Esempio n. 1
0
void SortStrings(const UStringVector &src, UStringVector &dest)
{
  CIntVector indices;
  SortStringsToIndices(src, indices);
  dest.Clear();
  dest.Reserve(indices.Size());
  for (int i = 0; i < indices.Size(); i++)
    dest.Add(src[indices[i]]);
}
void EnumerateDirItemsAndSort(NWildcard::CCensor &wildcardCensor,
    UStringVector &sortedPaths,
    UStringVector &sortedFullPaths)
{
  UStringVector paths;
  {
    CDirItems dirItems;
    {
      UStringVector errorPaths;
      CRecordVector<DWORD> errorCodes;
      HRESULT res = EnumerateItems(wildcardCensor, dirItems, NULL, errorPaths, errorCodes);
      if (res != S_OK || errorPaths.Size() > 0)
        throw "cannot find archive";
    }
    for (int i = 0; i < dirItems.Items.Size(); i++)
    {
      const CDirItem &dirItem = dirItems.Items[i];
      if (!dirItem.IsDir())
        paths.Add(dirItems.GetPhyPath(i));
    }
  }
  
  if (paths.Size() == 0)
    throw "there is no such archive";
  
  UStringVector fullPaths;
  
  int i;
  for (i = 0; i < paths.Size(); i++)
  {
    UString fullPath;
    NFile::NDirectory::MyGetFullPathName(paths[i], fullPath);
    fullPaths.Add(fullPath);
  }
  CIntVector indices;
  SortFileNames(fullPaths, indices);
  sortedPaths.Reserve(indices.Size());
  sortedFullPaths.Reserve(indices.Size());
  for (i = 0; i < indices.Size(); i++)
  {
    int index = indices[i];
    sortedPaths.Add(paths[index]);
    sortedFullPaths.Add(fullPaths[index]);
  }
}
Esempio n. 3
0
static void TestDuplicateString(const UStringVector &strings, const CIntVector &indices)
{
  for(int i = 0; i + 1 < indices.Size(); i++)
    if (MyFileNameCompare(strings[indices[i]], strings[indices[i + 1]]) == 0)
    {
      UString message = kDuplicateFileNameMessage;
      message += L"\n";
      message += strings[indices[i]];
      message += L"\n";
      message += strings[indices[i + 1]];
      throw message;
    }
}
Esempio n. 4
0
HRESULT OpenArchive(
    CCodecs *codecs,
    IInStream *inStream,
    const UString &fileName, 
    IInArchive **archiveResult, 
    int &formatIndex,
    UString &defaultItemName,
    IArchiveOpenCallback *openArchiveCallback)
{
  *archiveResult = NULL;
  UString extension;
  {
    int dotPos = fileName.ReverseFind(L'.');
    if (dotPos >= 0)
      extension = fileName.Mid(dotPos + 1);
  }
  CIntVector orderIndices;
  int i;
  int numFinded = 0;
  for (i = 0; i < codecs->Formats.Size(); i++)
    if (codecs->Formats[i].FindExtension(extension) >= 0)
      orderIndices.Insert(numFinded++, i);
    else
      orderIndices.Add(i);
  
  #ifndef _SFX
  if (numFinded != 1)
  {
    CIntVector orderIndices2;
    CByteBuffer byteBuffer;
    const UInt32 kBufferSize = (200 << 10);
    byteBuffer.SetCapacity(kBufferSize);
    Byte *buffer = byteBuffer;
    RINOK(inStream->Seek(0, STREAM_SEEK_SET, NULL));
    UInt32 processedSize;
    RINOK(ReadStream(inStream, buffer, kBufferSize, &processedSize));
    for (UInt32 pos = 0; pos < processedSize; pos++)
    {
      for (int i = 0; i < orderIndices.Size(); i++)
      {
        int index = orderIndices[i];
        const CArcInfoEx &ai = codecs->Formats[index];
        const CByteBuffer &sig = ai.StartSignature;
        if (sig.GetCapacity() == 0)
          continue;
        if (pos + sig.GetCapacity() > processedSize)
          continue;
        if (TestSignature(buffer + pos, sig, sig.GetCapacity()))
        {
          orderIndices2.Add(index);
          orderIndices.Delete(i--);
        }
      }
    }
    orderIndices2 += orderIndices;
    orderIndices = orderIndices2;

