[modules/hydro.git] / src / HYDROData / HYDROData_Image.cxx

#include "HYDROData_Image.h"

#include "HYDROData_Iterator.h"
#include "HYDROOperations_Factory.h"
#include "HYDROData_Tool.h"

#include <TDataStd_RealArray.hxx>
#include <TDataStd_ByteArray.hxx>
#include <TDataStd_IntegerArray.hxx>
#include <TDataStd_ReferenceList.hxx>
#include <TDataStd_Name.hxx>
#include <TDataStd_UAttribute.hxx>
#include <TDataStd_AsciiString.hxx>
#include <TDF_ListIteratorOfLabelList.hxx>

#include <ImageComposer_Operator.h>
#include <ImageComposer_MetaTypes.h>

#include <QStringList>

static const Standard_GUID GUID_MUST_BE_UPDATED("80f2bb81-3873-4631-8ddd-940d2119f000");
static const Standard_GUID GUID_SELF_SPLITTED("997995aa-5c19-40bf-9a60-ab4b70ad04d8");

#define PYTHON_IMAGE_ID "KIND_IMAGE"

IMPLEMENT_STANDARD_HANDLE(HYDROData_Image, HYDROData_Object)
IMPLEMENT_STANDARD_RTTIEXT(HYDROData_Image, HYDROData_Object)

HYDROData_Image::HYDROData_Image()
{
}

HYDROData_Image::~HYDROData_Image()
{
}

QStringList HYDROData_Image::DumpToPython( MapOfTreatedObjects& theTreatedObjects ) const
{
  QStringList aResList;

  Handle(HYDROData_Document) aDocument = HYDROData_Document::Document( this );
  if ( aDocument.IsNull() )
    return aResList;
                             
  QString aDocName = aDocument->GetDocPyName();
  QString anImageName = GetName();

  aResList << QString( "%1 = %2.CreateObject( %3 );" )
              .arg( anImageName ).arg( aDocName ).arg( PYTHON_IMAGE_ID );
  aResList << QString( "%1.SetName( \"%2\" );" )
              .arg( anImageName ).arg( anImageName );

  QString aFilePath = GetFilePath();
  if ( !aFilePath.isEmpty() )
  {
    aResList << QString( "" );
    aResList << QString( "%1.LoadImage( \"%2\" );" )
                .arg( anImageName ).arg( aFilePath );
  }
  else
  {
    // Image is composed from other image(s)

    QString anOperatorName = OperatorName();
    if ( !anOperatorName.isEmpty() )
    {
      aResList << QString( "" );

      aResList << QString( "%1.SetOperatorName( \"%2\" );" )
                  .arg( anImageName ).arg( anOperatorName );

      ImageComposer_Operator* anImageOp = HYDROOperations_Factory::Factory()->Operator( this );
      if ( anImageOp )
      {
        // Dump operation arguments
        QString anOpArgsArrayName;
        QStringList anOpArgs = anImageOp->dumpArgsToPython( anOpArgsArrayName );
        if ( !anOpArgs.isEmpty() )
        {
          aResList << QString( "" );
          aResList << anOpArgs;

          aResList << QString( "" );
          aResList << QString( "%1.SetArgs( %2 );" )
                      .arg( anImageName ).arg( anOpArgsArrayName );
        }
      }
    }
    
    int aNbReferences = NbReferences();
    if ( aNbReferences > 0 )
    {
      aResList << QString( "" );

      for ( int i = 0; i < aNbReferences; ++i )
      {
        Handle(HYDROData_Image) aRefImg = Handle(HYDROData_Image)::DownCast( Reference( i ) );
        if ( aRefImg.IsNull() )
          continue;

        QString aRefImgName = aRefImg->GetName();

        // The definition of reference image must be dumped before this
        if ( !theTreatedObjects.contains( aRefImgName ) )
        {
          // Write definition of reference image
          QStringList aRefImgDump = aRefImg->DumpToPython( theTreatedObjects );
          if ( aRefImgDump.isEmpty() )
            continue;

