forked from OSchip/llvm-project
229 lines
9.0 KiB
C++
229 lines
9.0 KiB
C++
//===--- ContainerSizeEmptyCheck.cpp - clang-tidy -------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "ContainerSizeEmptyCheck.h"
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#include "../utils/ASTUtils.h"
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#include "../utils/Matchers.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/ASTMatchers/ASTMatchers.h"
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#include "clang/Lex/Lexer.h"
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#include "llvm/ADT/StringRef.h"
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using namespace clang::ast_matchers;
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namespace clang {
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namespace tidy {
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namespace readability {
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using utils::IsBinaryOrTernary;
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ContainerSizeEmptyCheck::ContainerSizeEmptyCheck(StringRef Name,
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ClangTidyContext *Context)
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: ClangTidyCheck(Name, Context) {}
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void ContainerSizeEmptyCheck::registerMatchers(MatchFinder *Finder) {
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const auto ValidContainer = qualType(hasUnqualifiedDesugaredType(
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recordType(hasDeclaration(cxxRecordDecl(isSameOrDerivedFrom(
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namedDecl(
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has(cxxMethodDecl(
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isConst(), parameterCountIs(0), isPublic(),
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hasName("size"),
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returns(qualType(isInteger(), unless(booleanType()))))
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.bind("size")),
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has(cxxMethodDecl(isConst(), parameterCountIs(0), isPublic(),
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hasName("empty"), returns(booleanType()))
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.bind("empty")))
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.bind("container")))))));
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const auto WrongUse = traverse(
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ast_type_traits::TK_AsIs,
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anyOf(
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hasParent(binaryOperator(isComparisonOperator(),
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hasEitherOperand(ignoringImpCasts(
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anyOf(integerLiteral(equals(1)),
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integerLiteral(equals(0))))))
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.bind("SizeBinaryOp")),
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hasParent(implicitCastExpr(
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hasImplicitDestinationType(booleanType()),
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anyOf(hasParent(
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unaryOperator(hasOperatorName("!")).bind("NegOnSize")),
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anything()))),
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hasParent(explicitCastExpr(hasDestinationType(booleanType())))));
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Finder->addMatcher(
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cxxMemberCallExpr(on(expr(anyOf(hasType(ValidContainer),
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hasType(pointsTo(ValidContainer)),
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hasType(references(ValidContainer))))),
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callee(cxxMethodDecl(hasName("size"))), WrongUse,
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unless(hasAncestor(cxxMethodDecl(
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ofClass(equalsBoundNode("container"))))))
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.bind("SizeCallExpr"),
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this);
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// Empty constructor matcher.
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const auto DefaultConstructor = cxxConstructExpr(
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hasDeclaration(cxxConstructorDecl(isDefaultConstructor())));
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// Comparison to empty string or empty constructor.
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const auto WrongComparend = anyOf(
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ignoringImpCasts(stringLiteral(hasSize(0))),
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ignoringImpCasts(cxxBindTemporaryExpr(has(DefaultConstructor))),
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ignoringImplicit(DefaultConstructor),
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cxxConstructExpr(
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hasDeclaration(cxxConstructorDecl(isCopyConstructor())),
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has(expr(ignoringImpCasts(DefaultConstructor)))),
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cxxConstructExpr(
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hasDeclaration(cxxConstructorDecl(isMoveConstructor())),
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has(expr(ignoringImpCasts(DefaultConstructor)))));
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// Match the object being compared.
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const auto STLArg =
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anyOf(unaryOperator(
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hasOperatorName("*"),
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hasUnaryOperand(
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expr(hasType(pointsTo(ValidContainer))).bind("Pointee"))),
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expr(hasType(ValidContainer)).bind("STLObject"));
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Finder->addMatcher(
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cxxOperatorCallExpr(
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hasAnyOverloadedOperatorName("==", "!="),
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anyOf(allOf(hasArgument(0, WrongComparend), hasArgument(1, STLArg)),
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allOf(hasArgument(0, STLArg), hasArgument(1, WrongComparend))),
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unless(hasAncestor(
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cxxMethodDecl(ofClass(equalsBoundNode("container"))))))
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.bind("BinCmp"),
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this);
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}
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void ContainerSizeEmptyCheck::check(const MatchFinder::MatchResult &Result) {
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const auto *MemberCall =
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Result.Nodes.getNodeAs<CXXMemberCallExpr>("SizeCallExpr");
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const auto *BinCmp = Result.Nodes.getNodeAs<CXXOperatorCallExpr>("BinCmp");
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const auto *BinaryOp = Result.Nodes.getNodeAs<BinaryOperator>("SizeBinaryOp");
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const auto *Pointee = Result.Nodes.getNodeAs<Expr>("Pointee");
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const auto *E =
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MemberCall
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? MemberCall->getImplicitObjectArgument()
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: (Pointee ? Pointee : Result.Nodes.getNodeAs<Expr>("STLObject"));
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FixItHint Hint;
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std::string ReplacementText = std::string(
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Lexer::getSourceText(CharSourceRange::getTokenRange(E->getSourceRange()),
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*Result.SourceManager, getLangOpts()));
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if (BinCmp && IsBinaryOrTernary(E)) {
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// Not just a DeclRefExpr, so parenthesize to be on the safe side.