/* begin: extracted from 4.65 */
    if (orderIndices.Size() >= 2)
    {
      int isoIndex = codecs->FindFormatForArchiveType(L"iso");
      int udfIndex = codecs->FindFormatForArchiveType(L"udf");
      int iIso = -1;
      int iUdf = -1;
      for (int i = 0; i < orderIndices.Size(); i++)
      {
        if (orderIndices[i] == isoIndex) iIso = i;
        if (orderIndices[i] == udfIndex) iUdf = i;
      }
      if (iUdf == iIso + 1)
      {
        orderIndices[iUdf] = isoIndex;
        orderIndices[iIso] = udfIndex;
      }
    }
/* end: extracted from 4.65 */
  }
  else if (extension == L"000" || extension == L"001")
  {
    CByteBuffer byteBuffer;
    const UInt32 kBufferSize = (1 << 10);
    byteBuffer.SetCapacity(kBufferSize);
    Byte *buffer = byteBuffer;
    RINOK(inStream->Seek(0, STREAM_SEEK_SET, NULL));
    UInt32 processedSize;
    RINOK(ReadStream(inStream, buffer, kBufferSize, &processedSize));
    if (processedSize >= 16)
    {
      Byte kRarHeader[] = {0x52 , 0x61, 0x72, 0x21, 0x1a, 0x07, 0x00};
      if (TestSignature(buffer, kRarHeader, 7) && buffer[9] == 0x73 && (buffer[10] && 1) != 0)
      {
        for (int i = 0; i < orderIndices.Size(); i++)
        {
          int index = orderIndices[i];
          const CArcInfoEx &ai = codecs->Formats[index];
          if (ai.Name.CompareNoCase(L"rar") != 0)
            continue;
          orderIndices.Delete(i--);
          orderIndices.Insert(0, index);
          break;
        }
      }
    }
  }
  #endif

  HRESULT badResult = S_OK;
  for(i = 0; i < orderIndices.Size(); i++)
  {
    inStream->Seek(0, STREAM_SEEK_SET, NULL);

    CMyComPtr<IInArchive> archive;

    formatIndex = orderIndices[i];
    RINOK(codecs->CreateInArchive(formatIndex, archive));
    if (!archive)
      continue;

    #ifdef EXTERNAL_CODECS
    {
      CMyComPtr<ISetCompressCodecsInfo> setCompressCodecsInfo;
      archive.QueryInterface(IID_ISetCompressCodecsInfo, (void **)&setCompressCodecsInfo);
      if (setCompressCodecsInfo)
      {
        RINOK(setCompressCodecsInfo->SetCompressCodecsInfo(codecs));
      }
    }
    #endif

    HRESULT result = archive->Open(inStream, &kMaxCheckStartPosition, openArchiveCallback);
    if (result == S_FALSE)
      continue;
    if(result != S_OK)
    {
      badResult = result;
      if(result == E_ABORT)
        break;
      continue;
    }
    *archiveResult = archive.Detach();
    const CArcInfoEx &format = codecs->Formats[formatIndex];
    if (format.Exts.Size() == 0)
    {
      defaultItemName = GetDefaultName2(fileName, L"", L"");
    }
    else
    {
      int subExtIndex = format.FindExtension(extension);
      if (subExtIndex < 0)
        subExtIndex = 0;
      defaultItemName = GetDefaultName2(fileName, 
          format.Exts[subExtIndex].Ext, 
          format.Exts[subExtIndex].AddExt);
    }
    return S_OK;
  }
  if (badResult != S_OK)
    return badResult;
  return S_FALSE;
}
Esempio n. 5
0
HRESULT CArchiveLink::Open(
    CCodecs *codecs,
    const CIntVector &formatIndices,
    bool stdInMode,
    IInStream *stream,
    const UString &filePath,
    IArchiveOpenCallback *callback)
{
  Release();
  if (formatIndices.Size() >= 32)
    return E_NOTIMPL;
  
