blender/source/gameengine/Ketsji/KX_Scene.h

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/**
* $Id$
*
* ***** BEGIN GPL LICENSE BLOCK *****
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*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
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*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
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*/
#ifndef __KX_SCENE_H
#define __KX_SCENE_H
#include "KX_PhysicsEngineEnums.h"
#include <vector>
#include <set>
#include <list>
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#include "GEN_Map.h"
#include "GEN_HashedPtr.h"
#include "SG_IObject.h"
#include "SCA_IScene.h"
#include "MT_Transform.h"
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#include "RAS_FramingManager.h"
#include "RAS_Rect.h"
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#include "PyObjectPlus.h"
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/**
* @section Forward declarations
*/
struct SM_MaterialProps;
struct SM_ShapeProps;
struct Scene;
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class GEN_HashedPtr;
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class CListValue;
class CValue;
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class SCA_LogicManager;
class SCA_KeyboardManager;
class SCA_TimeEventManager;
class SCA_MouseManager;
class SCA_ISystem;
class SCA_IInputDevice;
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class SND_Scene;
class SND_IAudioDevice;
class NG_NetworkDeviceInterface;
class NG_NetworkScene;
class SG_IObject;
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class SG_Node;
class SG_Tree;
class KX_WorldInfo;
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class KX_Camera;
class KX_GameObject;
class KX_LightObject;
class RAS_BucketManager;
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class RAS_BucketManager;
class RAS_MaterialBucket;
class RAS_IPolyMaterial;
class RAS_IRasterizer;
class RAS_IRenderTools;
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class SCA_JoystickManager;
class btCollisionShape;
class KX_BlenderSceneConverter;
struct KX_ClientObjectInfo;
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/**
* The KX_Scene holds all data for an independent scene. It relates
* KX_Objects to the specific objects in the modules.
* */
class KX_Scene : public PyObjectPlus, public SCA_IScene
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{
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Py_Header;
struct CullingInfo {
int m_layer;
CullingInfo(int layer) : m_layer(layer) {}
};
protected:
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RAS_BucketManager* m_bucketmanager;
CListValue* m_tempObjectList;
/**
* The list of objects which have been removed during the
* course of one frame. They are actually destroyed in
* LogicEndFrame() via a call to RemoveObject().
*/
CListValue* m_euthanasyobjects;
CListValue* m_objectlist;
CListValue* m_parentlist; // all 'root' parents
CListValue* m_lightlist;
CListValue* m_inactivelist; // all objects that are not in the active layer
SG_QList m_sghead; // list of nodes that needs scenegraph update
// the Dlist is not object that must be updated
// the Qlist is for objects that needs to be rescheduled
// for updates after udpate is over (slow parent, bone parent)
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/**
* The tree of objects in the scene.
*/
SG_Tree* m_objecttree;
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/**
* The set of cameras for this scene
*/
list<class KX_Camera*> m_cameras;
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/**
* Various SCA managers used by the scene
*/
SCA_LogicManager* m_logicmgr;
SCA_KeyboardManager* m_keyboardmgr;
SCA_MouseManager* m_mousemgr;
SCA_TimeEventManager* m_timemgr;
// Scene converter where many scene entities are registered
// Used to deregister objects that are deleted
class KX_BlenderSceneConverter* m_sceneConverter;
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/**
* physics engine abstraction
*/
//e_PhysicsEngine m_physicsEngine; //who needs this ?
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class PHY_IPhysicsEnvironment* m_physicsEnvironment;
/**
* Does this scene clear the z-buffer?
*/
bool m_isclearingZbuffer;
/**
* The name of the scene
*/
STR_String m_sceneName;
/**
* stores the worldsettings for a scene
*/
KX_WorldInfo* m_worldinfo;
/**
* @section Different scenes, linked to ketsji scene
*/
/**
* Sound scenes
*/
SND_Scene* m_soundScene;
SND_IAudioDevice* m_adi;
/**
* Network scene.
*/
NG_NetworkDeviceInterface* m_networkDeviceInterface;
NG_NetworkScene* m_networkScene;
/**
* A temoprary variable used to parent objects together on
* replication. Don't get confused by the name it is not
* the scene's root node!
