Altitude objects for Obstacle, Stream and Channel objects base implementation (Bug...

[modules/hydro.git] / src / HYDROData / HYDROData_Entity.h

#ifndef HYDROData_Entity_HeaderFile
#define HYDROData_Entity_HeaderFile

#include "HYDROData.h"

#include <NCollection_Sequence.hxx>

#include <TDF_Label.hxx>

#include <QMap>

class QColor;
class QString;
class QVariant;
class QStringList;
class Handle(TDataStd_ReferenceList);
class Handle_HYDROData_Entity;

///! Kind of an object in a document
typedef int ObjectKind;

const ObjectKind KIND_UNKNOWN           = 0; ///! Unrecognized object
const ObjectKind KIND_IMAGE             = 1;
const ObjectKind KIND_POLYLINE          = 2;
const ObjectKind KIND_BATHYMETRY        = 3;
const ObjectKind KIND_ALTITUDE          = 4;
const ObjectKind KIND_IMMERSIBLE_ZONE   = 5;
const ObjectKind KIND_RIVER             = 6;
const ObjectKind KIND_STREAM            = 7;
const ObjectKind KIND_CONFLUENCE        = 8;
const ObjectKind KIND_CHANNEL           = 9;
const ObjectKind KIND_OBSTACLE          = 10;
const ObjectKind KIND_DIGUE             = 11;
const ObjectKind KIND_PROFILE           = 12;
const ObjectKind KIND_PROFILEUZ         = 13;
const ObjectKind KIND_POLYLINEXY        = 14;
const ObjectKind KIND_CALCULATION       = 15;
const ObjectKind KIND_ZONE              = 16;
const ObjectKind KIND_REGION            = 17;
const ObjectKind KIND_VISUAL_STATE      = 18;
const ObjectKind KIND_ARTIFICIAL_OBJECT = 19;
const ObjectKind KIND_NATURAL_OBJECT    = 20;
const ObjectKind KIND_DUMMY_3D          = 21;
const ObjectKind KIND_SHAPES_GROUP      = 22;
const ObjectKind KIND_SPLITTED_GROUP    = 23;
const ObjectKind KIND_STREAM_ALTITUDE   = 24;
const ObjectKind KIND_OBSTACLE_ALTITUDE = 25;
const ObjectKind KIND_LAST              = KIND_OBSTACLE_ALTITUDE;

DEFINE_STANDARD_HANDLE(HYDROData_Entity, MMgt_TShared)

typedef QMap<QString,Handle(Standard_Transient)> MapOfTreatedObjects;

typedef NCollection_Sequence<Handle_HYDROData_Entity> HYDROData_SequenceOfObjects;


/**\class HYDROData_Entity
 * \brief Generic class of any object in the data model.
 *
 * Interface for getting access to the object that belong to the data model.
 * Managed by Document. Provides access to the common properties: 
 * kind of an object, name.
 */
class HYDROData_Entity : public MMgt_TShared
{

protected:

  /**
   * Enumeration of tags corresponding to the persistent object parameters.
   */
  enum DataTag
  {
    DataTag_First = 0     ///< first tag, to reserve
    // ...
  };

public:
  DEFINE_STANDARD_RTTI(HYDROData_Entity);

  /**
   * Returns the kind of this object. Must be redefined in all objects of known type.
   */
  HYDRODATA_EXPORT virtual const ObjectKind GetKind() const { return KIND_UNKNOWN; }

  /**
   * Returns the name of this object.
   */
  HYDRODATA_EXPORT virtual QString GetName() const;

  /**
   * Updates the name of this object.
   */
  HYDRODATA_EXPORT virtual void SetName( const QString& theName );

  /**
   * Dump object to Python script representation.
   * Base implementation returns empty list,
   * You should reimplement this function in your derived class if it
   * has Python API and can be imported/exported from/to Python script.
   */
  HYDRODATA_EXPORT virtual QStringList DumpToPython( MapOfTreatedObjects& theTreatedObjects ) const;

  /**
   * Updates object state. Base implementation dose nothing.
   */
  HYDRODATA_EXPORT virtual void Update();

  /**
   * Returns data of object wrapped to QVariant.
   * Base implementation returns null value.
   */
  HYDRODATA_EXPORT virtual QVariant GetDataVariant();


  /**
   * Sets the "MustBeUpdated" flag: if object is depended on updated features.
   * \param theFlag is true for objects that must be updated, false for up-to-date
   */
  HYDRODATA_EXPORT virtual void SetToUpdate( bool theFlag );

  /**
   * Returns the "MustBeUpdated" flag: is object data must be updated or not
   * \returns false if object is up to date
   */
  HYDRODATA_EXPORT virtual bool IsMustBeUpdated() const;

  /**
   * Returns flag indicating that object is updateble or not.
   */
  HYDRODATA_EXPORT virtual bool CanBeUpdated() const;


  /**
   * Checks is object exists in the data structure.
   * \returns true is object is not exists in the data model
   */
  HYDRODATA_EXPORT bool IsRemoved() const;

  /**
   * Removes object and it child sub-objects from the data structure.
   */
  HYDRODATA_EXPORT virtual void Remove();

  /**
   * Returns flag indicating that object can be removed or not.
   * Reimplement this method in class which can't be removed 
   * separately with it parent object.
   * Base implementaiton returns always TRUE.
   */
  HYDRODATA_EXPORT virtual bool CanRemove();

  /**
   * Returns unique integer identifier of the object (may be used for ordering of objects)
   */
  HYDRODATA_EXPORT inline int ID() const { return myLab.Tag(); }

