blender/source/gameengine/Ketsji/KX_GameObject.h

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/*
* $Id$
*
* ***** BEGIN GPL/BL DUAL LICENSE BLOCK *****
*
* 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. The Blender
* Foundation also sells licenses for use in proprietary software under
* the Blender License. See http://www.blender.org/BL/ for information
* about this.
*
* 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/BL DUAL LICENSE BLOCK *****
* General KX game object.
*/
#ifndef __KX_GAMEOBJECT
#define __KX_GAMEOBJECT
#ifdef WIN32
// get rid of this stupid "warning 'this' used in initialiser list", generated by VC when including Solid/Sumo
#pragma warning (disable : 4355)
#endif
#include "ListValue.h"
#include "SCA_IObject.h"
#include "SG_Node.h"
#include "MT_Transform.h"
#include "MT_CmMatrix4x4.h"
#include "GEN_Map.h"
#include "GEN_HashedPtr.h"
#define KX_FIXED_FRAME_PER_SEC 25.0f
#define KX_FIXED_SEC_PER_FRAME (1.0f / KX_FIXED_FRAME_PER_SEC)
#define KX_OB_DYNAMIC 1
//Forward declarations.
struct KX_ClientObjectInfo;
class RAS_MeshObject;
class KX_IPhysicsController;
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/**
* KX_GameObject is the main class for dynamic objects.
*/
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class KX_GameObject : public SCA_IObject
{
Py_Header;
protected:
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bool m_bDyna;
KX_ClientObjectInfo* m_pClient_info;
STR_String m_name;
STR_String m_text;
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std::vector<RAS_MeshObject*> m_meshes;
bool m_bSuspendDynamics;
bool m_bUseObjectColor;
MT_Vector4 m_objectColor;
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// Is this object set to be visible? Only useful for the
// visibility subsystem right now.
bool m_bVisible;
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KX_IPhysicsController* m_pPhysicsController1;
SG_Node* m_pSGNode;
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MT_CmMatrix4x4 m_OpenGL_4x4Matrix;
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public:
Patch: [ #2439 ] Makes objects react properly to deformations after a mesh replacement call. from brian hayward (bthayward) Detailed description: Currently, when an armature deformed object's mesh is replaced by the ReplaceMesh actuator, the new mesh fails to deform to the armature's movement. My patch fixes this by properly replacing the deform controller along with the mesh (when appropriete). For instance, if one had an animated character using any of the standard deformation techniques (armature, ipo, RVK, or AVK), that character's mesh would currently be prevented from changing mid-game. It could be replaced, but the new mesh would lack the controller which tells it how to deform. If one wanted to dynamiclly add a hat on top of the character's head, it would require storing a secondary prebuilt character (mesh, armature, logic, ect...) on another layer FOR EACH HAT the character could possibly wear, then swapping out the whole character when the hat change was desired. So if you had 4 possible hat/character combos, you would have 4 character meshes, 4 armatures, 4 sets of logic, and so on. I find this lack of flexibility to be unresonable. With my patch, one could accomplish the same thing mearly by making one version of the character in the main layer, and adding an invisible object atop the character's head (which is parented to the head bone). Then whenever it becomes desirable, one can replace the invisible object's mesh with the desirable hat's mesh, then make it visible. With my patch, the hat object would then continue to deform to the character's head regardless of which hat was currently being worn. *note 1* for armature/mesh deformations, the new mesh must have properly assigned vertex groups which match one or more of the bones of the target armature before the replaceMesh call is made. Otherwise the vertices won't react to the armature because they won't know how. (not sure if vertices can be scripted to change groups after the game has started) *note 2* The added processing time involved with replacing the object's deform controller is negligible.
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bool m_isDeformable;
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virtual void /* This function should be virtual - derived classed override it */
Relink(
GEN_Map<GEN_HashedPtr, void*> *map
);
/**
* Compute an OpenGl compatable 4x4 matrix. Has the
* side effect of storing the result internally. The
* memory for the matrix remains the property of this class.
*/
double*
GetOpenGLMatrix(
);
/**
* Return a pointer to a MT_CmMatrix4x4 storing the
* opengl transformation for this object. This is updated
* by a call to GetOpenGLMatrix(). This class owns the
* memory for the returned matrix.
*/
MT_CmMatrix4x4*
GetOpenGLMatrixPtr(
) {
return &m_OpenGL_4x4Matrix;
};
/**
* Get a pointer to the game object that is the parent of
* this object. Or NULL if there is no parent. The returned
* object is part of a reference counting scheme. Calling
* this function ups the reference count on the returned
* object. It is the responsibility of the caller to decrement
* the reference count when you have finished with it.
