test/Analysis/MisusedMovedObject.cpp - third_party/swift-clang - Git at Google

 // RUN: %clang_cc1 -analyze -analyzer-checker=alpha.cplusplus.MisusedMovedObject -std=c++11 -verify -analyzer-output=text %s

 namespace std {

 template <typename>
 struct remove_reference;

 template <typename _Tp>
 struct remove_reference { typedef _Tp type; };

 template <typename _Tp>
 struct remove_reference<_Tp &> { typedef _Tp type; };

 template <typename _Tp>
 struct remove_reference<_Tp &&> { typedef _Tp type; };

 template <typename _Tp>
 typename remove_reference<_Tp>::type &&move(_Tp &&__t) {
   return static_cast<typename remove_reference<_Tp>::type &&>(__t);
 }

 template <typename _Tp>
 _Tp &&forward(typename remove_reference<_Tp>::type &__t) noexcept {
   return static_cast<_Tp &&>(__t);
 }

 template <class T>
 void swap(T &a, T &b) {
   T c(std::move(a));
   a = std::move(b);
   b = std::move(c);
 }

 } // namespace std

 class B {
 public:
   B() = default;
   B(const B &) = default;
   B(B &&) = default;
   void operator=(B &&b) {
     return;
   }
   void foo() { return; }
 };

 class A {
   int i;
   double d;

 public:
   B b;
   A(int ii = 42, double dd = 1.0) : d(dd), i(ii), b(B()) {}
   void moveconstruct(A &&other) {
     std::swap(b, other.b);
     std::swap(d, other.d);
     std::swap(i, other.i);
     return;
   }
   static A get() {
     A v(12, 13);
     return v;
   }
   A(A *a) {
     moveconstruct(std::move(*a));
   }
   A(const A &other) : i(other.i), d(other.d), b(other.b) {}
   A(A &&other) : i(other.i), d(other.d), b(std::move(other.b)) { // expected-note {{'b' became 'moved-from' here}}
   }
   A(A &&other, char *k) {
     moveconstruct(std::move(other));
   }
   void operator=(A &&other) {
     moveconstruct(std::move(other));
     return;
   }
   int getI() { return i; }
   int foo() const;
   void bar() const;
   void reset();
   void destroy();
   void clear();
   bool empty() const;
   bool isEmpty() const;
   operator bool() const;
 };

 int bignum();

 void moveInsideFunctionCall(A a) {
   A b = std::move(a);
 }
 void leftRefCall(A &a) {
   a.foo();
 }
 void rightRefCall(A &&a) {
   a.foo();
 }
 void constCopyOrMoveCall(const A a) {
   a.foo();
 }

 void copyOrMoveCall(A a) {
   a.foo();
 }

 void simpleMoveCtorTest() {
   A a;
   A b;
   b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
   a.foo();          // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
 }

 void simpleMoveAssignementTest() {
   A a;
   A b;
   b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
   a.foo();          // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
 }

 void moveInInitListTest() {
   struct S {
     A a;
   };
   A a;
   S s{std::move(a)}; // expected-note {{'a' became 'moved-from' here}}
   a.foo();           // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
 }

 // Don't report a bug if the variable was assigned to in the meantime.
 void reinitializationTest(int i) {
   {
     A a;
     A b;
     b = std::move(a);
     a = A();
     a.foo();
   }
   {
     A a;
     if (i == 1) { // expected-note {{Assuming 'i' is not equal to 1}} expected-note {{Taking false branch}}
       // expected-note@-1 {{Assuming 'i' is not equal to 1}} expected-note@-1 {{Taking false branch}}
       A b;
       b = std::move(a);
       a = A();
     }
     if (i == 2) { // expected-note {{Assuming 'i' is not equal to 2}} expected-note {{Taking false branch}}
       //expected-note@-1 {{Assuming 'i' is not equal to 2}} expected-note@-1 {{Taking false branch}}
       a.foo();    // no-warning
     }
   }
   {
     A a;
     if (i == 1) { // expected-note {{Taking false branch}} expected-note {{Taking false branch}}
       std::move(a);
     }
     if (i == 2) { // expected-note {{Taking false branch}} expected-note {{Taking false branch}}
       a = A();
       a.foo();
     }
   }
   // The built-in assignment operator should also be recognized as a
   // reinitialization. (std::move() may be called on built-in types in template
   // code.)
   {
     int a1 = 1, a2 = 2;
     std::swap(a1, a2);
   }
   // A std::move() after the assignment makes the variable invalid again.
   {
     A a;
     A b;
     b = std::move(a);
     a = A();
     b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
     a.foo();          // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
   }
   // If a path exist where we not reinitialize the variable we report a bug.
   {
     A a;
     A b;
     b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
     if (i < 10) {     // expected-note {{Assuming 'i' is >= 10}} expected-note {{Taking false branch}}
       a = A();
     }
     if (i > 5) { // expected-note {{Taking true branch}}
       a.foo();   // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
     }
   }
 }

