зеркало из https://github.com/mozilla/gecko-dev.git
257 строки
9.8 KiB
C++
257 строки
9.8 KiB
C++
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "DanglingOnTemporaryChecker.h"
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#include "CustomMatchers.h"
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#include "VariableUsageHelpers.h"
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void DanglingOnTemporaryChecker::registerMatchers(MatchFinder *AstMatcher) {
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////////////////////////////////////////
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// Quick annotation conflict checkers //
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////////////////////////////////////////
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AstMatcher->addMatcher(
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// This is a matcher on a method declaration,
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cxxMethodDecl(
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// which is marked as no dangling on temporaries,
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noDanglingOnTemporaries(),
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// and which is && ref-qualified.
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isRValueRefQualified(),
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decl().bind("invalidMethodRefQualified")),
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this);
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AstMatcher->addMatcher(
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// This is a matcher on a method declaration,
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cxxMethodDecl(
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// which is marked as no dangling on temporaries,
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noDanglingOnTemporaries(),
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// which returns a primitive type,
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returns(builtinType()),
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// and which doesn't return a pointer.
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unless(returns(pointerType())),
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decl().bind("invalidMethodPointer")),
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this);
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//////////////////
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// Main checker //
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//////////////////
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auto hasParentCall = hasParent(expr(
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anyOf(cxxOperatorCallExpr(
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// If we're in a lamda, we may have an operator call expression
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// ancestor in the AST, but the temporary we're matching
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// against is not going to have the same lifetime as the
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// constructor call.
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unless(has(expr(ignoreTrivials(lambdaExpr())))),
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expr().bind("parentOperatorCallExpr")),
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callExpr(
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// If we're in a lamda, we may have a call expression
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// ancestor in the AST, but the temporary we're matching
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// against is not going to have the same lifetime as the
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// function call.
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unless(has(expr(ignoreTrivials(lambdaExpr())))),
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expr().bind("parentCallExpr")),
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objcMessageExpr(
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// If we're in a lamda, we may have an objc message expression
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// ancestor in the AST, but the temporary we're matching
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// against is not going to have the same lifetime as the
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// function call.
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unless(has(expr(ignoreTrivials(lambdaExpr())))),
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expr().bind("parentObjCMessageExpr")),
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cxxConstructExpr(
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// If we're in a lamda, we may have a construct expression
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// ancestor in the AST, but the temporary we're matching
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// against is not going to have the same lifetime as the
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// constructor call.
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unless(has(expr(ignoreTrivials(lambdaExpr())))),
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expr().bind("parentConstructExpr")))));
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AstMatcher->addMatcher(
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// This is a matcher on a method call,
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cxxMemberCallExpr(
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// which is in first party code,
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isFirstParty(),
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// and which is performed on a temporary,
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on(allOf(unless(hasType(pointerType())), isTemporary(),
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// but which is not `this`.
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unless(cxxThisExpr()))),
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// and which is marked as no dangling on temporaries.
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callee(cxxMethodDecl(noDanglingOnTemporaries())),
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expr().bind("memberCallExpr"),
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// We optionally match a parent call expression or a parent construct
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// expression because using a temporary inside a call is fine as long
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// as the pointer doesn't escape the function call.
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anyOf(
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// This is the case where the call is the direct parent, so we
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// know that the member call expression is the argument.
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allOf(hasParentCall, expr().bind("parentCallArg")),
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// This is the case where the call is not the direct parent, so we
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// get its child to know in which argument tree we are.
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hasAncestor(expr(hasParentCall, expr().bind("parentCallArg"))),
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// To make it optional.
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anything())),
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this);
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}
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void DanglingOnTemporaryChecker::check(const MatchFinder::MatchResult &Result) {
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///////////////////////////////////////
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// Quick annotation conflict checker //
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///////////////////////////////////////
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const char *ErrorInvalidRefQualified = "methods annotated with "
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"MOZ_NO_DANGLING_ON_TEMPORARIES "
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"cannot be && ref-qualified";
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const char *ErrorInvalidPointer = "methods annotated with "
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"MOZ_NO_DANGLING_ON_TEMPORARIES must "
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"return a pointer";
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if (auto InvalidRefQualified =
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Result.Nodes.getNodeAs<CXXMethodDecl>("invalidMethodRefQualified")) {
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diag(InvalidRefQualified->getLocation(), ErrorInvalidRefQualified,
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DiagnosticIDs::Error);
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return;
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}
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if (auto InvalidPointer =
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Result.Nodes.getNodeAs<CXXMethodDecl>("invalidMethodPointer")) {
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diag(InvalidPointer->getLocation(), ErrorInvalidPointer,
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DiagnosticIDs::Error);
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return;
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}
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//////////////////
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// Main checker //
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//////////////////
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const char *Error = "calling `%0` on a temporary, potentially allowing use "
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"after free of the raw pointer";
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const char *EscapeStmtNote =
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"the raw pointer escapes the function scope here";
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const ObjCMessageExpr *ParentObjCMessageExpr =
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Result.Nodes.getNodeAs<ObjCMessageExpr>("parentObjCMessageExpr");
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// We don't care about cases in ObjC message expressions.
