コード例 #1
5
void RefCountedCopyConstructorChecker::registerMatchers(MatchFinder* AstMatcher) {
  AstMatcher->addMatcher(
      cxxConstructExpr(
          hasDeclaration(cxxConstructorDecl(isCompilerProvidedCopyConstructor(),
                                            ofClass(hasRefCntMember()))))
          .bind("node"),
      this);
}
コード例 #2
2
/// \brief Creates a matcher that finds the \c std::auto_ptr copy-ctor and
/// assign-operator expressions.
///
/// \c AutoPtrOwnershipTransferId is assigned to the argument of the expression,
/// this is the part that has to be wrapped by \c std::move().
///
/// \code
///   std::auto_ptr<int> i, j;
///   i = j;
///   ~~~~^
/// \endcode
StatementMatcher makeTransferOwnershipExprMatcher() {
  return anyOf(
      cxxOperatorCallExpr(allOf(hasOverloadedOperatorName("="),
                                callee(cxxMethodDecl(ofClass(AutoPtrDecl))),
                                hasArgument(1, MovableArgumentMatcher))),
      cxxConstructExpr(allOf(hasType(AutoPtrType), argumentCountIs(1),
                             hasArgument(0, MovableArgumentMatcher))));
}
コード例 #3
0
void SlicingCheck::registerMatchers(MatchFinder *Finder) {
  // When we see:
  //   class B : public A { ... };
  //   A a;
  //   B b;
  //   a = b;
  // The assignment is OK if:
  //   - the assignment operator is defined as taking a B as second parameter,
  //   or
  //   - B does not define any additional members (either variables or
  //   overrides) wrt A.
  //
  // The same holds for copy ctor calls. This also captures stuff like:
  //   void f(A a);
  //   f(b);

  //  Helpers.
  const auto OfBaseClass = ofClass(cxxRecordDecl().bind("BaseDecl"));
  const auto IsDerivedFromBaseDecl =
      cxxRecordDecl(isDerivedFrom(equalsBoundNode("BaseDecl")))
          .bind("DerivedDecl");
  const auto HasTypeDerivedFromBaseDecl =
      anyOf(hasType(IsDerivedFromBaseDecl),
            hasType(references(IsDerivedFromBaseDecl)));
  const auto IsWithinDerivedCtor =
      hasParent(cxxConstructorDecl(ofClass(equalsBoundNode("DerivedDecl"))));

  // Assignement slicing: "a = b;" and "a = std::move(b);" variants.
  const auto SlicesObjectInAssignment =
      callExpr(callee(cxxMethodDecl(anyOf(isCopyAssignmentOperator(),
                                          isMoveAssignmentOperator()),
                                    OfBaseClass)),
               hasArgument(1, HasTypeDerivedFromBaseDecl));

  // Construction slicing: "A a{b};" and "f(b);" variants. Note that in case of
  // slicing the letter will create a temporary and therefore call a ctor.
  const auto SlicesObjectInCtor = cxxConstructExpr(
      hasDeclaration(cxxConstructorDecl(
          anyOf(isCopyConstructor(), isMoveConstructor()), OfBaseClass)),
      hasArgument(0, HasTypeDerivedFromBaseDecl),
      // We need to disable matching on the call to the base copy/move
      // constructor in DerivedDecl's constructors.
      unless(IsWithinDerivedCtor));

  Finder->addMatcher(
      expr(anyOf(SlicesObjectInAssignment, SlicesObjectInCtor)).bind("Call"),
      this);
}
コード例 #4
0
void AssignOperatorSignatureCheck::registerMatchers(
    ast_matchers::MatchFinder *Finder) {
  // Only register the matchers for C++; the functionality currently does not
  // provide any benefit to other languages, despite being benign.
  if (getLangOpts().CPlusPlus) {
    const auto HasGoodReturnType = methodDecl(returns(lValueReferenceType(
        pointee(unless(isConstQualified()),
                hasDeclaration(equalsBoundNode("class"))))));

    const auto IsSelf = qualType(anyOf(
        hasDeclaration(equalsBoundNode("class")),
        referenceType(pointee(hasDeclaration(equalsBoundNode("class"))))));
    const auto IsSelfAssign =
        methodDecl(unless(anyOf(isDeleted(), isPrivate(), isImplicit())),
                   hasName("operator="), ofClass(recordDecl().bind("class")),
                   hasParameter(0, parmVarDecl(hasType(IsSelf))))
            .bind("method");

