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llvm / llvm-project / fd1d8e45f488b28db8d63ab51733ddd1e37e751c / . / clang / lib / StaticAnalyzer / Core / PlistDiagnostics.cpp
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//===--- PlistDiagnostics.cpp - Plist Diagnostics for Paths -----*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file defines the PlistDiagnostics object.
//
//===----------------------------------------------------------------------===//
#include "clang/Analysis/IssueHash.h"
#include "clang/Analysis/MacroExpansionContext.h"
#include "clang/Analysis/PathDiagnostic.h"
#include "clang/Basic/FileManager.h"
#include "clang/Basic/PlistSupport.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Basic/Version.h"
#include "clang/CrossTU/CrossTranslationUnit.h"
#include "clang/Frontend/ASTUnit.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Lex/TokenConcatenation.h"
#include "clang/Rewrite/Core/HTMLRewrite.h"
#include "clang/StaticAnalyzer/Core/PathDiagnosticConsumers.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/Statistic.h"
#include "llvm/Support/Casting.h"
#include <memory>
using namespace clang;
using namespace ento;
using namespace markup;
//===----------------------------------------------------------------------===//
// Declarations of helper classes and functions for emitting bug reports in
// plist format.
//===----------------------------------------------------------------------===//
namespace {
class PlistDiagnostics : public PathDiagnosticConsumer {
PathDiagnosticConsumerOptions DiagOpts;
const std::string OutputFile;
const Preprocessor &PP;
const cross_tu::CrossTranslationUnitContext &CTU;
const MacroExpansionContext &MacroExpansions;
const bool SupportsCrossFileDiagnostics;
void printBugPath(llvm::raw_ostream &o, const FIDMap &FM,
const PathPieces &Path);
public:
PlistDiagnostics(PathDiagnosticConsumerOptions DiagOpts,
const std::string &OutputFile, const Preprocessor &PP,
const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions,
bool supportsMultipleFiles);
~PlistDiagnostics() override {}
void FlushDiagnosticsImpl(std::vector<const PathDiagnostic *> &Diags,
FilesMade *filesMade) override;
StringRef getName() const override {
return "PlistDiagnostics";
}
PathGenerationScheme getGenerationScheme() const override {
return Extensive;
}
bool supportsLogicalOpControlFlow() const override { return true; }
bool supportsCrossFileDiagnostics() const override {
return SupportsCrossFileDiagnostics;
}
};
} // end anonymous namespace
namespace {
/// A helper class for emitting a single report.
class PlistPrinter {
const FIDMap& FM;
const Preprocessor &PP;
const cross_tu::CrossTranslationUnitContext &CTU;
const MacroExpansionContext &MacroExpansions;
llvm::SmallVector<const PathDiagnosticMacroPiece *, 0> MacroPieces;
public:
PlistPrinter(const FIDMap &FM, const Preprocessor &PP,
const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions)
: FM(FM), PP(PP), CTU(CTU), MacroExpansions(MacroExpansions) {}
void ReportDiag(raw_ostream &o, const PathDiagnosticPiece& P) {
ReportPiece(o, P, /*indent*/ 4, /*depth*/ 0, /*includeControlFlow*/ true);
}
/// Print the expansions of the collected macro pieces.
///
/// Each time ReportDiag is called on a PathDiagnosticMacroPiece (or, if one
/// is found through a call piece, etc), it's subpieces are reported, and the
/// piece itself is collected. Call this function after the entire bugpath
/// was reported.
