示例#1
0
//Warning: This assumes that both files are CLOSED
bool IndexedEdictFile::buildIndex()
{
  KProcess proc;
  proc << QStandardPaths::findExecutable("kitengen") << m_dictFile.fileName() << m_indexFile.fileName();
  proc.start();
  proc.waitForStarted();

  do
  {
    QApplication::processEvents();
  } while( proc.waitForFinished( 5000 ) ); //FIXME: This just cuts the index generator off after 5 sec

  //FIXME: Check for the result of this operation
  return proc.exitStatus() == QProcess::NormalExit && proc.exitCode() == 0;
}
void QGpgMECryptoConfigComponent::runGpgConf()
{
  const QString gpgconf = QGpgMECryptoConfig::gpgConfPath();
  if ( gpgconf.isEmpty() ) {
      kWarning(5150) << "Can't get path to gpgconf executable...";
      return;
  }

  // Run gpgconf --list-options <component>, and create all groups and entries for that component
  KProcess proc;
  proc << gpgconf;
  proc << "--list-options";
  proc << mName;

  //kDebug(5150) <<"Running gpgconf --list-options" << mName;

  connect( &proc, SIGNAL(readyReadStandardOutput()),
           this, SLOT(slotCollectStdOut()) );
  mCurrentGroup = 0;

  // run the process:
  int rc = 0;
  proc.setOutputChannelMode( KProcess::OnlyStdoutChannel );
  proc.start();
  if ( !proc.waitForFinished() )
    rc = -2;
  else if ( proc.exitStatus() == QProcess::NormalExit )
    rc = proc.exitCode();
  else
    rc = -1;

  if( rc != 0 ) // can happen when using the wrong version of gpg...
    kWarning(5150) <<"Running 'gpgconf --list-options" << mName <<"' failed." << strerror( rc ) <<", but try that command to see the real output";
  else {
    if ( mCurrentGroup && !mCurrentGroup->mEntriesNaturalOrder.empty() ) { // only add non-empty groups
      mGroupsByName.insert( mCurrentGroupName, mCurrentGroup );
      mGroupsNaturalOrder.push_back( std::make_pair( mCurrentGroupName, mCurrentGroup ) );
    }
  }
}
void QGpgMECryptoConfig::runGpgConf( bool showErrors )
{
  // Run gpgconf --list-components to make the list of components
  KProcess process;

  process << gpgConfPath();
  process << "--list-components";


  connect( &process, SIGNAL(readyReadStandardOutput()),
           this, SLOT(slotCollectStdOut()) );

  // run the process:
  int rc = 0;
  process.setOutputChannelMode( KProcess::OnlyStdoutChannel );
  process.start();
  if ( !process.waitForFinished() )
    rc = -2;
  else if ( process.exitStatus() == QProcess::NormalExit )
    rc = process.exitCode();
  else
    rc = -1;

  // handle errors, if any (and if requested)
  if ( showErrors && rc != 0 ) {
    QString reason;
    if ( rc == -1 )
        reason = i18n( "program terminated unexpectedly" );
    else if ( rc == -2 )
        reason = i18n( "program not found or cannot be started" );
    else
      reason = QString::fromLocal8Bit( strerror(rc) ); // XXX errno as an exit code?
    QString wmsg = i18n("<qt>Failed to execute gpgconf:<p>%1</p></qt>", reason);
    kWarning(5150) << wmsg; // to see it from test_cryptoconfig.cpp
    KMessageBox::error(0, wmsg);
  }
  mParsed = true;
}
示例#4
0
bool ImageGrayScale::image2GrayScaleImageMagick(const QString& src, const QString& dest, QString& err)
{
    KProcess process;
    process.clearProgram();
    process << "convert";
    process << "-type" << "Grayscale";
    process << src + QString("[0]") << dest;

    kDebug( 51000 ) << "ImageMagick Command line: " << process.program() << endl;

    process.start();

    if (!process.waitForFinished())
        return false;

    if (process.exitStatus() != QProcess::NormalExit)
        return false;

    switch (process.exitCode())
    {
        case 0:  // Process finished successfully !
        {
            return true;
            break;
        }
        case 15: //  process aborted !
        {
            return false;
            break;
        }
    }

