"""
return conf.lib.clang_CXXMethod_isCopyAssignmentOperator(self)
+ def is_move_assignment_operator_method(self):
+ """Returnrs True if the cursor refers to a move-assignment operator.
+
+ A move-assignment operator `X::operator=` is a non-static,
+ non-template member function of _class_ `X` with exactly one
+ parameter of type `X&&`, `const X&&`, `volatile X&&` or `const
+ volatile X&&`.
+
+
+ That is, for example, the `operator=` in:
+
+ class Foo {
+ bool operator=(const volatile Foo&&);
+ };
+
+ Is a move-assignment operator, while the `operator=` in:
+
+ class Bar {
+ bool operator=(const int&&);
+ };
+
+ Is not.
+ """
+ return conf.lib.clang_CXXMethod_isMoveAssignmentOperator(self)
+
def is_mutable_field(self):
"""Returns True if the cursor refers to a C++ field that is declared
'mutable'.
[Cursor],
bool),
+ ("clang_CXXMethod_isMoveAssignmentOperator",
+ [Cursor],
+ bool),
+
("clang_CXXMethod_isPureVirtual",
[Cursor],
bool),
self.assertTrue(xc.is_default_method())
self.assertFalse(yc.is_default_method())
+ def test_is_move_assignment_operator_method(self):
+ """Ensure Cursor.is_move_assignment_operator_method works."""
+ source_with_move_assignment_operators = """
+ struct Foo {
+ // Those are move-assignment operators
+ bool operator=(const Foo&&);
+ bool operator=(Foo&&);
+ bool operator=(volatile Foo&&);
+ bool operator=(const volatile Foo&&);
+
+ // Positive-check that the recognition works for templated classes too
+ template <typename T>
+ class Bar {
+ bool operator=(const Bar&&);
+ bool operator=(Bar<T>&&);
+ bool operator=(volatile Bar&&);
+ bool operator=(const volatile Bar<T>&&);
+ };
+ """
+ source_without_move_assignment_operators = """
+ struct Foo {
+ // Those are not move-assignment operators
+ template<typename T>
+ bool operator=(const T&&);
+ bool operator=(const bool&&);
+ bool operator=(char&&);
+ bool operator=(volatile unsigned int&&);
+ bool operator=(const volatile unsigned char&&);
+ bool operator=(int);
+ bool operator=(Foo);
+ };
+ """
+ tu_with_move_assignment_operators = get_tu(
+ source_with_move_assignment_operators, lang="cpp"
+ )
+ tu_without_move_assignment_operators = get_tu(
+ source_without_move_assignment_operators, lang="cpp"
+ )
+
+ move_assignment_operators_cursors = get_cursors(
+ tu_with_move_assignment_operators, "operator="
+ )
+ non_move_assignment_operators_cursors = get_cursors(
+ tu_without_move_assignment_operators, "operator="
+ )
+
+ self.assertEqual(len(move_assignment_operators_cursors), 8)
+ self.assertTrue(len(non_move_assignment_operators_cursors), 7)
+
+ self.assertTrue(all([
+ cursor.is_move_assignment_operator_method()
+ for cursor in move_assignment_operators_cursors
+ ]))
+ self.assertFalse(any([
+ cursor.is_move_assignment_operator_method()
+ for cursor in non_move_assignment_operators_cursors
+ ]))
+
def test_is_mutable_field(self):
"""Ensure Cursor.is_mutable_field works."""
source = 'class X { int x_; mutable int y_; };'
- Introduced the new function ``clang_CXXMethod_isCopyAssignmentOperator``,
which identifies whether a method cursor is a copy-assignment
operator.
+- Introduced the new function ``clang_CXXMethod_isMoveAssignmentOperator``,
+ which identifies whether a method cursor is a move-assignment
+ operator.