  HRESULT resSpec;

  for (;;)
  {
    resSpec = S_OK;
    int formatIndex = -1;
    if (formatIndices.Size() >= 1)
    {
      if (Arcs.Size() >= formatIndices.Size())
        break;
      formatIndex = formatIndices[formatIndices.Size() - Arcs.Size() - 1];
    }
    else if (Arcs.Size() >= 32)
      break;

    if (Arcs.IsEmpty())
    {
      CArc arc;
      arc.Path = filePath;
      arc.SubfileIndex = (UInt32)(Int32)-1;
      RINOK(arc.OpenStreamOrFile(codecs, formatIndex, stdInMode, stream, callback));
      Arcs.Add(arc);
      continue;
    }
    
    const CArc &arc = Arcs.Back();
    
    resSpec = (formatIndices.Size() == 0 ? S_OK : E_NOTIMPL);
    
    UInt32 mainSubfile;
    {
      NCOM::CPropVariant prop;
      RINOK(arc.Archive->GetArchiveProperty(kpidMainSubfile, &prop));
      if (prop.vt == VT_UI4)
        mainSubfile = prop.ulVal;
      else
        break;
      UInt32 numItems;
      RINOK(arc.Archive->GetNumberOfItems(&numItems));
      if (mainSubfile >= numItems)
        break;
    }

  
    CMyComPtr<IInArchiveGetStream> getStream;
    if (arc.Archive->QueryInterface(IID_IInArchiveGetStream, (void **)&getStream) != S_OK || !getStream)
      break;
    
    CMyComPtr<ISequentialInStream> subSeqStream;
    if (getStream->GetStream(mainSubfile, &subSeqStream) != S_OK || !subSeqStream)
      break;
    
    CMyComPtr<IInStream> subStream;
    if (subSeqStream.QueryInterface(IID_IInStream, &subStream) != S_OK || !subStream)
      break;
    
    CArc arc2;
    RINOK(arc.GetItemPath(mainSubfile, arc2.Path));
    
    CMyComPtr<IArchiveOpenSetSubArchiveName> setSubArchiveName;
    callback->QueryInterface(IID_IArchiveOpenSetSubArchiveName, (void **)&setSubArchiveName);
    if (setSubArchiveName)
      setSubArchiveName->SetSubArchiveName(arc2.Path);
    
    arc2.SubfileIndex = mainSubfile;
    HRESULT result = arc2.OpenStream(codecs, formatIndex, subStream, NULL, callback);
    resSpec = (formatIndices.Size() == 0 ? S_OK : S_FALSE);
    if (result == S_FALSE)
      break;
    RINOK(result);
    RINOK(arc.GetItemMTime(mainSubfile, arc2.MTime, arc2.MTimeDefined));
    Arcs.Add(arc2);
  }
  IsOpen = !Arcs.IsEmpty();
  return S_OK;
}
Esempio n. 6
0
HRESULT CArc::OpenStream(
    CCodecs *codecs,
    int formatIndex,
    IInStream *stream,
    ISequentialInStream *seqStream,
    IArchiveOpenCallback *callback)
{
  Archive.Release();
  ErrorMessage.Empty();
  const UString fileName = ExtractFileNameFromPath(Path);
  UString extension;
  {
    int dotPos = fileName.ReverseFind(L'.');
    if (dotPos >= 0)
      extension = fileName.Mid(dotPos + 1);
  }
  CIntVector orderIndices;
  if (formatIndex >= 0)
    orderIndices.Add(formatIndex);
  else
  {

  int i;
  int numFinded = 0;
  for (i = 0; i < codecs->Formats.Size(); i++)
    if (codecs->Formats[i].FindExtension(extension) >= 0)
      orderIndices.Insert(numFinded++, i);
    else
      orderIndices.Add(i);
  
  if (!stream)
  {
    if (numFinded != 1)
      return E_NOTIMPL;
    orderIndices.DeleteFrom(1);
  }

