forked from OSchip/llvm-project
444 lines
16 KiB
C++
444 lines
16 KiB
C++
//===-- UseNullptr/NullptrActions.cpp - Matcher callback ------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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/// \brief This file contains the definition of the NullptrFixer class which is
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/// used as an ASTMatcher callback. Also within this file is a helper AST
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/// visitor class used to identify sequences of explicit casts.
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///
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//===----------------------------------------------------------------------===//
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#include "NullptrActions.h"
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#include "NullptrMatchers.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/RecursiveASTVisitor.h"
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#include "clang/Basic/CharInfo.h"
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#include "clang/Lex/Lexer.h"
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using namespace clang::ast_matchers;
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using namespace clang::tooling;
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using namespace clang;
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namespace cl = llvm::cl;
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namespace {
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const char *NullMacroName = "NULL";
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bool isReplaceableRange(SourceLocation StartLoc, SourceLocation EndLoc,
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const SourceManager &SM, const Transform &Owner) {
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return SM.isWrittenInSameFile(StartLoc, EndLoc) &&
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Owner.isFileModifiable(SM, StartLoc);
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}
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/// \brief Replaces the provided range with the text "nullptr", but only if
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/// the start and end location are both in main file.
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/// Returns true if and only if a replacement was made.
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void ReplaceWithNullptr(Transform &Owner, SourceManager &SM,
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SourceLocation StartLoc, SourceLocation EndLoc) {
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CharSourceRange Range(SourceRange(StartLoc, EndLoc), true);
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// Add a space if nullptr follows an alphanumeric character. This happens
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// whenever there is an c-style explicit cast to nullptr not surrounded by
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// parentheses and right beside a return statement.
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SourceLocation PreviousLocation = StartLoc.getLocWithOffset(-1);
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if (isAlphanumeric(*FullSourceLoc(PreviousLocation, SM).getCharacterData()))
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Owner.addReplacementForCurrentTU(
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tooling::Replacement(SM, Range, " nullptr"));
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else
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Owner.addReplacementForCurrentTU(
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tooling::Replacement(SM, Range, "nullptr"));
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}
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/// \brief Returns the name of the outermost macro.
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///
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/// Given
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/// \code
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/// #define MY_NULL NULL
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/// \endcode
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/// If \p Loc points to NULL, this function will return the name MY_NULL.
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llvm::StringRef GetOutermostMacroName(
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SourceLocation Loc, const SourceManager &SM, const LangOptions &LO) {
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assert(Loc.isMacroID());
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SourceLocation OutermostMacroLoc;
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while (Loc.isMacroID()) {
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OutermostMacroLoc = Loc;
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Loc = SM.getImmediateMacroCallerLoc(Loc);
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}
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return clang::Lexer::getImmediateMacroName(OutermostMacroLoc, SM, LO);
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}
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/// \brief RecursiveASTVisitor for ensuring all nodes rooted at a given AST
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/// subtree that have file-level source locations corresponding to a macro
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/// argument have implicit NullTo(Member)Pointer nodes as ancestors.
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class MacroArgUsageVisitor : public RecursiveASTVisitor<MacroArgUsageVisitor> {
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public:
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MacroArgUsageVisitor(SourceLocation CastLoc, const SourceManager &SM)
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: CastLoc(CastLoc), SM(SM), Visited(false), CastFound(false),
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InvalidFound(false) {
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assert(CastLoc.isFileID());
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}
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bool TraverseStmt(Stmt *S) {
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bool VisitedPreviously = Visited;
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if (!RecursiveASTVisitor<MacroArgUsageVisitor>::TraverseStmt(S))
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return false;
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// The point at which VisitedPreviously is false and Visited is true is the
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// root of a subtree containing nodes whose locations match CastLoc. It's
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// at this point we test that the Implicit NullTo(Member)Pointer cast was
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// found or not.
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if (!VisitedPreviously) {
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if (Visited && !CastFound) {
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// Found nodes with matching SourceLocations but didn't come across a
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// cast. This is an invalid macro arg use. Can stop traversal
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// completely now.
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InvalidFound = true;
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return false;
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}
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// Reset state as we unwind back up the tree.