 // Using decltype on an expression is not a use.
 void decltypeIsNotUseTest() {
   A a;
   // A b(std::move(a));
   decltype(a) other_a; // no-warning
 }

 void loopTest() {
   {
     A a;
     for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
       rightRefCall(std::move(a));        // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true.  Entering loop body}}
       //expected-note@-1 {{Loop condition is true.  Entering loop body}}
 			//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
       rightRefCall(std::move(a)); // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
       leftRefCall(a);                    // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true.  Entering loop body}}
       //expected-note@-1 {{Loop condition is true.  Entering loop body}}
 			//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
       leftRefCall(a);             // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
       constCopyOrMoveCall(a);            // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true.  Entering loop body}}
       //expected-note@-1 {{Loop condition is true.  Entering loop body}}
 			//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
       constCopyOrMoveCall(a);     // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
       moveInsideFunctionCall(a);         // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true.  Entering loop body}}
       //expected-note@-1 {{Loop condition is true.  Entering loop body}}
 			//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
       moveInsideFunctionCall(a);  // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
       copyOrMoveCall(a);                 // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true.}}
       //expected-note@-1 {{Loop condition is true.  Entering loop body}}
 			//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
       copyOrMoveCall(a);          // no-warning
     }
   }
   {
     A a;
     for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is true.  Entering loop body}} expected-note {{Loop condition is true.  Entering loop body}}
       constCopyOrMoveCall(std::move(a)); // expected-warning {{Copying a 'moved-from' object 'a'}} expected-note {{Copying a 'moved-from' object 'a'}}
       // expected-note@-1 {{'a' became 'moved-from' here}}
     }
   }

   // Don't warn if we return after the move.
   {
     A a;
     for (int i = 0; i < 3; ++i) {
       a.bar();
       if (a.foo() > 0) {
         A b;
         b = std::move(a); // no-warning
         return;
       }
     }
   }
 }

 //report a usage of a moved-from object only at the first use
 void uniqueTest(bool cond) {
   A a(42, 42.0);
   A b;
   b = std::move(a); // expected-note {{'a' became 'moved-from' here}}

   if (cond) { // expected-note {{Assuming 'cond' is not equal to 0}} expected-note {{Taking true branch}}
     a.foo();  // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
   }
   if (cond) {
     a.bar(); // no-warning
   }

   a.bar(); // no-warning
 }

 void uniqueTest2() {
   A a;
   A a1 = std::move(a); // expected-note {{'a' became 'moved-from' here}}
   a.foo();             // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}

   A a2 = std::move(a); // no-warning
   a.foo();             // no-warning
 }

 // There are exceptions where we assume in general that the method works fine
 //even on moved-from objects.
 void moveSafeFunctionsTest() {
   A a;
   A b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
   a.empty();          // no-warning
   a.isEmpty();        // no-warning
   (void)a;            // no-warning
   (bool)a;            // expected-warning {{expression result unused}}
   a.foo();            // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
 }

 void moveStateResetFunctionsTest() {
   {
     A a;
     A b = std::move(a);
     a.reset(); // no-warning
     a.foo();   // no-warning
   }
   {
     A a;
     A b = std::move(a);
     a.destroy(); // no-warning
     a.foo();     // no-warning
   }
   {
     A a;
     A b = std::move(a);
     a.clear(); // no-warning
     a.foo();   // no-warning
   }
 }