    // Processing error !
    m_stdErr = process.readAllStandardError();
    err      = i18n("Cannot convert to gray scale: %1", m_stdErr.replace('\n', ' '));
    return false;
}
bool ImageRotate::rotateImageMagick(const QString& src, const QString& dest, 
                                    RotateAction angle, QString& err)
{
    KProcess process;
    process.clearProgram();
    process << "convert";
    process << "-rotate";

    switch(angle)
    {
        case (Rot90):
        {
            process << "90";
            break;
        }
        case (Rot180):
        {
            process << "180";
            break;
        }
        case (Rot270):
        {
            process << "270";
            break;
        }
        case (Rot0):
        {
            break;
        }
        default:
        {
            kError() << "ImageRotate: Nonstandard rotation angle";
            err = i18n("Nonstandard rotation angle");
            return false;
        }
    }

    process << src + QString("[0]") << dest;

    kDebug() << "ImageMagick Command line: " << process.program();

    process.start();

    if (!process.waitForFinished())
        return false;

    if (process.exitStatus() != QProcess::NormalExit)
        return false;

    switch (process.exitCode())
    {
        case 0:  // Process finished successfully !
        {
            return true;
            break;
        }
        case 15: //  process aborted !
        {
            return false;
            break;
        }
    }

    // Processing error !
    m_stdErr = process.readAllStandardError();
    err      = i18n("Cannot rotate: %1", m_stdErr.replace('\n', ' '));
    return false;
}
示例#6
0
文件: utils.cpp 项目: UIKit0/digikam
bool Utils::updateMetadataImageMagick(const QString& src, QString& err)
{
    QFileInfo finfo(src);
    if (src.isEmpty() || !finfo.isReadable())
    {
        err = i18n("unable to open source file");
        return false;
    }

    QImage img(src);
    QImage iptcPreview   = img.scaled(1280, 1024, Qt::KeepAspectRatio, Qt::SmoothTransformation);
    QImage exifThumbnail = iptcPreview.scaled(160, 120, Qt::KeepAspectRatio, Qt::SmoothTransformation);

    KExiv2Iface::KExiv2 meta;
    meta.load(src);
    meta.setImageOrientation(KExiv2Iface::KExiv2::ORIENTATION_NORMAL);
    meta.setImageProgramId(QString("Kipi-plugins"), QString(kipiplugins_version));
    meta.setImageDimensions(img.size());
    meta.setExifThumbnail(exifThumbnail);
    meta.setImagePreview(iptcPreview);

#if KEXIV2_VERSION >= 0x010000
    QByteArray exifData = meta.getExifEncoded(true);
#else
    QByteArray exifData = meta.getExif(true);
#endif

    QByteArray iptcData = meta.getIptc(true);
    QByteArray xmpData  = meta.getXmp();

    KTemporaryFile exifTemp;
    exifTemp.setSuffix(QString("kipipluginsexif.app1"));
    exifTemp.setAutoRemove(true);
    if ( !exifTemp.open() )
    {
        err = i18n("unable to open temp file");
        return false;
    }
    QString exifFile = exifTemp.fileName();
    QDataStream streamExif( &exifTemp );
    streamExif.writeRawData(exifData.data(), exifData.size());
    exifTemp.close();

    KTemporaryFile iptcTemp;
    iptcTemp.setSuffix(QString("kipipluginsiptc.8bim"));
    iptcTemp.setAutoRemove(true);
    iptcTemp.open();
    if ( !iptcTemp.open() )
    {
        err = i18n("Cannot rotate: unable to open temp file");
        return false;
    }
    QString iptcFile = iptcTemp.fileName();
    QDataStream streamIptc( &iptcTemp );
    streamIptc.writeRawData(iptcData.data(), iptcData.size());
    iptcTemp.close();