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CastFound = false;
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Visited = false;
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}
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return true;
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}
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bool VisitStmt(Stmt *S) {
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if (SM.getFileLoc(S->getLocStart()) != CastLoc)
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return true;
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Visited = true;
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const ImplicitCastExpr *Cast = dyn_cast<ImplicitCastExpr>(S);
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if (Cast && (Cast->getCastKind() == CK_NullToPointer ||
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Cast->getCastKind() == CK_NullToMemberPointer))
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CastFound = true;
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return true;
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}
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bool foundInvalid() const { return InvalidFound; }
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private:
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SourceLocation CastLoc;
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const SourceManager &SM;
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bool Visited;
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bool CastFound;
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bool InvalidFound;
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};
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/// \brief Looks for implicit casts as well as sequences of 0 or more explicit
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/// casts with an implicit null-to-pointer cast within.
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///
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/// The matcher this visitor is used with will find a single implicit cast or a
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/// top-most explicit cast (i.e. it has no explicit casts as an ancestor) where
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/// an implicit cast is nested within. However, there is no guarantee that only
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/// explicit casts exist between the found top-most explicit cast and the
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/// possibly more than one nested implicit cast. This visitor finds all cast
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/// sequences with an implicit cast to null within and creates a replacement
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/// leaving the outermost explicit cast unchanged to avoid introducing
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/// ambiguities.
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class CastSequenceVisitor : public RecursiveASTVisitor<CastSequenceVisitor> {
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public:
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CastSequenceVisitor(ASTContext &Context, const UserMacroNames &UserNullMacros,
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unsigned &AcceptedChanges, Transform &Owner)
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: SM(Context.getSourceManager()), Context(Context),
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UserNullMacros(UserNullMacros), AcceptedChanges(AcceptedChanges),
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Owner(Owner), FirstSubExpr(0), PruneSubtree(false) {}
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bool TraverseStmt(Stmt *S) {
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// Stop traversing down the tree if requested.
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if (PruneSubtree) {
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PruneSubtree = false;
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return true;
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}
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return RecursiveASTVisitor<CastSequenceVisitor>::TraverseStmt(S);
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}
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// Only VisitStmt is overridden as we shouldn't find other base AST types
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// within a cast expression.
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bool VisitStmt(Stmt *S) {
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CastExpr *C = dyn_cast<CastExpr>(S);
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if (!C) {
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FirstSubExpr = 0;
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return true;
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} else if (!FirstSubExpr) {
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FirstSubExpr = C->getSubExpr()->IgnoreParens();
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}
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if (C->getCastKind() == CK_NullToPointer ||
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C->getCastKind() == CK_NullToMemberPointer) {
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SourceLocation StartLoc = FirstSubExpr->getLocStart();
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SourceLocation EndLoc = FirstSubExpr->getLocEnd();
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// If the location comes from a macro arg expansion, *all* uses of that
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// arg must be checked to result in NullTo(Member)Pointer casts.
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//
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// If the location comes from a macro body expansion, check to see if its
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// coming from one of the allowed 'NULL' macros.
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if (SM.isMacroArgExpansion(StartLoc) && SM.isMacroArgExpansion(EndLoc)) {
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SourceLocation FileLocStart = SM.getFileLoc(StartLoc),
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FileLocEnd = SM.getFileLoc(EndLoc);
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if (isReplaceableRange(FileLocStart, FileLocEnd, SM, Owner) &&
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allArgUsesValid(C)) {
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ReplaceWithNullptr(Owner, SM, FileLocStart, FileLocEnd);
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++AcceptedChanges;
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}
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return skipSubTree();
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}
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if (SM.isMacroBodyExpansion(StartLoc) &&
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SM.isMacroBodyExpansion(EndLoc)) {
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llvm::StringRef OutermostMacroName =
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GetOutermostMacroName(StartLoc, SM, Context.getLangOpts());
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// Check to see if the user wants to replace the macro being expanded.
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if (std::find(UserNullMacros.begin(), UserNullMacros.end(),
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OutermostMacroName) == UserNullMacros.end()) {
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return skipSubTree();
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}
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StartLoc = SM.getFileLoc(StartLoc);
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EndLoc = SM.getFileLoc(EndLoc);
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}
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if (!isReplaceableRange(StartLoc, EndLoc, SM, Owner)) {
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return skipSubTree();
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}
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ReplaceWithNullptr(Owner, SM, StartLoc, EndLoc);
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++AcceptedChanges;
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return skipSubTree();
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} // If NullTo(Member)Pointer cast.
