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//===--- PlistDiagnostics.cpp - Plist Diagnostics for Paths -----*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the PlistDiagnostics object.
//
//===----------------------------------------------------------------------===//
#include "clang/StaticAnalyzer/Core/PathDiagnosticConsumers.h"
#include "clang/StaticAnalyzer/Core/BugReporter/PathDiagnostic.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Basic/FileManager.h"
#include "clang/Lex/Preprocessor.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Support/Casting.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/SmallVector.h"
using namespace clang;
using namespace ento;
typedef llvm::DenseMap<FileID, unsigned> FIDMap;
namespace {
class PlistDiagnostics : public PathDiagnosticConsumer {
const std::string OutputFile;
const LangOptions &LangOpts;
OwningPtr<PathDiagnosticConsumer> SubPD;
bool flushed;
const bool SupportsCrossFileDiagnostics;
public:
PlistDiagnostics(const std::string& prefix, const LangOptions &LangOpts,
bool supportsMultipleFiles,
PathDiagnosticConsumer *subPD);
virtual ~PlistDiagnostics() {}
void FlushDiagnosticsImpl(std::vector<const PathDiagnostic *> &Diags,
SmallVectorImpl<std::string> *FilesMade);
virtual StringRef getName() const {
return "PlistDiagnostics";
}
PathGenerationScheme getGenerationScheme() const;
bool supportsLogicalOpControlFlow() const { return true; }
bool supportsAllBlockEdges() const { return true; }
virtual bool useVerboseDescription() const { return false; }
virtual bool supportsCrossFileDiagnostics() const {
return SupportsCrossFileDiagnostics;
}
};
} // end anonymous namespace
PlistDiagnostics::PlistDiagnostics(const std::string& output,
const LangOptions &LO,
bool supportsMultipleFiles,
PathDiagnosticConsumer *subPD)
: OutputFile(output), LangOpts(LO), SubPD(subPD), flushed(false),
SupportsCrossFileDiagnostics(supportsMultipleFiles) {}
PathDiagnosticConsumer*
ento::createPlistDiagnosticConsumer(const std::string& s, const Preprocessor &PP,
PathDiagnosticConsumer *subPD) {
return new PlistDiagnostics(s, PP.getLangOpts(), false, subPD);
}
PathDiagnosticConsumer*
ento::createPlistMultiFileDiagnosticConsumer(const std::string &s,
const Preprocessor &PP) {
return new PlistDiagnostics(s, PP.getLangOpts(), true, 0);
}
PathDiagnosticConsumer::PathGenerationScheme
PlistDiagnostics::getGenerationScheme() const {
if (const PathDiagnosticConsumer *PD = SubPD.get())
return PD->getGenerationScheme();
return Extensive;
}
static void AddFID(FIDMap &FIDs, SmallVectorImpl<FileID> &V,
const SourceManager* SM, SourceLocation L) {
FileID FID = SM->getFileID(SM->getExpansionLoc(L));
FIDMap::iterator I = FIDs.find(FID);
if (I != FIDs.end()) return;
FIDs[FID] = V.size();
V.push_back(FID);
}
static unsigned GetFID(const FIDMap& FIDs, const SourceManager &SM,
SourceLocation L) {
FileID FID = SM.getFileID(SM.getExpansionLoc(L));
FIDMap::const_iterator I = FIDs.find(FID);
assert(I != FIDs.end());
return I->second;
}
static raw_ostream &Indent(raw_ostream &o, const unsigned indent) {
for (unsigned i = 0; i < indent; ++i) o << ' ';
return o;
}
static void EmitLocation(raw_ostream &o, const SourceManager &SM,
const LangOptions &LangOpts,
SourceLocation L, const FIDMap &FM,
unsigned indent, bool extend = false) {
FullSourceLoc Loc(SM.getExpansionLoc(L), const_cast<SourceManager&>(SM));
// Add in the length of the token, so that we cover multi-char tokens.