*/
SG_Node* m_rootnode;
/**
* The active camera for the scene
*/
KX_Camera* m_active_camera;
/**
* Another temporary variable outstaying its welcome
* used in AddReplicaObject to map game objects to their
* replicas so pointers can be updated.
*/
GEN_Map <GEN_HashedPtr, void*> m_map_gameobject_to_replica;
/**
* Another temporary variable outstaying its welcome
* used in AddReplicaObject to keep a record of all added
* objects. Logic can only be updated when all objects
* have been updated. This stores a list of the new objects.
*/
std::vector<KX_GameObject*> m_logicHierarchicalGameObjects;
/**
* This temporary variable will contain the list of
* object that can be added during group instantiation.
* objects outside this list will not be added (can
* happen with children that are outside the group).
* Used in AddReplicaObject. If the list is empty, it
* means don't care.
*/
std::set<CValue*> m_groupGameObjects;
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/**
* Pointer to system variable passed in in constructor
* only used in constructor so we do not need to keep it
* around in this class.
*/
SCA_ISystem* m_kxsystem;
/**
* The execution priority of replicated object actuators?
*/
int m_ueberExecutionPriority;
/**
* Activity 'bubble' settings :
* Suspend (freeze) the entire scene.
*/
bool m_suspend;
/**
* Radius in Manhattan distance of the box for activity culling.
*/
float m_activity_box_radius;
/**
* Toggle to enable or disable activity culling.
*/
bool m_activity_culling;
/**
* Toggle to enable or disable culling via DBVT broadphase of Bullet.
*/
bool m_dbvt_culling;
/**
* Occlusion culling resolution
*/
int m_dbvt_occlusion_res;
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/**
* The framing settings used by this scene
*/
RAS_FrameSettings m_frame_settings;
/**
* This scenes viewport into the game engine
* canvas.Maintained externally, initially [0,0] -> [0,0]
*/
RAS_Rect m_viewport;
/**
* Visibility testing functions.
*/
void MarkVisible(SG_Tree *node, RAS_IRasterizer* rasty, KX_Camera*cam,int layer=0);
void MarkSubTreeVisible(SG_Tree *node, RAS_IRasterizer* rasty, bool visible, KX_Camera*cam,int layer=0);
void MarkVisible(RAS_IRasterizer* rasty, KX_GameObject* gameobj, KX_Camera*cam, int layer=0);
static void PhysicsCullingCallback(KX_ClientObjectInfo* objectInfo, void* cullingInfo);
double m_suspendedtime;
double m_suspendeddelta;
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/**
* This stores anything from python
*/
PyObject* m_attr_dict;
struct Scene* m_blenderScene;
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public:
KX_Scene(class SCA_IInputDevice* keyboarddevice,
class SCA_IInputDevice* mousedevice,
class NG_NetworkDeviceInterface* ndi,
class SND_IAudioDevice* adi,
const STR_String& scenename,
struct Scene* scene);
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virtual
~KX_Scene();
RAS_BucketManager* GetBucketManager();
RAS_MaterialBucket* FindBucket(RAS_IPolyMaterial* polymat, bool &bucketCreated);
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void RenderBuckets(const MT_Transform& cameratransform,
RAS_IRasterizer* rasty,
RAS_IRenderTools* rendertools);
/**
* Update all transforms according to the scenegraph.
*/
static bool KX_ScenegraphUpdateFunc(SG_IObject* node,void* gameobj,void* scene);
static bool KX_ScenegraphRescheduleFunc(SG_IObject* node,void* gameobj,void* scene);
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void UpdateParents(double curtime);
BGE patch: DUPLIGROUP option supported in BGE. Blender duplicates groups in the 3D view at the location of objects having the DUPLIGROUP option set. This feature is now supported in the BGE: the groups will be instantiated as in the 3D view when the scene is converted. This is useful to populate a scene with multiple enemies without having to actually duplicate the objects in the blend file. Notes: * The BGE applies the same criteria to instantiate the group as Blender to display them: if you see the group in the 3D view, it will be instantiated in the BGE. * Groups are instantiated as if the object having the DUPLIGROUP option (usually an empty) executed an AddObject actuator on the top objects of the group (objects without parent). * As a result, only intra-group parent relationship is supported: the BGE will not instantiate objects that have parents outside the group. * Intra-group logic bricks connections are preserved between the duplicated objects, even between the top objects of the group. * For best result, the state engine of the objects in the group should be self-contained: logic bricks should only have intra-group connections. Use messages to communicate with state engines outside the group. * Nested groups are supported: if one or more objects in the group have the DUPLIGROUP option set, the corresponding groups will be instantiated at the corresponding position and orientation. * Nested groups are instantiated as separate groups, not as one big group. * Linked groups are supported as well as groups containing objects from the active layers. * There is a difference in the way Blender displays the groups in the 3D view and how BGE instantiates them: Blender does not take into account the parent relationship in the group and displays the objects as if they were all children of the object having the DUPLIGROUP option. That's correct for the top objects of the group but not for the children. Hence the orientation of the children objects may be different in the BGE. * An AddGroup actuator will be added in a future release.