 // Moves or uses that occur as part of template arguments.
 template <int>
 class ClassTemplate {
 public:
   void foo(A a);
 };

 template <int>
 void functionTemplate(A a);

 void templateArgIsNotUseTest() {
   {
     // A pattern like this occurs in the EXPECT_EQ and ASSERT_EQ macros in
     // Google Test.
     A a;
     ClassTemplate<sizeof(A(std::move(a)))>().foo(std::move(a)); // no-warning
   }
   {
     A a;
     functionTemplate<sizeof(A(std::move(a)))>(std::move(a)); // no-warning
   }
 }

 // Moves of global variables are not reported.
 A global_a;
 void globalVariablesTest() {
   std::move(global_a);
   global_a.foo(); // no-warning
 }

 // Moves of member variables.
 class memberVariablesTest {
   A a;
   static A static_a;

   void f() {
     A b;
     b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
     a.foo();          // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object 'a'}}

     b = std::move(static_a); // expected-note {{'static_a' became 'moved-from' here}}
     static_a.foo();          // expected-warning {{Method call on a 'moved-from' object 'static_a'}} expected-note {{Method call on a 'moved-from' object 'static_a'}}
   }
 };

 void PtrAndArrayTest() {
   A *Ptr = new A(1, 1.5);
   A Arr[10];
   Arr[2] = std::move(*Ptr); // expected-note {{Became 'moved-from' here}}
   (*Ptr).foo();             // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object}}

   Ptr = &Arr[1];
   Arr[3] = std::move(Arr[1]); // expected-note {{Became 'moved-from' here}}
   Ptr->foo();                 // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object}}

   Arr[3] = std::move(Arr[2]); // expected-note {{Became 'moved-from' here}}
   Arr[2].foo();               // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object}}

   Arr[2] = std::move(Arr[3]); // reinitialization
   Arr[2].foo();               // no-warning
 }

 void exclusiveConditionsTest(bool cond) {
   A a;
   if (cond) {
     A b;
     b = std::move(a);
   }
   if (!cond) {
     a.bar(); // no-warning
   }
 }

 void differentBranchesTest(int i) {
   // Don't warn if the use is in a different branch from the move.
   {
     A a;
     if (i > 0) { // expected-note {{Assuming 'i' is > 0}} expected-note {{Taking true branch}}
       A b;
       b = std::move(a);
     } else {
       a.foo(); // no-warning
     }
   }
   // Same thing, but with a ternary operator.
   {
     A a, b;
     i > 0 ? (void)(b = std::move(a)) : a.bar(); // no-warning  // expected-note {{'?' condition is true}}
   }
   // A variation on the theme above.
   {
     A a;
     a.foo() > 0 ? a.foo() : A(std::move(a)).foo(); // expected-note {{Assuming the condition is false}} expected-note {{'?' condition is false}}
   }
   // Same thing, but with a switch statement.
   {
     A a, b;
     switch (i) { // expected-note {{Control jumps to 'case 1:'  at line 448}}
     case 1:
       b = std::move(a); // no-warning
       break;            // expected-note {{Execution jumps to the end of the function}}
     case 2:
       a.foo(); // no-warning
       break;
     }
   }
   // However, if there's a fallthrough, we do warn.
   {
     A a, b;
     switch (i) { // expected-note {{Control jumps to 'case 1:'  at line 460}}
     case 1:
       b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
     case 2:
       a.foo(); // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object 'a'}}
       break;
     }
   }
 }

 void tempTest() {
   A a = A::get();
   A::get().foo(); // no-warning
   for (int i = 0; i < bignum(); i++) {
     A::get().foo(); // no-warning
   }
 }

 void interFunTest1(A &a) {
   a.bar(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
 }

 void interFunTest2() {
   A a;
   A b;
   b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
   interFunTest1(a); // expected-note {{Calling 'interFunTest1'}}
 }

 void foobar(A a, int i);
 void foobar(int i, A a);

 void paramEvaluateOrderTest() {
   A a;
   foobar(std::move(a), a.getI()); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
   // expected-note@-1 {{'a' became 'moved-from' here}}