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ReplacementText = "(" + ReplacementText + ")";
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}
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if (E->getType()->isPointerType())
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ReplacementText += "->empty()";
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else
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ReplacementText += ".empty()";
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if (BinCmp) {
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if (BinCmp->getOperator() == OO_ExclaimEqual) {
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ReplacementText = "!" + ReplacementText;
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}
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Hint =
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FixItHint::CreateReplacement(BinCmp->getSourceRange(), ReplacementText);
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} else if (BinaryOp) { // Determine the correct transformation.
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bool Negation = false;
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const bool ContainerIsLHS =
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!llvm::isa<IntegerLiteral>(BinaryOp->getLHS()->IgnoreImpCasts());
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const auto OpCode = BinaryOp->getOpcode();
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uint64_t Value = 0;
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if (ContainerIsLHS) {
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if (const auto *Literal = llvm::dyn_cast<IntegerLiteral>(
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BinaryOp->getRHS()->IgnoreImpCasts()))
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Value = Literal->getValue().getLimitedValue();
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else
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return;
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} else {
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Value =
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llvm::dyn_cast<IntegerLiteral>(BinaryOp->getLHS()->IgnoreImpCasts())
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->getValue()
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.getLimitedValue();
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}
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// Constant that is not handled.
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if (Value > 1)
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return;
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if (Value == 1 && (OpCode == BinaryOperatorKind::BO_EQ ||
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OpCode == BinaryOperatorKind::BO_NE))
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return;
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// Always true, no warnings for that.
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if ((OpCode == BinaryOperatorKind::BO_GE && Value == 0 && ContainerIsLHS) ||
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(OpCode == BinaryOperatorKind::BO_LE && Value == 0 && !ContainerIsLHS))
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return;
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// Do not warn for size > 1, 1 < size, size <= 1, 1 >= size.
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if (Value == 1) {
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if ((OpCode == BinaryOperatorKind::BO_GT && ContainerIsLHS) ||
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(OpCode == BinaryOperatorKind::BO_LT && !ContainerIsLHS))
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return;
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if ((OpCode == BinaryOperatorKind::BO_LE && ContainerIsLHS) ||
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(OpCode == BinaryOperatorKind::BO_GE && !ContainerIsLHS))
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return;
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}
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if (OpCode == BinaryOperatorKind::BO_NE && Value == 0)
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Negation = true;
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if ((OpCode == BinaryOperatorKind::BO_GT ||
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OpCode == BinaryOperatorKind::BO_GE) &&
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ContainerIsLHS)
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Negation = true;
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if ((OpCode == BinaryOperatorKind::BO_LT ||
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OpCode == BinaryOperatorKind::BO_LE) &&
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!ContainerIsLHS)
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Negation = true;
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if (Negation)
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ReplacementText = "!" + ReplacementText;
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Hint = FixItHint::CreateReplacement(BinaryOp->getSourceRange(),
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ReplacementText);
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} else {
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// If there is a conversion above the size call to bool, it is safe to just
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// replace size with empty.
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if (const auto *UnaryOp =
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Result.Nodes.getNodeAs<UnaryOperator>("NegOnSize"))
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Hint = FixItHint::CreateReplacement(UnaryOp->getSourceRange(),
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ReplacementText);
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else
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Hint = FixItHint::CreateReplacement(MemberCall->getSourceRange(),
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"!" + ReplacementText);
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}
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if (MemberCall) {
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diag(MemberCall->getBeginLoc(),
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"the 'empty' method should be used to check "
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"for emptiness instead of 'size'")
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<< Hint;
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} else {
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diag(BinCmp->getBeginLoc(),
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"the 'empty' method should be used to check "
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"for emptiness instead of comparing to an empty object")
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<< Hint;
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}
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const auto *Container = Result.Nodes.getNodeAs<NamedDecl>("container");
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if (const auto *CTS = dyn_cast<ClassTemplateSpecializationDecl>(Container)) {
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// The definition of the empty() method is the same for all implicit
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// instantiations. In order to avoid duplicate or inconsistent warnings
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// (depending on how deduplication is done), we use the same class name
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// for all implicit instantiations of a template.
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if (CTS->getSpecializationKind() == TSK_ImplicitInstantiation)
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Container = CTS->getSpecializedTemplate();
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}
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const auto *Empty = Result.Nodes.getNodeAs<FunctionDecl>("empty");
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diag(Empty->getLocation(), "method %0::empty() defined here",
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DiagnosticIDs::Note)
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<< Container;
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}
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} // namespace readability
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} // namespace tidy
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} // namespace clang
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