    Finder->addMatcher(
        methodDecl(IsSelfAssign, unless(HasGoodReturnType)).bind("ReturnType"),
        this);

    const auto BadSelf = referenceType(
        anyOf(lValueReferenceType(pointee(unless(isConstQualified()))),
              rValueReferenceType(pointee(isConstQualified()))));

    Finder->addMatcher(
        methodDecl(IsSelfAssign, hasParameter(0, parmVarDecl(hasType(BadSelf))))
            .bind("ArgumentType"),
        this);

    Finder->addMatcher(methodDecl(IsSelfAssign, isConst()).bind("Const"), this);
  }
}
コード例 #5
0
ファイル: SourceLocationTest.cpp プロジェクト: 4ntoine/clang
TEST(FriendDecl, FriendConstructorDestructorRange) {
  const std::string Code = "struct B {\n"
                           "B();\n"
                           "~B();\n"
                           "};\n"
                           "struct A {\n"
                           "friend B::B(), B::~B();\n"
                           "};\n";
  RangeVerifier<FriendDecl> ConstructorVerifier;
  ConstructorVerifier.expectRange(6, 1, 6, 13);
  EXPECT_TRUE(ConstructorVerifier.match(
      Code, friendDecl(has(constructorDecl(ofClass(hasName("B")))))));
  RangeVerifier<FriendDecl> DestructorVerifier;
  DestructorVerifier.expectRange(6, 1, 6, 22);
  EXPECT_TRUE(DestructorVerifier.match(
      Code, friendDecl(has(destructorDecl(ofClass(hasName("B")))))));
}
コード例 #6
0
ファイル: SourceLocationTest.cpp プロジェクト: 4ntoine/clang
TEST(FriendDecl, FriendConstructorDestructorLocation) {
  const std::string Code = "struct B {\n"
                           "B();\n"
                           "~B();\n"
                           "};\n"
                           "struct A {\n"
                           "friend B::B(), B::~B();\n"
                           "};\n";
  LocationVerifier<FriendDecl> ConstructorVerifier;
  ConstructorVerifier.expectLocation(6, 11);
  EXPECT_TRUE(ConstructorVerifier.match(
      Code, friendDecl(has(constructorDecl(ofClass(hasName("B")))))));
  LocationVerifier<FriendDecl> DestructorVerifier;
  DestructorVerifier.expectLocation(6, 19);
  EXPECT_TRUE(DestructorVerifier.match(
      Code, friendDecl(has(destructorDecl(ofClass(hasName("B")))))));
}
コード例 #7
0
void ExplicitImplicitChecker::registerMatchers(MatchFinder* AstMatcher) {
  AstMatcher->addMatcher(cxxConstructorDecl(isInterestingImplicitCtor(),
                                            ofClass(allOf(isConcreteClass(),
                                                          decl().bind("class"))),
                                            unless(isMarkedImplicit()))
                            .bind("ctor"),
                        this);
}
コード例 #8
0
void UniqueptrResetReleaseCheck::registerMatchers(MatchFinder *Finder) {
  // Only register the matchers for C++11; the functionality currently does not
  // provide any benefit to other languages, despite being benign.
  if (!getLangOpts().CPlusPlus11)
    return;

  Finder->addMatcher(
      memberCallExpr(
          on(expr().bind("left")), callee(memberExpr().bind("reset_member")),
          callee(methodDecl(hasName("reset"),
                            ofClass(recordDecl(hasName("::std::unique_ptr"),
                                               decl().bind("left_class"))))),
          has(memberCallExpr(
              on(expr().bind("right")),
              callee(memberExpr().bind("release_member")),
              callee(methodDecl(
                  hasName("release"),
                  ofClass(recordDecl(hasName("::std::unique_ptr"),
                                     decl().bind("right_class"))))))))
          .bind("reset_call"),
      this);
}
コード例 #9
0
void UnconventionalAssignOperatorCheck::registerMatchers(
    ast_matchers::MatchFinder *Finder) {
  // Only register the matchers for C++; the functionality currently does not
  // provide any benefit to other languages, despite being benign.
  if (!getLangOpts().CPlusPlus)
    return;

  const auto HasGoodReturnType = cxxMethodDecl(returns(lValueReferenceType(
      pointee(unless(isConstQualified()),
              anyOf(autoType(), hasDeclaration(equalsBoundNode("class")))))));

  const auto IsSelf = qualType(
      anyOf(hasDeclaration(equalsBoundNode("class")),
            referenceType(pointee(hasDeclaration(equalsBoundNode("class"))))));
  const auto IsAssign =
      cxxMethodDecl(unless(anyOf(isDeleted(), isPrivate(), isImplicit())),
                    hasName("operator="), ofClass(recordDecl().bind("class")))
          .bind("method");
  const auto IsSelfAssign =
      cxxMethodDecl(IsAssign, hasParameter(0, parmVarDecl(hasType(IsSelf))))
          .bind("method");