  #ifndef _SFX
  if (orderIndices.Size() >= 2 && (numFinded == 0 || extension.CompareNoCase(L"exe") == 0))
  {
    CIntVector orderIndices2;
    CByteBuffer byteBuffer;
    const size_t kBufferSize = (1 << 21);
    byteBuffer.SetCapacity(kBufferSize);
    RINOK(stream->Seek(0, STREAM_SEEK_SET, NULL));
    size_t processedSize = kBufferSize;
    RINOK(ReadStream(stream, byteBuffer, &processedSize));
    if (processedSize == 0)
      return S_FALSE;

    const Byte *buf = byteBuffer;
    CByteBuffer hashBuffer;
    const UInt32 kNumVals = 1 << (kNumHashBytes * 8);
    hashBuffer.SetCapacity(kNumVals);
    Byte *hash = hashBuffer;
    memset(hash, 0xFF, kNumVals);
    Byte prevs[256];
    if (orderIndices.Size() >= 256)
      return S_FALSE;
    int i;
    for (i = 0; i < orderIndices.Size(); i++)
    {
      const CArcInfoEx &ai = codecs->Formats[orderIndices[i]];
      const CByteBuffer &sig = ai.StartSignature;
      if (sig.GetCapacity() < kNumHashBytes)
        continue;
      UInt32 v = HASH_VAL(sig, 0);
      prevs[i] = hash[v];
      hash[v] = (Byte)i;
    }

    processedSize -= (kNumHashBytes - 1);
    for (UInt32 pos = 0; pos < processedSize; pos++)
    {
      for (; pos < processedSize && hash[HASH_VAL(buf, pos)] == 0xFF; pos++);
      if (pos == processedSize)
        break;
      UInt32 v = HASH_VAL(buf, pos);
      Byte *ptr = &hash[v];
      int i = *ptr;
      do
      {
        int index = orderIndices[i];
        const CArcInfoEx &ai = codecs->Formats[index];
        const CByteBuffer &sig = ai.StartSignature;
        if (sig.GetCapacity() != 0 && pos + sig.GetCapacity() <= processedSize + (kNumHashBytes - 1) &&
            TestSignature(buf + pos, sig, sig.GetCapacity()))
        {
          orderIndices2.Add(index);
          orderIndices[i] = 0xFF;
          *ptr = prevs[i];
        }
        else
          ptr = &prevs[i];
        i = *ptr;
      }
      while (i != 0xFF);
    }
    
    for (i = 0; i < orderIndices.Size(); i++)
    {
      int val = orderIndices[i];
      if (val != 0xFF)
        orderIndices2.Add(val);
    }
    orderIndices = orderIndices2;
  }
  else if (extension == L"000" || extension == L"001")
  {
    CByteBuffer byteBuffer;
    const size_t kBufferSize = (1 << 10);
    byteBuffer.SetCapacity(kBufferSize);
    Byte *buffer = byteBuffer;
    RINOK(stream->Seek(0, STREAM_SEEK_SET, NULL));
    size_t processedSize = kBufferSize;
    RINOK(ReadStream(stream, buffer, &processedSize));
    if (processedSize >= 16)
    {
      Byte kRarHeader[] = {0x52 , 0x61, 0x72, 0x21, 0x1a, 0x07, 0x00};
      if (TestSignature(buffer, kRarHeader, 7) && buffer[9] == 0x73 && (buffer[10] & 1) != 0)
      {
        for (int i = 0; i < orderIndices.Size(); i++)
        {
          int index = orderIndices[i];
          const CArcInfoEx &ai = codecs->Formats[index];
          if (ai.Name.CompareNoCase(L"rar") != 0)
            continue;
          orderIndices.Delete(i--);
          orderIndices.Insert(0, index);
          break;
        }
      }
    }
  }
  if (orderIndices.Size() >= 2)
  {
    int isoIndex = codecs->FindFormatForArchiveType(L"iso");
    int udfIndex = codecs->FindFormatForArchiveType(L"udf");
    int iIso = -1;
    int iUdf = -1;
    for (int i = 0; i < orderIndices.Size(); i++)
    {
      if (orderIndices[i] == isoIndex) iIso = i;
      if (orderIndices[i] == udfIndex) iUdf = i;
    }
    if (iUdf > iIso && iIso >= 0)
    {
      orderIndices[iUdf] = isoIndex;
      orderIndices[iIso] = udfIndex;
    }
  }

