#include <HYDROData_Image.h>
%End
-class HYDROData_Image : HYDROData_Entity
+class HYDROData_Image : public HYDROData_Entity
{
%ConvertToSubClassCode
#include <HYDROData_Image.h>
%End
+public:
+
+ enum TransformationMode
+ {
+ ManualGeodesic = 0,
+ ManualCartesian,
+ CartesianFromFile,
+ ReferenceImage
+ };
+
public:
/**
* Stores the image
* \param theImage new image
*/
- void SetImage( const QImage& theImage );
+ void SetImage( const QImage& theImage );
/**
* Load the image from file
* \param theFilePath path to image
*/
- bool LoadImage( const QString& theFilePath );
+ bool LoadImage( const QString& theFilePath );
/**
* Returns the kept image
*/
- QImage Image();
+ QImage Image();
+
+
+ /**
+ * Stores the image file path
+ * \param theFilePath image file path
+ */
+ void SetFilePath( const QString& theFilePath );
+ /**
+ * Returns uploaded image file path
+ */
+ QString GetFilePath() const;
+
+
/**
* Stores the image transformation
* \param theTrsf new transformation
*/
- void SetTrsf( const QTransform& theTrsf );
+ void SetTrsf( const QTransform& theTrsf );
/**
* Returns the kept transformation, or "identity" if not yet stored
*/
- QTransform Trsf();
+ QTransform Trsf() const;
/**
- * Stores the image transformation points (3 input + 3 output)
- * \param thePointA input point A
- * \param thePointB input point B
- * \param thePointC input point C
- * \param theLambertPointA output point A in Lambert93 coordinates
- * \param theLambertPointB output point B in Lambert93 coordinates
- * \param theLambertPointC output point C in Lambert93 coordinates
- * \param theCartesianPointA output point A in Cartesian coordinates
- * \param theCartesianPointB output point B in Cartesian coordinates
- * \param theCartesianPointC output point C in Cartesian coordinates
+ * Updates the matrix of transformation in accordance with reference points.
+ * \param theTrsf new transformation
*/
- void SetTrsfPoints( const QPoint& thePointA,
- const QPoint& thePointB,
- const QPoint& thePointC,
- const QPointF& theLambertPointA,
- const QPointF& theLambertPointB,
- const QPointF& theLambertPointC,
- const QPointF& theCartesianPointA,
- const QPointF& theCartesianPointB,
- const QPointF& theCartesianPointC );
+ void UpdateTrsf();
+
/**
- * Returns the image transformation points (3 input + 3 output)
- * \param thePointA input point A
- * \param thePointB input point B
- * \param thePointC input point C
- * \param theLambertPointA output point A in Lambert93 coordinates
- * \param theLambertPointB output point B in Lambert93 coordinates
- * \param theLambertPointC output point C in Lambert93 coordinates
- * \param theCartesianPointA output point A in Cartesian coordinates
- * \param theCartesianPointB output point B in Cartesian coordinates
- * \param theCartesianPointC output point C in Cartesian coordinates
+ * Returns true if transformation is done by two points only
*/
- void TrsfPoints( QPoint& thePointA,
- QPoint& thePointB,
- QPoint& thePointC,
- QPointF& theLambertPointA,
- QPointF& theLambertPointB,
- QPointF& theLambertPointC,
- QPointF& theCartesianPointA,
- QPointF& theCartesianPointB,
- QPointF& theCartesianPointC ) const;
+ bool IsByTwoPoints() const;
+
/**
- * Returns true if the image has stored transformation points
+ * Removes all references from this image.
*/
- bool HasTrsfPoints() const;
+ bool HasReferences() const;
/**
- * Stores the transformation mode (0 - Lambert93, 1 - Cartesian)
+ * Removes all references from this image.
*/
- void SetTrsfMode(const int theMode);
+ void RemoveAllReferences();
+
/**
- * Returns the transformation mode (0 - Lambert93, 1 - Cartesian)
+ * Stores the transformation points in local cs of image
+ * \param thePointA point A
+ * \param thePointB point B
+ * \param thePointC point C
*/
- int TrsfMode() const;
+ void SetLocalPoints( const QPoint& thePointA,
+ const QPoint& thePointB,
+ const QPoint& thePointC = QPoint( INT_MIN, INT_MIN ),
+ const bool theIsUpdate = true );
+ /**
+ * Returns the transformation points in local cs of image
+ * \param thePointA point A
+ * \param thePointB point B
+ * \param thePointC point C
+ * \return true if all parameters has been set before
+ */
+ bool GetLocalPoints( QPoint& thePointA /Out/,
+ QPoint& thePointB /Out/,
+ QPoint& thePointC /Out/ ) const;
/**
- * Returns the number of referenced images
- * \return zero if there is no references
+ * Returns true if local points has been set before
+ */
+ bool HasLocalPoints() const;
+
+
+ /**
+ * Stores the transformation points in global cs
+ * \param theMode transformation mode
+ * \param thePointA point A
+ * \param thePointB point B
+ * \param thePointC point C
+ */
+ void SetGlobalPoints( const TransformationMode& theMode,
+ const QPointF& thePointA,
+ const QPointF& thePointB,
+ const QPointF& thePointC = QPoint( INT_MIN, INT_MIN ),
+ const bool theIsUpdate = true );
+
+ /**
+ * Returns the transformation points in global cs
+ * \param theMode transformation mode
+ * \param thePointA point A
+ * \param thePointB point B
+ * \param thePointC point C
+ * \return true if all parameters has been set before
+ */
+ bool GetGlobalPoints( TransformationMode& theMode,
+ QPointF& thePointA /Out/,
+ QPointF& thePointB /Out/,
+ QPointF& thePointC /Out/ ) const;
+
+ /**
+ * Get transformation points from the file and stores them in global cs
+ * \param theFileName the image georeferencement file name
+ * \return true in case of success
+ */
+ bool SetGlobalPointsFromFile( const QString& theFileName );
+
+ /**
+ * Returns true if global points has been set before
*/
- int NbReferences();
+ bool HasGlobalPoints() const;
+
/**
- * Appends reference to other image.