  /**
   * Copies all properties of this to the destinated object.
   * Objects must be the same type.
   * \param theDestination initialized object (from any document) - target of copying
   */
  HYDRODATA_EXPORT void CopyTo( Handle_HYDROData_Entity theDestination ) const;

  /**
   * Returns the label of this object.
   */
  HYDRODATA_EXPORT TDF_Label& Label() { return myLab; }


  /**
   * Returns father object. For object created under root document label
   * this method always return NULL object.
   */
  HYDRODATA_EXPORT virtual Handle(HYDROData_Entity) GetFatherObject() const;


  /**
   * Returns the list of all reference objects of this object.
   * Base implementation always return empty list.
   */
  HYDRODATA_EXPORT virtual HYDROData_SequenceOfObjects GetAllReferenceObjects() const;


protected:

  friend class HYDROData_Iterator;

  /**
   * Creates new object in the internal data structure. Use higher level objects 
   * to create objects with real content.
   */
  HYDRODATA_EXPORT HYDROData_Entity();

  /**
   * Destructs properties of the object and object itself, removes it from the document.
   */
  virtual HYDRODATA_EXPORT ~HYDROData_Entity();

  /**
   * Put the object to the label of the document.
   * \param theLabel new label of the object
   */
  HYDRODATA_EXPORT virtual void SetLabel(TDF_Label theLabel);

  /**
   * Internal method that used to store the byte array attribute
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   * \param theData pointer to bytes array
   * \param theLen number of bytes in byte array that must be stored
   */
  void SaveByteArray(const int theTag, const char* theData, const int theLen);

  /**
   * Internal method that used to retreive the content of byte array attribute
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   * \param theLen number of bytes in byte array
   * \returns pointer to the internal data structure wit harray content, 
   *          or NULL if array size is zero
   */
  const char* ByteArray(const int theTag, int& theLen) const;

  /**
   * Internal method that used to store the reference object label attribute
   * \param theObj pointer to reference object
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   */
  int NbReferenceObjects( const int theTag = 0 ) const;

  /**
   * Internal method that used to check object for entry into the reference list
   * \param theObj pointer to reference object
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   */
  bool HasReference( const Handle_HYDROData_Entity& theObj,
                     const int                      theTag = 0 ) const;

  /**
   * Internal method that used to store the reference object label attribute
   * \param theObj pointer to reference object
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   */
  void AddReferenceObject( const Handle_HYDROData_Entity& theObj,
                           const int                      theTag = 0 );

  /**
   * Internal method that used to store the reference object label attribute
   * \param theObj pointer to reference object
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   * \param theIndex index in the list of references 
             - if more that len then just append it to the end of list
             - if less than zero then prepend to the list
             - indexing starts from 0
   */
  void SetReferenceObject( const Handle_HYDROData_Entity& theObj,
                           const int                      theTag = 0,
                           const int                      theIndex = 0 );

  /**
   * Internal method that used to store the reference object label attribute
   * \param theObj pointer to reference object
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   * \param theBeforeIndex index in the list of references 
             - if more that len then just append it to the end of list
             - if less than zero then prepend to the list
             - indexing starts from 0
   */
  void InsertReferenceObject( const Handle_HYDROData_Entity& theObj,
                              const int                      theTag = 0,
                              const int                      theBeforeIndex = 0 );

  /**
   * Internal method that used to store the reference object label attribute
   * \param theObjects sequence with pointers to reference objects
   * \param theTag tag of a label to store attribute (for 0 this is myLab)
   */
  void SetReferenceObjects( const HYDROData_SequenceOfObjects& theObjects,
                            const int                          theTag = 0 );

  /**
   * Internal method that used to retreive the reference object(s) attribute
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   * \param theIndex index in the list of references 
   *        - indexing starts from 0
   * \returns pointer to reference object or NULL if label is not set
   */
  Handle_HYDROData_Entity GetReferenceObject( const int theTag   = 0,
                                              const int theIndex = 0 ) const;

  HYDROData_SequenceOfObjects GetReferenceObjects( const int theTag = 0 ) const;

  /**
   * Internal method that used to remove the reference object attribute
   * \param theRefLabel reference object label to remove
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   */
  void RemoveReferenceObject( const TDF_Label& theRefLabel, const int theTag = 0 );

  /**
   * Internal method that used to remove the reference object attribute
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   * \param theIndex index in the list of references 
   *        - indexing starts from 0
   */
  void RemoveReferenceObject( const int theTag = 0, const int theIndex = 0 );

  /**
   * Internal method that used to clear list of the reference objects attribute
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   */
  void ClearReferenceObjects( const int theTag = 0 );

  /**
   * Internal method that used to store the color attribute
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   * \param theColor color to save
   */
  void SetColor( const QColor& theColor, const int theTag = 0 );

  /**
   * Internal method that used to retreive the color attribute
   * \param theTag tag of a label that keeps the attribute (for 0 this is myLab)
   * \param theDefColor default color to return if attribute has not been set before
   */
  QColor GetColor( const QColor& theDefColor, const int theTag = 0 ) const;

 
protected:

  void setPythonReferenceObject( MapOfTreatedObjects&            theTreatedObjects,
                                 QStringList&                    theScript,
                                 const Handle(HYDROData_Entity)& theRefObject,
                                 const QString&                  theMethod ) const;
protected:

  Handle(TDataStd_ReferenceList) getReferenceList( const int  theTag,
                                                   const bool theIsCreate ) const;


protected:
  /// Array of pointers to the properties of this object; index in this array is returned by \a AddProperty.
  TDF_Label myLab; ///< label of this object
};

///! Is Equal for HYDROData_Entity mapping
HYDRODATA_EXPORT bool IsEqual(const Handle_HYDROData_Entity& theObj1, const Handle_HYDROData_Entity& theObj2);

#endif