void ReportMacroExpansions(raw_ostream &o, unsigned indent);
private:
void ReportPiece(raw_ostream &o, const PathDiagnosticPiece &P,
unsigned indent, unsigned depth, bool includeControlFlow,
bool isKeyEvent = false) {
switch (P.getKind()) {
case PathDiagnosticPiece::ControlFlow:
if (includeControlFlow)
ReportControlFlow(o, cast<PathDiagnosticControlFlowPiece>(P), indent);
break;
case PathDiagnosticPiece::Call:
ReportCall(o, cast<PathDiagnosticCallPiece>(P), indent,
depth);
break;
case PathDiagnosticPiece::Event:
ReportEvent(o, cast<PathDiagnosticEventPiece>(P), indent, depth,
isKeyEvent);
break;
case PathDiagnosticPiece::Macro:
ReportMacroSubPieces(o, cast<PathDiagnosticMacroPiece>(P), indent,
depth);
break;
case PathDiagnosticPiece::Note:
ReportNote(o, cast<PathDiagnosticNotePiece>(P), indent);
break;
case PathDiagnosticPiece::PopUp:
ReportPopUp(o, cast<PathDiagnosticPopUpPiece>(P), indent);
break;
}
}
void EmitRanges(raw_ostream &o, const ArrayRef<SourceRange> Ranges,
unsigned indent);
void EmitMessage(raw_ostream &o, StringRef Message, unsigned indent);
void EmitFixits(raw_ostream &o, ArrayRef<FixItHint> fixits, unsigned indent);
void ReportControlFlow(raw_ostream &o,
const PathDiagnosticControlFlowPiece& P,
unsigned indent);
void ReportEvent(raw_ostream &o, const PathDiagnosticEventPiece& P,
unsigned indent, unsigned depth, bool isKeyEvent = false);
void ReportCall(raw_ostream &o, const PathDiagnosticCallPiece &P,
unsigned indent, unsigned depth);
void ReportMacroSubPieces(raw_ostream &o, const PathDiagnosticMacroPiece& P,
unsigned indent, unsigned depth);
void ReportNote(raw_ostream &o, const PathDiagnosticNotePiece& P,
unsigned indent);
void ReportPopUp(raw_ostream &o, const PathDiagnosticPopUpPiece &P,
unsigned indent);
};
} // end of anonymous namespace
/// Print coverage information to output stream @c o.
/// May modify the used list of files @c Fids by inserting new ones.
static void printCoverage(const PathDiagnostic *D,
unsigned InputIndentLevel,
SmallVectorImpl<FileID> &Fids,
FIDMap &FM,
llvm::raw_fd_ostream &o);
static Optional<StringRef> getExpandedMacro(
SourceLocation MacroLoc, const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions, const SourceManager &SM);
//===----------------------------------------------------------------------===//
// Methods of PlistPrinter.
//===----------------------------------------------------------------------===//
void PlistPrinter::EmitRanges(raw_ostream &o,
const ArrayRef<SourceRange> Ranges,
unsigned indent) {
if (Ranges.empty())
return;
Indent(o, indent) << "<key>ranges</key>\n";
Indent(o, indent) << "<array>\n";
++indent;
const SourceManager &SM = PP.getSourceManager();
const LangOptions &LangOpts = PP.getLangOpts();
for (auto &R : Ranges)
EmitRange(o, SM,
Lexer::getAsCharRange(SM.getExpansionRange(R), SM, LangOpts),
FM, indent + 1);
--indent;
Indent(o, indent) << "</array>\n";
}
void PlistPrinter::EmitMessage(raw_ostream &o, StringRef Message,
unsigned indent) {
// Output the text.
assert(!Message.empty());
Indent(o, indent) << "<key>extended_message</key>\n";
Indent(o, indent);
EmitString(o, Message) << '\n';
// Output the short text.
// FIXME: Really use a short string.
Indent(o, indent) << "<key>message</key>\n";
Indent(o, indent);
EmitString(o, Message) << '\n';
}
void PlistPrinter::EmitFixits(raw_ostream &o, ArrayRef<FixItHint> fixits,
unsigned indent) {
if (fixits.size() == 0)
return;
const SourceManager &SM = PP.getSourceManager();
const LangOptions &LangOpts = PP.getLangOpts();
Indent(o, indent) << "<key>fixits</key>\n";
Indent(o, indent) << "<array>\n";
for (const auto &fixit : fixits) {
assert(!fixit.isNull());
// FIXME: Add support for InsertFromRange and BeforePreviousInsertion.