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return true;
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}
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private:
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bool skipSubTree() { PruneSubtree = true; return true; }
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/// \brief Tests that all expansions of a macro arg, one of which expands to
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/// result in \p CE, yield NullTo(Member)Pointer casts.
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bool allArgUsesValid(const CastExpr *CE) {
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SourceLocation CastLoc = CE->getLocStart();
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// Step 1: Get location of macro arg and location of the macro the arg was
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// provided to.
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SourceLocation ArgLoc, MacroLoc;
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if (!getMacroAndArgLocations(CastLoc, ArgLoc, MacroLoc))
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return false;
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// Step 2: Find the first ancestor that doesn't expand from this macro.
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ast_type_traits::DynTypedNode ContainingAncestor;
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if (!findContainingAncestor(
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ast_type_traits::DynTypedNode::create<Stmt>(*CE), MacroLoc,
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ContainingAncestor))
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return false;
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// Step 3:
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// Visit children of this containing parent looking for the least-descended
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// nodes of the containing parent which are macro arg expansions that expand
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// from the given arg location.
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// Visitor needs: arg loc
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MacroArgUsageVisitor ArgUsageVisitor(SM.getFileLoc(CastLoc), SM);
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if (const Decl *D = ContainingAncestor.get<Decl>())
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ArgUsageVisitor.TraverseDecl(const_cast<Decl *>(D));
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else if (const Stmt *S = ContainingAncestor.get<Stmt>())
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ArgUsageVisitor.TraverseStmt(const_cast<Stmt *>(S));
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else
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llvm_unreachable("Unhandled ContainingAncestor node type");
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if (ArgUsageVisitor.foundInvalid())
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return false;
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return true;
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}
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/// \brief Given the SourceLocation for a macro arg expansion, finds the
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/// non-macro SourceLocation of the macro the arg was passed to and the
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/// non-macro SourceLocation of the argument in the arg list to that macro.
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/// These results are returned via \c MacroLoc and \c ArgLoc respectively.
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/// These values are undefined if the return value is false.
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///
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/// \returns false if one of the returned SourceLocations would be a
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/// SourceLocation pointing within the definition of another macro.
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bool getMacroAndArgLocations(SourceLocation Loc, SourceLocation &ArgLoc,
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SourceLocation &MacroLoc) {
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assert(Loc.isMacroID() && "Only reasonble to call this on macros");
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ArgLoc = Loc;
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// Find the location of the immediate macro expansion.
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while (1) {
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std::pair<FileID, unsigned> LocInfo = SM.getDecomposedLoc(ArgLoc);
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const SrcMgr::SLocEntry *E = &SM.getSLocEntry(LocInfo.first);
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const SrcMgr::ExpansionInfo &Expansion = E->getExpansion();
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SourceLocation OldArgLoc = ArgLoc;
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ArgLoc = Expansion.getExpansionLocStart();
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if (!Expansion.isMacroArgExpansion()) {
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if (!MacroLoc.isFileID())
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return false;
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StringRef Name =
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Lexer::getImmediateMacroName(OldArgLoc, SM, Context.getLangOpts());
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return std::find(UserNullMacros.begin(), UserNullMacros.end(), Name) !=
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UserNullMacros.end();
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}
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MacroLoc = SM.getImmediateExpansionRange(ArgLoc).first;
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ArgLoc = Expansion.getSpellingLoc().getLocWithOffset(LocInfo.second);
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if (ArgLoc.isFileID())
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return true;
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// If spelling location resides in the same FileID as macro expansion
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// location, it means there is no inner macro.
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FileID MacroFID = SM.getFileID(MacroLoc);
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if (SM.isInFileID(ArgLoc, MacroFID))
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// Don't transform this case. If the characters that caused the
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// null-conversion come from within a macro, they can't be changed.
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return false;
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}
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llvm_unreachable("getMacroAndArgLocations");
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}
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/// \brief Tests if TestMacroLoc is found while recursively unravelling
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/// expansions starting at TestLoc. TestMacroLoc.isFileID() must be true.
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/// Implementation is very similar to getMacroAndArgLocations() except in this
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/// case, it's not assumed that TestLoc is expanded from a macro argument.
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/// While unravelling expansions macro arguments are handled as with
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/// getMacroAndArgLocations() but in this function macro body expansions are
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/// also handled.
