// RUN: %clang_cc1 -fsyntax-only -verify -Wvla %s struct NonPOD { NonPOD(); }; struct NonPOD2 { NonPOD np; }; struct POD { int x; int y; }; // We allow VLAs of POD types, only. void vla(int N) { int array1[N]; // expected-warning{{variable length arrays are a C99 feature}} POD array2[N]; // expected-warning{{variable length arrays are a C99 feature}} NonPOD array3[N]; // expected-error{{variable length array of non-POD element type 'NonPOD'}} NonPOD2 array4[N][3]; // expected-error{{variable length array of non-POD element type 'NonPOD2'}} } /// Warn about VLAs in templates. template void vla_in_template(int N, T t) { int array1[N]; // expected-warning{{variable length arrays are a C99 feature}} } struct HasConstantValue { static const unsigned int value = 2; }; struct HasNonConstantValue { static unsigned int value; }; template void vla_in_template(T t) { int array2[T::value]; // expected-warning{{variable length arrays are a C99 feature}} } template void vla_in_template(HasConstantValue); template void vla_in_template(HasNonConstantValue); // expected-note{{instantiation of}} template struct X0 { }; // Cannot use any variably-modified type with a template parameter or // argument. void inst_with_vla(int N) { int array[N]; // expected-warning{{variable length arrays are a C99 feature}} X0<__typeof__(array)> x0a; // expected-error{{variably modified type 'typeof (array)' (aka 'int [N]') cannot be used as a template argument}} } template struct X1 { template // expected-error{{non-type template parameter of variably modified type 'int (&)[HasNonConstantValue::value]'}} \ // expected-warning{{variable length arrays are a C99 feature}} struct Inner { }; }; X1 x1a; X1 x1b; // expected-note{{in instantiation of}} // Template argument deduction does not allow deducing a size from a VLA. template void accept_array(T (&array)[N]); // expected-note{{candidate template ignored: failed template argument deduction}} void test_accept_array(int N) { int array[N]; // expected-warning{{variable length arrays are a C99 feature}} accept_array(array); // expected-error{{no matching function for call to 'accept_array'}} } // Variably-modified types cannot be used in local classes. void local_classes(int N) { // expected-note {{declared here}} struct X { int size; int array[N]; // expected-error{{fields must have a constant size: 'variable length array in structure' extension will never be supported}} \ // expected-error{{reference to local variable 'N' declared in enclosing function 'local_classes'}} \ // expected-warning{{variable length arrays are a C99 feature}} }; } namespace PR7206 { void f(int x) { struct edge_info { float left; float right; }; struct edge_info edgeInfo[x]; // expected-warning{{variable length arrays are a C99 feature}} } } namespace rdar8020206 { template void f(int i) { const unsigned value = i; int array[value * i]; // expected-warning 2{{variable length arrays are a C99 feature}} } template void f(int); // expected-note{{instantiation of}} } namespace rdar8021385 { typedef int my_int; struct A { typedef int my_int; }; template struct B { typedef typename T::my_int my_int; void f0() { int M = 4; my_int a[M]; // expected-warning{{variable length arrays are a C99 feature}} } }; B a; } namespace PR8209 { void f(int n) { typedef int vla_type[n]; // expected-warning{{variable length arrays are a C99 feature}} (void)new vla_type; // expected-error{{variably}} } } namespace rdar8733881 { // rdar://8733881 static const int k_cVal3 = (int)(1000*0.2f); int f() { // Ok, fold to a constant size array as an extension. char rgch[k_cVal3] = {0}; } } namespace PR11744 { template int f(int n) { T arr[3][n]; // expected-warning 3 {{variable length arrays are a C99 feature}} return 3; } int test = f(0); // expected-note {{instantiation of}} }