   //FALSE NEGATIVE since parameters evaluate order is undefined
   foobar(a.getI(), std::move(a)); //no-warning
 }

 void not_known(A &a);
 void not_known(A *a);

 void regionAndPointerEscapeTest() {
   {
     A a;
     A b;
     b = std::move(a);
     not_known(a);
     a.foo(); //no-warning
   }
   {
     A a;
     A b;
     b = std::move(a);
     not_known(&a);
     a.foo(); // no-warning
   }
 }

 // A declaration statement containing multiple declarations sequences the
 // initializer expressions.
 void declarationSequenceTest() {
   {
     A a;
     A a1 = a, a2 = std::move(a); // no-warning
   }
   {
     A a;
     A a1 = std::move(a), a2 = a; // expected-warning {{Copying a 'moved-from' object 'a'}} expected-note {{Copying a 'moved-from' object 'a'}}
     // expected-note@-1 {{'a' became 'moved-from' here}}
   }
 }

 // The logical operators && and || sequence their operands.
 void logicalOperatorsSequenceTest() {
   {
     A a;
     if (a.foo() > 0 && A(std::move(a)).foo() > 0) { // expected-note {{Assuming the condition is false}} expected-note {{Assuming the condition is false}}
       // expected-note@-1 {{Left side of '&&' is false}} expected-note@-1 {{Left side of '&&' is false}}
 			//expected-note@-2 {{Taking false branch}} expected-note@-2 {{Taking false branch}}
       A().bar();
     }
   }
   // A variation: Negate the result of the && (which pushes the && further down
   // into the AST).
   {
     A a;
     if (!(a.foo() > 0 && A(std::move(a)).foo() > 0)) { // expected-note {{Assuming the condition is false}} expected-note {{Assuming the condition is false}}
       // expected-note@-1 {{Left side of '&&' is false}} expected-note@-1 {{Left side of '&&' is false}}
       // expected-note@-2 {{Taking true branch}} expected-note@-2 {{Taking true branch}}
       A().bar();
     }
   }
   {
     A a;
     if (A(std::move(a)).foo() > 0 && a.foo() > 0) { // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
       // expected-note@-1 {{'a' became 'moved-from' here}} expected-note@-1 {{Assuming the condition is true}} expected-note@-1 {{Assuming the condition is false}}
       // expected-note@-2 {{Left side of '&&' is false}} expected-note@-2 {{Left side of '&&' is true}}
       // expected-note@-3 {{Taking false branch}}
       A().bar();
     }
   }
   {
     A a;
     if (a.foo() > 0 || A(std::move(a)).foo() > 0) { // expected-note {{Assuming the condition is true}}
 			//expected-note@-1 {{Left side of '||' is true}}
 			//expected-note@-2 {{Taking true branch}}
       A().bar();
     }
   }
   {
     A a;
     if (A(std::move(a)).foo() > 0 || a.foo() > 0) { // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
       // expected-note@-1 {{'a' became 'moved-from' here}} expected-note@-1 {{Assuming the condition is false}} expected-note@-1 {{Left side of '||' is false}}
       A().bar();
     }
   }
 }

 // A range-based for sequences the loop variable declaration before the body.
 void forRangeSequencesTest() {
   A v[2] = {A(), A()};
   for (A &a : v) {
     A b;
     b = std::move(a); // no-warning
   }
 }

 // If a variable is declared in an if statement, the declaration of the variable
 // (which is treated like a reinitialization by the check) is sequenced before
 // the evaluation of the condition (which constitutes a use).
 void ifStmtSequencesDeclAndConditionTest() {
   for (int i = 0; i < 3; ++i) {
     if (A a = A()) {
       A b;
       b = std::move(a); // no-warning
     }
   }
 }

 void subRegionMoveTest() {
   {
     A a;
     B b = std::move(a.b); // expected-note {{'b' became 'moved-from' here}}
     a.b.foo();            // expected-warning {{Method call on a 'moved-from' object 'b'}} expected-note {{Method call on a 'moved-from' object 'b'}}
   }
   {
     A a;
     A a1 = std::move(a); // expected-note {{Calling move constructor for 'A'}} expected-note {{Returning from move constructor for 'A'}}
     a.b.foo();           // expected-warning {{Method call on a 'moved-from' object 'b'}} expected-note {{Method call on a 'moved-from' object 'b'}}
   }
   // Don't report a misuse if any SuperRegion is already reported.
   {
     A a;
     A a1 = std::move(a); // expected-note {{'a' became 'moved-from' here}}
     a.foo();             // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
     a.b.foo();           // no-warning
   }
 }
	// RUN: %clang_cc1 -analyze -analyzer-checker=alpha.cplusplus.MisusedMovedObject -std=c++11 -verify -analyzer-output=text %s