          QStringList aTmpList = aResList;
          aResList = aRefImgDump;

          aResList.append( "" );
          aResList.append( aTmpList );

          theTreatedObjects.insert( aRefImgName, aRefImg );
        }

        aResList << QString( "%1.AppendReference( %2 );" )
                    .arg( anImageName ).arg( aRefImgName );
      }
    }

    // Necessary to update image in case of composed operator
    aResList << QString( "" );
    aResList << QString( "%1.Update();" ).arg( anImageName );
  }

  // Dump transformation matrix for image
  aResList << QString( "" );

  QTransform aTrsf = Trsf();

  aResList << QString( "trsf = QTransform( %2, %3, %4," )
              .arg( aTrsf.m11() ).arg( aTrsf.m12() ).arg( aTrsf.m13() );
  aResList << QString( "                   %1, %2, %3," )
              .arg( aTrsf.m21() ).arg( aTrsf.m22() ).arg( aTrsf.m23() );
  aResList << QString( "                   %1, %2, %3 );" )
              .arg( aTrsf.m31() ).arg( aTrsf.m32() ).arg( aTrsf.m33() );

  aResList << QString( "%1.SetTrsf( trsf );" ).arg( anImageName );

  // Dump transformation points for image
  aResList << QString( "" );

  QPoint aPointAIn,  aPointBIn,  aPointCIn;
  QPointF aPointAOut, aPointBOut, aPointCOut;
  TrsfPoints( aPointAIn,  aPointBIn,  aPointCIn,
              aPointAOut, aPointBOut, aPointCOut );

  aResList << QString( "a_in = QPoint( %1, %2 );" )
              .arg( aPointAIn.x() ).arg( aPointAIn.y() );

  aResList << QString( "b_in = QPoint( %1, %2 );" )
              .arg( aPointBIn.x() ).arg( aPointBIn.y() );

  aResList << QString( "c_in = QPoint( %1, %2 );" )
              .arg( aPointCIn.x() ).arg( aPointCIn.y() );

  aResList << QString( "a_out = QPointF( %1, %2 );" )
              .arg( aPointAOut.x() ).arg( aPointAOut.y() );

  aResList << QString( "b_out = QPointF( %1, %2 );" )
              .arg( aPointBOut.x() ).arg( aPointBOut.y() );

  aResList << QString( "c_out = QPointF( %1, %2 );" )
              .arg( aPointCOut.x() ).arg( aPointCOut.y() );

  QString aGap = QString().fill( ' ', anImageName.size() + 16 );
  aResList << QString( "%1.SetTrsfPoints( a_in,  b_in,  c_in," ).arg( anImageName );
  aResList << QString( aGap            + "a_out, b_out, c_out );" );

  return aResList;
}

void HYDROData_Image::Update()
{
  HYDROOperations_Factory* aFactory = HYDROOperations_Factory::Factory();

  // Update image only if there is an operation
  ImageComposer_Operator* anOp = aFactory->Operator( this );
  if ( anOp ) 
  {
    // Fill by arguments and process the operation
    QVariant anObj1, anObj2;
    int aNbReferences = NbReferences();

    if ( aNbReferences > 0 )
    {
      // First referenced object
      Handle(HYDROData_Object) aRefObj = Reference( 0 );
      if ( !aRefObj.IsNull() )
      {
        anObj1 = aRefObj->GetDataVariant();
        if ( !anObj1.isNull() && anObj1.canConvert<ImageComposer_Image>() )
        {
          ImageComposer_Image anImage = anObj1.value<ImageComposer_Image>();
          QTransform aTransform = anImage.transform();
          SetTrsf( aTransform );
        }
      }
    }

    if ( aNbReferences > 1 )
    {
      // Second referenced object
      Handle(HYDROData_Object) aRefObj = Reference( 1 );
      if ( !aRefObj.IsNull() )
        anObj2 = aRefObj->GetDataVariant();
    }

    ImageComposer_Image aResImg = anOp->process( anObj1, anObj2 );
    SetImage( aResImg );
  }

