// RUN: %clang_analyze_cc1 -triple x86_64-unknown-linux -analyzer-checker=debug.DumpCFG -std=c++14 %s > %t 2>&1 // RUN: FileCheck --input-file=%t %s // RUN: %clang_analyze_cc1 -triple x86_64-unknown-linux -analyzer-checker=core,debug.ExprInspection -std=c++14 -verify %s void clang_analyzer_eval(bool); int global; namespace variant_0 { // This variant of the code works correctly. Function foo() is not a template // function. Note that there are two destructors within foo(). class A { public: ~A() { ++global; } }; class B { A a; }; // CHECK: void foo(int) // CHECK: [B1] // CHECK-NEXT: 1: (CXXConstructExpr, [B1.2], class variant_0::B) // CHECK-NEXT: 2: variant_0::B i; // CHECK-NEXT: 3: operator= // CHECK-NEXT: 4: [B1.3] (ImplicitCastExpr, FunctionToPointerDecay, class variant_0::B &(*)(class variant_0::B &&) noexcept) // CHECK-NEXT: 5: i // CHECK-NEXT: 6: {} (CXXConstructExpr, [B1.7], [B1.8], class variant_0::B) // CHECK-NEXT: 7: [B1.6] (BindTemporary) // CHECK-NEXT: 8: [B1.7] // CHECK-NEXT: 9: [B1.5] = [B1.8] (OperatorCall) // CHECK-NEXT: 10: ~variant_0::B() (Temporary object destructor) // CHECK-NEXT: 11: [B1.2].~B() (Implicit destructor) void foo(int) { B i; i = {}; } void bar() { global = 0; foo(1); clang_analyzer_eval(global == 2); // expected-warning{{TRUE}} } } // end namespace variant_0 namespace variant_1 { // Suddenly, if we turn foo() into a template, we are missing a // CXXBindTemporaryExpr in the AST, and therefore we're missing a // temporary destructor in the CFG. class A { public: ~A() { ++global; } }; class B { A a; }; // FIXME: Find the construction context for {} and enforce the temporary // destructor. // CHECK: template<> void foo(int) // CHECK: [B1] // CHECK-NEXT: 1: (CXXConstructExpr, [B1.2], class variant_1::B) // CHECK-NEXT: 2: variant_1::B i; // CHECK-NEXT: 3: operator= // CHECK-NEXT: 4: [B1.3] (ImplicitCastExpr, FunctionToPointerDecay, class variant_1::B &(*)(class variant_1::B &&) noexcept) // CHECK-NEXT: 5: i // CHECK-NEXT: 6: {} (CXXConstructExpr, class variant_1::B) // CHECK-NEXT: 7: [B1.6] // CHECK-NEXT: 8: [B1.5] = [B1.7] (OperatorCall) // CHECK-NEXT: 9: [B1.2].~B() (Implicit destructor) template void foo(T) { B i; i = {}; } void bar() { global = 0; foo(1); // FIXME: Should be TRUE, i.e. we should call (and inline) two destructors. clang_analyzer_eval(global == 2); // expected-warning{{UNKNOWN}} } } // end namespace variant_1 namespace variant_2 { // Making field 'a' in class 'B' public turns the class into an aggregate. // In this case there is no constructor at {} - only an aggregate // initialization. Aggregate initialization is unsupported for now. class A { public: ~A() { ++global; } }; class B { public: A a; }; // CHECK: template<> void foo(int) // CHECK: [B1] // CHECK-NEXT: 1: (CXXConstructExpr, [B1.2], class variant_2::B) // CHECK-NEXT: 2: variant_2::B i; // CHECK-NEXT: 3: operator= // CHECK-NEXT: 4: [B1.3] (ImplicitCastExpr, FunctionToPointerDecay, class variant_2::B &(*)(class variant_2::B &&) noexcept) // CHECK-NEXT: 5: i // CHECK-NEXT: 6: {} // CHECK-NEXT: 7: {} // CHECK-NEXT: 8: [B1.7] (BindTemporary) // CHECK-NEXT: 9: [B1.8] // CHECK-NEXT: 10: [B1.5] = [B1.9] (OperatorCall) // CHECK-NEXT: 11: ~variant_2::B() (Temporary object destructor) // CHECK-NEXT: 12: [B1.2].~B() (Implicit destructor) template void foo(T) { B i; i = {}; } void bar() { global = 0; foo(1); // FIXME: Should be TRUE, i.e. we should call (and inline) two destructors. clang_analyzer_eval(global == 2); // expected-warning{{UNKNOWN}} } } // end namespace variant_2