*/
KX_GameObject*
GetParent(
);
/**
* Construct a game object. This class also inherits the
* default constructors - use those with care!
*/
KX_GameObject(
void* sgReplicationInfo,
SG_Callbacks callbacks,
PyTypeObject* T=&Type
);
virtual
~KX_GameObject(
);
CValue*
AddRef() {
/* temporarily to find memleaks */ return CValue::AddRef();
}
/**
* @section Stuff which is here due to poor design.
* Inherited from CValue and needs an implementation.
* Do not expect these functions do to anything sensible.
*/
/**
* Inherited from CValue -- does nothing!
*/
CValue*
Calc(
VALUE_OPERATOR op,
CValue *val
);
/**
* Inherited from CValue -- does nothing!
*/
CValue*
CalcFinal(
VALUE_DATA_TYPE dtype,
VALUE_OPERATOR op,
CValue *val
);
/**
* Inherited from CValue -- does nothing!
*/
const
STR_String &
GetText(
);
/**
* Inherited from CValue -- does nothing!
*/
float
GetNumber(
);
/**
* @section Inherited from CValue. These are the useful
* part of the CValue interface that this class implements.
*/
/**
* Inherited from CValue -- returns the name of this object.
*/
STR_String
GetName(
);
/**
* Inherited from CValue -- set the name of this object.
*/
void
SetName(
STR_String name
);
/**
* Inherited from CValue -- does nothing.
*/
void
ReplicaSetName(
STR_String name
);
/**
* Inherited from CValue -- return a new copy of this
* instance allocated on the heap. Ownership of the new
* object belongs with the caller.
*/
virtual CValue*
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GetReplica(
);
/**
* Inherited from CValue -- Makes sure any internal
* data owned by this class is deep copied. Called internally
*/
virtual void
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ProcessReplica(
KX_GameObject* replica
);
/**
* Return the linear velocity of the game object.
*/
MT_Vector3
GetLinearVelocity(
);
/**
* Quick'n'dirty obcolor ipo stuff
*/
void
SetObjectColor(
const MT_Vector4& rgbavec
);
void
ResolveCombinedVelocities(
const MT_Vector3 & lin_vel,
const MT_Vector3 & ang_vel,
bool lin_vel_local,
bool ang_vel_local
);
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/**
* @return a pointer to the physics controller owned by this class.
*/
KX_IPhysicsController* GetPhysicsController() ;
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void SetPhysicsController(KX_IPhysicsController* physicscontroller,bool isDynamic)
{
m_bDyna = isDynamic;
m_pPhysicsController1 = physicscontroller;
}
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/**
* @section Coordinate system manipulation functions
*/
void NodeSetLocalPosition(const MT_Point3& trans );
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void NodeSetLocalOrientation(const MT_Matrix3x3& rot );
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void NodeSetLocalScale( const MT_Vector3& scale );
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void NodeSetRelativeScale( const MT_Vector3& scale );
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void
NodeUpdateGS(
double time,
bool bInitiator
);
const
MT_Matrix3x3&
NodeGetWorldOrientation(
) const;
const
MT_Vector3&
NodeGetWorldScaling(
) const;
const
MT_Point3&
NodeGetWorldPosition(
) const;
/**
* @section scene graph node accessor functions.
*/
SG_Node* GetSGNode( )
{
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return m_pSGNode;
}
const SG_Node* GetSGNode( ) const
{
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return m_pSGNode;
}
/**
* Set the Scene graph node for this game object.
* warning - it is your responsibility to make sure
* all controllers look at this new node. You must
* also take care of the memory associated with the
* old node. This class takes ownership of the new
* node.
*/
void SetSGNode(SG_Node* node )
{
m_pSGNode = node;
}
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//Is it a dynamic/physics object ?
bool IsDynamic() const
{
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return m_bDyna;
}
/**
* @section Physics accessors for this node.
*
* All these calls get passed directly to the physics controller
* owned by this object.
* This is real interface bloat. Why not just use the physics controller
* directly? I think this is because the python interface is in the wrong
* place.
*/
void
ApplyForce(
const MT_Vector3& force, bool local
);
void
ApplyTorque(
const MT_Vector3& torque,
bool local
);
void
ApplyRotation(
const MT_Vector3& drot,
bool local
);
void
ApplyMovement(
const MT_Vector3& dloc,
bool local
);
void
addLinearVelocity(
const MT_Vector3& lin_vel,
bool local
);
void
setLinearVelocity(
const MT_Vector3& lin_vel,
bool local
);
void
setAngularVelocity(
const MT_Vector3& ang_vel,
bool local
);
/**
* Update the physics object transform based upon the current SG_Node
* position.
