/**************************************************************
 * 
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 * 
 *   http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 * 
 *************************************************************/



#ifndef _E3D_OBJ3D_HXX
#define _E3D_OBJ3D_HXX

#include <svx/svdoattr.hxx>
#include <svx/svdobj.hxx>
#include <svx/volume3d.hxx>
#include <svx/def3d.hxx>
#include <svx/svdpage.hxx>
#include <svx/deflt3d.hxx>
#include <vcl/bitmap.hxx>
#include <svx/svx3ditems.hxx>
#include <svx/xflclit.hxx>
#include <svl/itemset.hxx>
#include <basegfx/polygon/b3dpolypolygon.hxx>
#include <basegfx/point/b2dpoint.hxx>
#include <basegfx/polygon/b2dpolygon.hxx>
#include <basegfx/vector/b2enums.hxx>
#include "svx/svxdllapi.h"

//************************************************************
//   Vorausdeklarationen
//************************************************************

class SfxPoolItem;
class Viewport3D;
class E3dScene;
class E3dPolyScene;

namespace basegfx { class B3DPolyPolygon; }
namespace sdr {	namespace properties {
	class BaseProperties;
	class E3dProperties;
	class E3dCompoundProperties;
	class E3dExtrudeProperties;
	class E3dLatheProperties;
	class E3dSphereProperties;
}}

/*************************************************************************
|*
|* GeoData relevant fuer Undo-Actions
|*
\************************************************************************/

class E3DObjGeoData : public SdrObjGeoData
{
public:
	basegfx::B3DRange			maLocalBoundVol;	// umschliessendes Volumen des Objekts
	basegfx::B3DHomMatrix		maTransformation;	// lokale Transformation

	E3DObjGeoData() {}
};

/*************************************************************************
|*
|* Liste fuer 3D-Objekte
|*
\************************************************************************/

class E3dObjList : public SdrObjList
{
public:
	TYPEINFO();
	E3dObjList(SdrModel* pNewModel = 0, SdrPage* pNewPage = 0, E3dObjList* pNewUpList = 0);
	SVX_DLLPUBLIC E3dObjList(const E3dObjList& rSrcList);
	SVX_DLLPUBLIC virtual ~E3dObjList();

	virtual void NbcInsertObject(SdrObject* pObj, sal_uIntPtr nPos=CONTAINER_APPEND, const SdrInsertReason* pReason=NULL);
	virtual void InsertObject(SdrObject* pObj, sal_uIntPtr nPos=CONTAINER_APPEND, const SdrInsertReason* pReason=NULL);
	virtual SdrObject* NbcRemoveObject(sal_uIntPtr nObjNum);
	virtual SdrObject* RemoveObject(sal_uIntPtr nObjNum);
};

/*************************************************************************
|*
|* Basisklasse fuer 3D-Objekte
|*
\************************************************************************/

class SVX_DLLPUBLIC E3dObject : public SdrAttrObj
{
private:
	// to allow sdr::properties::E3dProperties access to StructureChanged()
	friend class sdr::properties::E3dProperties;

	// Aus der E3dObjList und E3dDragMethod alles erlauben
	friend class E3dObjList;
	friend class E3dDragMethod;

 protected:
	virtual sdr::properties::BaseProperties* CreateObjectSpecificProperties();

    E3dObjList					maSubList;			// Subliste (Childobjekte)

	basegfx::B3DRange			maLocalBoundVol;	// umschliessendes Volumen des Objekts (aus geometrieerzeugung)
	basegfx::B3DHomMatrix		maTransformation;	// lokale Transformation
	basegfx::B3DHomMatrix		maFullTransform;	// globale Transformation (inkl. Parents)