assert(!fixit.InsertFromRange.isValid() && "Not implemented yet!");
assert(!fixit.BeforePreviousInsertions && "Not implemented yet!");
Indent(o, indent) << " <dict>\n";
Indent(o, indent) << " <key>remove_range</key>\n";
EmitRange(o, SM, Lexer::getAsCharRange(fixit.RemoveRange, SM, LangOpts),
FM, indent + 2);
Indent(o, indent) << " <key>insert_string</key>";
EmitString(o, fixit.CodeToInsert);
o << "\n";
Indent(o, indent) << " </dict>\n";
}
Indent(o, indent) << "</array>\n";
}
void PlistPrinter::ReportControlFlow(raw_ostream &o,
const PathDiagnosticControlFlowPiece& P,
unsigned indent) {
const SourceManager &SM = PP.getSourceManager();
const LangOptions &LangOpts = PP.getLangOpts();
Indent(o, indent) << "<dict>\n";
++indent;
Indent(o, indent) << "<key>kind</key><string>control</string>\n";
// Emit edges.
Indent(o, indent) << "<key>edges</key>\n";
++indent;
Indent(o, indent) << "<array>\n";
++indent;
for (PathDiagnosticControlFlowPiece::const_iterator I=P.begin(), E=P.end();
I!=E; ++I) {
Indent(o, indent) << "<dict>\n";
++indent;
// Make the ranges of the start and end point self-consistent with adjacent edges
// by forcing to use only the beginning of the range. This simplifies the layout
// logic for clients.
Indent(o, indent) << "<key>start</key>\n";
SourceRange StartEdge(
SM.getExpansionLoc(I->getStart().asRange().getBegin()));
EmitRange(o, SM, Lexer::getAsCharRange(StartEdge, SM, LangOpts), FM,
indent + 1);
Indent(o, indent) << "<key>end</key>\n";
SourceRange EndEdge(SM.getExpansionLoc(I->getEnd().asRange().getBegin()));
EmitRange(o, SM, Lexer::getAsCharRange(EndEdge, SM, LangOpts), FM,
indent + 1);
--indent;
Indent(o, indent) << "</dict>\n";
}
--indent;
Indent(o, indent) << "</array>\n";
--indent;
// Output any helper text.
const auto &s = P.getString();
if (!s.empty()) {
Indent(o, indent) << "<key>alternate</key>";
EmitString(o, s) << '\n';
}
assert(P.getFixits().size() == 0 &&
"Fixits on constrol flow pieces are not implemented yet!");
--indent;
Indent(o, indent) << "</dict>\n";
}
void PlistPrinter::ReportEvent(raw_ostream &o, const PathDiagnosticEventPiece& P,
unsigned indent, unsigned depth,
bool isKeyEvent) {
const SourceManager &SM = PP.getSourceManager();
Indent(o, indent) << "<dict>\n";
++indent;
Indent(o, indent) << "<key>kind</key><string>event</string>\n";
if (isKeyEvent) {
Indent(o, indent) << "<key>key_event</key><true/>\n";
}
// Output the location.
FullSourceLoc L = P.getLocation().asLocation();
Indent(o, indent) << "<key>location</key>\n";
EmitLocation(o, SM, L, FM, indent);
// Output the ranges (if any).
ArrayRef<SourceRange> Ranges = P.getRanges();
EmitRanges(o, Ranges, indent);
// Output the call depth.
Indent(o, indent) << "<key>depth</key>";
EmitInteger(o, depth) << '\n';
// Output the text.
EmitMessage(o, P.getString(), indent);
// Output the fixits.
EmitFixits(o, P.getFixits(), indent);
// Finish up.