  #endif
  }

  for (int i = 0; i < orderIndices.Size(); i++)
  {
    if (stream)
    {
      RINOK(stream->Seek(0, STREAM_SEEK_SET, NULL));
    }
    CMyComPtr<IInArchive> archive;

    FormatIndex = orderIndices[i];
    RINOK(codecs->CreateInArchive(FormatIndex, archive));
    if (!archive)
      continue;

    #ifdef EXTERNAL_CODECS
    {
      CMyComPtr<ISetCompressCodecsInfo> setCompressCodecsInfo;
      archive.QueryInterface(IID_ISetCompressCodecsInfo, (void **)&setCompressCodecsInfo);
      if (setCompressCodecsInfo)
      {
        RINOK(setCompressCodecsInfo->SetCompressCodecsInfo(codecs));
      }
    }
    #endif

    // OutputDebugStringW(codecs->Formats[FormatIndex].Name);

    HRESULT result;
    if (stream)
      result = archive->Open(stream, &kMaxCheckStartPosition, callback);
    else
    {
      CMyComPtr<IArchiveOpenSeq> openSeq;
      archive.QueryInterface(IID_IArchiveOpenSeq, (void **)&openSeq);
      if (!openSeq)
        return E_NOTIMPL;
      result = openSeq->OpenSeq(seqStream);
    }

    if (result == S_FALSE)
      continue;
    RINOK(result);

    {
      NCOM::CPropVariant prop;
      archive->GetArchiveProperty(kpidError, &prop);
      if (prop.vt != VT_EMPTY)
        ErrorMessage = (prop.vt == VT_BSTR) ? prop.bstrVal : L"Unknown error";
    }
    
    Archive = archive;
    const CArcInfoEx &format = codecs->Formats[FormatIndex];
    if (format.Exts.Size() == 0)
      DefaultName = GetDefaultName2(fileName, L"", L"");
    else
    {
      int subExtIndex = format.FindExtension(extension);
      if (subExtIndex < 0)
        subExtIndex = 0;
      const CArcExtInfo &extInfo = format.Exts[subExtIndex];
      DefaultName = GetDefaultName2(fileName, extInfo.Ext, extInfo.AddExt);
    }
    return S_OK;
  }
  return S_FALSE;
}
void CArchiveCommandLineParser::Parse2(CArchiveCommandLineOptions &options)
{
  const UStringVector &nonSwitchStrings = parser.NonSwitchStrings;
  int numNonSwitchStrings = nonSwitchStrings.Size();
  if(numNonSwitchStrings < kMinNonSwitchWords)  
    ThrowUserErrorException();

  if (!ParseArchiveCommand(nonSwitchStrings[kCommandIndex], options.Command))
    ThrowUserErrorException();

  options.TechMode = parser[NKey::kTechMode].ThereIs;

  if (parser[NKey::kCaseSensitive].ThereIs)
    g_CaseSensitive = (parser[NKey::kCaseSensitive].PostCharIndex < 0);

  NRecursedType::EEnum recursedType;
  if (parser[NKey::kRecursed].ThereIs)
    recursedType = GetRecursedTypeFromIndex(parser[NKey::kRecursed].PostCharIndex);
  else
    recursedType = NRecursedType::kNonRecursed;

  UINT codePage = CP_UTF8;
  if (parser[NKey::kCharSet].ThereIs)
  {
    UString name = parser[NKey::kCharSet].PostStrings.Front();
    name.MakeUpper();
    int i;
    for (i = 0; i < kNumCodePages; i++)
    {
      const CCodePagePair &pair = g_CodePagePairs[i];
      if (name.Compare(pair.Name) == 0)
      {
        codePage = pair.CodePage;
        break;
      }
    }
    if (i >= kNumCodePages)
      ThrowUserErrorException();
  }

  bool thereAreSwitchIncludes = false;
  if (parser[NKey::kInclude].ThereIs)
  {
    thereAreSwitchIncludes = true;
    AddSwitchWildCardsToCensor(options.WildcardCensor, 
        parser[NKey::kInclude].PostStrings, true, recursedType, codePage);
  }
  if (parser[NKey::kExclude].ThereIs)
    AddSwitchWildCardsToCensor(options.WildcardCensor, 
        parser[NKey::kExclude].PostStrings, false, recursedType, codePage);
 
  int curCommandIndex = kCommandIndex + 1;
  bool thereIsArchiveName = !parser[NKey::kNoArName].ThereIs && 
      options.Command.CommandType != NCommandType::kBenchmark && 
      options.Command.CommandType != NCommandType::kInfo;
  if (thereIsArchiveName)
  {
    if(curCommandIndex >= numNonSwitchStrings)  
      ThrowUserErrorException();
    options.ArchiveName = nonSwitchStrings[curCommandIndex++];
  }