  Finder->addMatcher(
      cxxMethodDecl(IsAssign, unless(HasGoodReturnType)).bind("ReturnType"),
      this);

  const auto BadSelf = referenceType(
      anyOf(lValueReferenceType(pointee(unless(isConstQualified()))),
            rValueReferenceType(pointee(isConstQualified()))));

  Finder->addMatcher(
      cxxMethodDecl(IsSelfAssign,
                    hasParameter(0, parmVarDecl(hasType(BadSelf))))
          .bind("ArgumentType"),
      this);

  Finder->addMatcher(
      cxxMethodDecl(IsSelfAssign, anyOf(isConst(), isVirtual())).bind("cv"),
      this);

  const auto IsBadReturnStatement = returnStmt(unless(has(ignoringParenImpCasts(
      anyOf(unaryOperator(hasOperatorName("*"), hasUnaryOperand(cxxThisExpr())),
            cxxOperatorCallExpr(argumentCountIs(1),
                                callee(unresolvedLookupExpr()),
                                hasArgument(0, cxxThisExpr())))))));
  const auto IsGoodAssign = cxxMethodDecl(IsAssign, HasGoodReturnType);

  Finder->addMatcher(returnStmt(IsBadReturnStatement, forFunction(IsGoodAssign))
                         .bind("returnStmt"),
                     this);
}
コード例 #10
0
void UndelegatedConstructorCheck::registerMatchers(MatchFinder *Finder) {
  // We look for calls to constructors of the same type in constructors. To do
  // this we have to look through a variety of nodes that occur in the path,
  // depending on the type's destructor and the number of arguments on the
  // constructor call, this is handled by ignoringTemporaryExpr. Ignore template
  // instantiations to reduce the number of duplicated warnings.
  //
  // Only register the matchers for C++11; the functionality currently does not
  // provide any benefit to other languages, despite being benign.
  if (!getLangOpts().CPlusPlus11)
    return;

  Finder->addMatcher(
      compoundStmt(
          hasParent(
              cxxConstructorDecl(ofClass(cxxRecordDecl().bind("parent")))),
          forEach(ignoringTemporaryExpr(
              cxxConstructExpr(hasDeclaration(cxxConstructorDecl(ofClass(
                                   cxxRecordDecl(baseOfBoundNode("parent"))))))
                  .bind("construct"))),
          unless(isInTemplateInstantiation())),
      this);
}
コード例 #11
0
void UseEmplaceCheck::registerMatchers(MatchFinder *Finder) {
  if (!getLangOpts().CPlusPlus11)
    return;

  // FIXME: Bunch of functionality that could be easily added:
  // + add handling of `push_front` for std::forward_list, std::list
  // and std::deque.
  // + add handling of `push` for std::stack, std::queue, std::priority_queue
  // + add handling of `insert` for stl associative container, but be careful
  // because this requires special treatment (it could cause performance
  // regression)
  // + match for emplace calls that should be replaced with insertion
  // + match for make_pair calls.
  auto callPushBack = cxxMemberCallExpr(
      hasDeclaration(functionDecl(hasName("push_back"))),
      on(hasType(cxxRecordDecl(hasAnyName("std::vector", "llvm::SmallVector",
                                          "std::list", "std::deque")))));

  // We can't replace push_backs of smart pointer because
  // if emplacement fails (f.e. bad_alloc in vector) we will have leak of
  // passed pointer because smart pointer won't be constructed
  // (and destructed) as in push_back case.
  auto isCtorOfSmartPtr = hasDeclaration(cxxConstructorDecl(
      ofClass(hasAnyName("std::shared_ptr", "std::unique_ptr", "std::auto_ptr",
                         "std::weak_ptr"))));