*/
void
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UpdateTransform(
);
static void UpdateTransformFunc(SG_IObject* node, void* gameobj, void* scene);
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/**
* Only update the transform if it's a non-dynamic object
*/
void
UpdateNonDynas(
);
/**
* Odd function to update an ipo. ???
*/
void
UpdateIPO(
float curframetime,
bool resurse,
bool ipo_as_force,
bool force_ipo_local
);
/**
* Updates Material Ipo data
*/
void
UpdateMaterialData(
MT_Vector4 rgba,
MT_Vector3 specrgb,
MT_Scalar hard,
MT_Scalar spec,
MT_Scalar ref,
MT_Scalar emit,
MT_Scalar alpha
);
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/**
* @section Mesh accessor functions.
*/
/**
* Run through the meshes associated with this
* object and bucketize them. See RAS_Mesh for
* more details on this function. Interesting to
* note that polygon bucketizing seems to happen on a per
* object basis. Which may explain why there is such
* a big performance gain when all static objects
* are joined into 1.
*/
void
Bucketize(
);
/**
* Clear the meshes associated with this class
* and remove from the bucketing system.
* Don't think this actually deletes any of the meshes.
*/
void
RemoveMeshes(
);
/**
* Add a mesh to the set of meshes associated with this
* node. Meshes added in this way are not deleted by this class.
* Make sure you call RemoveMeshes() before deleting the
* mesh though,
*/
void
AddMesh(
RAS_MeshObject* mesh
){
m_meshes.push_back(mesh);
}
/**
* Pick out a mesh associated with the integer 'num'.
*/
RAS_MeshObject*
GetMesh(
int num
) const {
return m_meshes[num];
}
/**
* Return the number of meshes currently associated with this
* game object.
*/
int
GetMeshCount(
) const {
return m_meshes.size();
}
/**
* Set the debug color of the meshes associated with this
* class. Does this still work?
*/
void
SetDebugColor(
unsigned int bgra
);
/**
* Reset the debug color of meshes associated with this class.
*/
void
ResetDebugColor(
);
/**
* Set the visibility of the meshes associated with this
* object.
*/
void
MarkVisible(
bool visible
);
/**
* Set the visibility according to the visibility flag.
*/
void
MarkVisible(
void
);
/**
* Was this object marked visible? (only for the ewxplicit
* visibility system).
*/
bool
GetVisible(
void
);
/**
* Set visibility flag of this object
*/
void
SetVisible(
bool b
);
/**
* @section Logic bubbling methods.
*/
/**
* Stop making progress
*/
void Suspend(void);
/**
* Resume making progress
*/
void Resume(void);
KX_ClientObjectInfo* getClientInfo() { return m_pClient_info; }
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/**
* @section Python interface functions.
*/
virtual
PyObject*
_getattr(
const STR_String& attr
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);
virtual
int
_setattr(
const STR_String& attr,
PyObject *value
); // _setattr method
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PyObject*
PySetPosition(
PyObject* self,
PyObject* args,
PyObject* kwds
);
static
PyObject*
sPySetPosition(
PyObject* self,
PyObject* args,
PyObject* kwds
);
KX_PYMETHOD(KX_GameObject,GetPosition);
KX_PYMETHOD(KX_GameObject,GetLinearVelocity);
KX_PYMETHOD(KX_GameObject,GetVelocity);
KX_PYMETHOD(KX_GameObject,GetMass);
KX_PYMETHOD(KX_GameObject,GetReactionForce);
KX_PYMETHOD(KX_GameObject,GetOrientation);
KX_PYMETHOD(KX_GameObject,SetOrientation);
KX_PYMETHOD(KX_GameObject,SetVisible);
KX_PYMETHOD(KX_GameObject,SuspendDynamics);
KX_PYMETHOD(KX_GameObject,RestoreDynamics);
KX_PYMETHOD(KX_GameObject,EnableRigidBody);
KX_PYMETHOD(KX_GameObject,DisableRigidBody);
KX_PYMETHOD(KX_GameObject,ApplyImpulse);
KX_PYMETHOD(KX_GameObject,GetMesh);
KX_PYMETHOD(KX_GameObject,GetParent);
KX_PYMETHOD(KX_GameObject,GetPhysicsId);
KX_PYMETHOD_DOC(KX_GameObject,getDistanceTo);
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private :
/**
* Random internal function to convert python function arguments
* to 2 vectors.
* @return true if conversion was possible.
*/
bool
ConvertPythonVectorArgs(
PyObject* args,
MT_Vector3& pos,
MT_Vector3& pos2
);
};
#endif //__KX_GAMEOBJECT