int not_auto1[n]; // expected-error {{can not have 'static'}}

   // FIXME: these should all be invalid.
   auto &&ti1 = typeid(arb);
   auto &&ti2 = typeid(int[n]);
   auto &&so1 = sizeof(arb);
   auto &&so2 = sizeof(int[n]);
   auto *p = &arb;
   decltype(arb) arb2;
   int (*arbp)[n] = 0;
   const int (&arbr)[n] = arbr; // expected-warning {{not yet bound}}
   typedef int arbty[n];
   int array_of_arb[2][n];

   struct Dyn { Dyn() {} Dyn(int) {} ~Dyn() {} };

   // FIXME: these should be valid.
   int arb_dynamic[n] = { 1, 2, 3, 4 }; // expected-error {{may not be initialized}}
   Dyn dyn[n]; // expected-error {{non-POD}}
   Dyn dyn_init[n] = { 1, 2, 3, 4 }; // expected-error {{non-POD}}
 }
	// RUN: %clang_cc1 -std=c++1y %s -verify -triple=x86_64-linux-gnu -pedantic-errors

	// FIXME: many diagnostics here say 'variably modified type'.
	// catch this case and say 'array of runtime bound' instead.

	namespace std { struct type_info; }

	struct S {
	int arr[__SIZE_MAX__ / 32];
	};
	S s[32]; // expected-error {{array is too large}}

	int n;
	int a[n]; // expected-error {{not allowed at file scope}}

	struct T {
	int a[n]; // expected-error {{fields must have a constant size}}
	static int b[n]; // expected-error {{not allowed at file scope}}
	};

	int g(int n, int a[n]);

	template<typename T> struct X {};
	template<int N, int[N]> struct Y {};
	template<int[n]> struct Z {}; // expected-error {{of variably modified type}}

	int f(int n) {
	int arb[n]; // expected-note 3{{here}}
	[arb] {} (); // expected-error {{cannot be captured}}

	// FIXME: an array of runtime bound can be captured by reference.
	[&arb] { // expected-error {{cannot be captured}}
	// Capturing the array implicitly captures the bound, if we need it
	// in a range-based for loop.
	for (auto &n : arb) { } // expected-error {{cannot be captured}}
	} ();

	X<int[n]> x; // expected-error {{variably modified type}}

	int arb_neg[-1]; // expected-error {{negative size}}
	int arb_of_array[n][2];
	int arr[3] = { 1, 2, 3, 4 }; // expected-error {{excess elements}}
	char foo[4] = "fool"; // expected-error {{initializer-string for char array is too long}}

	static int not_auto1[n]; // expected-error {{can not have 'static'}}
	extern int not_auto2[n]; // expected-error {{can not have 'extern'}}
	// FIXME: say 'thread_local' not 'static'.
	thread_local int not_auto1[n]; // expected-error {{can not have 'static'}}

	// FIXME: these should all be invalid.
	auto &&ti1 = typeid(arb);
	auto &&ti2 = typeid(int[n]);
	auto &&so1 = sizeof(arb);
	auto &&so2 = sizeof(int[n]);
	auto *p = &arb;
	decltype(arb) arb2;
	int (*arbp)[n] = 0;
	const int (&arbr)[n] = arbr; // expected-warning {{not yet bound}}
	typedef int arbty[n];
	int array_of_arb[2][n];

	struct Dyn { Dyn() {} Dyn(int) {} ~Dyn() {} };

	// FIXME: these should be valid.
	int arb_dynamic[n] = { 1, 2, 3, 4 }; // expected-error {{may not be initialized}}
	Dyn dyn[n]; // expected-error {{non-POD}}
	Dyn dyn_init[n] = { 1, 2, 3, 4 }; // expected-error {{non-POD}}
	}