tools/libclang/CXLoadedDiagnostic.cpp - platform/external/clang - Gitiles

 //===-- CXLoadedDiagnostic.cpp - Handling of persisent diags ----*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Implements handling of persisent diagnostics.
 //
 //===----------------------------------------------------------------------===//

 #include "CXLoadedDiagnostic.h"
 #include "CXString.h"
 #include "clang/Basic/Diagnostic.h"
 #include "clang/Basic/FileManager.h"
 #include "clang/Frontend/SerializedDiagnosticPrinter.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/Twine.h"
 #include "llvm/ADT/Optional.h"
 #include "clang/Basic/LLVM.h"
 #include "llvm/Support/ErrorHandling.h"
 #include "llvm/Bitcode/BitstreamReader.h"
 #include "llvm/Support/MemoryBuffer.h"
 using namespace clang;

 //===----------------------------------------------------------------------===//
 // Extend CXDiagnosticSetImpl which contains strings for diagnostics.
 //===----------------------------------------------------------------------===//

 typedef llvm::DenseMap<unsigned, const char *> Strings;

 namespace {
 class CXLoadedDiagnosticSetImpl : public CXDiagnosticSetImpl {
 public:
   CXLoadedDiagnosticSetImpl() : CXDiagnosticSetImpl(true), FakeFiles(FO) {}
   virtual ~CXLoadedDiagnosticSetImpl() {}

   llvm::BumpPtrAllocator Alloc;
   Strings Categories;
   Strings WarningFlags;
   Strings FileNames;

   FileSystemOptions FO;
   FileManager FakeFiles;
   llvm::DenseMap<unsigned, const FileEntry *> Files;

   /// \brief Copy the string into our own allocator.
   const char *copyString(StringRef Blob) {
     char *mem = Alloc.Allocate<char>(Blob.size() + 1);
     memcpy(mem, Blob.data(), Blob.size());
     mem[Blob.size()] = '\0';
     return mem;
   }
 };
 }

 //===----------------------------------------------------------------------===//
 // Cleanup.
 //===----------------------------------------------------------------------===//

 CXLoadedDiagnostic::~CXLoadedDiagnostic() {}

 //===----------------------------------------------------------------------===//
 // Public CXLoadedDiagnostic methods.
 //===----------------------------------------------------------------------===//

 CXDiagnosticSeverity CXLoadedDiagnostic::getSeverity() const {
   // FIXME: possibly refactor with logic in CXStoredDiagnostic.
   switch (severity) {
     case DiagnosticsEngine::Ignored: return CXDiagnostic_Ignored;
     case DiagnosticsEngine::Note:    return CXDiagnostic_Note;
     case DiagnosticsEngine::Warning: return CXDiagnostic_Warning;
     case DiagnosticsEngine::Error:   return CXDiagnostic_Error;
     case DiagnosticsEngine::Fatal:   return CXDiagnostic_Fatal;
   }

   llvm_unreachable("Invalid diagnostic level");
 }

 static CXSourceLocation makeLocation(const CXLoadedDiagnostic::Location *DLoc) {
   // The lowest bit of ptr_data[0] is always set to 1 to indicate this
   // is a persistent diagnostic.
   uintptr_t V = (uintptr_t) DLoc;
   V |= 0x1;
   CXSourceLocation Loc = { {  (void*) V, 0 }, 0 };
   return Loc;
 }

 CXSourceLocation CXLoadedDiagnostic::getLocation() const {
   // The lowest bit of ptr_data[0] is always set to 1 to indicate this
   // is a persistent diagnostic.
   return makeLocation(&DiagLoc);
 }

 CXString CXLoadedDiagnostic::getSpelling() const {
   return cxstring::createRef(Spelling);
 }

 CXString CXLoadedDiagnostic::getDiagnosticOption(CXString *Disable) const {
   if (DiagOption.empty())
     return cxstring::createEmpty();

   // FIXME: possibly refactor with logic in CXStoredDiagnostic.
   if (Disable)
     *Disable = cxstring::createDup((Twine("-Wno-") + DiagOption).str());
   return cxstring::createDup((Twine("-W") + DiagOption).str());
 }

 unsigned CXLoadedDiagnostic::getCategory() const {
   return category;
 }

 CXString CXLoadedDiagnostic::getCategoryText() const {
   return cxstring::createDup(CategoryText);
 }

 unsigned CXLoadedDiagnostic::getNumRanges() const {
   return Ranges.size();
 }

 CXSourceRange CXLoadedDiagnostic::getRange(unsigned Range) const {
   assert(Range < Ranges.size());
   return Ranges[Range];
 }

 unsigned CXLoadedDiagnostic::getNumFixIts() const {
   return FixIts.size();
 }

 CXString CXLoadedDiagnostic::getFixIt(unsigned FixIt,
                                       CXSourceRange *ReplacementRange) const {
   assert(FixIt < FixIts.size());
   if (ReplacementRange)
     *ReplacementRange = FixIts[FixIt].first;
   return cxstring::createRef(FixIts[FixIt].second);
 }

 void CXLoadedDiagnostic::decodeLocation(CXSourceLocation location,
                                         CXFile *file,
                                         unsigned int *line,
                                         unsigned int *column,
                                         unsigned int *offset) {


   // CXSourceLocation consists of the following fields:
   //
   //   void *ptr_data[2];
   //   unsigned int_data;
   //
   // The lowest bit of ptr_data[0] is always set to 1 to indicate this
   // is a persistent diagnostic.
   //
   // For now, do the unoptimized approach and store the data in a side
   // data structure.  We can optimize this case later.

   uintptr_t V = (uintptr_t) location.ptr_data[0];
   assert((V & 0x1) == 1);
   V &= ~(uintptr_t)1;

   const Location &Loc = *((Location*)V);

   if (file)
     *file = Loc.file;
   if (line)
     *line = Loc.line;
   if (column)
     *column = Loc.column;
   if (offset)
     *offset = Loc.offset;
 }

 //===----------------------------------------------------------------------===//
 // Deserialize diagnostics.
 //===----------------------------------------------------------------------===//

 enum { MaxSupportedVersion = 1 };
 typedef SmallVector<uint64_t, 64> RecordData;
 enum LoadResult { Failure = 1, Success = 0 };
 enum StreamResult { Read_EndOfStream,
                     Read_BlockBegin,
                     Read_Failure,
                     Read_Record,
                     Read_BlockEnd };

 namespace {
 class DiagLoader {
   enum CXLoadDiag_Error *error;
   CXString *errorString;

   void reportBad(enum CXLoadDiag_Error code, llvm::StringRef err) {
     if (error)
       *error = code;
     if (errorString)
       *errorString = cxstring::createDup(err);
   }

   void reportInvalidFile(llvm::StringRef err) {
     return reportBad(CXLoadDiag_InvalidFile, err);
   }

   LoadResult readMetaBlock(llvm::BitstreamCursor &Stream);

   LoadResult readDiagnosticBlock(llvm::BitstreamCursor &Stream,
                                  CXDiagnosticSetImpl &Diags,
                                  CXLoadedDiagnosticSetImpl &TopDiags);

   StreamResult readToNextRecordOrBlock(llvm::BitstreamCursor &Stream,
                                        llvm::StringRef errorContext,
                                        unsigned &BlockOrRecordID,
                                        bool atTopLevel = false);


   LoadResult readString(CXLoadedDiagnosticSetImpl &TopDiags,
                         Strings &strings, llvm::StringRef errorContext,
                         RecordData &Record,
                         StringRef Blob,
                         bool allowEmptyString = false);

   LoadResult readString(CXLoadedDiagnosticSetImpl &TopDiags,
                         const char *&RetStr,
                         llvm::StringRef errorContext,
                         RecordData &Record,
                         StringRef Blob,
                         bool allowEmptyString = false);

   LoadResult readRange(CXLoadedDiagnosticSetImpl &TopDiags,
                        RecordData &Record, unsigned RecStartIdx,
                        CXSourceRange &SR);

   LoadResult readLocation(CXLoadedDiagnosticSetImpl &TopDiags,
                           RecordData &Record, unsigned &offset,
                           CXLoadedDiagnostic::Location &Loc);

 public:
   DiagLoader(enum CXLoadDiag_Error *e, CXString *es)
     : error(e), errorString(es) {
       if (error)
         *error = CXLoadDiag_None;
       if (errorString)
         *errorString = cxstring::createEmpty();
     }

   CXDiagnosticSet load(const char *file);
 };
 }

 CXDiagnosticSet DiagLoader::load(const char *file) {
   // Open the diagnostics file.
   std::string ErrStr;
   FileSystemOptions FO;
   FileManager FileMgr(FO);

   OwningPtr<llvm::MemoryBuffer> Buffer;
   Buffer.reset(FileMgr.getBufferForFile(file));

   if (!Buffer) {
     reportBad(CXLoadDiag_CannotLoad, ErrStr);
     return 0;
   }

   llvm::BitstreamReader StreamFile;
   StreamFile.init((const unsigned char *)Buffer->getBufferStart(),
                   (const unsigned char *)Buffer->getBufferEnd());

   llvm::BitstreamCursor Stream;
   Stream.init(StreamFile);

   // Sniff for the signature.
   if (Stream.Read(8) != 'D' ||
       Stream.Read(8) != 'I' ||
       Stream.Read(8) != 'A' ||
       Stream.Read(8) != 'G') {
     reportBad(CXLoadDiag_InvalidFile,
               "Bad header in diagnostics file");
     return 0;
   }

   OwningPtr<CXLoadedDiagnosticSetImpl> Diags(new CXLoadedDiagnosticSetImpl());

   while (true) {
     unsigned BlockID = 0;
     StreamResult Res = readToNextRecordOrBlock(Stream, "Top-level",
                                                BlockID, true);
     switch (Res) {
       case Read_EndOfStream:
         return (CXDiagnosticSet) Diags.take();
       case Read_Failure:
         return 0;
       case Read_Record:
         llvm_unreachable("Top-level does not have records");
       case Read_BlockEnd:
         continue;
       case Read_BlockBegin:
         break;
     }

     switch (BlockID) {
       case serialized_diags::BLOCK_META:
         if (readMetaBlock(Stream))
           return 0;
         break;
       case serialized_diags::BLOCK_DIAG:
         if (readDiagnosticBlock(Stream, *Diags.get(), *Diags.get()))
           return 0;
         break;
       default:
         if (!Stream.SkipBlock()) {
           reportInvalidFile("Malformed block at top-level of diagnostics file");
           return 0;
         }
         break;
     }
   }
 }

 StreamResult DiagLoader::readToNextRecordOrBlock(llvm::BitstreamCursor &Stream,
                                                  llvm::StringRef errorContext,
                                                  unsigned &blockOrRecordID,
                                                  bool atTopLevel) {

   blockOrRecordID = 0;

   while (!Stream.AtEndOfStream()) {
     unsigned Code = Stream.ReadCode();

     // Handle the top-level specially.
     if (atTopLevel) {
       if (Code == llvm::bitc::ENTER_SUBBLOCK) {
         unsigned BlockID = Stream.ReadSubBlockID();
         if (BlockID == llvm::bitc::BLOCKINFO_BLOCK_ID) {
           if (Stream.ReadBlockInfoBlock()) {
             reportInvalidFile("Malformed BlockInfoBlock in diagnostics file");
             return Read_Failure;
           }
           continue;
         }
         blockOrRecordID = BlockID;
         return Read_BlockBegin;
       }
       reportInvalidFile("Only blocks can appear at the top of a "
                         "diagnostic file");
       return Read_Failure;
     }

     switch ((llvm::bitc::FixedAbbrevIDs)Code) {
       case llvm::bitc::ENTER_SUBBLOCK:
         blockOrRecordID = Stream.ReadSubBlockID();
         return Read_BlockBegin;

       case llvm::bitc::END_BLOCK:
         if (Stream.ReadBlockEnd()) {
           reportInvalidFile("Cannot read end of block");
           return Read_Failure;
         }
         return Read_BlockEnd;

       case llvm::bitc::DEFINE_ABBREV:
         Stream.ReadAbbrevRecord();
         continue;

       case llvm::bitc::UNABBREV_RECORD:
         reportInvalidFile("Diagnostics file should have no unabbreviated "
                           "records");
         return Read_Failure;

       default:
         // We found a record.
         blockOrRecordID = Code;
         return Read_Record;
     }
   }

   if (atTopLevel)
     return Read_EndOfStream;

   reportInvalidFile(Twine("Premature end of diagnostics file within ").str() +
                     errorContext.str());
   return Read_Failure;
 }

 LoadResult DiagLoader::readMetaBlock(llvm::BitstreamCursor &Stream) {
   if (Stream.EnterSubBlock(clang::serialized_diags::BLOCK_META)) {
     reportInvalidFile("Malformed metadata block");
     return Failure;
   }

   bool versionChecked = false;

   while (true) {
     unsigned blockOrCode = 0;
     StreamResult Res = readToNextRecordOrBlock(Stream, "Metadata Block",
                                                blockOrCode);

     switch(Res) {
       case Read_EndOfStream:
         llvm_unreachable("EndOfStream handled by readToNextRecordOrBlock");
       case Read_Failure:
         return Failure;
       case Read_Record:
         break;
       case Read_BlockBegin:
         if (Stream.SkipBlock()) {
           reportInvalidFile("Malformed metadata block");
           return Failure;
         }
       case Read_BlockEnd:
         if (!versionChecked) {
           reportInvalidFile("Diagnostics file does not contain version"
                             " information");
           return Failure;
         }
         return Success;
     }

     RecordData Record;
     unsigned recordID = Stream.readRecord(blockOrCode, Record);

     if (recordID == serialized_diags::RECORD_VERSION) {
       if (Record.size() < 1) {
         reportInvalidFile("malformed VERSION identifier in diagnostics file");
         return Failure;
       }
       if (Record[0] > MaxSupportedVersion) {
         reportInvalidFile("diagnostics file is a newer version than the one "
                           "supported");
         return Failure;
       }
       versionChecked = true;
     }
   }
 }

 LoadResult DiagLoader::readString(CXLoadedDiagnosticSetImpl &TopDiags,
                                   const char *&RetStr,
                                   llvm::StringRef errorContext,
                                   RecordData &Record,
                                   StringRef Blob,
                                   bool allowEmptyString) {

   // Basic buffer overflow check.
   if (Blob.size() > 65536) {
     reportInvalidFile(std::string("Out-of-bounds string in ") +
                       std::string(errorContext));
     return Failure;
   }

   if (allowEmptyString && Record.size() >= 1 && Blob.size() == 0) {
     RetStr = "";
     return Success;
   }

   if (Record.size() < 1 || Blob.size() == 0) {
     reportInvalidFile(std::string("Corrupted ") + std::string(errorContext)
                       + std::string(" entry"));
     return Failure;
   }

   RetStr = TopDiags.copyString(Blob);
   return Success;
 }

 LoadResult DiagLoader::readString(CXLoadedDiagnosticSetImpl &TopDiags,
                                   Strings &strings,
                                   llvm::StringRef errorContext,
                                   RecordData &Record,
                                   StringRef Blob,
                                   bool allowEmptyString) {
   const char *RetStr;
   if (readString(TopDiags, RetStr, errorContext, Record, Blob,
                  allowEmptyString))
     return Failure;
   strings[Record[0]] = RetStr;
   return Success;
 }

 LoadResult DiagLoader::readLocation(CXLoadedDiagnosticSetImpl &TopDiags,
                                     RecordData &Record, unsigned &offset,
                                     CXLoadedDiagnostic::Location &Loc) {
   if (Record.size() < offset + 3) {
     reportInvalidFile("Corrupted source location");
     return Failure;
   }

   unsigned fileID = Record[offset++];
   if (fileID == 0) {
     // Sentinel value.
     Loc.file = 0;
     Loc.line = 0;
     Loc.column = 0;
     Loc.offset = 0;
     return Success;
   }

   const FileEntry *FE = TopDiags.Files[fileID];
   if (!FE) {
     reportInvalidFile("Corrupted file entry in source location");
     return Failure;
   }
   Loc.file = const_cast<FileEntry *>(FE);
   Loc.line = Record[offset++];
   Loc.column = Record[offset++];
   Loc.offset = Record[offset++];
   return Success;
 }

 LoadResult DiagLoader::readRange(CXLoadedDiagnosticSetImpl &TopDiags,
                                  RecordData &Record,
                                  unsigned int RecStartIdx,
                                  CXSourceRange &SR) {
   CXLoadedDiagnostic::Location *Start, *End;
   Start = TopDiags.Alloc.Allocate<CXLoadedDiagnostic::Location>();
   End = TopDiags.Alloc.Allocate<CXLoadedDiagnostic::Location>();

   if (readLocation(TopDiags, Record, RecStartIdx, *Start))
     return Failure;
   if (readLocation(TopDiags, Record, RecStartIdx, *End))
     return Failure;

   CXSourceLocation startLoc = makeLocation(Start);
   CXSourceLocation endLoc = makeLocation(End);
   SR = clang_getRange(startLoc, endLoc);
   return Success;
 }

 LoadResult DiagLoader::readDiagnosticBlock(llvm::BitstreamCursor &Stream,
                                            CXDiagnosticSetImpl &Diags,
                                            CXLoadedDiagnosticSetImpl &TopDiags){

   if (Stream.EnterSubBlock(clang::serialized_diags::BLOCK_DIAG)) {
     reportInvalidFile("malformed diagnostic block");
     return Failure;
   }

   OwningPtr<CXLoadedDiagnostic> D(new CXLoadedDiagnostic());
   RecordData Record;

   while (true) {
     unsigned blockOrCode = 0;
     StreamResult Res = readToNextRecordOrBlock(Stream, "Diagnostic Block",
                                                blockOrCode);
     switch (Res) {
       case Read_EndOfStream:
         llvm_unreachable("EndOfStream handled in readToNextRecordOrBlock");
       case Read_Failure:
         return Failure;
       case Read_BlockBegin: {
         // The only blocks we care about are subdiagnostics.
         if (blockOrCode != serialized_diags::BLOCK_DIAG) {
           if (!Stream.SkipBlock()) {
             reportInvalidFile("Invalid subblock in Diagnostics block");
             return Failure;
           }
         } else if (readDiagnosticBlock(Stream, D->getChildDiagnostics(),
                                        TopDiags)) {
           return Failure;
         }

         continue;
       }
       case Read_BlockEnd:
         Diags.appendDiagnostic(D.take());
         return Success;
       case Read_Record:
         break;
     }

     // Read the record.
     Record.clear();
     StringRef Blob;
     unsigned recID = Stream.readRecord(blockOrCode, Record, &Blob);

     if (recID < serialized_diags::RECORD_FIRST ||
         recID > serialized_diags::RECORD_LAST)
       continue;

     switch ((serialized_diags::RecordIDs)recID) {
       case serialized_diags::RECORD_VERSION:
         continue;
       case serialized_diags::RECORD_CATEGORY:
         if (readString(TopDiags, TopDiags.Categories, "category", Record,
                        Blob, /* allowEmptyString */ true))
           return Failure;
         continue;

       case serialized_diags::RECORD_DIAG_FLAG:
         if (readString(TopDiags, TopDiags.WarningFlags, "warning flag", Record,
                        Blob))
           return Failure;
         continue;

       case serialized_diags::RECORD_FILENAME: {
         if (readString(TopDiags, TopDiags.FileNames, "filename", Record,
                        Blob))
           return Failure;

         if (Record.size() < 3) {
           reportInvalidFile("Invalid file entry");
           return Failure;
         }

         const FileEntry *FE =
           TopDiags.FakeFiles.getVirtualFile(TopDiags.FileNames[Record[0]],
                                             /* size */ Record[1],
                                             /* time */ Record[2]);

         TopDiags.Files[Record[0]] = FE;
         continue;
       }

       case serialized_diags::RECORD_SOURCE_RANGE: {
         CXSourceRange SR;
         if (readRange(TopDiags, Record, 0, SR))
           return Failure;
         D->Ranges.push_back(SR);
         continue;
       }

       case serialized_diags::RECORD_FIXIT: {
         CXSourceRange SR;
         if (readRange(TopDiags, Record, 0, SR))
           return Failure;
         const char *RetStr;
         if (readString(TopDiags, RetStr, "FIXIT", Record, Blob,
                        /* allowEmptyString */ true))
           return Failure;
         D->FixIts.push_back(std::make_pair(SR, RetStr));
         continue;
       }

       case serialized_diags::RECORD_DIAG: {
         D->severity = Record[0];
         unsigned offset = 1;
         if (readLocation(TopDiags, Record, offset, D->DiagLoc))
           return Failure;
         D->category = Record[offset++];
         unsigned diagFlag = Record[offset++];
         D->DiagOption = diagFlag ? TopDiags.WarningFlags[diagFlag] : "";
         D->CategoryText = D->category ? TopDiags.Categories[D->category] : "";
         D->Spelling = TopDiags.copyString(Blob);
         continue;
       }
     }
   }
 }

 extern "C" {
 CXDiagnosticSet clang_loadDiagnostics(const char *file,
                                       enum CXLoadDiag_Error *error,
                                       CXString *errorString) {
   DiagLoader L(error, errorString);
   return L.load(file);
 }
 } // end extern 'C'.
	//===-- CXLoadedDiagnostic.cpp - Handling of persisent diags ----- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Implements handling of persisent diagnostics.
	//
	//===----------------------------------------------------------------------===//

	#include "CXLoadedDiagnostic.h"
	#include "CXString.h"
	#include "clang/Basic/Diagnostic.h"
	#include "clang/Basic/FileManager.h"
	#include "clang/Frontend/SerializedDiagnosticPrinter.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/Twine.h"
	#include "llvm/ADT/Optional.h"
	#include "clang/Basic/LLVM.h"
	#include "llvm/Support/ErrorHandling.h"
	#include "llvm/Bitcode/BitstreamReader.h"
	#include "llvm/Support/MemoryBuffer.h"
	using namespace clang;

	//===----------------------------------------------------------------------===//
	// Extend CXDiagnosticSetImpl which contains strings for diagnostics.
	//===----------------------------------------------------------------------===//

	typedef llvm::DenseMap<unsigned, const char *> Strings;

	namespace {
	class CXLoadedDiagnosticSetImpl : public CXDiagnosticSetImpl {
	public:
	CXLoadedDiagnosticSetImpl() : CXDiagnosticSetImpl(true), FakeFiles(FO) {}
	virtual ~CXLoadedDiagnosticSetImpl() {}

	llvm::BumpPtrAllocator Alloc;
	Strings Categories;
	Strings WarningFlags;
	Strings FileNames;

	FileSystemOptions FO;
	FileManager FakeFiles;
	llvm::DenseMap<unsigned, const FileEntry *> Files;

	/// \brief Copy the string into our own allocator.
	const char *copyString(StringRef Blob) {
	char *mem = Alloc.Allocate<char>(Blob.size() + 1);
	memcpy(mem, Blob.data(), Blob.size());
	mem[Blob.size()] = '\0';
	return mem;
	}
	};
	}

	//===----------------------------------------------------------------------===//
	// Cleanup.
	//===----------------------------------------------------------------------===//

	CXLoadedDiagnostic::~CXLoadedDiagnostic() {}

	//===----------------------------------------------------------------------===//
	// Public CXLoadedDiagnostic methods.
	//===----------------------------------------------------------------------===//

	CXDiagnosticSeverity CXLoadedDiagnostic::getSeverity() const {
	// FIXME: possibly refactor with logic in CXStoredDiagnostic.
	switch (severity) {
	case DiagnosticsEngine::Ignored: return CXDiagnostic_Ignored;
	case DiagnosticsEngine::Note: return CXDiagnostic_Note;
	case DiagnosticsEngine::Warning: return CXDiagnostic_Warning;
	case DiagnosticsEngine::Error: return CXDiagnostic_Error;
	case DiagnosticsEngine::Fatal: return CXDiagnostic_Fatal;
	}

	llvm_unreachable("Invalid diagnostic level");
	}

	static CXSourceLocation makeLocation(const CXLoadedDiagnostic::Location *DLoc) {
	// The lowest bit of ptr_data[0] is always set to 1 to indicate this
	// is a persistent diagnostic.
	uintptr_t V = (uintptr_t) DLoc;
	V \|= 0x1;
	CXSourceLocation Loc = { { (void*) V, 0 }, 0 };
	return Loc;
	}

	CXSourceLocation CXLoadedDiagnostic::getLocation() const {
	// The lowest bit of ptr_data[0] is always set to 1 to indicate this
	// is a persistent diagnostic.
	return makeLocation(&DiagLoc);
	}

	CXString CXLoadedDiagnostic::getSpelling() const {
	return cxstring::createRef(Spelling);
	}

	CXString CXLoadedDiagnostic::getDiagnosticOption(CXString *Disable) const {
	if (DiagOption.empty())
	return cxstring::createEmpty();

	// FIXME: possibly refactor with logic in CXStoredDiagnostic.
	if (Disable)
	*Disable = cxstring::createDup((Twine("-Wno-") + DiagOption).str());
	return cxstring::createDup((Twine("-W") + DiagOption).str());
	}

	unsigned CXLoadedDiagnostic::getCategory() const {
	return category;
	}

	CXString CXLoadedDiagnostic::getCategoryText() const {
	return cxstring::createDup(CategoryText);
	}

	unsigned CXLoadedDiagnostic::getNumRanges() const {
	return Ranges.size();
	}

	CXSourceRange CXLoadedDiagnostic::getRange(unsigned Range) const {
	assert(Range < Ranges.size());
	return Ranges[Range];
	}

	unsigned CXLoadedDiagnostic::getNumFixIts() const {
	return FixIts.size();
	}

	CXString CXLoadedDiagnostic::getFixIt(unsigned FixIt,
	CXSourceRange *ReplacementRange) const {
	assert(FixIt < FixIts.size());
	if (ReplacementRange)
	*ReplacementRange = FixIts[FixIt].first;
	return cxstring::createRef(FixIts[FixIt].second);
	}

	void CXLoadedDiagnostic::decodeLocation(CXSourceLocation location,
	CXFile *file,
	unsigned int *line,
	unsigned int *column,
	unsigned int *offset) {


	// CXSourceLocation consists of the following fields:
	//
	// void *ptr_data[2];
	// unsigned int_data;
	//
	// The lowest bit of ptr_data[0] is always set to 1 to indicate this
	// is a persistent diagnostic.
	//
	// For now, do the unoptimized approach and store the data in a side
	// data structure. We can optimize this case later.

	uintptr_t V = (uintptr_t) location.ptr_data[0];
	assert((V & 0x1) == 1);
	V &= ~(uintptr_t)1;

	const Location &Loc = ((Location)V);

	if (file)
	*file = Loc.file;
	if (line)
	*line = Loc.line;
	if (column)
	*column = Loc.column;
	if (offset)
	*offset = Loc.offset;
	}

	//===----------------------------------------------------------------------===//
	// Deserialize diagnostics.
	//===----------------------------------------------------------------------===//

	enum { MaxSupportedVersion = 1 };
	typedef SmallVector<uint64_t, 64> RecordData;
	enum LoadResult { Failure = 1, Success = 0 };
	enum StreamResult { Read_EndOfStream,
	Read_BlockBegin,
	Read_Failure,
	Read_Record,
	Read_BlockEnd };

	namespace {
	class DiagLoader {
	enum CXLoadDiag_Error *error;
	CXString *errorString;

	void reportBad(enum CXLoadDiag_Error code, llvm::StringRef err) {
	if (error)
	*error = code;
	if (errorString)
	*errorString = cxstring::createDup(err);
	}

	void reportInvalidFile(llvm::StringRef err) {
	return reportBad(CXLoadDiag_InvalidFile, err);
	}

	LoadResult readMetaBlock(llvm::BitstreamCursor &Stream);

	LoadResult readDiagnosticBlock(llvm::BitstreamCursor &Stream,
	CXDiagnosticSetImpl &Diags,
	CXLoadedDiagnosticSetImpl &TopDiags);

	StreamResult readToNextRecordOrBlock(llvm::BitstreamCursor &Stream,
	llvm::StringRef errorContext,
	unsigned &BlockOrRecordID,
	bool atTopLevel = false);


	LoadResult readString(CXLoadedDiagnosticSetImpl &TopDiags,
	Strings &strings, llvm::StringRef errorContext,
	RecordData &Record,
	StringRef Blob,
	bool allowEmptyString = false);

	LoadResult readString(CXLoadedDiagnosticSetImpl &TopDiags,
	const char *&RetStr,
	llvm::StringRef errorContext,
	RecordData &Record,
	StringRef Blob,
	bool allowEmptyString = false);

	LoadResult readRange(CXLoadedDiagnosticSetImpl &TopDiags,
	RecordData &Record, unsigned RecStartIdx,
	CXSourceRange &SR);

	LoadResult readLocation(CXLoadedDiagnosticSetImpl &TopDiags,
	RecordData &Record, unsigned &offset,
	CXLoadedDiagnostic::Location &Loc);

	public:
	DiagLoader(enum CXLoadDiag_Error e, CXString es)
	: error(e), errorString(es) {
	if (error)
	*error = CXLoadDiag_None;
	if (errorString)
	*errorString = cxstring::createEmpty();
	}

	CXDiagnosticSet load(const char *file);
	};
	}

	CXDiagnosticSet DiagLoader::load(const char *file) {
	// Open the diagnostics file.
	std::string ErrStr;
	FileSystemOptions FO;
	FileManager FileMgr(FO);

	OwningPtr<llvm::MemoryBuffer> Buffer;
	Buffer.reset(FileMgr.getBufferForFile(file));

	if (!Buffer) {
	reportBad(CXLoadDiag_CannotLoad, ErrStr);
	return 0;
	}

	llvm::BitstreamReader StreamFile;
	StreamFile.init((const unsigned char *)Buffer->getBufferStart(),
	(const unsigned char *)Buffer->getBufferEnd());

	llvm::BitstreamCursor Stream;
	Stream.init(StreamFile);

	// Sniff for the signature.
	if (Stream.Read(8) != 'D' \|\|
	Stream.Read(8) != 'I' \|\|
	Stream.Read(8) != 'A' \|\|
	Stream.Read(8) != 'G') {
	reportBad(CXLoadDiag_InvalidFile,
	"Bad header in diagnostics file");
	return 0;
	}

	OwningPtr<CXLoadedDiagnosticSetImpl> Diags(new CXLoadedDiagnosticSetImpl());

	while (true) {
	unsigned BlockID = 0;
	StreamResult Res = readToNextRecordOrBlock(Stream, "Top-level",
	BlockID, true);
	switch (Res) {
	case Read_EndOfStream:
	return (CXDiagnosticSet) Diags.take();
	case Read_Failure:
	return 0;
	case Read_Record:
	llvm_unreachable("Top-level does not have records");
	case Read_BlockEnd:
	continue;
	case Read_BlockBegin:
	break;
	}

	switch (BlockID) {
	case serialized_diags::BLOCK_META:
	if (readMetaBlock(Stream))
	return 0;
	break;
	case serialized_diags::BLOCK_DIAG:
	if (readDiagnosticBlock(Stream, Diags.get(), Diags.get()))
	return 0;
	break;
	default:
	if (!Stream.SkipBlock()) {
	reportInvalidFile("Malformed block at top-level of diagnostics file");
	return 0;
	}
	break;
	}
	}
	}

	StreamResult DiagLoader::readToNextRecordOrBlock(llvm::BitstreamCursor &Stream,
	llvm::StringRef errorContext,
	unsigned &blockOrRecordID,
	bool atTopLevel) {

	blockOrRecordID = 0;

	while (!Stream.AtEndOfStream()) {
	unsigned Code = Stream.ReadCode();

	// Handle the top-level specially.
	if (atTopLevel) {
	if (Code == llvm::bitc::ENTER_SUBBLOCK) {
	unsigned BlockID = Stream.ReadSubBlockID();
	if (BlockID == llvm::bitc::BLOCKINFO_BLOCK_ID) {
	if (Stream.ReadBlockInfoBlock()) {
	reportInvalidFile("Malformed BlockInfoBlock in diagnostics file");
	return Read_Failure;
	}
	continue;
	}
	blockOrRecordID = BlockID;
	return Read_BlockBegin;
	}
	reportInvalidFile("Only blocks can appear at the top of a "
	"diagnostic file");
	return Read_Failure;
	}

	switch ((llvm::bitc::FixedAbbrevIDs)Code) {
	case llvm::bitc::ENTER_SUBBLOCK:
	blockOrRecordID = Stream.ReadSubBlockID();
	return Read_BlockBegin;

	case llvm::bitc::END_BLOCK:
	if (Stream.ReadBlockEnd()) {
	reportInvalidFile("Cannot read end of block");
	return Read_Failure;
	}
	return Read_BlockEnd;

	case llvm::bitc::DEFINE_ABBREV:
	Stream.ReadAbbrevRecord();
	continue;

	case llvm::bitc::UNABBREV_RECORD:
	reportInvalidFile("Diagnostics file should have no unabbreviated "
	"records");
	return Read_Failure;

	default:
	// We found a record.
	blockOrRecordID = Code;
	return Read_Record;
	}
	}

	if (atTopLevel)
	return Read_EndOfStream;

	reportInvalidFile(Twine("Premature end of diagnostics file within ").str() +
	errorContext.str());
	return Read_Failure;
	}

	LoadResult DiagLoader::readMetaBlock(llvm::BitstreamCursor &Stream) {
	if (Stream.EnterSubBlock(clang::serialized_diags::BLOCK_META)) {
	reportInvalidFile("Malformed metadata block");
	return Failure;
	}

	bool versionChecked = false;

	while (true) {
	unsigned blockOrCode = 0;
	StreamResult Res = readToNextRecordOrBlock(Stream, "Metadata Block",
	blockOrCode);

	switch(Res) {
	case Read_EndOfStream:
	llvm_unreachable("EndOfStream handled by readToNextRecordOrBlock");
	case Read_Failure:
	return Failure;
	case Read_Record:
	break;
	case Read_BlockBegin:
	if (Stream.SkipBlock()) {
	reportInvalidFile("Malformed metadata block");
	return Failure;
	}
	case Read_BlockEnd:
	if (!versionChecked) {
	reportInvalidFile("Diagnostics file does not contain version"
	" information");
	return Failure;
	}
	return Success;
	}

	RecordData Record;
	unsigned recordID = Stream.readRecord(blockOrCode, Record);

	if (recordID == serialized_diags::RECORD_VERSION) {
	if (Record.size() < 1) {
	reportInvalidFile("malformed VERSION identifier in diagnostics file");
	return Failure;
	}
	if (Record[0] > MaxSupportedVersion) {
	reportInvalidFile("diagnostics file is a newer version than the one "
	"supported");
	return Failure;
	}
	versionChecked = true;
	}
	}
	}

	LoadResult DiagLoader::readString(CXLoadedDiagnosticSetImpl &TopDiags,
	const char *&RetStr,
	llvm::StringRef errorContext,
	RecordData &Record,
	StringRef Blob,
	bool allowEmptyString) {

	// Basic buffer overflow check.
	if (Blob.size() > 65536) {
	reportInvalidFile(std::string("Out-of-bounds string in ") +
	std::string(errorContext));
	return Failure;
	}

	if (allowEmptyString && Record.size() >= 1 && Blob.size() == 0) {
	RetStr = "";
	return Success;
	}

	if (Record.size() < 1 \|\| Blob.size() == 0) {
	reportInvalidFile(std::string("Corrupted ") + std::string(errorContext)
	+ std::string(" entry"));
	return Failure;
	}

	RetStr = TopDiags.copyString(Blob);
	return Success;
	}

	LoadResult DiagLoader::readString(CXLoadedDiagnosticSetImpl &TopDiags,
	Strings &strings,
	llvm::StringRef errorContext,
	RecordData &Record,
	StringRef Blob,
	bool allowEmptyString) {
	const char *RetStr;
	if (readString(TopDiags, RetStr, errorContext, Record, Blob,
	allowEmptyString))
	return Failure;
	strings[Record[0]] = RetStr;
	return Success;
	}

	LoadResult DiagLoader::readLocation(CXLoadedDiagnosticSetImpl &TopDiags,
	RecordData &Record, unsigned &offset,
	CXLoadedDiagnostic::Location &Loc) {
	if (Record.size() < offset + 3) {
	reportInvalidFile("Corrupted source location");
	return Failure;
	}

	unsigned fileID = Record[offset++];
	if (fileID == 0) {
	// Sentinel value.
	Loc.file = 0;
	Loc.line = 0;
	Loc.column = 0;
	Loc.offset = 0;
	return Success;
	}

	const FileEntry *FE = TopDiags.Files[fileID];
	if (!FE) {
	reportInvalidFile("Corrupted file entry in source location");
	return Failure;
	}
	Loc.file = const_cast<FileEntry *>(FE);
	Loc.line = Record[offset++];
	Loc.column = Record[offset++];
	Loc.offset = Record[offset++];
	return Success;
	}

	LoadResult DiagLoader::readRange(CXLoadedDiagnosticSetImpl &TopDiags,
	RecordData &Record,
	unsigned int RecStartIdx,
	CXSourceRange &SR) {
	CXLoadedDiagnostic::Location Start, End;
	Start = TopDiags.Alloc.Allocate<CXLoadedDiagnostic::Location>();
	End = TopDiags.Alloc.Allocate<CXLoadedDiagnostic::Location>();

	if (readLocation(TopDiags, Record, RecStartIdx, *Start))
	return Failure;
	if (readLocation(TopDiags, Record, RecStartIdx, *End))
	return Failure;

	CXSourceLocation startLoc = makeLocation(Start);
	CXSourceLocation endLoc = makeLocation(End);
	SR = clang_getRange(startLoc, endLoc);
	return Success;
	}

	LoadResult DiagLoader::readDiagnosticBlock(llvm::BitstreamCursor &Stream,
	CXDiagnosticSetImpl &Diags,
	CXLoadedDiagnosticSetImpl &TopDiags){

	if (Stream.EnterSubBlock(clang::serialized_diags::BLOCK_DIAG)) {
	reportInvalidFile("malformed diagnostic block");
	return Failure;
	}

	OwningPtr<CXLoadedDiagnostic> D(new CXLoadedDiagnostic());
	RecordData Record;

	while (true) {
	unsigned blockOrCode = 0;
	StreamResult Res = readToNextRecordOrBlock(Stream, "Diagnostic Block",
	blockOrCode);
	switch (Res) {
	case Read_EndOfStream:
	llvm_unreachable("EndOfStream handled in readToNextRecordOrBlock");
	case Read_Failure:
	return Failure;
	case Read_BlockBegin: {
	// The only blocks we care about are subdiagnostics.
	if (blockOrCode != serialized_diags::BLOCK_DIAG) {
	if (!Stream.SkipBlock()) {
	reportInvalidFile("Invalid subblock in Diagnostics block");
	return Failure;
	}
	} else if (readDiagnosticBlock(Stream, D->getChildDiagnostics(),
	TopDiags)) {
	return Failure;
	}

	continue;
	}
	case Read_BlockEnd:
	Diags.appendDiagnostic(D.take());
	return Success;
	case Read_Record:
	break;
	}

	// Read the record.
	Record.clear();
	StringRef Blob;
	unsigned recID = Stream.readRecord(blockOrCode, Record, &Blob);

	if (recID < serialized_diags::RECORD_FIRST \|\|
	recID > serialized_diags::RECORD_LAST)
	continue;

	switch ((serialized_diags::RecordIDs)recID) {
	case serialized_diags::RECORD_VERSION:
	continue;
	case serialized_diags::RECORD_CATEGORY:
	if (readString(TopDiags, TopDiags.Categories, "category", Record,
	Blob, /* allowEmptyString */ true))
	return Failure;
	continue;

	case serialized_diags::RECORD_DIAG_FLAG:
	if (readString(TopDiags, TopDiags.WarningFlags, "warning flag", Record,
	Blob))
	return Failure;
	continue;

	case serialized_diags::RECORD_FILENAME: {
	if (readString(TopDiags, TopDiags.FileNames, "filename", Record,
	Blob))
	return Failure;

	if (Record.size() < 3) {
	reportInvalidFile("Invalid file entry");
	return Failure;
	}

	const FileEntry *FE =
	TopDiags.FakeFiles.getVirtualFile(TopDiags.FileNames[Record[0]],
	/* size */ Record[1],
	/* time */ Record[2]);

	TopDiags.Files[Record[0]] = FE;
	continue;
	}

	case serialized_diags::RECORD_SOURCE_RANGE: {
	CXSourceRange SR;
	if (readRange(TopDiags, Record, 0, SR))
	return Failure;
	D->Ranges.push_back(SR);
	continue;
	}

	case serialized_diags::RECORD_FIXIT: {
	CXSourceRange SR;
	if (readRange(TopDiags, Record, 0, SR))
	return Failure;
	const char *RetStr;
	if (readString(TopDiags, RetStr, "FIXIT", Record, Blob,
	/* allowEmptyString */ true))
	return Failure;
	D->FixIts.push_back(std::make_pair(SR, RetStr));
	continue;
	}

	case serialized_diags::RECORD_DIAG: {
	D->severity = Record[0];
	unsigned offset = 1;
	if (readLocation(TopDiags, Record, offset, D->DiagLoc))
	return Failure;
	D->category = Record[offset++];
	unsigned diagFlag = Record[offset++];
	D->DiagOption = diagFlag ? TopDiags.WarningFlags[diagFlag] : "";
	D->CategoryText = D->category ? TopDiags.Categories[D->category] : "";
	D->Spelling = TopDiags.copyString(Blob);
	continue;
	}
	}
	}
	}

	extern "C" {
	CXDiagnosticSet clang_loadDiagnostics(const char *file,
	enum CXLoadDiag_Error *error,
	CXString *errorString) {
	DiagLoader L(error, errorString);
	return L.load(file);
	}
	} // end extern 'C'.