  Handle(HYDROData_Document) aDocument = HYDROData_Document::Document( this );
  if ( !aDocument.IsNull() )
  {
    // Change the states of this and all depended images
    MustBeUpdated( true );
    HYDROData_Tool::SetMustBeUpdatedImages( aDocument );
    MustBeUpdated( false );
  }
}

QVariant HYDROData_Image::GetDataVariant()
{
  QTransform aTransform = Trsf();

  ImageComposer_Image anImage = Image();
  anImage.setTransform( aTransform );

  QVariant aVarData;
  aVarData.setValue<ImageComposer_Image>( anImage );
  
  return aVarData;
}

void HYDROData_Image::SetImage(const QImage& theImage)
{
  if (theImage.isNull()) {
    // for empty image remove all previously stored attributes
    myLab.ForgetAttribute(TDataStd_IntegerArray::GetID());
    myLab.ForgetAttribute(TDataStd_ByteArray::GetID());
    return;
  }
  // store width, height, bytes per line and format in integer array 
  Handle(TDataStd_IntegerArray) aParams;
  if (!myLab.FindAttribute(TDataStd_IntegerArray::GetID(), aParams)) {
    aParams = TDataStd_IntegerArray::Set(myLab, 1, 4);
  }
  aParams->SetValue(1, theImage.width());
  aParams->SetValue(2, theImage.height());
  aParams->SetValue(3, theImage.bytesPerLine());
  aParams->SetValue(4, (int)(theImage.format()));
  // store data of image in byte array
  const char* aData = (const char*)(theImage.bits());
  SaveByteArray(0, aData, theImage.byteCount());
}

bool HYDROData_Image::LoadImage(const QString& theFilePath)
{
  QImage anImage( theFilePath );
  SetImage( anImage );
  return !anImage.isNull();
}

QImage HYDROData_Image::Image()
{
  Handle(TDataStd_IntegerArray) aParams;
  if (!myLab.FindAttribute(TDataStd_IntegerArray::GetID(), aParams))
    return QImage(); // return empty image if there is no array
  int aLen = 0;
  uchar* anArray = (uchar*)ByteArray(0, aLen);
  if (!aLen)
    return QImage(); // return empty image if there is no array
  QImage aResult(anArray, aParams->Value(1), aParams->Value(2),
                 aParams->Value(3), QImage::Format(aParams->Value(4)));
  return aResult;
}

void HYDROData_Image::SetFilePath(const QString& theFilePath)
{
  TCollection_AsciiString anAsciiStr( theFilePath.toStdString().c_str() );
  TDataStd_AsciiString::Set( myLab.FindChild( DataTag_FilePath ), anAsciiStr );
}

QString HYDROData_Image::GetFilePath() const
{
  QString aRes;

  Handle(TDataStd_AsciiString) anAsciiStr;
  if ( myLab.FindChild( DataTag_FilePath ).FindAttribute( TDataStd_AsciiString::GetID(), anAsciiStr ) )
    aRes = QString( anAsciiStr->Get().ToCString() );

  return aRes;
}

void HYDROData_Image::SetTrsf(const QTransform& theTrsf)
{
  // locate 9 coeffs of matrix into the real array
  Handle(TDataStd_RealArray) anArray;
  if (!myLab.FindAttribute(TDataStd_RealArray::GetID(), anArray)) {
    if (theTrsf.isIdentity()) return; // no need to store identity transformation
    anArray = TDataStd_RealArray::Set(myLab, 1, 9);
  }
  anArray->SetValue(1, theTrsf.m11());
  anArray->SetValue(2, theTrsf.m12());
  anArray->SetValue(3, theTrsf.m13());
  anArray->SetValue(4, theTrsf.m21());
  anArray->SetValue(5, theTrsf.m22());
  anArray->SetValue(6, theTrsf.m23());
  anArray->SetValue(7, theTrsf.m31());
  anArray->SetValue(8, theTrsf.m32());
  anArray->SetValue(9, theTrsf.m33());
}