    KTemporaryFile xmpTemp;
    xmpTemp.setSuffix(QString("kipipluginsxmp.xmp"));
    xmpTemp.setAutoRemove(true);
    if ( !xmpTemp.open() )
    {
        err = i18n("unable to open temp file");
        return false;
    }
    QString xmpFile = xmpTemp.fileName();
    QDataStream streamXmp( &xmpTemp );
    streamXmp.writeRawData(xmpData.data(), xmpData.size());
    xmpTemp.close();

    KProcess process;
    process.clearProgram();
    process << "mogrify";

    process << "-profile";
    process << exifFile;

    process << "-profile";
    process << iptcFile;

    process << "-profile";
    process << xmpFile;

    process << src + QString("[0]");

    kDebug() << "ImageMagick Command line: " << process.program();

    process.start();

    if (!process.waitForFinished())
        return false;

    if (process.exitStatus() != QProcess::NormalExit)
        return false;

    switch (process.exitCode())
    {
        case 0:  // Process finished successfully !
        {
            return true;
            break;
        }
        case 15: //  process aborted !
        {
            return false;
            break;
        }
    }

    // Processing error !
    m_stdErr = process.readAllStandardError();
    err      = i18n("Cannot update metadata: %1", m_stdErr.replace('\n', ' '));
    return false;
}
示例#7
0
Defines MsvcCompiler::defines(const QString&) const
{
    Defines ret;
    //Get standard macros from kdevmsvcdefinehelpers
    KProcess proc;
    proc.setOutputChannelMode( KProcess::MergedChannels );
    proc.setTextModeEnabled( true );

    // we want to use kdevmsvcdefinehelper as a pseudo compiler backend which
    // returns the defines used in msvc. there is no such thing as -dM with cl.exe
    proc << path() << "/nologo" << "/Bxkdevmsvcdefinehelper" << "empty.cpp";

    // this will fail, so check on that as well
    if ( proc.execute( 5000 ) == 2 ) {
        QString line;
        proc.readLine(); // read the filename

        while ( proc.canReadLine() ) {
            QByteArray buff = proc.readLine();
            definesAndIncludesDebug() << "msvcstandardmacros:" << buff;
            if ( !buff.isEmpty() ) {
                line = buff;
                if ( line.startsWith( "#define " ) ) {
                    line = line.right( line.length() - 8 ).trimmed();
                    int pos = line.indexOf( ' ' );

                    if ( pos != -1 ) {
                        ret[line.left( pos )] = line.right( line.length() - pos - 1 ).toUtf8();
                    } else {
                        ret[line] = "";
                    }
                }
            }
        }
    } else {
        definesAndIncludesDebug() << "Unable to read standard c++ macro definitions from " + path();
        while ( proc.canReadLine() ){
            definesAndIncludesDebug()  << proc.readLine();
        }
        definesAndIncludesDebug()  << proc.exitCode();
    }

    // MSVC builtin attributes
    {
        ret["__cdecl"] = "";
        ret["__fastcall"] = "";
        ret["__stdcall"] = "";
        ret["__thiscall"] = "";
    }

    // MSVC builtin types
    // see http://msdn.microsoft.com/en-us/library/cc953fe1.aspx
    {
        ret["__int8"] = "char";
        ret["__int16"] = "short";
        ret["__int32"] = "int";
        ret["__int64"] = "long long";
        ret["__int16"] = "short";
        ret["__ptr32"] = "";
        ret["__ptr64"] = "";
    }

    // MSVC specific modifiers
    // see http://msdn.microsoft.com/en-us/library/vstudio/s04b5w00.aspx
    {
        ret["__sptr"] = "";
        ret["__uptr"] = "";
        ret["__unaligned"] = "";
        ret["__w64"] = "";
    }

    // MSVC function specifiers
    // see http://msdn.microsoft.com/de-de/library/z8y1yy88.aspx
    {
        ret["__inline"] = "";
        ret["__forceinline"] = "";
    }

    return ret;
}