- * \param theReferenced the image referenced by this
+ * Stores the transformation points in reference image local cs
+ * \param theRefImage reference image
+ * \param thePointA point A
+ * \param thePointB point B
+ * \param thePointC point C
*/
- void AppendReference( HYDROData_Entity theReferenced ) [void (Handle_HYDROData_Entity)];
+ void SetReferencePoints( HYDROData_Image theRefImage,
+ const QPointF& thePointA,
+ const QPointF& thePointB,
+ const QPointF& thePointC = QPoint( INT_MIN, INT_MIN ),
+ const bool theIsUpdate = true )
+ [void ( const Handle_HYDROData_Image&, const QPointF&, const QPointF&, const QPointF&, const bool )];
%MethodCode
+ Handle(HYDROData_Image) aRefImage =
+ Handle(HYDROData_Image)::DownCast( createHandle( a0 ) );
+ if ( !aRefImage.IsNull() )
+ {
+ Py_BEGIN_ALLOW_THREADS
+ sipSelfWasArg ? sipCpp->HYDROData_Image::SetReferencePoints( aRefImage, *a1, *a2, *a3, a4 ) :
+ sipCpp->SetReferencePoints( aRefImage, *a1, *a2, *a3, a4 );
+ Py_END_ALLOW_THREADS
+ }
+ %End
- Handle(HYDROData_Entity) aRefObj = createHandle( a0 );
- if ( !aRefObj.IsNull() )
+ /**
+ * Returns the transformation points in reference image local cs
+ * \param theRefImage reference image
+ * \param thePointA point A
+ * \param thePointB point B
+ * \param thePointC point C
+ * \return true if all parameters has been set correctly
+ */
+ bool GetReferencePoints( HYDROData_Image theRefImage,
+ QPointF& thePointA /Out/,
+ QPointF& thePointB /Out/,
+ QPointF& thePointC /Out/ ) const
+ [bool ( const Handle_HYDROData_Image&, QPointF&, QPointF&, QPointF& )];
+ %MethodCode
+ Handle(HYDROData_Image) aRefImage =
+ Handle(HYDROData_Image)::DownCast( createHandle( a0 ) );
+ if ( !aRefImage.IsNull() )
{
Py_BEGIN_ALLOW_THREADS
- sipSelfWasArg ? sipCpp->HYDROData_Image::AppendReference( aRefObj ) :
- sipCpp->AppendReference( aRefObj );
+ sipRes = sipSelfWasArg ? sipCpp->HYDROData_Image::GetReferencePoints( aRefImage, *a1, *a2, *a3 ) :
+ sipCpp->GetReferencePoints( aRefImage, *a1, *a2, *a3 );
Py_END_ALLOW_THREADS
}
+ %End
+ /**
+ * Returns true if reference points has been set before
+ */
+ bool HasReferencePoints() const;
+
+
+ /**
+ * Stores the reference image for transformation
+ * \param theRefImage reference image
+ */
+ void SetTrsfReferenceImage( HYDROData_Image theRefImage ) [void ( const Handle_HYDROData_Image& )];
+ %MethodCode
+ Handle(HYDROData_Image) aRefImage =
+ Handle(HYDROData_Image)::DownCast( createHandle( a0 ) );
+ if ( !aRefImage.IsNull() )
+ {
+ Py_BEGIN_ALLOW_THREADS
+ sipSelfWasArg ? sipCpp->HYDROData_Image::SetTrsfReferenceImage( aRefImage ) :
+ sipCpp->SetTrsfReferenceImage( aRefImage );
+ Py_END_ALLOW_THREADS
+ }
+ %End
+
+ /**
+ * Returns the reference image for transformation
+ */
+ HYDROData_Image GetTrsfReferenceImage() const [Handle_HYDROData_Image ()];
+ %MethodCode
+ Handle(HYDROData_Image) aRefImage;
+
+ Py_BEGIN_ALLOW_THREADS
+ aRefImage = sipSelfWasArg ? sipCpp->HYDROData_Image::GetTrsfReferenceImage() :
+ sipCpp->GetTrsfReferenceImage();
+ Py_END_ALLOW_THREADS
+
+ sipRes = (HYDROData_Image*)createPointer( aRefImage );
+ %End
+
+ /**
+ * Removes the reference image for transformation
+ */
+ void RemoveTrsfReferenceImage();
+
+
+ /**
+ * Stores the transformation mode
+ */
+ void SetTrsfMode( const TransformationMode& theMode );
+
+ /**
+ * Returns the transformation mode
+ */
+ TransformationMode GetTrsfMode() const;
+
+
+ /**
+ * Returns the number of referenced objects
+ * \return zero if there is no references
+ */
+ int NbReferences() const;
+
+ /**
+ * Appends reference to other object (image or polyline).