	namespace std {

	template <typename>
	struct remove_reference;

	template <typename _Tp>
	struct remove_reference { typedef _Tp type; };

	template <typename _Tp>
	struct remove_reference<_Tp &> { typedef _Tp type; };

	template <typename _Tp>
	struct remove_reference<_Tp &&> { typedef _Tp type; };

	template <typename _Tp>
	typename remove_reference<_Tp>::type &&move(_Tp &&__t) {
	return static_cast<typename remove_reference<_Tp>::type &&>(__t);
	}

	template <typename _Tp>
	_Tp &&forward(typename remove_reference<_Tp>::type &__t) noexcept {
	return static_cast<_Tp &&>(__t);
	}

	template <class T>
	void swap(T &a, T &b) {
	T c(std::move(a));
	a = std::move(b);
	b = std::move(c);
	}

	} // namespace std

	class B {
	public:
	B() = default;
	B(const B &) = default;
	B(B &&) = default;
	void operator=(B &&b) {
	return;
	}
	void foo() { return; }
	};

	class A {
	int i;
	double d;

	public:
	B b;
	A(int ii = 42, double dd = 1.0) : d(dd), i(ii), b(B()) {}
	void moveconstruct(A &&other) {
	std::swap(b, other.b);
	std::swap(d, other.d);
	std::swap(i, other.i);
	return;
	}
	static A get() {
	A v(12, 13);
	return v;
	}
	A(A *a) {
	moveconstruct(std::move(*a));
	}
	A(const A &other) : i(other.i), d(other.d), b(other.b) {}
	A(A &&other) : i(other.i), d(other.d), b(std::move(other.b)) { // expected-note {{'b' became 'moved-from' here}}
	}
	A(A &&other, char *k) {
	moveconstruct(std::move(other));
	}
	void operator=(A &&other) {
	moveconstruct(std::move(other));
	return;
	}
	int getI() { return i; }
	int foo() const;
	void bar() const;
	void reset();
	void destroy();
	void clear();
	bool empty() const;
	bool isEmpty() const;
	operator bool() const;
	};

	int bignum();

	void moveInsideFunctionCall(A a) {
	A b = std::move(a);
	}
	void leftRefCall(A &a) {
	a.foo();
	}
	void rightRefCall(A &&a) {
	a.foo();
	}
	void constCopyOrMoveCall(const A a) {
	a.foo();
	}

	void copyOrMoveCall(A a) {
	a.foo();
	}

	void simpleMoveCtorTest() {
	A a;
	A b;
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}

	void simpleMoveAssignementTest() {
	A a;
	A b;
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}

	void moveInInitListTest() {
	struct S {
	A a;
	};
	A a;
	S s{std::move(a)}; // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}

	// Don't report a bug if the variable was assigned to in the meantime.
	void reinitializationTest(int i) {
	{
	A a;
	A b;
	b = std::move(a);
	a = A();
	a.foo();
	}
	{
	A a;
	if (i == 1) { // expected-note {{Assuming 'i' is not equal to 1}} expected-note {{Taking false branch}}
	// expected-note@-1 {{Assuming 'i' is not equal to 1}} expected-note@-1 {{Taking false branch}}
	A b;
	b = std::move(a);
	a = A();
	}
	if (i == 2) { // expected-note {{Assuming 'i' is not equal to 2}} expected-note {{Taking false branch}}
	//expected-note@-1 {{Assuming 'i' is not equal to 2}} expected-note@-1 {{Taking false branch}}
	a.foo(); // no-warning
	}
	}
	{
	A a;
	if (i == 1) { // expected-note {{Taking false branch}} expected-note {{Taking false branch}}
	std::move(a);
	}
	if (i == 2) { // expected-note {{Taking false branch}} expected-note {{Taking false branch}}
	a = A();
	a.foo();
	}
	}
	// The built-in assignment operator should also be recognized as a
	// reinitialization. (std::move() may be called on built-in types in template
	// code.)
	{
	int a1 = 1, a2 = 2;
	std::swap(a1, a2);
	}
	// A std::move() after the assignment makes the variable invalid again.
	{
	A a;
	A b;
	b = std::move(a);
	a = A();
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}
	// If a path exist where we not reinitialize the variable we report a bug.
	{
	A a;
	A b;
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	if (i < 10) { // expected-note {{Assuming 'i' is >= 10}} expected-note {{Taking false branch}}
	a = A();
	}
	if (i > 5) { // expected-note {{Taking true branch}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}
	}
	}