  // Bitfields binds only to consts and emplace_back take it by universal ref.
  auto bitFieldAsArgument = hasAnyArgument(ignoringParenImpCasts(
      memberExpr(hasDeclaration(fieldDecl(matchers::isBitfield())))));

  // We could have leak of resource.
  auto newExprAsArgument = hasAnyArgument(ignoringParenImpCasts(cxxNewExpr()));
  auto constructingDerived =
      hasParent(implicitCastExpr(hasCastKind(CastKind::CK_DerivedToBase)));

  auto hasInitList = has(ignoringParenImpCasts(initListExpr()));
  auto soughtConstructExpr =
      cxxConstructExpr(
          unless(anyOf(isCtorOfSmartPtr, hasInitList, bitFieldAsArgument,
                       newExprAsArgument, constructingDerived,
                       has(materializeTemporaryExpr(hasInitList)))))
          .bind("ctor");
  auto hasConstructExpr = has(ignoringParenImpCasts(soughtConstructExpr));

  auto ctorAsArgument = materializeTemporaryExpr(
      anyOf(hasConstructExpr, has(cxxFunctionalCastExpr(hasConstructExpr))));

  Finder->addMatcher(
      cxxMemberCallExpr(callPushBack, has(ctorAsArgument)).bind("call"), this);
}
コード例 #12
0
void ReplaceAutoPtrCheck::registerMatchers(MatchFinder *Finder) {
  // Only register the matchers for C++; the functionality currently does not
  // provide any benefit to other languages, despite being benign.
  if (!getLangOpts().CPlusPlus)
    return;

  auto AutoPtrDecl = recordDecl(hasName("auto_ptr"), isFromStdNamespace());
  auto AutoPtrType = qualType(hasDeclaration(AutoPtrDecl));

  //   std::auto_ptr<int> a;
  //        ^~~~~~~~~~~~~
  //
  //   typedef std::auto_ptr<int> int_ptr_t;
  //                ^~~~~~~~~~~~~
  //
  //   std::auto_ptr<int> fn(std::auto_ptr<int>);
  //        ^~~~~~~~~~~~~         ^~~~~~~~~~~~~
  Finder->addMatcher(typeLoc(loc(qualType(AutoPtrType,
                                          // Skip elaboratedType() as the named
                                          // type will match soon thereafter.
                                          unless(elaboratedType()))))
                         .bind(AutoPtrTokenId),
                     this);

  //   using std::auto_ptr;
  //   ^~~~~~~~~~~~~~~~~~~
  Finder->addMatcher(usingDecl(hasAnyUsingShadowDecl(hasTargetDecl(allOf(
                                   hasName("auto_ptr"), isFromStdNamespace()))))
                         .bind(AutoPtrTokenId),
                     this);

  // Find ownership transfers via copy construction and assignment.
  // AutoPtrOwnershipTransferId is bound to the the part that has to be wrapped
  // into std::move().
  //   std::auto_ptr<int> i, j;
  //   i = j;
  //   ~~~~^
  auto MovableArgumentMatcher =
      expr(isLValue(), hasType(AutoPtrType)).bind(AutoPtrOwnershipTransferId);

  Finder->addMatcher(
      cxxOperatorCallExpr(hasOverloadedOperatorName("="),
                          callee(cxxMethodDecl(ofClass(AutoPtrDecl))),
                          hasArgument(1, MovableArgumentMatcher)),
      this);
  Finder->addMatcher(cxxConstructExpr(hasType(AutoPtrType), argumentCountIs(1),
                                      hasArgument(0, MovableArgumentMatcher)),
                     this);
}
コード例 #13
0
void AvoidConstParamsInDecls::registerMatchers(MatchFinder *Finder) {
  const auto ConstParamDecl =
      parmVarDecl(hasType(qualType(isConstQualified()))).bind("param");
  Finder->addMatcher(
      functionDecl(unless(isDefinition()),
                   // Lambdas are always their own definition, but they
                   // generate a non-definition FunctionDecl too. Ignore those.
                   // Class template instantiations have a non-definition
                   // CXXMethodDecl for methods that aren't used in this
                   // translation unit. Ignore those, as the template will have
                   // already been checked.
                   unless(cxxMethodDecl(ofClass(cxxRecordDecl(anyOf(
                       isLambda(), ast_matchers::isTemplateInstantiation()))))),
                   has(typeLoc(forEach(ConstParamDecl))))
          .bind("func"),
      this);
}
コード例 #14
0
void StringIntegerAssignmentCheck::registerMatchers(MatchFinder *Finder) {
  if (!getLangOpts().CPlusPlus)
    return;
  Finder->addMatcher(
      cxxOperatorCallExpr(
          anyOf(hasOverloadedOperatorName("="),
                hasOverloadedOperatorName("+=")),
          callee(cxxMethodDecl(ofClass(classTemplateSpecializationDecl(
              hasName("::std::basic_string"),
              hasTemplateArgument(0, refersToType(qualType().bind("type"))))))),
          hasArgument(1,
                      ignoringImpCasts(expr(hasType(isInteger()),
                                            unless(hasType(isAnyCharacter())))
                                           .bind("expr"))),
          unless(isInTemplateInstantiation())),
      this);
}
コード例 #15
0
void RedundantMemberInitCheck::registerMatchers(MatchFinder *Finder) {
  auto Construct =
      cxxConstructExpr(
          hasDeclaration(cxxConstructorDecl(hasParent(
              cxxRecordDecl(unless(isTriviallyDefaultConstructible()))))))
          .bind("construct");

