test/SemaCXX/self-comparison.cpp - clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++2a

 int foo(int x) {
   return x == x; // expected-warning {{self-comparison always evaluates to true}}
 }

 struct X {
   bool operator==(const X &x) const;
 };

 struct A {
   int x;
   X x2;
   int a[3];
   int b[3];
   bool f() { return x == x; } // expected-warning {{self-comparison always evaluates to true}}
   bool g() { return x2 == x2; } // no-warning
   bool h() { return a == b; } // expected-warning {{array comparison always evaluates to false}}
   bool i() {
     int c[3];
     return a == c; // expected-warning {{array comparison always evaluates to false}}
   }
 };

 namespace NA { extern "C" int x[3]; }
 namespace NB { extern "C" int x[3]; }
 bool k = NA::x == NB::x; // expected-warning {{self-comparison always evaluates to true}}

 template<typename T> struct Y { static inline int n; };
 bool f() {
   return
     Y<int>::n == Y<int>::n || // expected-warning {{self-comparison always evaluates to true}}
     Y<void>::n == Y<int>::n;
 }
 template<typename T, typename U>
 bool g() {
   // FIXME: Ideally we'd produce a self-comparison warning on the first of these.
   return
     Y<T>::n == Y<T>::n ||
     Y<T>::n == Y<U>::n;
 }
 template bool g<int, int>(); // should not produce any warnings

 namespace member_tests {
 struct B {
   int field;
   static int static_field;
   int test(B b) {
     return field == field;  // expected-warning {{self-comparison always evaluates to true}}
     return static_field == static_field;  // expected-warning {{self-comparison always evaluates to true}}
     return static_field == b.static_field;  // expected-warning {{self-comparison always evaluates to true}}
     return B::static_field == this->static_field;  // expected-warning {{self-comparison always evaluates to true}}
     return this == this;  // expected-warning {{self-comparison always evaluates to true}}

     return field == b.field;
     return this->field == b.field;
   }
 };

 enum {
   I0,
   I1,
   I2,
 };

 struct S {
   int field;
   static int static_field;
   int array[4];
 };

 struct T {
   int field;
   static int static_field;
   int array[4];
   S s;
 };

 int struct_test(S s1, S s2, S *s3, T t) {
   return s1.field == s1.field;  // expected-warning {{self-comparison always evaluates to true}}
   return s2.field == s2.field;  // expected-warning {{self-comparison always evaluates to true}}
   return s1.static_field == s2.static_field;  // expected-warning {{self-comparison always evaluates to true}}
   return S::static_field == s1.static_field;  // expected-warning {{self-comparison always evaluates to true}}
   return s1.array == s1.array;  // expected-warning {{self-comparison always evaluates to true}}
   return t.s.static_field == S::static_field;  // expected-warning {{self-comparison always evaluates to true}}
   return s3->field == s3->field;  // expected-warning {{self-comparison always evaluates to true}}
   return s3->static_field == S::static_field;  // expected-warning {{self-comparison always evaluates to true}}
   return s1.array[0] == s1.array[0];  // expected-warning {{self-comparison always evaluates to true}}
   return s1.array[0] == s1.array[0ull];  // expected-warning {{self-comparison always evaluates to true}}
   return s1.array[I1] == s1.array[I1];  // expected-warning {{self-comparison always evaluates to true}}
   return s1.array[s2.array[0]] == s1.array[s2.array[0]];  // expected-warning {{self-comparison always evaluates to true}}
   return s3->array[t.field] == s3->array[t.field];  // expected-warning {{self-comparison always evaluates to true}}

   // Try all operators
   return t.field == t.field;  // expected-warning {{self-comparison always evaluates to true}}
   return t.field <= t.field;  // expected-warning {{self-comparison always evaluates to true}}
   return t.field >= t.field;  // expected-warning {{self-comparison always evaluates to true}}

   return t.field != t.field;  // expected-warning {{self-comparison always evaluates to false}}
   return t.field < t.field;  // expected-warning {{self-comparison always evaluates to false}}
   return t.field > t.field;  // expected-warning {{self-comparison always evaluates to false}}

   // no warning
   return s1.field == s2.field;
   return s2.array == s1.array;
   return s2.array[0] == s1.array[0];
   return s1.array[I1] == s1.array[I2];

   return s1.static_field == t.static_field;
 };

 struct U {
   bool operator!=(const U&);
 };

 bool operator==(const U&, const U&);

 // May want to warn on this in the future.
 int user_defined(U u) {
   return u == u;
   return u != u;
 }