	// Using decltype on an expression is not a use.
	void decltypeIsNotUseTest() {
	A a;
	// A b(std::move(a));
	decltype(a) other_a; // no-warning
	}

	void loopTest() {
	{
	A a;
	for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
	rightRefCall(std::move(a)); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true. Entering loop body}}
	//expected-note@-1 {{Loop condition is true. Entering loop body}}
	//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
	rightRefCall(std::move(a)); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
	leftRefCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true. Entering loop body}}
	//expected-note@-1 {{Loop condition is true. Entering loop body}}
	//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
	leftRefCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
	constCopyOrMoveCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true. Entering loop body}}
	//expected-note@-1 {{Loop condition is true. Entering loop body}}
	//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
	constCopyOrMoveCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
	moveInsideFunctionCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true. Entering loop body}}
	//expected-note@-1 {{Loop condition is true. Entering loop body}}
	//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
	moveInsideFunctionCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is false. Execution jumps to the end of the function}}
	copyOrMoveCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < 2; i++) { // expected-note {{Loop condition is true.}}
	//expected-note@-1 {{Loop condition is true. Entering loop body}}
	//expected-note@-2 {{Loop condition is false. Execution jumps to the end of the function}}
	copyOrMoveCall(a); // no-warning
	}
	}
	{
	A a;
	for (int i = 0; i < bignum(); i++) { // expected-note {{Loop condition is true. Entering loop body}} expected-note {{Loop condition is true. Entering loop body}}
	constCopyOrMoveCall(std::move(a)); // expected-warning {{Copying a 'moved-from' object 'a'}} expected-note {{Copying a 'moved-from' object 'a'}}
	// expected-note@-1 {{'a' became 'moved-from' here}}
	}
	}

	// Don't warn if we return after the move.
	{
	A a;
	for (int i = 0; i < 3; ++i) {
	a.bar();
	if (a.foo() > 0) {
	A b;
	b = std::move(a); // no-warning
	return;
	}
	}
	}
	}

	//report a usage of a moved-from object only at the first use
	void uniqueTest(bool cond) {
	A a(42, 42.0);
	A b;
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}

	if (cond) { // expected-note {{Assuming 'cond' is not equal to 0}} expected-note {{Taking true branch}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}
	if (cond) {
	a.bar(); // no-warning
	}

	a.bar(); // no-warning
	}

	void uniqueTest2() {
	A a;
	A a1 = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}

	A a2 = std::move(a); // no-warning
	a.foo(); // no-warning
	}

	// There are exceptions where we assume in general that the method works fine
	//even on moved-from objects.
	void moveSafeFunctionsTest() {
	A a;
	A b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.empty(); // no-warning
	a.isEmpty(); // no-warning
	(void)a; // no-warning
	(bool)a; // expected-warning {{expression result unused}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}

	void moveStateResetFunctionsTest() {
	{
	A a;
	A b = std::move(a);
	a.reset(); // no-warning
	a.foo(); // no-warning
	}
	{
	A a;
	A b = std::move(a);
	a.destroy(); // no-warning
	a.foo(); // no-warning
	}
	{
	A a;
	A b = std::move(a);
	a.clear(); // no-warning
	a.foo(); // no-warning
	}
	}

	// Moves or uses that occur as part of template arguments.
	template <int>
	class ClassTemplate {
	public:
	void foo(A a);
	};

	template <int>
	void functionTemplate(A a);

	void templateArgIsNotUseTest() {
	{
	// A pattern like this occurs in the EXPECT_EQ and ASSERT_EQ macros in
	// Google Test.
	A a;
	ClassTemplate<sizeof(A(std::move(a)))>().foo(std::move(a)); // no-warning
	}
	{
	A a;
	functionTemplate<sizeof(A(std::move(a)))>(std::move(a)); // no-warning
	}
	}

