// Test without serialization:
// RUN: %clang_cc1 -triple x86_64-unknown-unknown -ast-dump %s \
// RUN: | FileCheck --strict-whitespace %s
//
// Test with serialization:
// RUN: %clang_cc1 -triple x86_64-unknown-unknown -emit-pch -o %t %s
// RUN: %clang_cc1 -x c++ -triple x86_64-unknown-unknown -include-pch %t -ast-dump-all /dev/null \
// RUN: | sed -e "s/ <undeserialized declarations>//" -e "s/ imported//" \
// RUN: | FileCheck --strict-whitespace %s
void testArrayInitExpr()
{
int a[10];
auto l = [a]{
};
// CHECK: |-ArrayInitLoopExpr 0x{{[^ ]*}} <col:15> 'int[10]'
// CHECK: | `-ArrayInitIndexExpr 0x{{[^ ]*}} <<invalid sloc>> 'unsigned long'
}
template<typename T, int Size>
class array {
T data[Size];
using array_T_size = T[Size];
// CHECK: `-DependentSizedArrayType 0x{{[^ ]*}} 'T[Size]' dependent <col:25, col:30>
using const_array_T_size = const T[Size];
// CHECK: `-DependentSizedArrayType 0x{{[^ ]*}} 'const T[Size]' dependent <col:37, col:42>
};
struct V {};
template <typename U, typename Idx, int N>
void testDependentSubscript() {
U* a;
U b[5];
Idx i{};
enum E { One = 1 };
// Can types of subscript expressions can be determined?
// LHS is a type-dependent array, RHS is a known integer type.
a[1];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} 'U'
b[1];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} 'U'
// Reverse case: RHS is a type-dependent array, LHS is an integer.
1[a];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} 'U'
1[b];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} 'U'
// LHS is a type-dependent array, RHS is type-dependent.
a[i];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
b[i];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
V *a2;
V b2[5];
// LHS is a known array, RHS is type-dependent.
a2[i];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
b2[i];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
// LHS is a known array, RHS is a type-dependent index.
// We know the element type is V, but insist on some dependent type.
a2[One];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
b2[One];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
V b3[N];
// LHS is an array with dependent bounds but known elements.
// We insist on a dependent type.
b3[0];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} '<dependent type>'
U b4[N];
// LHS is an array with dependent bounds and dependent elements.
b4[0];
// CHECK: ArraySubscriptExpr {{.*}}line:[[@LINE-1]]{{.*}} 'U'
}