 } // namespace member_tests
	// RUN: %clang_cc1 -fsyntax-only -verify %s -std=c++2a

	int foo(int x) {
	return x == x; // expected-warning {{self-comparison always evaluates to true}}
	}

	struct X {
	bool operator==(const X &x) const;
	};

	struct A {
	int x;
	X x2;
	int a[3];
	int b[3];
	bool f() { return x == x; } // expected-warning {{self-comparison always evaluates to true}}
	bool g() { return x2 == x2; } // no-warning
	bool h() { return a == b; } // expected-warning {{array comparison always evaluates to false}}
	bool i() {
	int c[3];
	return a == c; // expected-warning {{array comparison always evaluates to false}}
	}
	};

	namespace NA { extern "C" int x[3]; }
	namespace NB { extern "C" int x[3]; }
	bool k = NA::x == NB::x; // expected-warning {{self-comparison always evaluates to true}}

	template<typename T> struct Y { static inline int n; };
	bool f() {
	return
	Y<int>::n == Y<int>::n \|\| // expected-warning {{self-comparison always evaluates to true}}
	Y<void>::n == Y<int>::n;
	}
	template<typename T, typename U>
	bool g() {
	// FIXME: Ideally we'd produce a self-comparison warning on the first of these.
	return
	Y<T>::n == Y<T>::n \|\|
	Y<T>::n == Y<U>::n;
	}
	template bool g<int, int>(); // should not produce any warnings

	namespace member_tests {
	struct B {
	int field;
	static int static_field;
	int test(B b) {
	return field == field; // expected-warning {{self-comparison always evaluates to true}}
	return static_field == static_field; // expected-warning {{self-comparison always evaluates to true}}
	return static_field == b.static_field; // expected-warning {{self-comparison always evaluates to true}}
	return B::static_field == this->static_field; // expected-warning {{self-comparison always evaluates to true}}
	return this == this; // expected-warning {{self-comparison always evaluates to true}}

	return field == b.field;
	return this->field == b.field;
	}
	};

	enum {
	I0,
	I1,
	I2,
	};

	struct S {
	int field;
	static int static_field;
	int array[4];
	};

	struct T {
	int field;
	static int static_field;
	int array[4];
	S s;
	};

	int struct_test(S s1, S s2, S *s3, T t) {
	return s1.field == s1.field; // expected-warning {{self-comparison always evaluates to true}}
	return s2.field == s2.field; // expected-warning {{self-comparison always evaluates to true}}
	return s1.static_field == s2.static_field; // expected-warning {{self-comparison always evaluates to true}}
	return S::static_field == s1.static_field; // expected-warning {{self-comparison always evaluates to true}}
	return s1.array == s1.array; // expected-warning {{self-comparison always evaluates to true}}
	return t.s.static_field == S::static_field; // expected-warning {{self-comparison always evaluates to true}}
	return s3->field == s3->field; // expected-warning {{self-comparison always evaluates to true}}
	return s3->static_field == S::static_field; // expected-warning {{self-comparison always evaluates to true}}
	return s1.array[0] == s1.array[0]; // expected-warning {{self-comparison always evaluates to true}}
	return s1.array[0] == s1.array[0ull]; // expected-warning {{self-comparison always evaluates to true}}
	return s1.array[I1] == s1.array[I1]; // expected-warning {{self-comparison always evaluates to true}}
	return s1.array[s2.array[0]] == s1.array[s2.array[0]]; // expected-warning {{self-comparison always evaluates to true}}
	return s3->array[t.field] == s3->array[t.field]; // expected-warning {{self-comparison always evaluates to true}}

	// Try all operators
	return t.field == t.field; // expected-warning {{self-comparison always evaluates to true}}
	return t.field <= t.field; // expected-warning {{self-comparison always evaluates to true}}
	return t.field >= t.field; // expected-warning {{self-comparison always evaluates to true}}

	return t.field != t.field; // expected-warning {{self-comparison always evaluates to false}}
	return t.field < t.field; // expected-warning {{self-comparison always evaluates to false}}
	return t.field > t.field; // expected-warning {{self-comparison always evaluates to false}}

	// no warning
	return s1.field == s2.field;
	return s2.array == s1.array;
	return s2.array[0] == s1.array[0];
	return s1.array[I1] == s1.array[I2];

	return s1.static_field == t.static_field;
	};

	struct U {
	bool operator!=(const U&);
	};

	bool operator==(const U&, const U&);

	// May want to warn on this in the future.
	int user_defined(U u) {
	return u == u;
	return u != u;
	}

	} // namespace member_tests