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///
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/// False means either:
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/// - TestLoc is not from a macro expansion
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/// - TestLoc is from a different macro expansion
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bool expandsFrom(SourceLocation TestLoc, SourceLocation TestMacroLoc) {
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if (TestLoc.isFileID()) {
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return false;
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}
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SourceLocation Loc = TestLoc, MacroLoc;
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while (1) {
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std::pair<FileID, unsigned> LocInfo = SM.getDecomposedLoc(Loc);
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const SrcMgr::SLocEntry *E = &SM.getSLocEntry(LocInfo.first);
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const SrcMgr::ExpansionInfo &Expansion = E->getExpansion();
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Loc = Expansion.getExpansionLocStart();
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if (!Expansion.isMacroArgExpansion()) {
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if (Loc.isFileID()) {
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if (Loc == TestMacroLoc)
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// Match made.
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return true;
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return false;
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}
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// Since Loc is still a macro ID and it's not an argument expansion, we
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// don't need to do the work of handling an argument expansion. Simply
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// keep recursively expanding until we hit a FileID or a macro arg
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// expansion or a macro arg expansion.
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continue;
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}
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MacroLoc = SM.getImmediateExpansionRange(Loc).first;
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if (MacroLoc.isFileID() && MacroLoc == TestMacroLoc)
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// Match made.
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return true;
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Loc = Expansion.getSpellingLoc();
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Loc = Expansion.getSpellingLoc().getLocWithOffset(LocInfo.second);
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if (Loc.isFileID())
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// If we made it this far without finding a match, there is no match to
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// be made.
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return false;
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}
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llvm_unreachable("expandsFrom");
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}
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/// \brief Given a starting point \c Start in the AST, find an ancestor that
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/// doesn't expand from the macro called at file location \c MacroLoc.
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///
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/// \pre MacroLoc.isFileID()
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/// \returns true if such an ancestor was found, false otherwise.
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bool findContainingAncestor(ast_type_traits::DynTypedNode Start,
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SourceLocation MacroLoc,
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ast_type_traits::DynTypedNode &Result) {
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// Below we're only following the first parent back up the AST. This should
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// be fine since for the statements we care about there should only be one
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// parent as far up as we care. If this assumption doesn't hold, need to
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// revisit what to do here.
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assert(MacroLoc.isFileID());
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do {
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ASTContext::ParentVector Parents = Context.getParents(Start);
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if (Parents.empty())
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return false;
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assert(Parents.size() == 1 &&
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"Found an ancestor with more than one parent!");
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ASTContext::ParentVector::const_iterator I = Parents.begin();
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SourceLocation Loc;
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if (const Decl *D = I->get<Decl>())
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Loc = D->getLocStart();
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else if (const Stmt *S = I->get<Stmt>())
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Loc = S->getLocStart();
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else
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llvm_unreachable("Expected to find Decl or Stmt containing ancestor");
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if (!expandsFrom(Loc, MacroLoc)) {
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Result = *I;
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return true;
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}
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Start = *I;
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} while (1);
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llvm_unreachable("findContainingAncestor");
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}
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private:
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SourceManager &SM;
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ASTContext &Context;
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const UserMacroNames &UserNullMacros;
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unsigned &AcceptedChanges;
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Transform &Owner;
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Expr *FirstSubExpr;
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bool PruneSubtree;
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};
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} // namespace
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NullptrFixer::NullptrFixer(unsigned &AcceptedChanges,
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llvm::ArrayRef<llvm::StringRef> UserMacros,
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Transform &Owner)
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: AcceptedChanges(AcceptedChanges), Owner(Owner) {
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UserNullMacros.insert(UserNullMacros.begin(), UserMacros.begin(),
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UserMacros.end());
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UserNullMacros.insert(UserNullMacros.begin(), llvm::StringRef(NullMacroName));
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}
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void NullptrFixer::run(const ast_matchers::MatchFinder::MatchResult &Result) {
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const CastExpr *NullCast = Result.Nodes.getNodeAs<CastExpr>(CastSequence);
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assert(NullCast && "Bad Callback. No node provided");
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// Given an implicit null-ptr cast or an explicit cast with an implicit
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// null-to-pointer cast within use CastSequenceVisitor to identify sequences
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// of explicit casts that can be converted into 'nullptr'.
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CastSequenceVisitor Visitor(*Result.Context, UserNullMacros, AcceptedChanges,
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Owner);
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Visitor.TraverseStmt(const_cast<CastExpr *>(NullCast));
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}
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