QTransform HYDROData_Image::Trsf() const
{
  // get 9 coeffs of matrix from the real array
  Handle(TDataStd_RealArray) anArray;
  if (!myLab.FindAttribute(TDataStd_RealArray::GetID(), anArray))
    return QTransform(); // return identity if there is no array
  QTransform aTrsf(
    anArray->Value(1), anArray->Value(2), anArray->Value(3), 
    anArray->Value(4), anArray->Value(5), anArray->Value(6), 
    anArray->Value(7), anArray->Value(8), anArray->Value(9));
  return aTrsf;
}

void HYDROData_Image::SetTrsfPoints(const QPoint& thePointAIn,
                                    const QPoint& thePointBIn,
                                    const QPoint& thePointCIn,
                                    const QPointF& thePointAOut,
                                    const QPointF& thePointBOut,
                                    const QPointF& thePointCOut)
{
  Handle(TDataStd_RealArray) anArray;
  if (!myLab.FindChild(DataTag_TrsfPoints).FindAttribute(TDataStd_RealArray::GetID(), anArray)) {
    anArray = TDataStd_RealArray::Set(myLab.FindChild(DataTag_TrsfPoints), 1, 12);
  }
  anArray->SetValue(1, thePointAIn.x());
  anArray->SetValue(2, thePointAIn.y());
  anArray->SetValue(3, thePointBIn.x());
  anArray->SetValue(4, thePointBIn.y());
  anArray->SetValue(5, thePointCIn.x());
  anArray->SetValue(6, thePointCIn.y());
  anArray->SetValue(7, thePointAOut.x());
  anArray->SetValue(8, thePointAOut.y());
  anArray->SetValue(9, thePointBOut.x());
  anArray->SetValue(10, thePointBOut.y());
  anArray->SetValue(11, thePointCOut.x());
  anArray->SetValue(12, thePointCOut.y());
}

void HYDROData_Image::TrsfPoints(QPoint& thePointAIn,
                                 QPoint& thePointBIn,
                                 QPoint& thePointCIn,
                                 QPointF& thePointAOut,
                                 QPointF& thePointBOut,
                                 QPointF& thePointCOut) const
{
  Handle(TDataStd_RealArray) anArray;
  if (myLab.FindChild(DataTag_TrsfPoints).FindAttribute(TDataStd_RealArray::GetID(), anArray)) {
    thePointAIn = QPointF( anArray->Value(1), anArray->Value(2) ).toPoint();
    thePointBIn = QPointF( anArray->Value(3), anArray->Value(4) ).toPoint();
    thePointCIn = QPointF( anArray->Value(5), anArray->Value(6) ).toPoint();
    thePointAOut = QPointF( anArray->Value(7), anArray->Value(8) );
    thePointBOut = QPointF( anArray->Value(9), anArray->Value(10) );
    thePointCOut = QPointF( anArray->Value(11), anArray->Value(12) );
  }
}

bool HYDROData_Image::HasTrsfPoints() const
{
  Handle(TDataStd_RealArray) anArray;
  return myLab.FindChild(DataTag_TrsfPoints).FindAttribute(TDataStd_RealArray::GetID(), anArray);
}

void HYDROData_Image::AppendReference(Handle(HYDROData_Object) theReferenced)
{
  Handle(TDataStd_ReferenceList) aRefs;
  if (!myLab.FindAttribute(TDataStd_ReferenceList::GetID(), aRefs))
    aRefs = TDataStd_ReferenceList::Set(myLab);
  aRefs->Append(theReferenced->Label());
}

int HYDROData_Image::NbReferences() const
{
  Handle(TDataStd_ReferenceList) aRefs;
  if (!myLab.FindAttribute(TDataStd_ReferenceList::GetID(), aRefs))
    return 0;
  return aRefs->Extent();
}

Handle(HYDROData_Object) HYDROData_Image::Reference(const int theIndex) const
{
  Handle(TDataStd_ReferenceList) aRefs;
  if (!myLab.FindAttribute(TDataStd_ReferenceList::GetID(), aRefs))
    return Handle(HYDROData_Object)();
  if (theIndex < 0 || theIndex >= aRefs->Extent())
    return Handle(HYDROData_Object)();