--indent;
Indent(o, indent); o << "</dict>\n";
}
void PlistPrinter::ReportCall(raw_ostream &o, const PathDiagnosticCallPiece &P,
unsigned indent,
unsigned depth) {
if (auto callEnter = P.getCallEnterEvent())
ReportPiece(o, *callEnter, indent, depth, /*includeControlFlow*/ true,
P.isLastInMainSourceFile());
++depth;
if (auto callEnterWithinCaller = P.getCallEnterWithinCallerEvent())
ReportPiece(o, *callEnterWithinCaller, indent, depth,
/*includeControlFlow*/ true);
for (PathPieces::const_iterator I = P.path.begin(), E = P.path.end();I!=E;++I)
ReportPiece(o, **I, indent, depth, /*includeControlFlow*/ true);
--depth;
if (auto callExit = P.getCallExitEvent())
ReportPiece(o, *callExit, indent, depth, /*includeControlFlow*/ true);
assert(P.getFixits().size() == 0 &&
"Fixits on call pieces are not implemented yet!");
}
void PlistPrinter::ReportMacroSubPieces(raw_ostream &o,
const PathDiagnosticMacroPiece& P,
unsigned indent, unsigned depth) {
MacroPieces.push_back(&P);
for (PathPieces::const_iterator I = P.subPieces.begin(),
E = P.subPieces.end();
I != E; ++I) {
ReportPiece(o, **I, indent, depth, /*includeControlFlow*/ false);
}
assert(P.getFixits().size() == 0 &&
"Fixits on constrol flow pieces are not implemented yet!");
}
void PlistPrinter::ReportMacroExpansions(raw_ostream &o, unsigned indent) {
for (const PathDiagnosticMacroPiece *P : MacroPieces) {
const SourceManager &SM = PP.getSourceManager();
SourceLocation MacroExpansionLoc =
P->getLocation().asLocation().getExpansionLoc();
const Optional<StringRef> MacroName =
MacroExpansions.getOriginalText(MacroExpansionLoc);
const Optional<StringRef> ExpansionText =
getExpandedMacro(MacroExpansionLoc, CTU, MacroExpansions, SM);
if (!MacroName.hasValue() || !ExpansionText.hasValue())
continue;
Indent(o, indent) << "<dict>\n";
++indent;
// Output the location.
FullSourceLoc L = P->getLocation().asLocation();
Indent(o, indent) << "<key>location</key>\n";
EmitLocation(o, SM, L, FM, indent);
// Output the ranges (if any).
ArrayRef<SourceRange> Ranges = P->getRanges();
EmitRanges(o, Ranges, indent);
// Output the macro name.
Indent(o, indent) << "<key>name</key>";
EmitString(o, MacroName.getValue()) << '\n';
// Output what it expands into.
Indent(o, indent) << "<key>expansion</key>";
EmitString(o, ExpansionText.getValue()) << '\n';
// Finish up.
--indent;
Indent(o, indent);
o << "</dict>\n";
}
}
void PlistPrinter::ReportNote(raw_ostream &o, const PathDiagnosticNotePiece& P,
unsigned indent) {
const SourceManager &SM = PP.getSourceManager();
Indent(o, indent) << "<dict>\n";
++indent;
// Output the location.
FullSourceLoc L = P.getLocation().asLocation();
Indent(o, indent) << "<key>location</key>\n";
EmitLocation(o, SM, L, FM, indent);
// Output the ranges (if any).
ArrayRef<SourceRange> Ranges = P.getRanges();
EmitRanges(o, Ranges, indent);
// Output the text.
EmitMessage(o, P.getString(), indent);
// Output the fixits.
EmitFixits(o, P.getFixits(), indent);
// Finish up.
--indent;
Indent(o, indent); o << "</dict>\n";
}
void PlistPrinter::ReportPopUp(raw_ostream &o,
const PathDiagnosticPopUpPiece &P,
unsigned indent) {
const SourceManager &SM = PP.getSourceManager();
Indent(o, indent) << "<dict>\n";
++indent;
Indent(o, indent) << "<key>kind</key><string>pop-up</string>\n";
// Output the location.
FullSourceLoc L = P.getLocation().asLocation();
Indent(o, indent) << "<key>location</key>\n";
EmitLocation(o, SM, L, FM, indent);
// Output the ranges (if any).
ArrayRef<SourceRange> Ranges = P.getRanges();
EmitRanges(o, Ranges, indent);
// Output the text.
EmitMessage(o, P.getString(), indent);
assert(P.getFixits().size() == 0 &&
"Fixits on pop-up pieces are not implemented yet!");
// Finish up.
--indent;
Indent(o, indent) << "</dict>\n";
}
//===----------------------------------------------------------------------===//
// Static function definitions.
//===----------------------------------------------------------------------===//
/// Print coverage information to output stream @c o.