unsigned offset =
extend ? Lexer::MeasureTokenLength(Loc, SM, LangOpts) - 1 : 0;
Indent(o, indent) << "<dict>\n";
Indent(o, indent) << " <key>line</key><integer>"
<< Loc.getExpansionLineNumber() << "</integer>\n";
Indent(o, indent) << " <key>col</key><integer>"
<< Loc.getExpansionColumnNumber() + offset << "</integer>\n";
Indent(o, indent) << " <key>file</key><integer>"
<< GetFID(FM, SM, Loc) << "</integer>\n";
Indent(o, indent) << "</dict>\n";
}
static void EmitLocation(raw_ostream &o, const SourceManager &SM,
const LangOptions &LangOpts,
const PathDiagnosticLocation &L, const FIDMap& FM,
unsigned indent, bool extend = false) {
EmitLocation(o, SM, LangOpts, L.asLocation(), FM, indent, extend);
}
static void EmitRange(raw_ostream &o, const SourceManager &SM,
const LangOptions &LangOpts,
PathDiagnosticRange R, const FIDMap &FM,
unsigned indent) {
Indent(o, indent) << "<array>\n";
EmitLocation(o, SM, LangOpts, R.getBegin(), FM, indent+1);
EmitLocation(o, SM, LangOpts, R.getEnd(), FM, indent+1, !R.isPoint);
Indent(o, indent) << "</array>\n";
}
static raw_ostream &EmitString(raw_ostream &o, StringRef s) {
o << "<string>";
for (StringRef::const_iterator I = s.begin(), E = s.end(); I != E; ++I) {
char c = *I;
switch (c) {
default: o << c; break;
case '&': o << "&"; break;
case '<': o << "<"; break;
case '>': o << ">"; break;
case '\'': o << "'"; break;
case '\"': o << """; break;
}
}
o << "</string>";
return o;
}
static void ReportControlFlow(raw_ostream &o,
const PathDiagnosticControlFlowPiece& P,
const FIDMap& FM,
const SourceManager &SM,
const LangOptions &LangOpts,
unsigned indent) {
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;
Indent(o, indent) << "<key>start</key>\n";
EmitRange(o, SM, LangOpts, I->getStart().asRange(), FM, indent+1);
Indent(o, indent) << "<key>end</key>\n";
EmitRange(o, SM, LangOpts, I->getEnd().asRange(), FM, indent+1);
--indent;
Indent(o, indent) << "</dict>\n";
}
--indent;
Indent(o, indent) << "</array>\n";
--indent;
// Output any helper text.
const std::string& s = P.getString();
if (!s.empty()) {
Indent(o, indent) << "<key>alternate</key>";
EmitString(o, s) << '\n';
}
--indent;
Indent(o, indent) << "</dict>\n";
}
static void ReportEvent(raw_ostream &o, const PathDiagnosticPiece& P,
const FIDMap& FM,
const SourceManager &SM,
const LangOptions &LangOpts,
unsigned indent,
unsigned depth) {
Indent(o, indent) << "<dict>\n";
++indent;
Indent(o, indent) << "<key>kind</key><string>event</string>\n";
// Output the location.
FullSourceLoc L = P.getLocation().asLocation();
Indent(o, indent) << "<key>location</key>\n";
EmitLocation(o, SM, LangOpts, L, FM, indent);
// Output the ranges (if any).
PathDiagnosticPiece::range_iterator RI = P.ranges_begin(),
RE = P.ranges_end();
if (RI != RE) {
Indent(o, indent) << "<key>ranges</key>\n";
Indent(o, indent) << "<array>\n";
++indent;
for (; RI != RE; ++RI)
EmitRange(o, SM, LangOpts, *RI, FM, indent+1);
--indent;
Indent(o, indent) << "</array>\n";
}
// Output the call depth.
Indent(o, indent) << "<key>depth</key>"
<< "<integer>" << depth << "</integer>\n";
// Output the text.
assert(!P.getString().empty());
Indent(o, indent) << "<key>extended_message</key>\n";
Indent(o, indent);
EmitString(o, P.getString()) << '\n';
// Output the short text.
