// RUN: %clang_analyze_cc1 -std=c++11 -analyzer-checker=core,debug.ExprInspection %s -verify
constexpr int clang_analyzer_hashDump(int) { return 5; }
void function(int) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void function(int)$27$clang_analyzer_hashDump(5);$Category}}
}
namespace {
void variadicParam(int, ...) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void (anonymous namespace)::variadicParam(int, ...)$27$clang_analyzer_hashDump(5);$Category}}
}
} // namespace
constexpr int f() {
return clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$int f()$34$returnclang_analyzer_hashDump(5);$Category}}
}
namespace AA {
class X {
X() {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$AA::X::X()$29$clang_analyzer_hashDump(5);$Category}}
}
static void static_method() {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void AA::X::static_method()$29$clang_analyzer_hashDump(5);$Category}}
variadicParam(5);
}
void method() && {
struct Y {
inline void method() const & {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void AA::X::method()::Y::method() const &$33$clang_analyzer_hashDump(5);$Category}}
}
};
Y y;
y.method();
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void AA::X::method() &&$29$clang_analyzer_hashDump(5);$Category}}
}
void OutOfLine();
X &operator=(int) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$class AA::X & AA::X::operator=(int)$29$clang_analyzer_hashDump(5);$Category}}
return *this;
}
operator int() {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$AA::X::operator int()$29$clang_analyzer_hashDump(5);$Category}}
return 0;
}
explicit operator float() {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$AA::X::operator float()$29$clang_analyzer_hashDump(5);$Category}}
return 0;
}
};
} // namespace AA
void AA::X::OutOfLine() {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void AA::X::OutOfLine()$27$clang_analyzer_hashDump(5);$Category}}
}
void testLambda() {
[]() {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void testLambda()::(anonymous class)::operator()() const$29$clang_analyzer_hashDump(5);$Category}}
}();
}
template <typename T>
void f(T) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void f(T)$27$clang_analyzer_hashDump(5);$Category}}
}
template <typename T>
struct TX {
void f(T) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void TX::f(T)$29$clang_analyzer_hashDump(5);$Category}}
}
};
template <>
void f<long>(long) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void f(long)$27$clang_analyzer_hashDump(5);$Category}}
}
template <>
struct TX<long> {
void f(long) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void TX<long>::f(long)$29$clang_analyzer_hashDump(5);$Category}}
}
};
template <typename T>
struct TTX {
template<typename S>
void f(T, S) {
clang_analyzer_hashDump(5); // expected-warning {{debug.ExprInspection$void TTX::f(T, S)$29$clang_analyzer_hashDump(5);$Category}}
}
};
void g() {
// TX<int> and TX<double> is instantiated from the same code with the same
// source locations. The same error happining in both of the instantiations
// should share the common hash. This means we should not include the
// template argument for these types in the function signature.
// Note that, we still want the hash to be different for explicit
// specializations.
TX<int> x;
TX<double> y;
TX<long> xl;
x.f(1);
xl.f(1);
f(5);
f(3.0);
y.f(2);
TTX<int> z;
z.f<int>(5, 5);
f(5l);
}