/// May modify the used list of files @c Fids by inserting new ones.
static void printCoverage(const PathDiagnostic *D,
unsigned InputIndentLevel,
SmallVectorImpl<FileID> &Fids,
FIDMap &FM,
llvm::raw_fd_ostream &o) {
unsigned IndentLevel = InputIndentLevel;
Indent(o, IndentLevel) << "<key>ExecutedLines</key>\n";
Indent(o, IndentLevel) << "<dict>\n";
IndentLevel++;
// Mapping from file IDs to executed lines.
const FilesToLineNumsMap &ExecutedLines = D->getExecutedLines();
for (auto I = ExecutedLines.begin(), E = ExecutedLines.end(); I != E; ++I) {
unsigned FileKey = AddFID(FM, Fids, I->first);
Indent(o, IndentLevel) << "<key>" << FileKey << "</key>\n";
Indent(o, IndentLevel) << "<array>\n";
IndentLevel++;
for (unsigned LineNo : I->second) {
Indent(o, IndentLevel);
EmitInteger(o, LineNo) << "\n";
}
IndentLevel--;
Indent(o, IndentLevel) << "</array>\n";
}
IndentLevel--;
Indent(o, IndentLevel) << "</dict>\n";
assert(IndentLevel == InputIndentLevel);
}
//===----------------------------------------------------------------------===//
// Methods of PlistDiagnostics.
//===----------------------------------------------------------------------===//
PlistDiagnostics::PlistDiagnostics(
PathDiagnosticConsumerOptions DiagOpts, const std::string &output,
const Preprocessor &PP, const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions, bool supportsMultipleFiles)
: DiagOpts(std::move(DiagOpts)), OutputFile(output), PP(PP), CTU(CTU),
MacroExpansions(MacroExpansions),
SupportsCrossFileDiagnostics(supportsMultipleFiles) {
// FIXME: Will be used by a later planned change.
(void)this->CTU;
}
void ento::createPlistDiagnosticConsumer(
PathDiagnosticConsumerOptions DiagOpts, PathDiagnosticConsumers &C,
const std::string &OutputFile, const Preprocessor &PP,
const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions) {
// TODO: Emit an error here.
if (OutputFile.empty())
return;
C.push_back(new PlistDiagnostics(DiagOpts, OutputFile, PP, CTU,
MacroExpansions,
/*supportsMultipleFiles=*/false));
createTextMinimalPathDiagnosticConsumer(std::move(DiagOpts), C, OutputFile,
PP, CTU, MacroExpansions);
}
void ento::createPlistMultiFileDiagnosticConsumer(
PathDiagnosticConsumerOptions DiagOpts, PathDiagnosticConsumers &C,
const std::string &OutputFile, const Preprocessor &PP,
const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions) {
// TODO: Emit an error here.
if (OutputFile.empty())
return;
C.push_back(new PlistDiagnostics(DiagOpts, OutputFile, PP, CTU,
MacroExpansions,
/*supportsMultipleFiles=*/true));
createTextMinimalPathDiagnosticConsumer(std::move(DiagOpts), C, OutputFile,
PP, CTU, MacroExpansions);
}
void PlistDiagnostics::printBugPath(llvm::raw_ostream &o, const FIDMap &FM,
const PathPieces &Path) {
PlistPrinter Printer(FM, PP, CTU, MacroExpansions);
assert(std::is_partitioned(Path.begin(), Path.end(),
[](const PathDiagnosticPieceRef &E) {
return E->getKind() == PathDiagnosticPiece::Note;
}) &&
"PathDiagnostic is not partitioned so that notes precede the rest");
PathPieces::const_iterator FirstNonNote = std::partition_point(
Path.begin(), Path.end(), [](const PathDiagnosticPieceRef &E) {
return E->getKind() == PathDiagnosticPiece::Note;
});
PathPieces::const_iterator I = Path.begin();
if (FirstNonNote != Path.begin()) {
o << " <key>notes</key>\n"
" <array>\n";
for (; I != FirstNonNote; ++I)
Printer.ReportDiag(o, **I);
o << " </array>\n";
}
o << " <key>path</key>\n";
o << " <array>\n";
for (PathPieces::const_iterator E = Path.end(); I != E; ++I)
Printer.ReportDiag(o, **I);
o << " </array>\n";
if (!DiagOpts.ShouldDisplayMacroExpansions)
return;
o << " <key>macro_expansions</key>\n"
" <array>\n";
Printer.ReportMacroExpansions(o, /* indent */ 4);
o << " </array>\n";
}
void PlistDiagnostics::FlushDiagnosticsImpl(
std::vector<const PathDiagnostic *> &Diags,
FilesMade *filesMade) {
// Build up a set of FIDs that we use by scanning the locations and
// ranges of the diagnostics.
