forked from OSchip/llvm-project
213 lines
7.5 KiB
C++
213 lines
7.5 KiB
C++
//=== ConversionChecker.cpp -------------------------------------*- C++ -*-===//
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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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//
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// Check that there is no loss of sign/precision in assignments, comparisons
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// and multiplications.
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//
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// ConversionChecker uses path sensitive analysis to determine possible values
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// of expressions. A warning is reported when:
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// * a negative value is implicitly converted to an unsigned value in an
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// assignment, comparison or multiplication.
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// * assignment / initialization when the source value is greater than the max
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// value of the target integer type
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// * assignment / initialization when the source integer is above the range
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// where the target floating point type can represent all integers
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//
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// Many compilers and tools have similar checks that are based on semantic
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// analysis. Those checks are sound but have poor precision. ConversionChecker
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// is an alternative to those checks.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/StaticAnalyzer/Checkers/BuiltinCheckerRegistration.h"
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#include "clang/AST/ParentMap.h"
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#include "clang/StaticAnalyzer/Core/BugReporter/BugType.h"
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#include "clang/StaticAnalyzer/Core/Checker.h"
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#include "clang/StaticAnalyzer/Core/CheckerManager.h"
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#include "clang/StaticAnalyzer/Core/PathSensitive/CheckerContext.h"
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#include "llvm/ADT/APFloat.h"
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#include <climits>
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using namespace clang;
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using namespace ento;
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namespace {
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class ConversionChecker : public Checker<check::PreStmt<ImplicitCastExpr>> {
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public:
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void checkPreStmt(const ImplicitCastExpr *Cast, CheckerContext &C) const;
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private:
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mutable std::unique_ptr<BuiltinBug> BT;
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bool isLossOfPrecision(const ImplicitCastExpr *Cast, QualType DestType,
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CheckerContext &C) const;
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bool isLossOfSign(const ImplicitCastExpr *Cast, CheckerContext &C) const;
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void reportBug(ExplodedNode *N, const Expr *E, CheckerContext &C,
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const char Msg[]) const;
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};
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}
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void ConversionChecker::checkPreStmt(const ImplicitCastExpr *Cast,
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CheckerContext &C) const {
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// Don't warn for implicit conversions to bool
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if (Cast->getType()->isBooleanType())
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return;
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// Don't warn for loss of sign/precision in macros.
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if (Cast->getExprLoc().isMacroID())
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return;
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// Get Parent.
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const ParentMap &PM = C.getLocationContext()->getParentMap();
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const Stmt *Parent = PM.getParent(Cast);
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if (!Parent)
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return;
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// Dont warn if this is part of an explicit cast
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if (isa<ExplicitCastExpr>(Parent))
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return;
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bool LossOfSign = false;
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bool LossOfPrecision = false;
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// Loss of sign/precision in binary operation.
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if (const auto *B = dyn_cast<BinaryOperator>(Parent)) {
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BinaryOperator::Opcode Opc = B->getOpcode();
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if (Opc == BO_Assign) {
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if (!Cast->IgnoreParenImpCasts()->isEvaluatable(C.getASTContext())) {
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LossOfSign = isLossOfSign(Cast, C);
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LossOfPrecision = isLossOfPrecision(Cast, Cast->getType(), C);
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}
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} else if (Opc == BO_AddAssign || Opc == BO_SubAssign) {
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// No loss of sign.
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LossOfPrecision = isLossOfPrecision(Cast, B->getLHS()->getType(), C);
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} else if (Opc == BO_MulAssign) {
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LossOfSign = isLossOfSign(Cast, C);
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LossOfPrecision = isLossOfPrecision(Cast, B->getLHS()->getType(), C);
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} else if (Opc == BO_DivAssign || Opc == BO_RemAssign) {
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LossOfSign = isLossOfSign(Cast, C);
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// No loss of precision.
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} else if (Opc == BO_AndAssign) {
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LossOfSign = isLossOfSign(Cast, C);
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// No loss of precision.