+ * \param theReferenced the object referenced by this
+ */
+ void AppendReference( HYDROData_Entity theReferenced ) [void ( const Handle_HYDROData_Entity& )];
+ %MethodCode
+ Handle(HYDROData_Entity) aRef = createHandle( a0 );
+ if ( !aRef.IsNull() )
+ {
+ Py_BEGIN_ALLOW_THREADS
+ sipSelfWasArg ? sipCpp->HYDROData_Image::AppendReference( aRef ) :
+ sipCpp->AppendReference( aRef );
+ Py_END_ALLOW_THREADS
+ }
%End
/**
* Returns reference by index.
* \param theIndex number of reference [0; NbReference)
- * \returns the referenced image, or Null if index is invalid
+ * \returns the referenced object, or Null if index is invalid
*/
- HYDROData_Entity Reference( const int theIndex ) const [Handle_HYDROData_Entity (const int)];
+ HYDROData_Entity Reference( const int theIndex ) const [Handle_HYDROData_Entity ()];
%MethodCode
-
- Handle(HYDROData_Entity) aRefObj;
+ Handle(HYDROData_Entity) aRef;
Py_BEGIN_ALLOW_THREADS
- aRefObj = sipSelfWasArg ? sipCpp->HYDROData_Image::Reference( a0 ) :
- sipCpp->Reference( a0 );
+ aRef = sipSelfWasArg ? sipCpp->HYDROData_Image::Reference( a0 ) :
+ sipCpp->Reference( a0 );
Py_END_ALLOW_THREADS
- sipRes = createPointer( aRefObj );
-
+ sipRes = createPointer( aRef );
%End
/**
* Updates reference by index. If index is one-bigger than \a NbReferences,
* this method appends it to the end (NbReferences is incremented).
* \param theIndex number of reference [0; NbReference]
- * \param theReferenced the image referenced by this
+ * \param theReferenced the object referenced by this
*/
- void ChangeReference( const int theIndex, HYDROData_Entity theReferenced ) [void (const int, Handle_HYDROData_Entity)];
+ void ChangeReference( const int theIndex, HYDROData_Entity theReferenced )
+ [void ( const int, const Handle_HYDROData_Entity& )];
%MethodCode
-
- Handle(HYDROData_Entity) aRefObj = createHandle( a1 );
- if ( !aRefObj.IsNull() )
+ Handle(HYDROData_Entity) aRef = createHandle( a1 );
+ if ( !aRef.IsNull() )
{
Py_BEGIN_ALLOW_THREADS
- sipSelfWasArg ? sipCpp->HYDROData_Image::ChangeReference( a0, aRefObj ) :
- sipCpp->ChangeReference( a0, aRefObj );
+ sipSelfWasArg ? sipCpp->HYDROData_Image::ChangeReference( a0, aRef ) :
+ sipCpp->ChangeReference( a0, aRef );
Py_END_ALLOW_THREADS
}
-
%End
/**
* Removes reference by index
* \param theIndex number of reference [0; NbReference)
*/
- void RemoveReference( const int theIndex );
+ void RemoveReference( const int theIndex );
/**
* Removes all references.
*/
- void ClearReferences();
+ void ClearReferences();
+
/**
* Stores the operator name
* \param theOpName name of the operator that must be executed for image update
*/
- void SetOperatorName( const QString theOpName );
+ void SetOperatorName(const QString theOpName);
/**
* Returns the operator name
* \returns the name of the operator that must be executed for image update
*/
- QString OperatorName();
+ QString OperatorName() const;
/**
* Stores the operator arguments
* \param theArgs array that stores the operator arguments, needed for execution
*/
- void SetArgs( const QByteArray& theArgs );
+ void SetArgs(const QByteArray& theArgs);
/**
* Returns the operator arguments
* \returns array that stores the operator arguments, needed for execution
*/
- QByteArray Args();
+ QByteArray Args() const;
+
/**
- * Sets the "MustBeUpdated" flag: if image is depended on updated features.
- * \param theFlag is true for images that must be updated, false for up-to-date
+ * Marks the image as self-splitted.
+ * \param theFlag is true for self-splitted image
*/
- void MustBeUpdated( bool theFlag );
+ void SetIsSelfSplitted(bool theFlag);
/**
- * Returns the "MustBeUpdated" flag: is image must be recomputed or not
- * \returns false if image is up to date
+ * Checks that the image is self-splitted.
+ * \returns true if image is self-splitted
*/
- bool MustBeUpdated();
-
+ bool IsSelfSplitted() const;
protected: