lib/Frontend/VerifyDiagnosticConsumer.cpp - fp2-dev/platform/external/clang - Gitiles

 //===---- VerifyDiagnosticConsumer.cpp - Verifying Diagnostic Client ------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This is a concrete diagnostic client, which buffers the diagnostic messages.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Frontend/VerifyDiagnosticConsumer.h"
 #include "clang/Frontend/FrontendDiagnostic.h"
 #include "clang/Frontend/TextDiagnosticBuffer.h"
 #include "clang/Lex/Preprocessor.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/Support/Regex.h"
 #include "llvm/Support/raw_ostream.h"
 #include <climits>

 using namespace clang;

 VerifyDiagnosticConsumer::VerifyDiagnosticConsumer(DiagnosticsEngine &_Diags)
   : Diags(_Diags), PrimaryClient(Diags.getClient()),
     OwnsPrimaryClient(Diags.ownsClient()),
     Buffer(new TextDiagnosticBuffer()), CurrentPreprocessor(0)
 {
   Diags.takeClient();
 }

 VerifyDiagnosticConsumer::~VerifyDiagnosticConsumer() {
   CheckDiagnostics();
   Diags.takeClient();
   if (OwnsPrimaryClient)
     delete PrimaryClient;
 }

 // DiagnosticConsumer interface.

 void VerifyDiagnosticConsumer::BeginSourceFile(const LangOptions &LangOpts,
                                              const Preprocessor *PP) {
   // FIXME: Const hack, we screw up the preprocessor but in practice its ok
   // because it doesn't get reused. It would be better if we could make a copy
   // though.
   CurrentPreprocessor = const_cast<Preprocessor*>(PP);

   PrimaryClient->BeginSourceFile(LangOpts, PP);
 }

 void VerifyDiagnosticConsumer::EndSourceFile() {
   CheckDiagnostics();

   PrimaryClient->EndSourceFile();

   CurrentPreprocessor = 0;
 }

 void VerifyDiagnosticConsumer::HandleDiagnostic(
       DiagnosticsEngine::Level DiagLevel, const Diagnostic &Info) {
   if (FirstErrorFID.isInvalid() && Info.hasSourceManager()) {
     const SourceManager &SM = Info.getSourceManager();
     FirstErrorFID = SM.getFileID(Info.getLocation());
   }
   // Send the diagnostic to the buffer, we will check it once we reach the end
   // of the source file (or are destructed).
   Buffer->HandleDiagnostic(DiagLevel, Info);
 }

 //===----------------------------------------------------------------------===//
 // Checking diagnostics implementation.
 //===----------------------------------------------------------------------===//

 typedef TextDiagnosticBuffer::DiagList DiagList;
 typedef TextDiagnosticBuffer::const_iterator const_diag_iterator;

 namespace {

 /// Directive - Abstract class representing a parsed verify directive.
 ///
 class Directive {
 public:
   static Directive* Create(bool RegexKind, const SourceLocation &Location,
                            const std::string &Text, unsigned Count);
 public:
   /// Constant representing one or more matches aka regex "+".
   static const unsigned OneOrMoreCount =  UINT_MAX;

   SourceLocation Location;
   const std::string Text;
   unsigned Count;

   virtual ~Directive() { }

   // Returns true if directive text is valid.
   // Otherwise returns false and populates E.
   virtual bool isValid(std::string &Error) = 0;

   // Returns true on match.
   virtual bool Match(const std::string &S) = 0;

 protected:
   Directive(const SourceLocation &Location, const std::string &Text,
             unsigned Count)
     : Location(Location), Text(Text), Count(Count) { }

 private:
   Directive(const Directive&); // DO NOT IMPLEMENT
   void operator=(const Directive&); // DO NOT IMPLEMENT
 };

 /// StandardDirective - Directive with string matching.
 ///
 class StandardDirective : public Directive {
 public:
   StandardDirective(const SourceLocation &Location, const std::string &Text,
                     unsigned Count)
     : Directive(Location, Text, Count) { }

   virtual bool isValid(std::string &Error) {
     // all strings are considered valid; even empty ones
     return true;
   }

   virtual bool Match(const std::string &S) {
     return S.find(Text) != std::string::npos;
   }
 };

 /// RegexDirective - Directive with regular-expression matching.
 ///
 class RegexDirective : public Directive {
 public:
   RegexDirective(const SourceLocation &Location, const std::string &Text,
                  unsigned Count)
     : Directive(Location, Text, Count), Regex(Text) { }

   virtual bool isValid(std::string &Error) {
     if (Regex.isValid(Error))
       return true;
     return false;
   }

   virtual bool Match(const std::string &S) {
     return Regex.match(S);
   }

 private:
   llvm::Regex Regex;
 };

 typedef std::vector<Directive*> DirectiveList;

 /// ExpectedData - owns directive objects and deletes on destructor.
 ///
 struct ExpectedData {
   DirectiveList Errors;
   DirectiveList Warnings;
   DirectiveList Notes;

   ~ExpectedData() {
     DirectiveList* Lists[] = { &Errors, &Warnings, &Notes, 0 };
     for (DirectiveList **PL = Lists; *PL; ++PL) {
       DirectiveList * const L = *PL;
       for (DirectiveList::iterator I = L->begin(), E = L->end(); I != E; ++I)
         delete *I;
     }
   }
 };

 class ParseHelper
 {
 public:
   ParseHelper(const char *Begin, const char *End)
     : Begin(Begin), End(End), C(Begin), P(Begin), PEnd(NULL) { }

   // Return true if string literal is next.
   bool Next(StringRef S) {
     P = C;
     PEnd = C + S.size();
     if (PEnd > End)
       return false;
     return !memcmp(P, S.data(), S.size());
   }

   // Return true if number is next.
   // Output N only if number is next.
   bool Next(unsigned &N) {
     unsigned TMP = 0;
     P = C;
     for (; P < End && P[0] >= '0' && P[0] <= '9'; ++P) {
       TMP *= 10;
       TMP += P[0] - '0';
     }
     if (P == C)
       return false;
     PEnd = P;
     N = TMP;
     return true;
   }

   // Return true if string literal is found.
   // When true, P marks begin-position of S in content.
   bool Search(StringRef S) {
     P = std::search(C, End, S.begin(), S.end());
     PEnd = P + S.size();
     return P != End;
   }

   // Advance 1-past previous next/search.
   // Behavior is undefined if previous next/search failed.
   bool Advance() {
     C = PEnd;
     return C < End;
   }

   // Skip zero or more whitespace.
   void SkipWhitespace() {
     for (; C < End && isspace(*C); ++C)
       ;
   }

   // Return true if EOF reached.
   bool Done() {
     return !(C < End);
   }

   const char * const Begin; // beginning of expected content
   const char * const End;   // end of expected content (1-past)
   const char *C;            // position of next char in content
   const char *P;

 private:
   const char *PEnd; // previous next/search subject end (1-past)
 };

 } // namespace anonymous

 /// ParseDirective - Go through the comment and see if it indicates expected
 /// diagnostics. If so, then put them in the appropriate directive list.
 ///
 static void ParseDirective(const char *CommentStart, unsigned CommentLen,
                            ExpectedData &ED, Preprocessor &PP,
                            SourceLocation Pos) {
   // A single comment may contain multiple directives.
   for (ParseHelper PH(CommentStart, CommentStart+CommentLen); !PH.Done();) {
     // search for token: expected
     if (!PH.Search("expected"))
       break;
     PH.Advance();

     // next token: -
     if (!PH.Next("-"))
       continue;
     PH.Advance();

     // next token: { error | warning | note }
     DirectiveList* DL = NULL;
     if (PH.Next("error"))
       DL = &ED.Errors;
     else if (PH.Next("warning"))
       DL = &ED.Warnings;
     else if (PH.Next("note"))
       DL = &ED.Notes;
     else
       continue;
     PH.Advance();

     // default directive kind
     bool RegexKind = false;
     const char* KindStr = "string";

     // next optional token: -
     if (PH.Next("-re")) {
       PH.Advance();
       RegexKind = true;
       KindStr = "regex";
     }

     // skip optional whitespace
     PH.SkipWhitespace();

     // next optional token: positive integer or a '+'.
     unsigned Count = 1;
     if (PH.Next(Count))
       PH.Advance();
     else if (PH.Next("+")) {
       Count = Directive::OneOrMoreCount;
       PH.Advance();
     }

     // skip optional whitespace
     PH.SkipWhitespace();

     // next token: {{
     if (!PH.Next("{{")) {
       PP.Diag(Pos.getLocWithOffset(PH.C-PH.Begin),
               diag::err_verify_missing_start) << KindStr;
       continue;
     }
     PH.Advance();
     const char* const ContentBegin = PH.C; // mark content begin

     // search for token: }}
     if (!PH.Search("}}")) {
       PP.Diag(Pos.getLocWithOffset(PH.C-PH.Begin),
               diag::err_verify_missing_end) << KindStr;
       continue;
     }
     const char* const ContentEnd = PH.P; // mark content end
     PH.Advance();

     // build directive text; convert \n to newlines
     std::string Text;
     StringRef NewlineStr = "\\n";
     StringRef Content(ContentBegin, ContentEnd-ContentBegin);
     size_t CPos = 0;
     size_t FPos;
     while ((FPos = Content.find(NewlineStr, CPos)) != StringRef::npos) {
       Text += Content.substr(CPos, FPos-CPos);
       Text += '\n';
       CPos = FPos + NewlineStr.size();
     }
     if (Text.empty())
       Text.assign(ContentBegin, ContentEnd);

     // construct new directive
     Directive *D = Directive::Create(RegexKind, Pos, Text, Count);
     std::string Error;
     if (D->isValid(Error))
       DL->push_back(D);
     else {
       PP.Diag(Pos.getLocWithOffset(ContentBegin-PH.Begin),
               diag::err_verify_invalid_content)
         << KindStr << Error;
     }
   }
 }

 /// FindExpectedDiags - Lex the main source file to find all of the
 //   expected errors and warnings.
 static void FindExpectedDiags(Preprocessor &PP, ExpectedData &ED, FileID FID) {
   // Create a raw lexer to pull all the comments out of FID.
   if (FID.isInvalid())
     return;

   SourceManager& SM = PP.getSourceManager();
   // Create a lexer to lex all the tokens of the main file in raw mode.
   const llvm::MemoryBuffer *FromFile = SM.getBuffer(FID);
   Lexer RawLex(FID, FromFile, SM, PP.getLangOptions());

   // Return comments as tokens, this is how we find expected diagnostics.
   RawLex.SetCommentRetentionState(true);

   Token Tok;
   Tok.setKind(tok::comment);
   while (Tok.isNot(tok::eof)) {
     RawLex.Lex(Tok);
     if (!Tok.is(tok::comment)) continue;

     std::string Comment = PP.getSpelling(Tok);
     if (Comment.empty()) continue;

     // Find all expected errors/warnings/notes.
     ParseDirective(&Comment[0], Comment.size(), ED, PP, Tok.getLocation());
   };
 }

 /// PrintProblem - This takes a diagnostic map of the delta between expected and
 /// seen diagnostics. If there's anything in it, then something unexpected
 /// happened. Print the map out in a nice format and return "true". If the map
 /// is empty and we're not going to print things, then return "false".
 ///
 static unsigned PrintProblem(DiagnosticsEngine &Diags, SourceManager *SourceMgr,
                              const_diag_iterator diag_begin,
                              const_diag_iterator diag_end,
                              const char *Kind, bool Expected) {
   if (diag_begin == diag_end) return 0;

   llvm::SmallString<256> Fmt;
   llvm::raw_svector_ostream OS(Fmt);
   for (const_diag_iterator I = diag_begin, E = diag_end; I != E; ++I) {
     if (I->first.isInvalid() || !SourceMgr)
       OS << "\n  (frontend)";
     else
       OS << "\n  Line " << SourceMgr->getPresumedLineNumber(I->first);
     OS << ": " << I->second;
   }

   Diags.Report(diag::err_verify_inconsistent_diags)
     << Kind << !Expected << OS.str();
   return std::distance(diag_begin, diag_end);
 }

 static unsigned PrintProblem(DiagnosticsEngine &Diags, SourceManager *SourceMgr,
                              DirectiveList &DL, const char *Kind,
                              bool Expected) {
   if (DL.empty())
     return 0;

   llvm::SmallString<256> Fmt;
   llvm::raw_svector_ostream OS(Fmt);
   for (DirectiveList::iterator I = DL.begin(), E = DL.end(); I != E; ++I) {
     Directive& D = **I;
     if (D.Location.isInvalid() || !SourceMgr)
       OS << "\n  (frontend)";
     else
       OS << "\n  Line " << SourceMgr->getPresumedLineNumber(D.Location);
     OS << ": " << D.Text;
   }

   Diags.Report(diag::err_verify_inconsistent_diags)
     << Kind << !Expected << OS.str();
   return DL.size();
 }

 /// CheckLists - Compare expected to seen diagnostic lists and return the
 /// the difference between them.
 ///
 static unsigned CheckLists(DiagnosticsEngine &Diags, SourceManager &SourceMgr,
                            const char *Label,
                            DirectiveList &Left,
                            const_diag_iterator d2_begin,
                            const_diag_iterator d2_end) {
   DirectiveList LeftOnly;
   DiagList Right(d2_begin, d2_end);

   for (DirectiveList::iterator I = Left.begin(), E = Left.end(); I != E; ++I) {
     Directive& D = **I;
     unsigned LineNo1 = SourceMgr.getPresumedLineNumber(D.Location);
     bool FoundOnce = false;

     for (unsigned i = 0; i < D.Count; ++i) {
       DiagList::iterator II, IE;
       for (II = Right.begin(), IE = Right.end(); II != IE; ++II) {
         unsigned LineNo2 = SourceMgr.getPresumedLineNumber(II->first);
         if (LineNo1 != LineNo2)
           continue;

         const std::string &RightText = II->second;
         if (D.Match(RightText))
           break;
       }
       if (II == IE) {
         if (D.Count == D.OneOrMoreCount && FoundOnce) {
           // We are only interested in at least one match and we found one.
           break;
         }
         // Not found.
         LeftOnly.push_back(*I);
       } else {
         // Found. The same cannot be found twice.
         Right.erase(II);
         FoundOnce = true;
       }
     }
   }
   // Now all that's left in Right are those that were not matched.

   return (PrintProblem(Diags, &SourceMgr, LeftOnly, Label, true) +
           PrintProblem(Diags, &SourceMgr, Right.begin(), Right.end(),
                        Label, false));
 }

 /// CheckResults - This compares the expected results to those that
 /// were actually reported. It emits any discrepencies. Return "true" if there
 /// were problems. Return "false" otherwise.
 ///
 static unsigned CheckResults(DiagnosticsEngine &Diags, SourceManager &SourceMgr,
                              const TextDiagnosticBuffer &Buffer,
                              ExpectedData &ED) {
   // We want to capture the delta between what was expected and what was
   // seen.
   //
   //   Expected \ Seen - set expected but not seen
   //   Seen \ Expected - set seen but not expected
   unsigned NumProblems = 0;

   // See if there are error mismatches.
   NumProblems += CheckLists(Diags, SourceMgr, "error", ED.Errors,
                             Buffer.err_begin(), Buffer.err_end());

   // See if there are warning mismatches.
   NumProblems += CheckLists(Diags, SourceMgr, "warning", ED.Warnings,
                             Buffer.warn_begin(), Buffer.warn_end());

   // See if there are note mismatches.
   NumProblems += CheckLists(Diags, SourceMgr, "note", ED.Notes,
                             Buffer.note_begin(), Buffer.note_end());

   return NumProblems;
 }

 void VerifyDiagnosticConsumer::CheckDiagnostics() {
   ExpectedData ED;

   // Ensure any diagnostics go to the primary client.
   bool OwnsCurClient = Diags.ownsClient();
   DiagnosticConsumer *CurClient = Diags.takeClient();
   Diags.setClient(PrimaryClient, false);

   // If we have a preprocessor, scan the source for expected diagnostic
   // markers. If not then any diagnostics are unexpected.
   if (CurrentPreprocessor) {
     SourceManager &SM = CurrentPreprocessor->getSourceManager();
     // Extract expected-error strings from main file.
     FindExpectedDiags(*CurrentPreprocessor, ED, SM.getMainFileID());
     // Only check for expectations in other diagnostic locations
     // if they are not the main file (via ID or FileEntry) - the main
     // file has already been looked at, and its expectations must not
     // be added twice.
     if (!FirstErrorFID.isInvalid() && FirstErrorFID != SM.getMainFileID()
         && (!SM.getFileEntryForID(FirstErrorFID)
             || (SM.getFileEntryForID(FirstErrorFID) !=
                 SM.getFileEntryForID(SM.getMainFileID())))) {
       FindExpectedDiags(*CurrentPreprocessor, ED, FirstErrorFID);
       FirstErrorFID = FileID();
     }

     // Check that the expected diagnostics occurred.
     NumErrors += CheckResults(Diags, SM, *Buffer, ED);
   } else {
     NumErrors += (PrintProblem(Diags, 0,
                                Buffer->err_begin(), Buffer->err_end(),
                                "error", false) +
                   PrintProblem(Diags, 0,
                                Buffer->warn_begin(), Buffer->warn_end(),
                                "warn", false) +
                   PrintProblem(Diags, 0,
                                Buffer->note_begin(), Buffer->note_end(),
                                "note", false));
   }

   Diags.takeClient();
   Diags.setClient(CurClient, OwnsCurClient);

   // Reset the buffer, we have processed all the diagnostics in it.
   Buffer.reset(new TextDiagnosticBuffer());
 }

 DiagnosticConsumer *
 VerifyDiagnosticConsumer::clone(DiagnosticsEngine &Diags) const {
   if (!Diags.getClient())
     Diags.setClient(PrimaryClient->clone(Diags));

   return new VerifyDiagnosticConsumer(Diags);
 }

 Directive* Directive::Create(bool RegexKind, const SourceLocation &Location,
                              const std::string &Text, unsigned Count) {
   if (RegexKind)
     return new RegexDirective(Location, Text, Count);
   return new StandardDirective(Location, Text, Count);
 }
	//===---- VerifyDiagnosticConsumer.cpp - Verifying Diagnostic Client ------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This is a concrete diagnostic client, which buffers the diagnostic messages.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Frontend/VerifyDiagnosticConsumer.h"
	#include "clang/Frontend/FrontendDiagnostic.h"
	#include "clang/Frontend/TextDiagnosticBuffer.h"
	#include "clang/Lex/Preprocessor.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/Support/Regex.h"
	#include "llvm/Support/raw_ostream.h"
	#include <climits>

	using namespace clang;

	VerifyDiagnosticConsumer::VerifyDiagnosticConsumer(DiagnosticsEngine &_Diags)
	: Diags(_Diags), PrimaryClient(Diags.getClient()),
	OwnsPrimaryClient(Diags.ownsClient()),
	Buffer(new TextDiagnosticBuffer()), CurrentPreprocessor(0)
	{
	Diags.takeClient();
	}

	VerifyDiagnosticConsumer::~VerifyDiagnosticConsumer() {
	CheckDiagnostics();
	Diags.takeClient();
	if (OwnsPrimaryClient)
	delete PrimaryClient;
	}

	// DiagnosticConsumer interface.

	void VerifyDiagnosticConsumer::BeginSourceFile(const LangOptions &LangOpts,
	const Preprocessor *PP) {
	// FIXME: Const hack, we screw up the preprocessor but in practice its ok
	// because it doesn't get reused. It would be better if we could make a copy
	// though.
	CurrentPreprocessor = const_cast<Preprocessor*>(PP);

	PrimaryClient->BeginSourceFile(LangOpts, PP);
	}

	void VerifyDiagnosticConsumer::EndSourceFile() {
	CheckDiagnostics();

	PrimaryClient->EndSourceFile();

	CurrentPreprocessor = 0;
	}

	void VerifyDiagnosticConsumer::HandleDiagnostic(
	DiagnosticsEngine::Level DiagLevel, const Diagnostic &Info) {
	if (FirstErrorFID.isInvalid() && Info.hasSourceManager()) {
	const SourceManager &SM = Info.getSourceManager();
	FirstErrorFID = SM.getFileID(Info.getLocation());
	}
	// Send the diagnostic to the buffer, we will check it once we reach the end
	// of the source file (or are destructed).
	Buffer->HandleDiagnostic(DiagLevel, Info);
	}

	//===----------------------------------------------------------------------===//
	// Checking diagnostics implementation.
	//===----------------------------------------------------------------------===//

	typedef TextDiagnosticBuffer::DiagList DiagList;
	typedef TextDiagnosticBuffer::const_iterator const_diag_iterator;

	namespace {

	/// Directive - Abstract class representing a parsed verify directive.
	///
	class Directive {
	public:
	static Directive* Create(bool RegexKind, const SourceLocation &Location,
	const std::string &Text, unsigned Count);
	public:
	/// Constant representing one or more matches aka regex "+".
	static const unsigned OneOrMoreCount = UINT_MAX;

	SourceLocation Location;
	const std::string Text;
	unsigned Count;

	virtual ~Directive() { }

	// Returns true if directive text is valid.
	// Otherwise returns false and populates E.
	virtual bool isValid(std::string &Error) = 0;

	// Returns true on match.
	virtual bool Match(const std::string &S) = 0;

	protected:
	Directive(const SourceLocation &Location, const std::string &Text,
	unsigned Count)
	: Location(Location), Text(Text), Count(Count) { }

	private:
	Directive(const Directive&); // DO NOT IMPLEMENT
	void operator=(const Directive&); // DO NOT IMPLEMENT
	};

	/// StandardDirective - Directive with string matching.
	///
	class StandardDirective : public Directive {
	public:
	StandardDirective(const SourceLocation &Location, const std::string &Text,
	unsigned Count)
	: Directive(Location, Text, Count) { }

	virtual bool isValid(std::string &Error) {
	// all strings are considered valid; even empty ones
	return true;
	}

	virtual bool Match(const std::string &S) {
	return S.find(Text) != std::string::npos;
	}
	};

	/// RegexDirective - Directive with regular-expression matching.
	///
	class RegexDirective : public Directive {
	public:
	RegexDirective(const SourceLocation &Location, const std::string &Text,
	unsigned Count)
	: Directive(Location, Text, Count), Regex(Text) { }

	virtual bool isValid(std::string &Error) {
	if (Regex.isValid(Error))
	return true;
	return false;
	}

	virtual bool Match(const std::string &S) {
	return Regex.match(S);
	}

	private:
	llvm::Regex Regex;
	};

	typedef std::vector<Directive*> DirectiveList;

	/// ExpectedData - owns directive objects and deletes on destructor.
	///
	struct ExpectedData {
	DirectiveList Errors;
	DirectiveList Warnings;
	DirectiveList Notes;

	~ExpectedData() {
	DirectiveList* Lists[] = { &Errors, &Warnings, &Notes, 0 };
	for (DirectiveList *PL = Lists; PL; ++PL) {
	DirectiveList * const L = *PL;
	for (DirectiveList::iterator I = L->begin(), E = L->end(); I != E; ++I)
	delete *I;
	}
	}
	};

	class ParseHelper
	{
	public:
	ParseHelper(const char Begin, const char End)
	: Begin(Begin), End(End), C(Begin), P(Begin), PEnd(NULL) { }

	// Return true if string literal is next.
	bool Next(StringRef S) {
	P = C;
	PEnd = C + S.size();
	if (PEnd > End)
	return false;
	return !memcmp(P, S.data(), S.size());
	}

	// Return true if number is next.
	// Output N only if number is next.
	bool Next(unsigned &N) {
	unsigned TMP = 0;
	P = C;
	for (; P < End && P[0] >= '0' && P[0] <= '9'; ++P) {
	TMP *= 10;
	TMP += P[0] - '0';
	}
	if (P == C)
	return false;
	PEnd = P;
	N = TMP;
	return true;
	}

	// Return true if string literal is found.
	// When true, P marks begin-position of S in content.
	bool Search(StringRef S) {
	P = std::search(C, End, S.begin(), S.end());
	PEnd = P + S.size();
	return P != End;
	}

	// Advance 1-past previous next/search.
	// Behavior is undefined if previous next/search failed.
	bool Advance() {
	C = PEnd;
	return C < End;
	}

	// Skip zero or more whitespace.
	void SkipWhitespace() {
	for (; C < End && isspace(*C); ++C)
	;
	}

	// Return true if EOF reached.
	bool Done() {
	return !(C < End);
	}

	const char * const Begin; // beginning of expected content
	const char * const End; // end of expected content (1-past)
	const char *C; // position of next char in content
	const char *P;

	private:
	const char *PEnd; // previous next/search subject end (1-past)
	};

	} // namespace anonymous

	/// ParseDirective - Go through the comment and see if it indicates expected
	/// diagnostics. If so, then put them in the appropriate directive list.
	///
	static void ParseDirective(const char *CommentStart, unsigned CommentLen,
	ExpectedData &ED, Preprocessor &PP,
	SourceLocation Pos) {
	// A single comment may contain multiple directives.
	for (ParseHelper PH(CommentStart, CommentStart+CommentLen); !PH.Done();) {
	// search for token: expected
	if (!PH.Search("expected"))
	break;
	PH.Advance();

	// next token: -
	if (!PH.Next("-"))
	continue;
	PH.Advance();

	// next token: { error \| warning \| note }
	DirectiveList* DL = NULL;
	if (PH.Next("error"))
	DL = &ED.Errors;
	else if (PH.Next("warning"))
	DL = &ED.Warnings;
	else if (PH.Next("note"))
	DL = &ED.Notes;
	else
	continue;
	PH.Advance();

	// default directive kind
	bool RegexKind = false;
	const char* KindStr = "string";

	// next optional token: -
	if (PH.Next("-re")) {
	PH.Advance();
	RegexKind = true;
	KindStr = "regex";
	}

	// skip optional whitespace
	PH.SkipWhitespace();

	// next optional token: positive integer or a '+'.
	unsigned Count = 1;
	if (PH.Next(Count))
	PH.Advance();
	else if (PH.Next("+")) {
	Count = Directive::OneOrMoreCount;
	PH.Advance();
	}

	// skip optional whitespace
	PH.SkipWhitespace();

	// next token: {{
	if (!PH.Next("{{")) {
	PP.Diag(Pos.getLocWithOffset(PH.C-PH.Begin),
	diag::err_verify_missing_start) << KindStr;
	continue;
	}
	PH.Advance();
	const char* const ContentBegin = PH.C; // mark content begin

	// search for token: }}
	if (!PH.Search("}}")) {
	PP.Diag(Pos.getLocWithOffset(PH.C-PH.Begin),
	diag::err_verify_missing_end) << KindStr;
	continue;
	}
	const char* const ContentEnd = PH.P; // mark content end
	PH.Advance();

	// build directive text; convert \n to newlines
	std::string Text;
	StringRef NewlineStr = "\\n";
	StringRef Content(ContentBegin, ContentEnd-ContentBegin);
	size_t CPos = 0;
	size_t FPos;
	while ((FPos = Content.find(NewlineStr, CPos)) != StringRef::npos) {
	Text += Content.substr(CPos, FPos-CPos);
	Text += '\n';
	CPos = FPos + NewlineStr.size();
	}
	if (Text.empty())
	Text.assign(ContentBegin, ContentEnd);

	// construct new directive
	Directive *D = Directive::Create(RegexKind, Pos, Text, Count);
	std::string Error;
	if (D->isValid(Error))
	DL->push_back(D);
	else {
	PP.Diag(Pos.getLocWithOffset(ContentBegin-PH.Begin),
	diag::err_verify_invalid_content)
	<< KindStr << Error;
	}
	}
	}

	/// FindExpectedDiags - Lex the main source file to find all of the
	// expected errors and warnings.
	static void FindExpectedDiags(Preprocessor &PP, ExpectedData &ED, FileID FID) {
	// Create a raw lexer to pull all the comments out of FID.
	if (FID.isInvalid())
	return;

	SourceManager& SM = PP.getSourceManager();
	// Create a lexer to lex all the tokens of the main file in raw mode.
	const llvm::MemoryBuffer *FromFile = SM.getBuffer(FID);
	Lexer RawLex(FID, FromFile, SM, PP.getLangOptions());

	// Return comments as tokens, this is how we find expected diagnostics.
	RawLex.SetCommentRetentionState(true);

	Token Tok;
	Tok.setKind(tok::comment);
	while (Tok.isNot(tok::eof)) {
	RawLex.Lex(Tok);
	if (!Tok.is(tok::comment)) continue;

	std::string Comment = PP.getSpelling(Tok);
	if (Comment.empty()) continue;

	// Find all expected errors/warnings/notes.
	ParseDirective(&Comment[0], Comment.size(), ED, PP, Tok.getLocation());
	};
	}

	/// PrintProblem - This takes a diagnostic map of the delta between expected and
	/// seen diagnostics. If there's anything in it, then something unexpected
	/// happened. Print the map out in a nice format and return "true". If the map
	/// is empty and we're not going to print things, then return "false".
	///
	static unsigned PrintProblem(DiagnosticsEngine &Diags, SourceManager *SourceMgr,
	const_diag_iterator diag_begin,
	const_diag_iterator diag_end,
	const char *Kind, bool Expected) {
	if (diag_begin == diag_end) return 0;

	llvm::SmallString<256> Fmt;
	llvm::raw_svector_ostream OS(Fmt);
	for (const_diag_iterator I = diag_begin, E = diag_end; I != E; ++I) {
	if (I->first.isInvalid() \|\| !SourceMgr)
	OS << "\n (frontend)";
	else
	OS << "\n Line " << SourceMgr->getPresumedLineNumber(I->first);
	OS << ": " << I->second;
	}

	Diags.Report(diag::err_verify_inconsistent_diags)
	<< Kind << !Expected << OS.str();
	return std::distance(diag_begin, diag_end);
	}

	static unsigned PrintProblem(DiagnosticsEngine &Diags, SourceManager *SourceMgr,
	DirectiveList &DL, const char *Kind,
	bool Expected) {
	if (DL.empty())
	return 0;

	llvm::SmallString<256> Fmt;
	llvm::raw_svector_ostream OS(Fmt);
	for (DirectiveList::iterator I = DL.begin(), E = DL.end(); I != E; ++I) {
	Directive& D = **I;
	if (D.Location.isInvalid() \|\| !SourceMgr)
	OS << "\n (frontend)";
	else
	OS << "\n Line " << SourceMgr->getPresumedLineNumber(D.Location);
	OS << ": " << D.Text;
	}

	Diags.Report(diag::err_verify_inconsistent_diags)
	<< Kind << !Expected << OS.str();
	return DL.size();
	}

	/// CheckLists - Compare expected to seen diagnostic lists and return the
	/// the difference between them.
	///
	static unsigned CheckLists(DiagnosticsEngine &Diags, SourceManager &SourceMgr,
	const char *Label,
	DirectiveList &Left,
	const_diag_iterator d2_begin,
	const_diag_iterator d2_end) {
	DirectiveList LeftOnly;
	DiagList Right(d2_begin, d2_end);

	for (DirectiveList::iterator I = Left.begin(), E = Left.end(); I != E; ++I) {
	Directive& D = **I;
	unsigned LineNo1 = SourceMgr.getPresumedLineNumber(D.Location);
	bool FoundOnce = false;