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} else if (Opc == BO_OrAssign || Opc == BO_XorAssign) {
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LossOfSign = isLossOfSign(Cast, C);
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LossOfPrecision = isLossOfPrecision(Cast, B->getLHS()->getType(), C);
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} else if (B->isRelationalOp() || B->isMultiplicativeOp()) {
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LossOfSign = isLossOfSign(Cast, C);
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}
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} else if (isa<DeclStmt, ReturnStmt>(Parent)) {
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if (!Cast->IgnoreParenImpCasts()->isEvaluatable(C.getASTContext())) {
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LossOfSign = isLossOfSign(Cast, C);
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LossOfPrecision = isLossOfPrecision(Cast, Cast->getType(), C);
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}
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} else {
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LossOfSign = isLossOfSign(Cast, C);
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LossOfPrecision = isLossOfPrecision(Cast, Cast->getType(), C);
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}
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if (LossOfSign || LossOfPrecision) {
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// Generate an error node.
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ExplodedNode *N = C.generateNonFatalErrorNode(C.getState());
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if (!N)
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return;
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if (LossOfSign)
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reportBug(N, Cast, C, "Loss of sign in implicit conversion");
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if (LossOfPrecision)
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reportBug(N, Cast, C, "Loss of precision in implicit conversion");
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}
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}
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void ConversionChecker::reportBug(ExplodedNode *N, const Expr *E,
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CheckerContext &C, const char Msg[]) const {
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if (!BT)
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BT.reset(
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new BuiltinBug(this, "Conversion", "Possible loss of sign/precision."));
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// Generate a report for this bug.
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auto R = std::make_unique<PathSensitiveBugReport>(*BT, Msg, N);
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bugreporter::trackExpressionValue(N, E, *R);
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C.emitReport(std::move(R));
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}
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bool ConversionChecker::isLossOfPrecision(const ImplicitCastExpr *Cast,
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QualType DestType,
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CheckerContext &C) const {
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// Don't warn about explicit loss of precision.
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if (Cast->isEvaluatable(C.getASTContext()))
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return false;
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QualType SubType = Cast->IgnoreParenImpCasts()->getType();
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if (!DestType->isRealType() || !SubType->isIntegerType())
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return false;
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const bool isFloat = DestType->isFloatingType();
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const auto &AC = C.getASTContext();
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// We will find the largest RepresentsUntilExp value such that the DestType
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// can exactly represent all nonnegative integers below 2^RepresentsUntilExp.
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unsigned RepresentsUntilExp;
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if (isFloat) {
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const llvm::fltSemantics &Sema = AC.getFloatTypeSemantics(DestType);
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RepresentsUntilExp = llvm::APFloat::semanticsPrecision(Sema);
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} else {
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RepresentsUntilExp = AC.getIntWidth(DestType);
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if (RepresentsUntilExp == 1) {
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// This is just casting a number to bool, probably not a bug.
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return false;
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}
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if (DestType->isSignedIntegerType())
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RepresentsUntilExp--;
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}
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if (RepresentsUntilExp >= sizeof(unsigned long long) * CHAR_BIT) {
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// Avoid overflow in our later calculations.
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return false;
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}
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unsigned CorrectedSrcWidth = AC.getIntWidth(SubType);
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if (SubType->isSignedIntegerType())
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CorrectedSrcWidth--;
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if (RepresentsUntilExp >= CorrectedSrcWidth) {
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// Simple case: the destination can store all values of the source type.
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return false;
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}
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unsigned long long MaxVal = 1ULL << RepresentsUntilExp;
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if (isFloat) {
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// If this is a floating point type, it can also represent MaxVal exactly.
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MaxVal++;
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}
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return C.isGreaterOrEqual(Cast->getSubExpr(), MaxVal);
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// TODO: maybe also check negative values with too large magnitude.
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}
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bool ConversionChecker::isLossOfSign(const ImplicitCastExpr *Cast,
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CheckerContext &C) const {
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QualType CastType = Cast->getType();
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QualType SubType = Cast->IgnoreParenImpCasts()->getType();
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if (!CastType->isUnsignedIntegerType() || !SubType->isSignedIntegerType())
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return false;
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return C.isNegative(Cast->getSubExpr());
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}
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void ento::registerConversionChecker(CheckerManager &mgr) {
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mgr.registerChecker<ConversionChecker>();
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}
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bool ento::shouldRegisterConversionChecker(const CheckerManager &mgr) {
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return true;
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}
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