  TDF_ListIteratorOfLabelList anIter(aRefs->List());
  for(int anIndex = 0; anIndex != theIndex; anIter.Next(), anIndex++);
  const TDF_Label& aRefLab = anIter.Value();
  return Handle(HYDROData_Object)::DownCast(HYDROData_Iterator::Object(aRefLab));
}

void HYDROData_Image::ChangeReference(
    const int theIndex, Handle(HYDROData_Object) theReferenced)
{
  Handle(TDataStd_ReferenceList) aRefs;
  if (!myLab.FindAttribute(TDataStd_ReferenceList::GetID(), aRefs))
    aRefs = TDataStd_ReferenceList::Set(myLab);
  if (theIndex >= aRefs->Extent()) { // for too big index append it just to the end
    AppendReference(theReferenced);
  } else { // remove and insert new
    TDF_ListIteratorOfLabelList anIter(aRefs->List());
    int anIndex = 0;
    for(; anIndex != theIndex; anIter.Next(), anIndex++);
    const TDF_Label& aRemovedLab = anIter.Value();
    anIter.Next();
    aRefs->Remove(aRemovedLab);
    if (anIter.More()) 
      aRefs->InsertBefore(theReferenced->Label(), anIter.Value());
    else 
      aRefs->Append(theReferenced->Label());
  }
}

void HYDROData_Image::RemoveReference(const int theIndex)
{
  Handle(TDataStd_ReferenceList) aRefs;
  if (!myLab.FindAttribute(TDataStd_ReferenceList::GetID(), aRefs))
    return; // no references, nothing to remove
  if (aRefs->Extent() == 1 && theIndex == 0) { // remove all if only one
    ClearReferences();
    return;
  }
  TDF_ListIteratorOfLabelList anIter(aRefs->List());
  int anIndex = 0;
  for(; anIndex != theIndex && anIter.More(); anIter.Next(), anIndex++);
  if (anIter.More())
    aRefs->Remove(anIter.Value());
}

void HYDROData_Image::ClearReferences()
{
  myLab.ForgetAttribute(TDataStd_ReferenceList::GetID());
}

void HYDROData_Image::SetOperatorName(const QString theOpName)
{
  TDataStd_Name::Set(myLab.FindChild(DataTag_Operator),
    TCollection_ExtendedString(theOpName.toLatin1().constData()));
}

QString HYDROData_Image::OperatorName() const
{
  Handle(TDataStd_Name) aName;
  if (myLab.FindChild(DataTag_Operator).
        FindAttribute(TDataStd_Name::GetID(), aName)) {
    TCollection_AsciiString aStr(aName->Get());
    return QString(aStr.ToCString());
  }
  return QString();
}

void HYDROData_Image::SetArgs(const QByteArray& theArgs)
{
  SaveByteArray(DataTag_Operator, theArgs.constData(), theArgs.length());
}

QByteArray HYDROData_Image::Args() const
{
  int aLen = 0;
  const char* aData = ByteArray(DataTag_Operator, aLen);
  if (!aLen)
    return QByteArray();
  return QByteArray(aData, aLen);
}

void HYDROData_Image::MustBeUpdated(bool theFlag)
{
  if (theFlag) {
    TDataStd_UAttribute::Set(myLab, GUID_MUST_BE_UPDATED);
  } else {
    myLab.ForgetAttribute(GUID_MUST_BE_UPDATED);
  }
}

bool HYDROData_Image::MustBeUpdated() const
{
  return myLab.IsAttribute(GUID_MUST_BE_UPDATED);
}

void HYDROData_Image::SetIsSelfSplitted(bool theFlag)
{
  if (theFlag) {
    TDataStd_UAttribute::Set(myLab, GUID_SELF_SPLITTED);
  } else {
    myLab.ForgetAttribute(GUID_SELF_SPLITTED);
  }
}

bool HYDROData_Image::IsSelfSplitted() const
{
  return myLab.IsAttribute(GUID_SELF_SPLITTED);
}