// FIXME: Really use a short string.
Indent(o, indent) << "<key>message</key>\n";
EmitString(o, P.getString()) << '\n';
// Finish up.
--indent;
Indent(o, indent); o << "</dict>\n";
}
static void ReportPiece(raw_ostream &o,
const PathDiagnosticPiece &P,
const FIDMap& FM, const SourceManager &SM,
const LangOptions &LangOpts,
unsigned indent,
unsigned depth,
bool includeControlFlow);
static void ReportCall(raw_ostream &o,
const PathDiagnosticCallPiece &P,
const FIDMap& FM, const SourceManager &SM,
const LangOptions &LangOpts,
unsigned indent,
unsigned depth) {
IntrusiveRefCntPtr<PathDiagnosticEventPiece> callEnter =
P.getCallEnterEvent();
if (callEnter)
ReportPiece(o, *callEnter, FM, SM, LangOpts, indent, depth, true);
IntrusiveRefCntPtr<PathDiagnosticEventPiece> callEnterWithinCaller =
P.getCallEnterWithinCallerEvent();
++depth;
if (callEnterWithinCaller)
ReportPiece(o, *callEnterWithinCaller, FM, SM, LangOpts,
indent, depth, true);
for (PathPieces::const_iterator I = P.path.begin(), E = P.path.end();I!=E;++I)
ReportPiece(o, **I, FM, SM, LangOpts, indent, depth, true);
IntrusiveRefCntPtr<PathDiagnosticEventPiece> callExit =
P.getCallExitEvent();
if (callExit)
ReportPiece(o, *callExit, FM, SM, LangOpts, indent, depth, true);
}
static void ReportMacro(raw_ostream &o,
const PathDiagnosticMacroPiece& P,
const FIDMap& FM, const SourceManager &SM,
const LangOptions &LangOpts,
unsigned indent,
unsigned depth) {
for (PathPieces::const_iterator I = P.subPieces.begin(), E=P.subPieces.end();
I!=E; ++I) {
ReportPiece(o, **I, FM, SM, LangOpts, indent, depth, false);
}
}
static void ReportDiag(raw_ostream &o, const PathDiagnosticPiece& P,
const FIDMap& FM, const SourceManager &SM,
const LangOptions &LangOpts) {
ReportPiece(o, P, FM, SM, LangOpts, 4, 0, true);
}
static void ReportPiece(raw_ostream &o,
const PathDiagnosticPiece &P,
const FIDMap& FM, const SourceManager &SM,
const LangOptions &LangOpts,
unsigned indent,
unsigned depth,
bool includeControlFlow) {
switch (P.getKind()) {
case PathDiagnosticPiece::ControlFlow:
if (includeControlFlow)
ReportControlFlow(o, cast<PathDiagnosticControlFlowPiece>(P), FM, SM,
LangOpts, indent);
break;
case PathDiagnosticPiece::Call:
ReportCall(o, cast<PathDiagnosticCallPiece>(P), FM, SM, LangOpts,
indent, depth);
break;
case PathDiagnosticPiece::Event:
ReportEvent(o, cast<PathDiagnosticSpotPiece>(P), FM, SM, LangOpts,
indent, depth);
break;
case PathDiagnosticPiece::Macro:
ReportMacro(o, cast<PathDiagnosticMacroPiece>(P), FM, SM, LangOpts,
indent, depth);
break;
}
}
void PlistDiagnostics::FlushDiagnosticsImpl(
std::vector<const PathDiagnostic *> &Diags,
SmallVectorImpl<std::string> *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 = 0;
if (!Diags.empty())
SM = &(*(*Diags.begin())->path.begin())->getLocation().getManager();
for (std::vector<const PathDiagnostic*>::iterator DI = Diags.begin(),
DE = Diags.end(); DI != DE; ++DI) {
const PathDiagnostic *D = *DI;
llvm::SmallVector<const PathPieces *, 5> WorkList;
WorkList.push_back(&D->path);
while (!WorkList.empty()) {
const PathPieces &path = *WorkList.back();
WorkList.pop_back();
for (PathPieces::const_iterator I = path.begin(), E = path.end();
I!=E; ++I) {
const PathDiagnosticPiece *piece = I->getPtr();
AddFID(FM, Fids, SM, piece->getLocation().asLocation());
for (PathDiagnosticPiece::range_iterator RI = piece->ranges_begin(),
RE= piece->ranges_end(); RI != RE; ++RI) {
AddFID(FM, Fids, SM, RI->getBegin());
AddFID(FM, Fids, SM, RI->getEnd());
}
if (const PathDiagnosticCallPiece *call =
dyn_cast<PathDiagnosticCallPiece>(piece)) {
WorkList.push_back(&call->path);
}
else if (const PathDiagnosticMacroPiece *macro =
dyn_cast<PathDiagnosticMacroPiece>(piece)) {
WorkList.push_back(¯o->subPieces);
}
}
}
}
// Open the file.