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void DupliGroupRecurse(CValue* gameobj, int level);
bool IsObjectInGroup(CValue* gameobj)
{
return (m_groupGameObjects.empty() ||
m_groupGameObjects.find(gameobj) != m_groupGameObjects.end());
}
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SCA_IObject* AddReplicaObject(CValue* gameobj,
CValue* locationobj,
int lifespan=0);
KX_GameObject* AddNodeReplicaObject(SG_IObject* node,
CValue* gameobj);
void RemoveNodeDestructObject(SG_IObject* node,
CValue* gameobj);
void RemoveObject(CValue* gameobj);
void DelayedRemoveObject(CValue* gameobj);
int NewRemoveObject(CValue* gameobj);
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void ReplaceMesh(CValue* gameobj,
void* meshobj);
/**
* @section Logic stuff
* Initiate an update of the logic system.
*/
void LogicBeginFrame(double curtime);
void LogicUpdateFrame(double curtime, bool frame);
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void
LogicEndFrame(
);
CListValue*
GetObjectList(
);
CListValue*
GetInactiveList(
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);
CListValue*
GetRootParentList(
);
CListValue*
GetLightList(
);
SCA_LogicManager*
GetLogicManager(
);
SCA_TimeEventManager*
GetTimeEventManager(
);
list<class KX_Camera*>*
GetCameras(
);
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/** Find a camera in the scene by pointer. */
KX_Camera*
FindCamera(
KX_Camera*
);
/** Find a scene in the scene by name. */
KX_Camera*
FindCamera(
STR_String&
);
/** Add a camera to this scene. */
void
AddCamera(
KX_Camera*
);
/** Find the currently active camera. */
KX_Camera*
GetActiveCamera(
);
/**
* Set this camera to be the active camera in the scene. If the
* camera is not present in the camera list, it will be added
*/
void
SetActiveCamera(
class KX_Camera*
);
/**
* Move this camera to the end of the list so that it is rendered last.
* If the camera is not on the list, it will be added
*/
void
SetCameraOnTop(
class KX_Camera*
);
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/**
* Activates new desired canvas width set at design time.
* @param width The new desired width.
*/
void
SetCanvasDesignWidth(
unsigned int width
);
/**
* Activates new desired canvas height set at design time.
* @param width The new desired height.
*/
void
SetCanvasDesignHeight(
unsigned int height
);
/**
* Returns the current desired canvas width set at design time.
* @return The desired width.
*/
unsigned int
GetCanvasDesignWidth(
void
) const;
/**
* Returns the current desired canvas height set at design time.
* @return The desired height.
*/
unsigned int
GetCanvasDesignHeight(
void
) const;
/**
* Set the framing options for this scene
*/
void
SetFramingType(
RAS_FrameSettings & frame_settings
);
/**
* Return a const reference to the framing
* type set by the above call.
* The contents are not guarenteed to be sensible
* if you don't call the above function.
*/
const
RAS_FrameSettings &
GetFramingType(
) const;
/**
* Store the current scene's viewport on the
* game engine canvas.