	// Flags
	unsigned		mbTfHasChanged			: 1;
	unsigned		mbIsSelected			: 1;

 public:
	void SetBoundVolInvalid();

 protected:
	void SetTransformChanged();
	virtual void NewObjectInserted(const E3dObject* p3DObj);
	virtual void StructureChanged();
    basegfx::B3DRange RecalcBoundVolume() const;

protected:
	// E3dObject is only a helper class (for E3DScene and E3DCompoundObject) 
	// and no instances should be created from anyone, so i move the constructors 
	// to protected area
	E3dObject();
	E3dObject(sal_Bool bIsFromChart);

public:
	TYPEINFO();
	virtual void RecalcSnapRect();
	virtual void SetRectsDirty(sal_Bool bNotMyself = sal_False);

	virtual ~E3dObject();

	virtual sal_uInt32	GetObjInventor() const;
	virtual sal_uInt16	GetObjIdentifier() const;

	virtual void	TakeObjInfo(SdrObjTransformInfoRec& rInfo) const;

	virtual void		NbcSetLayer(SdrLayerID nLayer);

	virtual void		SetObjList(SdrObjList* pNewObjList);
	virtual void		SetPage(SdrPage* pNewPage);
	virtual void		SetModel(SdrModel* pNewModel);
	virtual void		NbcMove(const Size& rSize);
	virtual void NbcResize(const Point& rRef, const Fraction& xFact, const Fraction& yFact);
	virtual SdrObjList* GetSubList() const;

	// 3D-Objekt in die Gruppe einfuegen; Eigentumsuebergang!
	virtual void Insert3DObj(E3dObject* p3DObj);
	void Remove3DObj(E3dObject* p3DObj);

	E3dObject* GetParentObj() const;
	virtual E3dScene* GetScene() const;

	const basegfx::B3DRange& GetBoundVolume() const;
    void InvalidateBoundVolume();

	// komplette Transformation inklusive aller Parents berechnen
	const basegfx::B3DHomMatrix& GetFullTransform() const;

	// Transformationsmatrix abfragen bzw. (zurueck)setzen
	const basegfx::B3DHomMatrix& GetTransform() const;
	virtual void NbcSetTransform(const basegfx::B3DHomMatrix& rMatrix);
	virtual void SetTransform(const basegfx::B3DHomMatrix& rMatrix);

	// [FG] 2D-Rotationen, werden hier als Rotationen um die Z-Achse, die in den Bildschirm zeigt,
	//      implementiert plus eine Verschiebung der Scene. Dies bedeutet auch die Scene (E3dScene)
	//      muss diese Routine in der Klasse als virtual definieren.
	virtual void NbcRotate(const Point& rRef, long nWink, double sn, double cs);

	// get wireframe polygon for local object. No transform is applied.
	basegfx::B3DPolyPolygon CreateWireframe() const;

	// TakeObjName...() ist fuer die Anzeige in der UI, z.B. "3 Rahmen selektiert".
	virtual void TakeObjNameSingul(String& rName) const;
	virtual void TakeObjNamePlural(String& rName) const;
	sal_uInt16 GetLogicalGroup() { return 0; }
	virtual void operator=(const SdrObject&);

	virtual SdrObjGeoData *NewGeoData() const;
	virtual void          SaveGeoData(SdrObjGeoData& rGeo) const;
	virtual void          RestGeoData(const SdrObjGeoData& rGeo);

	// Selektion Setzen/Lesen
	bool GetSelected() const { return mbIsSelected; }
	void SetSelected(bool bNew);

	// Aufbrechen
	virtual sal_Bool IsBreakObjPossible();
	virtual SdrAttrObj* GetBreakObj();
};

/*************************************************************************
|*
|* Klasse fuer alle zusammengesetzen Objekte (Cube, Lathe, Scene, Extrude)
|* Diese Klasse erspart ein paar ISA-Abfragen und sie beschleunigt das
|* Verhalten ungemein, da alle Attribute usw. fuer die untergeordneten
|* Polygone hierueber gehalten werden. Die Polygone duerfen nur Attribute
|* halten, wenn sie direkt einer Szene untergeordnet sind.
|*
\************************************************************************/

class SVX_DLLPUBLIC E3dCompoundObject : public E3dObject
{
private:
	// to allow sdr::properties::E3dCompoundProperties access to SetGeometryValid()
	friend class sdr::properties::E3dCompoundProperties;
	friend class sdr::properties::E3dExtrudeProperties;
	friend class sdr::properties::E3dLatheProperties;
	friend class sdr::properties::E3dSphereProperties;

protected:
	virtual sdr::properties::BaseProperties* CreateObjectSpecificProperties();

    // Material des Objektes
	Color					aMaterialAmbientColor;

	// Attribute zur Geometrieerzeugung
	unsigned				bCreateNormals				: 1;
	unsigned				bCreateTexture				: 1;

protected:
	void SetDefaultAttributes(E3dDefaultAttributes& rDefault);