  AddToCensorFromNonSwitchesStrings(
      curCommandIndex, options.WildcardCensor, 
      nonSwitchStrings, recursedType, thereAreSwitchIncludes, codePage);

  options.YesToAll = parser[NKey::kYes].ThereIs;

  bool isExtractGroupCommand = options.Command.IsFromExtractGroup();

  options.PasswordEnabled = parser[NKey::kPassword].ThereIs;

  if(options.PasswordEnabled)
    options.Password = parser[NKey::kPassword].PostStrings[0];

  options.StdInMode = parser[NKey::kStdIn].ThereIs;
  options.ShowDialog = parser[NKey::kShowDialog].ThereIs;

  if(isExtractGroupCommand || options.Command.CommandType == NCommandType::kList)
  {
    if (options.StdInMode)
      ThrowException("Reading archives from stdin is not implemented");
    if (!options.WildcardCensor.AllAreRelative())
      ThrowException("Cannot use absolute pathnames for this command");

    NWildcard::CCensor archiveWildcardCensor;

    if (parser[NKey::kArInclude].ThereIs)
    {
      AddSwitchWildCardsToCensor(archiveWildcardCensor, 
        parser[NKey::kArInclude].PostStrings, true, NRecursedType::kNonRecursed, codePage);
    }
    if (parser[NKey::kArExclude].ThereIs)
      AddSwitchWildCardsToCensor(archiveWildcardCensor, 
      parser[NKey::kArExclude].PostStrings, false, NRecursedType::kNonRecursed, codePage);

    if (thereIsArchiveName)
      AddCommandLineWildCardToCensr(archiveWildcardCensor, options.ArchiveName, true, NRecursedType::kNonRecursed);

    #ifdef _WIN32
    ConvertToLongNames(archiveWildcardCensor);
    #endif

    archiveWildcardCensor.ExtendExclude();

    CObjectVector<CDirItem> dirItems;
    {
      UStringVector errorPaths;
      CRecordVector<DWORD> errorCodes;
      HRESULT res = EnumerateItems(archiveWildcardCensor, dirItems, NULL, errorPaths, errorCodes);
      if (res != S_OK || errorPaths.Size() > 0)
        throw "cannot find archive";
    }
    UStringVector archivePaths;
    int i;
    for (i = 0; i < dirItems.Size(); i++)
    {
      const CDirItem &dirItem = dirItems[i];
      if (!dirItem.IsDirectory())
        archivePaths.Add(dirItem.FullPath);
    }

    if (archivePaths.Size() == 0)
      throw "there is no such archive";

    UStringVector archivePathsFull;

    for (i = 0; i < archivePaths.Size(); i++)
    {
      UString fullPath;
      NFile::NDirectory::MyGetFullPathName(archivePaths[i], fullPath);
      archivePathsFull.Add(fullPath);
    }
    CIntVector indices;
    SortFileNames(archivePathsFull, indices);
    options.ArchivePathsSorted.Reserve(indices.Size());
    options.ArchivePathsFullSorted.Reserve(indices.Size());
    for (i = 0; i < indices.Size(); i++)
    {
      options.ArchivePathsSorted.Add(archivePaths[indices[i]]);
      options.ArchivePathsFullSorted.Add(archivePathsFull[indices[i]]);
    }

    if (isExtractGroupCommand)
    {
      SetMethodOptions(parser, options.ExtractProperties); 
      if (options.StdOutMode && options.IsStdOutTerminal && options.IsStdErrTerminal)
        throw kSameTerminalError;
      if(parser[NKey::kOutputDir].ThereIs)
      {
        options.OutputDir = parser[NKey::kOutputDir].PostStrings[0];
        NFile::NName::NormalizeDirPathPrefix(options.OutputDir);
      }

      options.OverwriteMode = NExtract::NOverwriteMode::kAskBefore;
      if(parser[NKey::kOverwrite].ThereIs)
        options.OverwriteMode = 
            k_OverwriteModes[parser[NKey::kOverwrite].PostCharIndex];
      else if (options.YesToAll)
        options.OverwriteMode = NExtract::NOverwriteMode::kWithoutPrompt;
    }
  }
  else if(options.Command.IsFromUpdateGroup())
  {
    CUpdateOptions &updateOptions = options.UpdateOptions;

    if(parser[NKey::kArchiveType].ThereIs)
      options.ArcType = parser[NKey::kArchiveType].PostStrings[0];

    SetAddCommandOptions(options.Command.CommandType, parser, updateOptions); 
    
    SetMethodOptions(parser, updateOptions.MethodMode.Properties); 

    if (parser[NKey::kShareForWrite].ThereIs)
      updateOptions.OpenShareForWrite = true;

    options.EnablePercents = !parser[NKey::kDisablePercents].ThereIs;

    if (options.EnablePercents)
    {
      if ((options.StdOutMode && !options.IsStdErrTerminal) || 
         (!options.StdOutMode && !options.IsStdOutTerminal))  
        options.EnablePercents = false;
    }

    updateOptions.EMailMode = parser[NKey::kEmail].ThereIs;
    if (updateOptions.EMailMode)
    {
      updateOptions.EMailAddress = parser[NKey::kEmail].PostStrings.Front();
      if (updateOptions.EMailAddress.Length() > 0)
        if (updateOptions.EMailAddress[0] == L'.')
        {
          updateOptions.EMailRemoveAfter = true;
          updateOptions.EMailAddress.Delete(0);
        }
    }

    updateOptions.StdOutMode = options.StdOutMode;
    updateOptions.StdInMode = options.StdInMode;

    if (updateOptions.StdOutMode && updateOptions.EMailMode)
      throw "stdout mode and email mode cannot be combined";
    if (updateOptions.StdOutMode && options.IsStdOutTerminal)
      throw kTerminalOutError;
    if(updateOptions.StdInMode)
      updateOptions.StdInFileName = parser[NKey::kStdIn].PostStrings.Front();

    #ifdef _WIN32
    ConvertToLongNames(options.WildcardCensor);
    #endif
  }
  else if(options.Command.CommandType == NCommandType::kBenchmark)
  {
    options.NumThreads = (UInt32)-1;
    options.DictionarySize = (UInt32)-1;
    options.NumIterations = 1;
    if (curCommandIndex < numNonSwitchStrings)  
    {
      if (!ConvertStringToUInt32(nonSwitchStrings[curCommandIndex++], options.NumIterations))
        ThrowUserErrorException();
    }
    for (int i = 0; i < parser[NKey::kProperty].PostStrings.Size(); i++)
    {
      UString postString = parser[NKey::kProperty].PostStrings[i];
      postString.MakeUpper();
      if (postString.Length() < 2)
        ThrowUserErrorException();
      if (postString[0] == 'D')
      {
        int pos = 1;
        if (postString[pos] == '=')
          pos++;
        UInt32 logSize;
        if (!ConvertStringToUInt32((const wchar_t *)postString + pos, logSize))
          ThrowUserErrorException();
        if (logSize > 31)
          ThrowUserErrorException();
        options.DictionarySize = 1 << logSize;
      }
      else if (postString[0] == 'M' && postString[1] == 'T' )
      {
        int pos = 2;
        if (postString[pos] == '=')
          pos++;
        if (postString[pos] != 0)
          if (!ConvertStringToUInt32((const wchar_t *)postString + pos, options.NumThreads))
            ThrowUserErrorException();
      }
      else if (postString[0] == 'M' && postString[1] == '=' )
      {
        int pos = 2;
        if (postString[pos] != 0)
          options.Method = postString.Mid(2);
      }
      else
        ThrowUserErrorException();
    }
  }
  else if(options.Command.CommandType == NCommandType::kInfo)
  {
  }
  else 
    ThrowUserErrorException();
  options.WildcardCensor.ExtendExclude();
}