*/
void SetSceneViewport(const RAS_Rect &viewport);
/**
* Get the current scene's viewport on the
* game engine canvas. This maintained
* externally in KX_GameEngine
*/
const RAS_Rect& GetSceneViewport() const;
/**
* @section Accessors to different scenes of this scene
*/
void SetNetworkDeviceInterface(NG_NetworkDeviceInterface* newInterface);
void SetNetworkScene(NG_NetworkScene *newScene);
void SetWorldInfo(class KX_WorldInfo* wi);
KX_WorldInfo* GetWorldInfo();
void CalculateVisibleMeshes(RAS_IRasterizer* rasty, KX_Camera *cam, int layer=0);
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void UpdateMeshTransformations();
KX_Camera* GetpCamera();
SND_Scene* GetSoundScene();
NG_NetworkDeviceInterface* GetNetworkDeviceInterface();
NG_NetworkScene* GetNetworkScene();
/**
* Replicate the logic bricks associated to this object.
*/
void ReplicateLogic(class KX_GameObject* newobj);
static SG_Callbacks m_callbacks;
const STR_String& GetName();
// Suspend the entire scene.
void Suspend();
// Resume a suspended scene.
void Resume();
// Update the activity box settings for objects in this scene, if needed.
void UpdateObjectActivity(void);
// Enable/disable activity culling.
void SetActivityCulling(bool b);
// Set the radius of the activity culling box.
void SetActivityCullingRadius(float f);
bool IsSuspended();
bool IsClearingZBuffer();
void EnableZBufferClearing(bool isclearingZbuffer);
// use of DBVT tree for camera culling
void SetDbvtCulling(bool b) { m_dbvt_culling = b; };
bool GetDbvtCulling() { return m_dbvt_culling; };
void SetDbvtOcclusionRes(int i) { m_dbvt_occlusion_res = i; };
int GetDbvtOcclusionRes() { return m_dbvt_occlusion_res; };
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void SetSceneConverter(class KX_BlenderSceneConverter* sceneConverter);
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class PHY_IPhysicsEnvironment* GetPhysicsEnvironment()
{
return m_physicsEnvironment;
}
void SetPhysicsEnvironment(class PHY_IPhysicsEnvironment* physEnv);
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void SetGravity(const MT_Vector3& gravity);
/**
* Sets the node tree for this scene.
*/
void SetNodeTree(SG_Tree* root);
KX_PYMETHOD_DOC_NOARGS(KX_Scene, getLightList);
KX_PYMETHOD_DOC_NOARGS(KX_Scene, getObjectList);
KX_PYMETHOD_DOC_NOARGS(KX_Scene, getName);
KX_PYMETHOD_DOC(KX_Scene, addObject);
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/*
KX_PYMETHOD_DOC(KX_Scene, getActiveCamera);
KX_PYMETHOD_DOC(KX_Scene, getActiveCamera);
KX_PYMETHOD_DOC(KX_Scene, findCamera);
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KX_PYMETHOD_DOC(KX_Scene, getGravity);
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KX_PYMETHOD_DOC(KX_Scene, setActivityCulling);
KX_PYMETHOD_DOC(KX_Scene, setActivityCullingRadius);
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KX_PYMETHOD_DOC(KX_Scene, setSceneViewport);
KX_PYMETHOD_DOC(KX_Scene, setSceneViewport);
*/
/* attributes */
static PyObject* pyattr_get_name(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef);
static PyObject* pyattr_get_objects(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef);
static PyObject* pyattr_get_objects_inactive(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef);
static PyObject* pyattr_get_lights(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef);
static PyObject* pyattr_get_cameras(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef);
static PyObject* pyattr_get_active_camera(void* self_v, const KX_PYATTRIBUTE_DEF *attrdef);
static int pyattr_set_active_camera(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef, PyObject *value);
virtual PyObject* py_repr(void) { return PyUnicode_FromString(GetName().ReadPtr()); }
/**
* Sets the time the scene was suspended
*/
void setSuspendedTime(double suspendedtime);
/**
* Returns the "curtime" the scene was suspended
*/
double getSuspendedTime();
/**
* Sets the difference between the local time of the scene (when it
* was running and not suspended) and the "curtime"
*/
void setSuspendedDelta(double suspendeddelta);
/**
* Returns the difference between the local time of the scene (when it
* was running and not suspended) and the "curtime"
*/
double getSuspendedDelta();
/**
* Returns the Blender scene this was made from
*/
struct Scene *GetBlenderScene() { return m_blenderScene; }
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};
typedef std::vector<KX_Scene*> KX_SceneList;
#endif //__KX_SCENE_H