  Finder->addMatcher(
      cxxConstructorDecl(
          unless(isDelegatingConstructor()),
          ofClass(unless(
              anyOf(isUnion(), ast_matchers::isTemplateInstantiation()))),
          forEachConstructorInitializer(
              cxxCtorInitializer(isWritten(),
                                 withInitializer(ignoringImplicit(Construct)),
                                 unless(forField(hasType(isConstQualified()))))
                  .bind("init"))),
      this);
}
コード例 #16
0
void UpgradeDurationConversionsCheck::registerMatchers(MatchFinder *Finder) {
  if (!getLangOpts().CPlusPlus)
    return;

  // For the arithmetic calls, we match only the uses of the templated operators
  // where the template parameter is not a built-in type. This means the
  // instantiation makes use of an available user defined conversion to
  // `int64_t`.
  //
  // The implementation of these templates will be updated to fail SFINAE for
  // non-integral types. We match them to suggest an explicit cast.

  // Match expressions like `a *= b` and `a /= b` where `a` has type
  // `absl::Duration` and `b` is not of a built-in type.
  Finder->addMatcher(
      cxxOperatorCallExpr(
          argumentCountIs(2),
          hasArgument(
              0, expr(hasType(cxxRecordDecl(hasName("::absl::Duration"))))),
          hasArgument(1, expr().bind("arg")),
          callee(functionDecl(
              hasParent(functionTemplateDecl()),
              unless(hasTemplateArgument(0, refersToType(builtinType()))),
              hasAnyName("operator*=", "operator/=")))),
      this);

  // Match expressions like `a.operator*=(b)` and `a.operator/=(b)` where `a`
  // has type `absl::Duration` and `b` is not of a built-in type.
  Finder->addMatcher(
      cxxMemberCallExpr(
          callee(cxxMethodDecl(
              ofClass(cxxRecordDecl(hasName("::absl::Duration"))),
              hasParent(functionTemplateDecl()),
              unless(hasTemplateArgument(0, refersToType(builtinType()))),
              hasAnyName("operator*=", "operator/="))),
          argumentCountIs(1), hasArgument(0, expr().bind("arg"))),
      this);

  // Match expressions like `a * b`, `a / b`, `operator*(a, b)`, and
  // `operator/(a, b)` where `a` has type `absl::Duration` and `b` is not of a
  // built-in type.
  Finder->addMatcher(
      callExpr(callee(functionDecl(
                   hasParent(functionTemplateDecl()),
                   unless(hasTemplateArgument(0, refersToType(builtinType()))),
                   hasAnyName("::absl::operator*", "::absl::operator/"))),
               argumentCountIs(2),
               hasArgument(0, expr(hasType(
                                  cxxRecordDecl(hasName("::absl::Duration"))))),
               hasArgument(1, expr().bind("arg"))),
      this);

  // Match expressions like `a * b` and `operator*(a, b)` where `a` is not of a
  // built-in type and `b` has type `absl::Duration`.
  Finder->addMatcher(
      callExpr(callee(functionDecl(
                   hasParent(functionTemplateDecl()),
                   unless(hasTemplateArgument(0, refersToType(builtinType()))),
                   hasName("::absl::operator*"))),
               argumentCountIs(2), hasArgument(0, expr().bind("arg")),
               hasArgument(1, expr(hasType(cxxRecordDecl(
                                  hasName("::absl::Duration")))))),
      this);

  // For the factory functions, we match only the non-templated overloads that
  // take an `int64_t` parameter. Within these calls, we care about implicit
  // casts through a user defined conversion to `int64_t`.
  //
  // The factory functions will be updated to be templated and SFINAE on whether
  // the template parameter is an integral type. This complements the already
  // existing templated overloads that only accept floating point types.

