llvm-for-llvmta/tools/clang/test/SemaCXX/warn-unused-variables.cpp

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2022-04-25 13:02:35 +02:00
// RUN: %clang_cc1 -fsyntax-only -Wunused-variable -Wunused-label -Wno-c++1y-extensions -verify %s
// RUN: %clang_cc1 -fsyntax-only -Wunused-variable -Wunused-label -Wno-c++1y-extensions -verify -std=c++11 %s
template<typename T> void f() {
T t;
t = 17;
}
// PR5407
struct A { A(); };
struct B { ~B(); };
void f() {
A a;
B b;
}
// PR5531
namespace PR5531 {
struct A {
};
struct B {
B(int);
};
struct C {
~C();
};
void test() {
A();
B(17);
C();
}
}
template<typename T>
struct X0 { };
template<typename T>
void test_dependent_init(T *p) {
X0<int> i(p);
(void)i;
}
void unused_local_static() {
static int x = 0;
static int y = 0; // expected-warning{{unused variable 'y'}}
#pragma unused(x)
}
// PR10168
namespace PR10168 {
// We expect a warning in the definition only for non-dependent variables, and
// a warning in the instantiation only for dependent variables.
template<typename T>
struct S {
void f() {
int a; // expected-warning {{unused variable 'a'}}
T b; // expected-warning 2{{unused variable 'b'}}
}
};
template<typename T>
void f() {
int a; // expected-warning {{unused variable 'a'}}
T b; // expected-warning 2{{unused variable 'b'}}
}
void g() {
S<int>().f(); // expected-note {{here}}
S<char>().f(); // expected-note {{here}}
f<int>(); // expected-note {{here}}
f<char>(); // expected-note {{here}}
}
}
namespace PR11550 {
struct S1 {
S1();
};
S1 makeS1();
void testS1(S1 a) {
// This constructor call can be elided.
S1 x = makeS1(); // expected-warning {{unused variable 'x'}}
// This one cannot, so no warning.
S1 y;
// This call cannot, but the constructor is trivial.
S1 z = a; // expected-warning {{unused variable 'z'}}
}
// The same is true even when we know thet constructor has side effects.
void foo();
struct S2 {
S2() {
foo();
}
};
S2 makeS2();
void testS2(S2 a) {
S2 x = makeS2(); // expected-warning {{unused variable 'x'}}
S2 y;
S2 z = a; // expected-warning {{unused variable 'z'}}
}
// Or when the constructor is not declared by the user.
struct S3 {
S1 m;
};
S3 makeS3();
void testS3(S3 a) {
S3 x = makeS3(); // expected-warning {{unused variable 'x'}}
S3 y;
S3 z = a; // expected-warning {{unused variable 'z'}}
}
}
namespace PR19305 {
template<typename T> int n = 0; // no warning
int a = n<int>;
template<typename T> const int l = 0; // no warning
int b = l<int>;
// PR19558
template<typename T> const int o = 0; // no warning
template<typename T> const int o<T*> = 0; // no warning
int c = o<int*>;
template<> int o<void> = 0; // no warning
int d = o<void>;
// FIXME: It'd be nice to warn here.
template<typename T> int m = 0;
template<typename T> int m<T*> = 0;
// This has external linkage, so could be referenced by a declaration in a
// different translation unit.
template<> const int m<void> = 0; // no warning
}
namespace ctor_with_cleanups {
struct S1 {
~S1();
};
struct S2 {
S2(const S1&);
};
void func() {
S2 s((S1()));
}
}
#include "Inputs/warn-unused-variables.h"
namespace arrayRecords {
class NonTriviallyDestructible {
public:
~NonTriviallyDestructible() {}
};
struct Foo {
int x;
Foo(int x) : x(x) {}
};
struct Elidable {
Elidable();
};
void foo(int size) {
Elidable elidable; // no warning
Elidable elidableArray[2]; // no warning
Elidable elidableDynArray[size]; // no warning
Elidable elidableNestedArray[1][2][3]; // no warning
NonTriviallyDestructible scalar; // no warning
NonTriviallyDestructible array[2]; // no warning
NonTriviallyDestructible nestedArray[2][2]; // no warning
Foo fooScalar = 1; // expected-warning {{unused variable 'fooScalar'}}
Foo fooArray[] = {1,2}; // expected-warning {{unused variable 'fooArray'}}
Foo fooNested[2][2] = { {1,2}, {3,4} }; // expected-warning {{unused variable 'fooNested'}}
}
template<int N>
void bar() {
NonTriviallyDestructible scaler; // no warning
NonTriviallyDestructible array[N]; // no warning
}
void test() {
foo(10);
bar<2>();
}
}
#if __cplusplus >= 201103L
namespace with_constexpr {
template <typename T>
struct Literal {
T i;
Literal() = default;
constexpr Literal(T i) : i(i) {}
};
struct NoLiteral {
int i;
NoLiteral() = default;
constexpr NoLiteral(int i) : i(i) {}
~NoLiteral() {}
};
static Literal<int> gl1; // expected-warning {{unused variable 'gl1'}}
static Literal<int> gl2(1); // expected-warning {{unused variable 'gl2'}}
static const Literal<int> gl3(0); // expected-warning {{unused variable 'gl3'}}
template <typename T>
void test(int i) {
Literal<int> l1; // expected-warning {{unused variable 'l1'}}
Literal<int> l2(42); // expected-warning {{unused variable 'l2'}}
Literal<int> l3(i); // no-warning
Literal<T> l4(0); // no-warning
NoLiteral nl1; // no-warning
NoLiteral nl2(42); // no-warning
}
}
namespace crash {
struct a {
a(const char *);
};
template <typename b>
void c() {
a d(b::e ? "" : "");
}
}
// Ensure we don't warn on dependent constructor calls.
namespace dependent_ctor {
struct S {
S() = default;
S(const S &) = default;
S(int);
};
template <typename T>
void foo(T &t) {
S s{t};
}
}
#endif