	// convert given basegfx::B3DPolyPolygon to screen coor
	basegfx::B2DPolyPolygon TransformToScreenCoor(const basegfx::B3DPolyPolygon& rCandidate);

public :
	TYPEINFO();

	E3dCompoundObject();
	E3dCompoundObject(E3dDefaultAttributes& rDefault);
	virtual ~E3dCompoundObject();

	virtual basegfx::B2DPolyPolygon TakeXorPoly() const;
	virtual sal_uInt32 GetHdlCount() const;
	virtual void	AddToHdlList(SdrHdlList& rHdlList) const;
	
	// DoubleSided: sal_True/FALSE
	sal_Bool GetDoubleSided() const
		{ return ((const Svx3DDoubleSidedItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_DOUBLE_SIDED)).GetValue(); }

	// NormalsKind: 0 == sal_False/sal_False, 1 == sal_True/sal_False, else == sal_True/TRUE
	sal_uInt16 GetNormalsKind() const
		{ return ((const Svx3DNormalsKindItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_NORMALS_KIND)).GetValue(); }

	// NormalsInvert: sal_True/FALSE
	sal_Bool GetNormalsInvert() const
		{ return ((const Svx3DNormalsInvertItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_NORMALS_INVERT)).GetValue(); }

	// TextureProjX: 0 == sal_False/sal_False, 1 == sal_True/sal_False, else == sal_True/TRUE
	sal_uInt16 GetTextureProjectionX() const
		{ return ((const Svx3DTextureProjectionXItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_TEXTURE_PROJ_X)).GetValue(); }

	// TextureProjY: 0 == sal_False/sal_False, 1 == sal_True/sal_False, else == sal_True/TRUE
	sal_uInt16 GetTextureProjectionY() const
		{ return ((const Svx3DTextureProjectionYItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_TEXTURE_PROJ_Y)).GetValue(); }

	// Shadow3D: sal_True/FALSE
	sal_Bool GetShadow3D() const
		{ return ((const Svx3DShadow3DItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_SHADOW_3D)).GetValue(); }

	// MaterialColor: Color
	Color GetMaterialColor() const
		{ return ((const Svx3DMaterialColorItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_MAT_COLOR)).GetValue(); }

	// MaterialEmission: Color
	Color GetMaterialEmission() const
		{ return ((const Svx3DMaterialEmissionItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_MAT_EMISSION)).GetValue(); }

	// MaterialSpecular: Color
	Color GetMaterialSpecular() const
		{ return ((const Svx3DMaterialSpecularItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_MAT_SPECULAR)).GetValue(); }

	// MaterialSpecularIntensity:
	sal_uInt16 GetMaterialSpecularIntensity() const
		{ return ((const Svx3DMaterialSpecularIntensityItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_MAT_SPECULAR_INTENSITY)).GetValue(); }

	// TextureFilter: sal_True/FALSE
	sal_Bool GetTextureFilter() const
		{ return ((const Svx3DTextureFilterItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_TEXTURE_FILTER)).GetValue(); }

	// #i28528#
	// Added extra Item (Bool) for chart2 to be able to show reduced line geometry
	sal_Bool GetReducedLineGeometry() const
		{ return ((const Svx3DReducedLineGeometryItem&)GetObjectItemSet().Get(SDRATTR_3DOBJ_REDUCED_LINE_GEOMETRY)).GetValue(); }

	virtual sal_uInt16 GetObjIdentifier() const;
	virtual void RecalcSnapRect();

	// Parameter Geometrieerzeugung setzen/lesen
	sal_Bool GetCreateNormals() const { return bCreateNormals; }
	void SetCreateNormals(sal_Bool bNew);

	sal_Bool GetCreateTexture() const { return bCreateTexture; }
	void SetCreateTexture(sal_Bool bNew);

	// Copy-Operator
	virtual void operator=(const SdrObject&);

	// Material des Objektes
	const Color& GetMaterialAmbientColor() const { return aMaterialAmbientColor; }
	void SetMaterialAmbientColor(const Color& rColor);

	// #110988#
	sal_Bool IsAOrdNumRemapCandidate(E3dScene*& prScene) const;
};

#endif			// _E3D_OBJ3D_HXX