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if (ParentObjCMessageExpr) {
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return;
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}
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const CXXMemberCallExpr *MemberCall =
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Result.Nodes.getNodeAs<CXXMemberCallExpr>("memberCallExpr");
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const CallExpr *ParentCallExpr =
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Result.Nodes.getNodeAs<CallExpr>("parentCallExpr");
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const CXXConstructExpr *ParentConstructExpr =
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Result.Nodes.getNodeAs<CXXConstructExpr>("parentConstructExpr");
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const CXXOperatorCallExpr *ParentOperatorCallExpr =
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Result.Nodes.getNodeAs<CXXOperatorCallExpr>("parentOperatorCallExpr");
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const Expr *ParentCallArg = Result.Nodes.getNodeAs<Expr>("parentCallArg");
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// Just in case.
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if (!MemberCall) {
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return;
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}
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// If we have a parent call, we check whether or not we escape the function
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// being called.
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if (ParentOperatorCallExpr || ParentCallExpr || ParentConstructExpr) {
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// Just in case.
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if (!ParentCallArg) {
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return;
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}
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// No default constructor so we can't construct it using if/else.
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auto FunctionEscapeData =
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ParentOperatorCallExpr
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? escapesFunction(ParentCallArg, ParentOperatorCallExpr)
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: ParentCallExpr
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? escapesFunction(ParentCallArg, ParentCallExpr)
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: escapesFunction(ParentCallArg, ParentConstructExpr);
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// If there was an error in the escapesFunction call.
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if (std::error_code ec = FunctionEscapeData.getError()) {
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// FIXME: For now we ignore the variadic case and just consider that the
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// argument doesn't escape the function. Same for the case where we can't
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// find the function declaration or if the function is builtin.
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if (static_cast<EscapesFunctionError>(ec.value()) ==
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EscapesFunctionError::FunctionIsVariadic ||
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static_cast<EscapesFunctionError>(ec.value()) ==
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EscapesFunctionError::FunctionDeclNotFound ||
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static_cast<EscapesFunctionError>(ec.value()) ==
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EscapesFunctionError::FunctionIsBuiltin) {
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return;
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}
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// We emit the internal checker error and return.
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diag(MemberCall->getExprLoc(),
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std::string(ec.category().name()) + " error: " + ec.message(),
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DiagnosticIDs::Error);
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return;
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}
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// We deconstruct the function escape data.
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const Stmt *EscapeStmt;
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const Decl *EscapeDecl;
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std::tie(EscapeStmt, EscapeDecl) = *FunctionEscapeData;
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// If we didn't escape a parent function, we're done: we don't emit any
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// diagnostic.
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if (!EscapeStmt || !EscapeDecl) {
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return;
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}
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// We emit the error diagnostic indicating that we are calling the method
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// temporary.
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diag(MemberCall->getExprLoc(), Error, DiagnosticIDs::Error)
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<< MemberCall->getMethodDecl()->getName()
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<< MemberCall->getSourceRange();
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// We indicate the escape statement.
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diag(EscapeStmt->getBeginLoc(), EscapeStmtNote, DiagnosticIDs::Note)
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<< EscapeStmt->getSourceRange();
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// We build the escape note along with its source range.
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StringRef EscapeDeclNote;
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SourceRange EscapeDeclRange;
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if (isa<ParmVarDecl>(EscapeDecl)) {
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EscapeDeclNote = "through the parameter declared here";
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EscapeDeclRange = EscapeDecl->getSourceRange();
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} else if (isa<VarDecl>(EscapeDecl)) {
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EscapeDeclNote = "through the variable declared here";
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EscapeDeclRange = EscapeDecl->getSourceRange();
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} else if (isa<FieldDecl>(EscapeDecl)) {
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EscapeDeclNote = "through the field declared here";
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EscapeDeclRange = EscapeDecl->getSourceRange();
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} else if (auto FuncDecl = dyn_cast<FunctionDecl>(EscapeDecl)) {
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EscapeDeclNote = "through the return value of the function declared here";
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EscapeDeclRange = FuncDecl->getReturnTypeSourceRange();
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} else {
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return;
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}
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// We emit the declaration note indicating through which decl the argument
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// escapes.
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diag(EscapeDecl->getLocation(), EscapeDeclNote, DiagnosticIDs::Note)
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<< EscapeDeclRange;
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} else {
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// We emit the error diagnostic indicating that we are calling the method
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// temporary.
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diag(MemberCall->getExprLoc(), Error, DiagnosticIDs::Error)
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<< MemberCall->getMethodDecl()->getName()
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<< MemberCall->getSourceRange();
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}
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}
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