	for (unsigned i = 0; i < D.Count; ++i) {
	DiagList::iterator II, IE;
	for (II = Right.begin(), IE = Right.end(); II != IE; ++II) {
	unsigned LineNo2 = SourceMgr.getPresumedLineNumber(II->first);
	if (LineNo1 != LineNo2)
	continue;

	const std::string &RightText = II->second;
	if (D.Match(RightText))
	break;
	}
	if (II == IE) {
	if (D.Count == D.OneOrMoreCount && FoundOnce) {
	// We are only interested in at least one match and we found one.
	break;
	}
	// Not found.
	LeftOnly.push_back(*I);
	} else {
	// Found. The same cannot be found twice.
	Right.erase(II);
	FoundOnce = true;
	}
	}
	}
	// Now all that's left in Right are those that were not matched.

	return (PrintProblem(Diags, &SourceMgr, LeftOnly, Label, true) +
	PrintProblem(Diags, &SourceMgr, Right.begin(), Right.end(),
	Label, false));
	}

	/// CheckResults - This compares the expected results to those that
	/// were actually reported. It emits any discrepencies. Return "true" if there
	/// were problems. Return "false" otherwise.
	///
	static unsigned CheckResults(DiagnosticsEngine &Diags, SourceManager &SourceMgr,
	const TextDiagnosticBuffer &Buffer,
	ExpectedData &ED) {
	// We want to capture the delta between what was expected and what was
	// seen.
	//
	// Expected \ Seen - set expected but not seen
	// Seen \ Expected - set seen but not expected
	unsigned NumProblems = 0;

	// See if there are error mismatches.
	NumProblems += CheckLists(Diags, SourceMgr, "error", ED.Errors,
	Buffer.err_begin(), Buffer.err_end());

	// See if there are warning mismatches.
	NumProblems += CheckLists(Diags, SourceMgr, "warning", ED.Warnings,
	Buffer.warn_begin(), Buffer.warn_end());

	// See if there are note mismatches.
	NumProblems += CheckLists(Diags, SourceMgr, "note", ED.Notes,
	Buffer.note_begin(), Buffer.note_end());

	return NumProblems;
	}

	void VerifyDiagnosticConsumer::CheckDiagnostics() {
	ExpectedData ED;

	// Ensure any diagnostics go to the primary client.
	bool OwnsCurClient = Diags.ownsClient();
	DiagnosticConsumer *CurClient = Diags.takeClient();
	Diags.setClient(PrimaryClient, false);

	// If we have a preprocessor, scan the source for expected diagnostic
	// markers. If not then any diagnostics are unexpected.
	if (CurrentPreprocessor) {
	SourceManager &SM = CurrentPreprocessor->getSourceManager();
	// Extract expected-error strings from main file.
	FindExpectedDiags(*CurrentPreprocessor, ED, SM.getMainFileID());
	// Only check for expectations in other diagnostic locations
	// if they are not the main file (via ID or FileEntry) - the main
	// file has already been looked at, and its expectations must not
	// be added twice.
	if (!FirstErrorFID.isInvalid() && FirstErrorFID != SM.getMainFileID()
	&& (!SM.getFileEntryForID(FirstErrorFID)
	\|\| (SM.getFileEntryForID(FirstErrorFID) !=
	SM.getFileEntryForID(SM.getMainFileID())))) {
	FindExpectedDiags(*CurrentPreprocessor, ED, FirstErrorFID);
	FirstErrorFID = FileID();
	}

	// Check that the expected diagnostics occurred.
	NumErrors += CheckResults(Diags, SM, *Buffer, ED);
	} else {
	NumErrors += (PrintProblem(Diags, 0,
	Buffer->err_begin(), Buffer->err_end(),
	"error", false) +
	PrintProblem(Diags, 0,
	Buffer->warn_begin(), Buffer->warn_end(),
	"warn", false) +
	PrintProblem(Diags, 0,
	Buffer->note_begin(), Buffer->note_end(),
	"note", false));
	}

	Diags.takeClient();
	Diags.setClient(CurClient, OwnsCurClient);

	// Reset the buffer, we have processed all the diagnostics in it.
	Buffer.reset(new TextDiagnosticBuffer());
	}

	DiagnosticConsumer *
	VerifyDiagnosticConsumer::clone(DiagnosticsEngine &Diags) const {
	if (!Diags.getClient())
	Diags.setClient(PrimaryClient->clone(Diags));

	return new VerifyDiagnosticConsumer(Diags);
	}

	Directive* Directive::Create(bool RegexKind, const SourceLocation &Location,
	const std::string &Text, unsigned Count) {
	if (RegexKind)
	return new RegexDirective(Location, Text, Count);
	return new StandardDirective(Location, Text, Count);
	}