std::string ErrMsg;
llvm::raw_fd_ostream o(OutputFile.c_str(), ErrMsg);
if (!ErrMsg.empty()) {
llvm::errs() << "warning: could not create file: " << OutputFile << '\n';
return;
}
// Write the plist header.
o << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n"
"<!DOCTYPE plist PUBLIC \"-//Apple Computer//DTD PLIST 1.0//EN\" "
"\"http://www.apple.com/DTDs/PropertyList-1.0.dtd\">\n"
"<plist version=\"1.0\">\n";
// Write the root object: a <dict> containing...
// - "files", an <array> mapping from FIDs to file names
// - "diagnostics", an <array> containing the path diagnostics
o << "<dict>\n"
" <key>files</key>\n"
" <array>\n";
for (SmallVectorImpl<FileID>::iterator I=Fids.begin(), E=Fids.end();
I!=E; ++I) {
o << " ";
EmitString(o, SM->getFileEntryForID(*I)->getName()) << '\n';
}
o << " </array>\n"
" <key>diagnostics</key>\n"
" <array>\n";
for (std::vector<const PathDiagnostic*>::iterator DI=Diags.begin(),
DE = Diags.end(); DI!=DE; ++DI) {
o << " <dict>\n"
" <key>path</key>\n";
const PathDiagnostic *D = *DI;
o << " <array>\n";
for (PathPieces::const_iterator I = D->path.begin(), E = D->path.end();
I != E; ++I)
ReportDiag(o, **I, FM, *SM, LangOpts);
o << " </array>\n";
// Output the bug type and bug category.
o << " <key>description</key>";
EmitString(o, D->getDescription()) << '\n';
o << " <key>category</key>";
EmitString(o, D->getCategory()) << '\n';
o << " <key>type</key>";
EmitString(o, D->getBugType()) << '\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 location of the bug.
o << " <key>location</key>\n";
EmitLocation(o, *SM, LangOpts, D->getLocation(), FM, 2);
// Output the diagnostic to the sub-diagnostic client, if any.
if (SubPD) {
std::vector<const PathDiagnostic *> SubDiags;
SubDiags.push_back(D);
SmallVector<std::string, 1> SubFilesMade;
SubPD->FlushDiagnosticsImpl(SubDiags, &SubFilesMade);
if (!SubFilesMade.empty()) {
o << " <key>" << SubPD->getName() << "_files</key>\n";
o << " <array>\n";
for (size_t i = 0, n = SubFilesMade.size(); i < n ; ++i)
o << " <string>" << SubFilesMade[i] << "</string>\n";
o << " </array>\n";
}
}
// Close up the entry.
o << " </dict>\n";
}
o << " </array>\n";
// Finish.
o << "</dict>\n</plist>";
if (FilesMade)
FilesMade->push_back(OutputFile);
}