+ //Returns the maximal priority
+ int GetMaximalPriority(){return mReader.GetMaximalPriority();}
+
+ ///Adds the selected Images to the given vector and validates to see if they comply with the given parameter (4D)
+ virtual void GetSelectedImages(std::vector<vtkImageData*>& s, int dim)
+ { GimmickError("INTERNAL ERROR : GetSelectedImages not implemented"); }
+
+ virtual void GetSelectedFiles(std::vector<std::string>& s)
+ { GimmickError("INTERNAL ERROR : GetSelectedFiles not implemented"); }
+ virtual void OnSelectionChange(std::vector<tree::Node*>& s, bool isSelection, int selection, bool mProcess)
+ { GimmickError("INTERNAL ERROR : OnSelectionChange not implemented"); }
+ virtual void ClearSelection()
+ { GimmickError("INTERNAL ERROR : ClearSelection not implemented"); }
+
+
+ ///Validates the dimension compliance of the images with the maximum and minimum given, and between their sizes
+ bool ValidateSelected (tree::Node* sel, int min_dim, int max_dim);
+
+ ///Reads the vector of nodes, builds images in the dimension required and returns them in the supplied vector.
+ void ReadImagesNotThreaded(std::vector<vtkImageData*>& s,std::vector<tree::Node*> im, int dim);
+ ///Requests the reading of an image with priority and index in the
+ /// current selection (-1 if not in selection)
+ void RequestReading(tree::Node* n, int prio, int selection_index , ImagePointerHolder *p);
+
+
+ ///Obtains the message of the state
+ std::string GetMessage(){return mMess;}
+ ///Obtains the message of the state
+ void SetMessage(std::string mess){mMess=mess;}
+ ///Resets the data of the extent and begins a new selection
+ void ResetExtent();