Example #1
0
void TestDocReader::TestTOCFields()
{
	DocReader dr;
	dr.OpenFile(TEST_TOC_DOC);

	CStdStringW sGot = dr.GetMainDocumentText();
	CStdStringW sExp = L"Table of Contents\rTable of Contents\t1\rNote\t4\rAppendix B – Calculation of font (FTC) and language (LID)\t178\r\r";

	for (unsigned int i=0; i<(x64_int_cast)sGot.size(); i++)
	{
		switch (sGot[i])
		{
		case 19:
			OutputDebugString(_T("<start>"));
			break;
		case 20:
			OutputDebugString(_T("<result>"));
			break;
		case 21:
			OutputDebugString(_T("<end>"));
			break;
		default:
			{
				CStdStringW s = sGot.Mid(i,1);
				OutputDebugString(CStdString(s));
			}
		}
	}

	assertTest(sGot.Left(sExp.length()) == sExp);
}
Example #2
0
void TestDocReader::TestExtractBodyTextOnly()
{
	DocReader dr;
	dr.OpenFile(TEST_REALLY_COMPLEX_DOC);

	CStdStringW sDocText = dr.GetMainDocumentText();

	assertTest(sDocText.Left(9) == L"Once upon");
	assertTest(sDocText.Right(12) == L"ever after.\r");

	assertMessage(sDocText.Find(L"Nested") != -1, _T("expected to get the nested table contents, but didnt"));
	assertMessage(sDocText.Find(L"Four") != -1, _T("expected to get the table contents, but didnt"));
	assertMessage(sDocText.Find(L"a comment") == -1, _T("didnt expect to get the comment contents, but did"));
	assertMessage(sDocText.Find(L"header") == -1, _T("didnt expect to get the header contents, but did"));
	assertMessage(sDocText.Find(L"footer") == -1, _T("didnt expect to get the footer contents, but did"));
	assertMessage(sDocText.Find(L"text box") == -1, _T("didnt expect to get the text box contents, but did"));

	assertMessage(sDocText.Find(L"MERGEFORMAT") == -1, _T("didnt expect to get the field code contents, but did"));
	assertMessage(sDocText.Find(L"allsorts") != -1, _T("expected to get the field result contents, but didny"));
	assertMessage(sDocText.Find(L"be footnote") == -1, _T("didnt expect to get the footnote, but did"));

	assertMessage(sDocText.Find(L"Line Break\013") != -1, _T("expected char 11 as line break"));
	assertMessage(sDocText.Find(L"Section Break\014") != -1, _T("expected char 12 as section break"));
//	assertMessage(sDocText.Find(L"Symbol Char\050") != -1, _T("expected char 40 as symbol char"));
	assertMessage(sDocText.Find(L"NonBreakSpace\240char") != -1, _T("expected char 160 as non breaking space"));
	//assertMessage(sDocText.Find(L"EnDash\226") != -1, _T("expected char 150 as En dash"));
	//assertMessage(sDocText.Find(L"EnDash\227") != -1, _T("expected char 150 as Em dash"));
//	assertMessage(sDocText.Find(L"the \025 document") != -1, _T("expected char 21 as field char"));

	assertMessage(sDocText.Find(L"One\007Two") != -1, _T("expected char 7 as cell char"));

}
Example #3
0
void CGUIEditControl::RecalcLabelPosition()
{
  if (!m_label.font) return;

  // ensure that our cursor is within our width
  ValidateCursor();

  CStdStringW text = GetDisplayedText();
  m_textWidth = m_textLayout2.GetTextWidth(text + L'|');
  m_textHeight = m_textLayout2.GetTextHeight(1);
  float beforeCursorWidth = m_textLayout2.GetTextWidth(text.Left(m_cursorPos));
  float afterCursorWidth = m_textLayout2.GetTextWidth(text.Left(m_cursorPos) + L'|');
  float leftTextWidth = m_textLayout.GetTextWidth();
  float maxTextWidth = m_width - m_label.offsetX*2;
  if (leftTextWidth > 0)
    maxTextWidth -= leftTextWidth + spaceWidth;

  // if skinner forgot to set height :p
  if (m_height == 0)
    m_height = 2*m_label.font->GetTextHeight(1);

  if (m_textWidth > maxTextWidth)
  { // we render taking up the full width, so make sure our cursor position is
    // within the render window
    if (m_textOffset + afterCursorWidth > maxTextWidth)
    { 
      // move the position to the left (outside of the viewport)
      m_textOffset = maxTextWidth - afterCursorWidth;
    }
    else if (m_textOffset + beforeCursorWidth < 0) // offscreen to the left
    {
      // otherwise use original position
      m_textOffset = -beforeCursorWidth;
    }
    else if (m_textOffset + m_textWidth < maxTextWidth)
    { // we have more text than we're allowed, but we aren't filling all the space
      m_textOffset = maxTextWidth - m_textWidth;
    }
  }
  else
    m_textOffset = 0;
}
Example #4
0
void TestDocReader::TestTableChanges()
{
	DocReader dr;
	dr.OpenFile(TEST_TABLE_TC_DOC);

	CStdStringW sGot = dr.GetMainDocumentText();
	CStdStringW sExp = L"Some stuff before the table\r\rA\07e\07d\07d\07c\07B\07C";


	assertTest(sGot.Left(sExp.length()) == sExp);
}
void CAcceleratorManager::UpdateMenu(HMENU menu)
{
  int count = GetMenuItemCount(menu);

  MENUITEMINFO info;
  wchar_t ss[128];
  ZeroMemory(&info, sizeof(info));
  info.cbSize = sizeof(info);
  info.fMask = MIIM_ID | MIIM_SUBMENU;
  for(int i = 0; i < count; i++) {
    GetMenuItemInfo(menu, i, TRUE, &info);

    if(info.hSubMenu != NULL) {
      UpdateMenu(info.hSubMenu);
    } else {
      if(info.wID != -1) {
        MENUITEMINFOW info2;
        ZeroMemory(&info2, sizeof(info2));
        info2.cbSize = sizeof(info2);
        info2.fMask = MIIM_STRING;
        info2.dwTypeData = ss;
        info2.cch = 128;
        GetMenuItemInfoW(menu, i, MF_BYPOSITION, &info2);
        CStdStringW str = ss;
        int index = str.Find('\t');
        if(index != -1)
          str = str.Left(index);

        CMapWordToCCmdAccelOb::iterator it = m_mapAccelTable.find(info.wID);

        if(it != m_mapAccelTable.end()) {
          CCmdAccelOb *o = it->second;
          if(o->m_Accels.begin() != o->m_Accels.end()) {
            std::list<CAccelsOb*>::iterator j = o->m_Accels.begin();

            CAccelsOb *accel = *j;

            CStdString s;
            accel->GetString(s);
            str += "\t";
            str += s;
          }
        }
        if(str != ss)
          ModifyMenuW(menu, i, MF_BYPOSITION | MF_STRING, info.wID, str);
      }
    }
  }
}
Example #6
0
bool CWIN32Util::IsUsbDevice(const CStdStringW &strWdrive)
{
  CStdStringW strWDevicePath;
  strWDevicePath.Format(L"\\\\.\\%s",strWdrive.Left(2));

  HANDLE deviceHandle = CreateFileW(
    strWDevicePath.c_str(),
   0,                // no access to the drive
   FILE_SHARE_READ | // share mode
   FILE_SHARE_WRITE,
   NULL,             // default security attributes
   OPEN_EXISTING,    // disposition
   0,                // file attributes
   NULL);            // do not copy file attributes

  if(deviceHandle == INVALID_HANDLE_VALUE)
    return false;

  // setup query
  STORAGE_PROPERTY_QUERY query;
  memset(&query, 0, sizeof(query));
  query.PropertyId = StorageDeviceProperty;
  query.QueryType = PropertyStandardQuery;

  // issue query
  DWORD bytes;
  STORAGE_DEVICE_DESCRIPTOR devd;
  STORAGE_BUS_TYPE busType = BusTypeUnknown;

  if (DeviceIoControl(deviceHandle,
   IOCTL_STORAGE_QUERY_PROPERTY,
   &query, sizeof(query),
   &devd, sizeof(devd),
   &bytes, NULL))
  {
   busType = devd.BusType;
  }

  CloseHandle(deviceHandle);

  return BusTypeUsb == busType;
 }
Example #7
0
void CWIN32Util::GetDrivesByType(VECSOURCES &localDrives, Drive_Types eDriveType, bool bonlywithmedia)
{
  WCHAR* pcBuffer= NULL;
  DWORD dwStrLength= GetLogicalDriveStringsW( 0, pcBuffer );
  if( dwStrLength != 0 )
  {
    CMediaSource share;
    
    dwStrLength+= 1;
    pcBuffer= new WCHAR [dwStrLength];
    GetLogicalDriveStringsW( dwStrLength, pcBuffer );

    int iPos= 0;
    WCHAR cVolumeName[100];
    do{
      int nResult = 0;
      cVolumeName[0]= L'\0';

      CStdStringW strWdrive = pcBuffer + iPos;
      
      UINT uDriveType= GetDriveTypeW( strWdrive.c_str()  );
      // don't use GetVolumeInformation on fdd's as the floppy controller may be enabled in Bios but
      // no floppy HW is attached which causes huge delays.
      if(!strWdrive.Left(2).Equals(L"A:") && !strWdrive.Left(2).Equals(L"B:"))
        nResult= GetVolumeInformationW( strWdrive.c_str() , cVolumeName, 100, 0, 0, 0, NULL, 25);
      if(nResult == 0 && bonlywithmedia)
      {
        iPos += (wcslen( pcBuffer + iPos) + 1 );
        continue;
      }
      share.strPath= share.strName= "";

      bool bUseDCD= false;
      if( uDriveType > DRIVE_UNKNOWN && 
        (( eDriveType == ALL_DRIVES && (uDriveType == DRIVE_FIXED || uDriveType == DRIVE_REMOTE || uDriveType == DRIVE_CDROM || uDriveType == DRIVE_REMOVABLE )) ||
         ( eDriveType == LOCAL_DRIVES && (uDriveType == DRIVE_FIXED || uDriveType == DRIVE_REMOTE)) ||
         ( eDriveType == REMOVABLE_DRIVES && ( uDriveType == DRIVE_REMOVABLE )) ||
         ( eDriveType == DVD_DRIVES && ( uDriveType == DRIVE_CDROM ))))
      {
        //share.strPath = strWdrive;
        g_charsetConverter.wToUTF8(strWdrive, share.strPath);
        if( cVolumeName[0] != L'\0' )
          g_charsetConverter.wToUTF8(cVolumeName, share.strName);
        if( uDriveType == DRIVE_CDROM && nResult)
        {
          // Has to be the same as auto mounted devices
          share.strStatus = share.strName;
          share.strName = share.strPath;
          share.m_iDriveType= CMediaSource::SOURCE_TYPE_LOCAL;
          bUseDCD= true;
        }
        else
        {
          // Lets show it, like Windows explorer do... TODO: sorting should depend on driver letter
          switch(uDriveType)
          {
          case DRIVE_CDROM:
            share.strName.Format( "%s (%s)", share.strPath, g_localizeStrings.Get(218));
            break;
          case DRIVE_REMOVABLE:
            if(share.strName.IsEmpty())
              share.strName.Format( "%s (%s)", g_localizeStrings.Get(437), share.strPath);
            break;
          case DRIVE_UNKNOWN:
            share.strName.Format( "%s (%s)", share.strPath, g_localizeStrings.Get(13205));
            break;
          default:
            if(share.strName.empty())
              share.strName = share.strPath;
            else
              share.strName.Format( "%s (%s)", share.strPath, share.strName);
            break;
          }
        }
        share.strName.Replace(":\\",":");
        share.strPath.Replace(":\\",":");
        share.m_ignore= true;
        if( !bUseDCD )
        {
          share.m_iDriveType= (
           ( uDriveType == DRIVE_FIXED  )    ? CMediaSource::SOURCE_TYPE_LOCAL :
           ( uDriveType == DRIVE_REMOTE )    ? CMediaSource::SOURCE_TYPE_REMOTE :
           ( uDriveType == DRIVE_CDROM  )    ? CMediaSource::SOURCE_TYPE_DVD :
           ( uDriveType == DRIVE_REMOVABLE ) ? CMediaSource::SOURCE_TYPE_REMOVABLE :
             CMediaSource::SOURCE_TYPE_UNKNOWN );
        }

        AddOrReplace(localDrives, share);
      }
      iPos += (wcslen( pcBuffer + iPos) + 1 );
    } while( wcslen( pcBuffer + iPos ) > 0 );
    delete[] pcBuffer;
  }
}
Example #8
0
DWORD GetLongPathName (CStdStringW strShortPath, CStdStringW &strLongPath)
{
	int iFound = strShortPath.ReverseFind (L'\\');

	if (iFound > 1)
	{
		// recurse to peel off components
		//
		if (GetLongPathName(strShortPath.Left (iFound), strLongPath) > 0)
		{
			strLongPath += L'\\';
				
				if (strShortPath.Right(1) != L"\\")
				{
					HANDLE hFind;

					if (g_bIsNT)
					{
						WIN32_FIND_DATAW findData;
						
						// append the long component name to the path
						//
						if (INVALID_HANDLE_VALUE != (hFind = ::FindFirstFileW (strShortPath, &findData)))
						{
							strLongPath += findData.cFileName;
							::FindClose (hFind);
						}
						else
						{
							// if FindFirstFile fails, return the error code
							//
							strLongPath.Empty();
							return 0;
						}
					}
					else
					{
						WIN32_FIND_DATAA findData;
						
						// append the long component name to the path
						//
						if (INVALID_HANDLE_VALUE != (hFind = ::FindFirstFileA (CStdStringA (strShortPath), &findData)))
						{
							strLongPath += findData.cFileName;
							::FindClose (hFind);
						}
						else
						{
							// if FindFirstFile fails, return the error code
							//
							strLongPath.Empty();
							return 0;
						}
					}
				}
		}
	}
	else
	{
		strLongPath = strShortPath;
	}
	
	return strLongPath.GetLength();
}