- ``clang_Cursor_getNumTemplateArguments``, ``clang_Cursor_getTemplateArgumentKind``,
``clang_Cursor_getTemplateArgumentType``, ``clang_Cursor_getTemplateArgumentValue`` and
``clang_Cursor_getTemplateArgumentUnsignedValue`` now work on struct, class,
CINDEX_LINKAGE unsigned clang_CXXMethod_isCopyAssignmentOperator(CXCursor C);
/**
+ * Determine if a C++ member function is a move-assignment operator,
+ * returning 1 if such is the case and 0 otherwise.
+ *
+ * > A move-assignment operator `X::operator=` is a non-static,
+ * > non-template member function of _class_ `X` with exactly one
+ * > parameter of type `X&&`, `const X&&`, `volatile X&&` or `const
+ * > volatile X&&`.
+ *
+ * That is, for example, the `operator=` in:
+ *
+ * class Foo {
+ * bool operator=(const volatile Foo&&);
+ * };
+ *
+ * Is a move-assignment operator, while the `operator=` in:
+ *
+ * class Bar {
+ * bool operator=(const int&&);
+ * };
+ *
+ * Is not.
+ */
+CINDEX_LINKAGE unsigned clang_CXXMethod_isMoveAssignmentOperator(CXCursor C);
+
+/**
* Determine if a C++ record is abstract, i.e. whether a class or struct
* has a pure virtual member function.
*/
// CHECK-SPELLING: 69:3 CXXConstructor=A:69:3 (default constructor) Extent=[69:3 - 69:6] Spelling=A ([69:3 - 69:4])
// CHECK-SPELLING: 70:11 CXXDestructor=~A:70:11 (virtual) Extent=[70:3 - 70:15] Spelling=~A ([70:11 - 70:13])
// CHECK-SPELLING: 73:6 CXXMethod=operator=:73:6 (copy-assignment operator) Extent=[73:3 - 73:25] Spelling=operator= ([73:6 - 73:15])
-// CHECK-SPELLING: 74:6 CXXMethod=operator=:74:6 (noexcept) Extent=[74:3 - 74:29] Spelling=operator= ([74:6 - 74:15])
+// CHECK-SPELLING: 74:6 CXXMethod=operator=:74:6 (move-assignment operator) (noexcept) Extent=[74:3 - 74:29] Spelling=operator= ([74:6 - 74:15])
// CHECK-SPELLING: 77:8 CXXMethod=operator+:77:8 (const) Extent=[77:3 - 77:25] Spelling=operator+ ([77:8 - 77:17])
// CHECK-SPELLING: 78:8 CXXMethod=operator-:78:8 (const) Extent=[78:3 - 78:25] Spelling=operator- ([78:8 - 78:17])
// CHECK-SPELLING: 79:8 CXXMethod=operator~:79:8 (const) Extent=[79:3 - 79:25] Spelling=operator~ ([79:8 - 79:17])
--- /dev/null
+struct Foo {
+ // Those are move-assignment operators
+ bool operator=(const Foo&&);
+ bool operator=(Foo&&);
+ bool operator=(volatile Foo&&);
+ bool operator=(const volatile Foo&&);
+
+ // Those are not move-assignment operators
+ template<typename T>
+ bool operator=(const T&&);
+ bool operator=(const bool&&);
+ bool operator=(char&&);
+ bool operator=(volatile unsigned int&&);
+ bool operator=(const volatile unsigned char&&);
+ bool operator=(int);
+ bool operator=(Foo);
+};
+
+// Positive-check that the recognition works for templated classes too
+template <typename T>
+class Bar {
+ bool operator=(const Bar&&);
+ bool operator=(Bar<T>&&);
+ bool operator=(volatile Bar&&);
+ bool operator=(const volatile Bar<T>&&);
+};
+
+// RUN: c-index-test -test-print-type --std=c++11 %s | FileCheck %s
+// CHECK: StructDecl=Foo:1:8 (Definition) [type=Foo] [typekind=Record] [isPOD=0]
+// CHECK: CXXMethod=operator=:3:10 (move-assignment operator) [type=bool (const Foo &&)] [typekind=FunctionProto] [canonicaltype=bool (const Foo &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [const Foo &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:4:10 (move-assignment operator) [type=bool (Foo &&)] [typekind=FunctionProto] [canonicaltype=bool (Foo &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [Foo &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:5:10 (move-assignment operator) [type=bool (volatile Foo &&)] [typekind=FunctionProto] [canonicaltype=bool (volatile Foo &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [volatile Foo &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:6:10 (move-assignment operator) [type=bool (const volatile Foo &&)] [typekind=FunctionProto] [canonicaltype=bool (const volatile Foo &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [const volatile Foo &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: FunctionTemplate=operator=:10:10 [type=bool (const T &&)] [typekind=FunctionProto] [canonicaltype=bool (const type-parameter-0-0 &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:11:10 [type=bool (const bool &&)] [typekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [const bool &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:12:10 [type=bool (char &&)] [typekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [char &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:13:10 [type=bool (volatile unsigned int &&)] [typekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [volatile unsigned int &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:14:10 [type=bool (const volatile unsigned char &&)] [typekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [const volatile unsigned char &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:15:10 [type=bool (int)] [typekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [int] [Int]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:16:10 (copy-assignment operator) [type=bool (Foo)] [typekind=FunctionProto] [canonicaltype=bool (Foo)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [Foo] [Elaborated]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: ClassTemplate=Bar:21:7 (Definition) [type=] [typekind=Invalid] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:22:10 (move-assignment operator) [type=bool (const Bar<T> &&)] [typekind=FunctionProto] [canonicaltype=bool (const Bar<T> &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [const Bar<T> &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:23:10 (move-assignment operator) [type=bool (Bar<T> &&)] [typekind=FunctionProto] [canonicaltype=bool (Bar<T> &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [Bar<T> &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:24:10 (move-assignment operator) [type=bool (volatile Bar<T> &&)] [typekind=FunctionProto] [canonicaltype=bool (volatile Bar<T> &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [volatile Bar<T> &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
+// CHECK: CXXMethod=operator=:25:10 (move-assignment operator) [type=bool (const volatile Bar<T> &&)] [typekind=FunctionProto] [canonicaltype=bool (const volatile Bar<T> &&)] [canonicaltypekind=FunctionProto] [resulttype=bool] [resulttypekind=Bool] [args= [const volatile Bar<T> &&] [RValueReference]] [isPOD=0] [isAnonRecDecl=0]
printf(" (pure)");
if (clang_CXXMethod_isCopyAssignmentOperator(Cursor))
printf(" (copy-assignment operator)");
+ if (clang_CXXMethod_isMoveAssignmentOperator(Cursor))
+ printf(" (move-assignment operator)");
if (clang_CXXRecord_isAbstract(Cursor))
printf(" (abstract)");
if (clang_EnumDecl_isScoped(Cursor))
return (Method && Method->isCopyAssignmentOperator()) ? 1 : 0;
}
+unsigned clang_CXXMethod_isMoveAssignmentOperator(CXCursor C) {
+ if (!clang_isDeclaration(C.kind))
+ return 0;
+
+ const Decl *D = cxcursor::getCursorDecl(C);
+ const CXXMethodDecl *Method =
+ D ? dyn_cast_or_null<CXXMethodDecl>(D->getAsFunction()) : nullptr;
+
+ return (Method && Method->isMoveAssignmentOperator()) ? 1 : 0;
+}
+
unsigned clang_CXXRecord_isAbstract(CXCursor C) {
if (!clang_isDeclaration(C.kind))
return 0;
clang_getNonReferenceType;
clang_CXXMethod_isDeleted;
clang_CXXMethod_isCopyAssignmentOperator;
+ clang_CXXMethod_isMoveAssignmentOperator;
};
# Example of how to add a new symbol version entry. If you do add a new symbol