	// Moves of global variables are not reported.
	A global_a;
	void globalVariablesTest() {
	std::move(global_a);
	global_a.foo(); // no-warning
	}

	// Moves of member variables.
	class memberVariablesTest {
	A a;
	static A static_a;

	void f() {
	A b;
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object 'a'}}

	b = std::move(static_a); // expected-note {{'static_a' became 'moved-from' here}}
	static_a.foo(); // expected-warning {{Method call on a 'moved-from' object 'static_a'}} expected-note {{Method call on a 'moved-from' object 'static_a'}}
	}
	};

	void PtrAndArrayTest() {
	A *Ptr = new A(1, 1.5);
	A Arr[10];
	Arr[2] = std::move(*Ptr); // expected-note {{Became 'moved-from' here}}
	(*Ptr).foo(); // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object}}

	Ptr = &Arr[1];
	Arr[3] = std::move(Arr[1]); // expected-note {{Became 'moved-from' here}}
	Ptr->foo(); // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object}}

	Arr[3] = std::move(Arr[2]); // expected-note {{Became 'moved-from' here}}
	Arr[2].foo(); // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object}}

	Arr[2] = std::move(Arr[3]); // reinitialization
	Arr[2].foo(); // no-warning
	}

	void exclusiveConditionsTest(bool cond) {
	A a;
	if (cond) {
	A b;
	b = std::move(a);
	}
	if (!cond) {
	a.bar(); // no-warning
	}
	}

	void differentBranchesTest(int i) {
	// Don't warn if the use is in a different branch from the move.
	{
	A a;
	if (i > 0) { // expected-note {{Assuming 'i' is > 0}} expected-note {{Taking true branch}}
	A b;
	b = std::move(a);
	} else {
	a.foo(); // no-warning
	}
	}
	// Same thing, but with a ternary operator.
	{
	A a, b;
	i > 0 ? (void)(b = std::move(a)) : a.bar(); // no-warning // expected-note {{'?' condition is true}}
	}
	// A variation on the theme above.
	{
	A a;
	a.foo() > 0 ? a.foo() : A(std::move(a)).foo(); // expected-note {{Assuming the condition is false}} expected-note {{'?' condition is false}}
	}
	// Same thing, but with a switch statement.
	{
	A a, b;
	switch (i) { // expected-note {{Control jumps to 'case 1:' at line 448}}
	case 1:
	b = std::move(a); // no-warning
	break; // expected-note {{Execution jumps to the end of the function}}
	case 2:
	a.foo(); // no-warning
	break;
	}
	}
	// However, if there's a fallthrough, we do warn.
	{
	A a, b;
	switch (i) { // expected-note {{Control jumps to 'case 1:' at line 460}}
	case 1:
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	case 2:
	a.foo(); // expected-warning {{Method call on a 'moved-from' object}} expected-note {{Method call on a 'moved-from' object 'a'}}
	break;
	}
	}
	}

	void tempTest() {
	A a = A::get();
	A::get().foo(); // no-warning
	for (int i = 0; i < bignum(); i++) {
	A::get().foo(); // no-warning
	}
	}

	void interFunTest1(A &a) {
	a.bar(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	}

	void interFunTest2() {
	A a;
	A b;
	b = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	interFunTest1(a); // expected-note {{Calling 'interFunTest1'}}
	}

	void foobar(A a, int i);
	void foobar(int i, A a);

	void paramEvaluateOrderTest() {
	A a;
	foobar(std::move(a), a.getI()); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	// expected-note@-1 {{'a' became 'moved-from' here}}

	//FALSE NEGATIVE since parameters evaluate order is undefined
	foobar(a.getI(), std::move(a)); //no-warning
	}

	void not_known(A &a);
	void not_known(A *a);

	void regionAndPointerEscapeTest() {
	{
	A a;
	A b;
	b = std::move(a);
	not_known(a);
	a.foo(); //no-warning
	}
	{
	A a;
	A b;
	b = std::move(a);
	not_known(&a);
	a.foo(); // no-warning
	}
	}