FIDMap FM;
SmallVector<FileID, 10> Fids;
const SourceManager& SM = PP.getSourceManager();
const LangOptions &LangOpts = PP.getLangOpts();
auto AddPieceFID = [&FM, &Fids, &SM](const PathDiagnosticPiece &Piece) {
AddFID(FM, Fids, SM, Piece.getLocation().asLocation());
ArrayRef<SourceRange> Ranges = Piece.getRanges();
for (const SourceRange &Range : Ranges) {
AddFID(FM, Fids, SM, Range.getBegin());
AddFID(FM, Fids, SM, Range.getEnd());
}
};
for (const PathDiagnostic *D : Diags) {
SmallVector<const PathPieces *, 5> WorkList;
WorkList.push_back(&D->path);
while (!WorkList.empty()) {
const PathPieces &Path = *WorkList.pop_back_val();
for (const auto &Iter : Path) {
const PathDiagnosticPiece &Piece = *Iter;
AddPieceFID(Piece);
if (const PathDiagnosticCallPiece *Call =
dyn_cast<PathDiagnosticCallPiece>(&Piece)) {
if (auto CallEnterWithin = Call->getCallEnterWithinCallerEvent())
AddPieceFID(*CallEnterWithin);
if (auto CallEnterEvent = Call->getCallEnterEvent())
AddPieceFID(*CallEnterEvent);
WorkList.push_back(&Call->path);
} else if (const PathDiagnosticMacroPiece *Macro =
dyn_cast<PathDiagnosticMacroPiece>(&Piece)) {
WorkList.push_back(&Macro->subPieces);
}
}
}
}
// Open the file.
std::error_code EC;
llvm::raw_fd_ostream o(OutputFile, EC, llvm::sys::fs::OF_TextWithCRLF);
if (EC) {
llvm::errs() << "warning: could not create file: " << EC.message() << '\n';
return;
}
EmitPlistHeader(o);
// Write the root object: a <dict> containing...
// - "clang_version", the string representation of clang version
// - "files", an <array> mapping from FIDs to file names
// - "diagnostics", an <array> containing the path diagnostics
o << "<dict>\n" <<
" <key>clang_version</key>\n";
EmitString(o, getClangFullVersion()) << '\n';
o << " <key>diagnostics</key>\n"
" <array>\n";
for (std::vector<const PathDiagnostic*>::iterator DI=Diags.begin(),
DE = Diags.end(); DI!=DE; ++DI) {
o << " <dict>\n";
const PathDiagnostic *D = *DI;
printBugPath(o, FM, D->path);
// Output the bug type and bug category.
o << " <key>description</key>";
EmitString(o, D->getShortDescription()) << '\n';
o << " <key>category</key>";
EmitString(o, D->getCategory()) << '\n';
o << " <key>type</key>";
EmitString(o, D->getBugType()) << '\n';
o << " <key>check_name</key>";
EmitString(o, D->getCheckerName()) << '\n';
o << " <!-- This hash is experimental and going to change! -->\n";
o << " <key>issue_hash_content_of_line_in_context</key>";
PathDiagnosticLocation UPDLoc = D->getUniqueingLoc();
FullSourceLoc L(SM.getExpansionLoc(UPDLoc.isValid()
? UPDLoc.asLocation()
: D->getLocation().asLocation()),
SM);
const Decl *DeclWithIssue = D->getDeclWithIssue();
EmitString(o, getIssueHash(L, D->getCheckerName(), D->getBugType(),
DeclWithIssue, LangOpts))
<< '\n';
// Output information about the semantic context where
// the issue occurred.