  // Match calls like:
  //   `absl::Nanoseconds(x)`
  //   `absl::Microseconds(x)`
  //   `absl::Milliseconds(x)`
  //   `absl::Seconds(x)`
  //   `absl::Minutes(x)`
  //   `absl::Hours(x)`
  // where `x` is not of a built-in type.
  Finder->addMatcher(
      implicitCastExpr(
          anyOf(hasCastKind(CK_UserDefinedConversion),
                has(implicitCastExpr(hasCastKind(CK_UserDefinedConversion)))),
          hasParent(callExpr(
              callee(functionDecl(DurationFactoryFunction(),
                  unless(hasParent(functionTemplateDecl())))),
              hasArgument(0, expr().bind("arg"))))),
      this);
}
コード例 #17
0
void UseEmplaceCheck::registerMatchers(MatchFinder *Finder) {
  if (!getLangOpts().CPlusPlus11)
    return;

  // FIXME: Bunch of functionality that could be easily added:
  // + add handling of `push_front` for std::forward_list, std::list
  // and std::deque.
  // + add handling of `push` for std::stack, std::queue, std::priority_queue
  // + add handling of `insert` for stl associative container, but be careful
  // because this requires special treatment (it could cause performance
  // regression)
  // + match for emplace calls that should be replaced with insertion
  // + match for make_pair calls.
  auto callPushBack = cxxMemberCallExpr(
      hasDeclaration(functionDecl(hasName("push_back"))),
      on(hasType(cxxRecordDecl(hasAnyName(SmallVector<StringRef, 5>(
          ContainersWithPushBack.begin(), ContainersWithPushBack.end()))))));

  // We can't replace push_backs of smart pointer because
  // if emplacement fails (f.e. bad_alloc in vector) we will have leak of
  // passed pointer because smart pointer won't be constructed
  // (and destructed) as in push_back case.
  auto isCtorOfSmartPtr = hasDeclaration(cxxConstructorDecl(ofClass(hasAnyName(
      SmallVector<StringRef, 5>(SmartPointers.begin(), SmartPointers.end())))));

  // Bitfields binds only to consts and emplace_back take it by universal ref.
  auto bitFieldAsArgument = hasAnyArgument(
      ignoringImplicit(memberExpr(hasDeclaration(fieldDecl(isBitField())))));

  // Initializer list can't be passed to universal reference.
  auto initializerListAsArgument = hasAnyArgument(
      ignoringImplicit(cxxConstructExpr(isListInitialization())));

  // We could have leak of resource.
  auto newExprAsArgument = hasAnyArgument(ignoringImplicit(cxxNewExpr()));
  // We would call another constructor.
  auto constructingDerived =
      hasParent(implicitCastExpr(hasCastKind(CastKind::CK_DerivedToBase)));

  // emplace_back can't access private constructor.
  auto isPrivateCtor = hasDeclaration(cxxConstructorDecl(isPrivate()));

  auto hasInitList = has(ignoringImplicit(initListExpr()));
  // FIXME: Discard 0/NULL (as nullptr), static inline const data members,
  // overloaded functions and template names.
  auto soughtConstructExpr =
      cxxConstructExpr(
          unless(anyOf(isCtorOfSmartPtr, hasInitList, bitFieldAsArgument,
                       initializerListAsArgument, newExprAsArgument,
                       constructingDerived, isPrivateCtor)))
          .bind("ctor");
  auto hasConstructExpr = has(ignoringImplicit(soughtConstructExpr));

  auto ctorAsArgument = materializeTemporaryExpr(
      anyOf(hasConstructExpr, has(cxxFunctionalCastExpr(hasConstructExpr))));

  Finder->addMatcher(cxxMemberCallExpr(callPushBack, has(ctorAsArgument),
                                       unless(isInTemplateInstantiation()))
                         .bind("call"),
                     this);
}