	// A declaration statement containing multiple declarations sequences the
	// initializer expressions.
	void declarationSequenceTest() {
	{
	A a;
	A a1 = a, a2 = std::move(a); // no-warning
	}
	{
	A a;
	A a1 = std::move(a), a2 = a; // expected-warning {{Copying a 'moved-from' object 'a'}} expected-note {{Copying a 'moved-from' object 'a'}}
	// expected-note@-1 {{'a' became 'moved-from' here}}
	}
	}

	// The logical operators && and \|\| sequence their operands.
	void logicalOperatorsSequenceTest() {
	{
	A a;
	if (a.foo() > 0 && A(std::move(a)).foo() > 0) { // expected-note {{Assuming the condition is false}} expected-note {{Assuming the condition is false}}
	// expected-note@-1 {{Left side of '&&' is false}} expected-note@-1 {{Left side of '&&' is false}}
	//expected-note@-2 {{Taking false branch}} expected-note@-2 {{Taking false branch}}
	A().bar();
	}
	}
	// A variation: Negate the result of the && (which pushes the && further down
	// into the AST).
	{
	A a;
	if (!(a.foo() > 0 && A(std::move(a)).foo() > 0)) { // expected-note {{Assuming the condition is false}} expected-note {{Assuming the condition is false}}
	// expected-note@-1 {{Left side of '&&' is false}} expected-note@-1 {{Left side of '&&' is false}}
	// expected-note@-2 {{Taking true branch}} expected-note@-2 {{Taking true branch}}
	A().bar();
	}
	}
	{
	A a;
	if (A(std::move(a)).foo() > 0 && a.foo() > 0) { // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	// expected-note@-1 {{'a' became 'moved-from' here}} expected-note@-1 {{Assuming the condition is true}} expected-note@-1 {{Assuming the condition is false}}
	// expected-note@-2 {{Left side of '&&' is false}} expected-note@-2 {{Left side of '&&' is true}}
	// expected-note@-3 {{Taking false branch}}
	A().bar();
	}
	}
	{
	A a;
	if (a.foo() > 0 \|\| A(std::move(a)).foo() > 0) { // expected-note {{Assuming the condition is true}}
	//expected-note@-1 {{Left side of '\|\|' is true}}
	//expected-note@-2 {{Taking true branch}}
	A().bar();
	}
	}
	{
	A a;
	if (A(std::move(a)).foo() > 0 \|\| a.foo() > 0) { // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	// expected-note@-1 {{'a' became 'moved-from' here}} expected-note@-1 {{Assuming the condition is false}} expected-note@-1 {{Left side of '\|\|' is false}}
	A().bar();
	}
	}
	}

	// A range-based for sequences the loop variable declaration before the body.
	void forRangeSequencesTest() {
	A v[2] = {A(), A()};
	for (A &a : v) {
	A b;
	b = std::move(a); // no-warning
	}
	}

	// If a variable is declared in an if statement, the declaration of the variable
	// (which is treated like a reinitialization by the check) is sequenced before
	// the evaluation of the condition (which constitutes a use).
	void ifStmtSequencesDeclAndConditionTest() {
	for (int i = 0; i < 3; ++i) {
	if (A a = A()) {
	A b;
	b = std::move(a); // no-warning
	}
	}
	}

	void subRegionMoveTest() {
	{
	A a;
	B b = std::move(a.b); // expected-note {{'b' became 'moved-from' here}}
	a.b.foo(); // expected-warning {{Method call on a 'moved-from' object 'b'}} expected-note {{Method call on a 'moved-from' object 'b'}}
	}
	{
	A a;
	A a1 = std::move(a); // expected-note {{Calling move constructor for 'A'}} expected-note {{Returning from move constructor for 'A'}}
	a.b.foo(); // expected-warning {{Method call on a 'moved-from' object 'b'}} expected-note {{Method call on a 'moved-from' object 'b'}}
	}
	// Don't report a misuse if any SuperRegion is already reported.
	{
	A a;
	A a1 = std::move(a); // expected-note {{'a' became 'moved-from' here}}
	a.foo(); // expected-warning {{Method call on a 'moved-from' object 'a'}} expected-note {{Method call on a 'moved-from' object 'a'}}
	a.b.foo(); // no-warning
	}
	}