if (const Decl *DeclWithIssue = D->getDeclWithIssue()) {
// FIXME: handle blocks, which have no name.
if (const NamedDecl *ND = dyn_cast<NamedDecl>(DeclWithIssue)) {
StringRef declKind;
switch (ND->getKind()) {
case Decl::CXXRecord:
declKind = "C++ class";
break;
case Decl::CXXMethod:
declKind = "C++ method";
break;
case Decl::ObjCMethod:
declKind = "Objective-C method";
break;
case Decl::Function:
declKind = "function";
break;
default:
break;
}
if (!declKind.empty()) {
const std::string &declName = ND->getDeclName().getAsString();
o << " <key>issue_context_kind</key>";
EmitString(o, declKind) << '\n';
o << " <key>issue_context</key>";
EmitString(o, declName) << '\n';
}
// Output the bug hash for issue unique-ing. Currently, it's just an
// offset from the beginning of the function.
if (const Stmt *Body = DeclWithIssue->getBody()) {
// If the bug uniqueing location exists, use it for the hash.
// For example, this ensures that two leaks reported on the same line
// will have different issue_hashes and that the hash will identify
// the leak location even after code is added between the allocation
// site and the end of scope (leak report location).
if (UPDLoc.isValid()) {
FullSourceLoc UFunL(
SM.getExpansionLoc(
D->getUniqueingDecl()->getBody()->getBeginLoc()),
SM);
o << " <key>issue_hash_function_offset</key><string>"
<< L.getExpansionLineNumber() - UFunL.getExpansionLineNumber()
<< "</string>\n";
// Otherwise, use the location on which the bug is reported.
} else {
FullSourceLoc FunL(SM.getExpansionLoc(Body->getBeginLoc()), SM);
o << " <key>issue_hash_function_offset</key><string>"
<< L.getExpansionLineNumber() - FunL.getExpansionLineNumber()
<< "</string>\n";
}
}
}
}
// Output the location of the bug.
o << " <key>location</key>\n";
EmitLocation(o, SM, D->getLocation().asLocation(), FM, 2);
// Output the diagnostic to the sub-diagnostic client, if any.
if (!filesMade->empty()) {
StringRef lastName;
PDFileEntry::ConsumerFiles *files = filesMade->getFiles(*D);
if (files) {
for (PDFileEntry::ConsumerFiles::const_iterator CI = files->begin(),
CE = files->end(); CI != CE; ++CI) {
StringRef newName = CI->first;
if (newName != lastName) {
if (!lastName.empty()) {
o << " </array>\n";
}
lastName = newName;
o << " <key>" << lastName << "_files</key>\n";
o << " <array>\n";
}
o << " <string>" << CI->second << "</string>\n";
}
o << " </array>\n";
}
}
printCoverage(D, /*IndentLevel=*/2, Fids, FM, o);
// Close up the entry.
o << " </dict>\n";
}
o << " </array>\n";
o << " <key>files</key>\n"
" <array>\n";
for (FileID FID : Fids)
EmitString(o << " ", SM.getFileEntryForID(FID)->getName()) << '\n';
o << " </array>\n";
if (llvm::AreStatisticsEnabled() && DiagOpts.ShouldSerializeStats) {
o << " <key>statistics</key>\n";
std::string stats;
llvm::raw_string_ostream os(stats);
llvm::PrintStatisticsJSON(os);
os.flush();
EmitString(o, html::EscapeText(stats)) << '\n';
}
// Finish.
o << "</dict>\n</plist>\n";
}
//===----------------------------------------------------------------------===//
// Definitions of helper functions and methods for expanding macros.
//===----------------------------------------------------------------------===//
static Optional<StringRef>
getExpandedMacro(SourceLocation MacroExpansionLoc,
const cross_tu::CrossTranslationUnitContext &CTU,
const MacroExpansionContext &MacroExpansions,
const SourceManager &SM) {
if (auto CTUMacroExpCtx =
CTU.getMacroExpansionContextForSourceLocation(MacroExpansionLoc)) {
return CTUMacroExpCtx->getExpandedText(MacroExpansionLoc);
}
return MacroExpansions.getExpandedText(MacroExpansionLoc);
}