blender/source/gameengine/Ketsji/KX_ConvertPhysicsObjects.cpp

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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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*/
#ifdef WIN32
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#pragma warning (disable : 4786)
#endif
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#include "MT_assert.h"
// defines USE_ODE to choose physics engine
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#include "KX_ConvertPhysicsObject.h"
#include "KX_GameObject.h"
#include "RAS_MeshObject.h"
#include "KX_Scene.h"
#include "SYS_System.h"
#include "BL_SkinMeshObject.h"
#include "BulletSoftBody/btSoftBody.h"
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#include "PHY_Pro.h" //todo cleanup
#include "KX_ClientObjectInfo.h"
#include "GEN_Map.h"
#include "GEN_HashedPtr.h"
#include "KX_PhysicsEngineEnums.h"
#include "PHY_Pro.h"
#include "KX_MotionState.h" // bridge between motionstate and scenegraph node
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#ifdef USE_ODE
#include "KX_OdePhysicsController.h"
#include "OdePhysicsEnvironment.h"
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#endif //USE_ODE
// USE_SUMO_SOLID is defined in headerfile KX_ConvertPhysicsObject.h
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#ifdef USE_SUMO_SOLID
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#include "SumoPhysicsEnvironment.h"
#include "KX_SumoPhysicsController.h"
// sumo physics specific
#include "SM_Object.h"
#include "SM_FhObject.h"
#include "SM_Scene.h"
#include "SM_ClientObjectInfo.h"
#include "KX_SumoPhysicsController.h"
struct KX_PhysicsInstance
{
DT_VertexBaseHandle m_vertexbase;
RAS_DisplayArray* m_darray;
RAS_IPolyMaterial* m_material;
KX_PhysicsInstance(DT_VertexBaseHandle vertex_base, RAS_DisplayArray *darray, RAS_IPolyMaterial* mat)
: m_vertexbase(vertex_base),
m_darray(darray),
m_material(mat)
{
}
~KX_PhysicsInstance()
{
DT_DeleteVertexBase(m_vertexbase);
}
};
static GEN_Map<GEN_HashedPtr,DT_ShapeHandle> map_gamemesh_to_sumoshape;
static GEN_Map<GEN_HashedPtr, KX_PhysicsInstance*> map_gamemesh_to_instance;
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// forward declarations
static void BL_RegisterSumoObject(KX_GameObject* gameobj,class SM_Scene* sumoScene,class SM_Object* sumoObj,const STR_String& matname,bool isDynamic,bool isActor);
static DT_ShapeHandle CreateShapeFromMesh(RAS_MeshObject* meshobj, bool polytope);
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void KX_ConvertSumoObject( KX_GameObject* gameobj,
RAS_MeshObject* meshobj,
KX_Scene* kxscene,
PHY_ShapeProps* kxshapeprops,
PHY_MaterialProps* kxmaterial,
struct KX_ObjectProperties* objprop)
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{
SM_ShapeProps* smprop = new SM_ShapeProps;
smprop->m_ang_drag = kxshapeprops->m_ang_drag;
smprop->m_do_anisotropic = kxshapeprops->m_do_anisotropic;
smprop->m_do_fh = kxshapeprops->m_do_fh;
smprop->m_do_rot_fh = kxshapeprops->m_do_rot_fh ;
smprop->m_friction_scaling[0] = kxshapeprops->m_friction_scaling[0];
smprop->m_friction_scaling[1] = kxshapeprops->m_friction_scaling[1];
smprop->m_friction_scaling[2] = kxshapeprops->m_friction_scaling[2];
smprop->m_inertia = MT_Vector3(1., 1., 1.) * kxshapeprops->m_inertia;
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smprop->m_lin_drag = kxshapeprops->m_lin_drag;
smprop->m_mass = kxshapeprops->m_mass;
smprop->m_radius = objprop->m_radius;
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SM_MaterialProps* smmaterial = new SM_MaterialProps;
smmaterial->m_fh_damping = kxmaterial->m_fh_damping;
smmaterial->m_fh_distance = kxmaterial->m_fh_distance;
smmaterial->m_fh_normal = kxmaterial->m_fh_normal;
smmaterial->m_fh_spring = kxmaterial->m_fh_spring;
smmaterial->m_friction = kxmaterial->m_friction;
smmaterial->m_restitution = kxmaterial->m_restitution;
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SumoPhysicsEnvironment* sumoEnv =
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(SumoPhysicsEnvironment*)kxscene->GetPhysicsEnvironment();
SM_Scene* sceneptr = sumoEnv->GetSumoScene();
SM_Object* sumoObj=NULL;
if (objprop->m_dyna && objprop->m_isactor)
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{
DT_ShapeHandle shape = NULL;
bool polytope = false;
switch (objprop->m_boundclass)
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{
case KX_BOUNDBOX:
shape = DT_NewBox(objprop->m_boundobject.box.m_extends[0],
objprop->m_boundobject.box.m_extends[1],
objprop->m_boundobject.box.m_extends[2]);
smprop->m_inertia.scale(objprop->m_boundobject.box.m_extends[0]*objprop->m_boundobject.box.m_extends[0],
objprop->m_boundobject.box.m_extends[1]*objprop->m_boundobject.box.m_extends[1],
objprop->m_boundobject.box.m_extends[2]*objprop->m_boundobject.box.m_extends[2]);
smprop->m_inertia *= smprop->m_mass/MT_Vector3(objprop->m_boundobject.box.m_extends).length();
break;
case KX_BOUNDCYLINDER:
shape = DT_NewCylinder(smprop->m_radius, objprop->m_boundobject.c.m_height);
smprop->m_inertia.scale(smprop->m_mass*smprop->m_radius*smprop->m_radius,
smprop->m_mass*smprop->m_radius*smprop->m_radius,
smprop->m_mass*objprop->m_boundobject.c.m_height*objprop->m_boundobject.c.m_height);
break;
case KX_BOUNDCONE:
shape = DT_NewCone(objprop->m_radius, objprop->m_boundobject.c.m_height);
smprop->m_inertia.scale(smprop->m_mass*smprop->m_radius*smprop->m_radius,
smprop->m_mass*smprop->m_radius*smprop->m_radius,
smprop->m_mass*objprop->m_boundobject.c.m_height*objprop->m_boundobject.c.m_height);
break;
/* Dynamic mesh objects. WARNING! slow. */
case KX_BOUNDPOLYTOPE:
polytope = true;
// fall through
case KX_BOUNDMESH:
if (meshobj && meshobj->NumPolygons() > 0)
{
if ((shape = CreateShapeFromMesh(meshobj, polytope)))
{
// TODO: calculate proper inertia
smprop->m_inertia *= smprop->m_mass*smprop->m_radius*smprop->m_radius;
break;
}
}
/* If CreateShapeFromMesh fails, fall through and use sphere */
default:
case KX_BOUNDSPHERE:
shape = DT_NewSphere(objprop->m_radius);
smprop->m_inertia *= smprop->m_mass*smprop->m_radius*smprop->m_radius;
break;
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}
sumoObj = new SM_Object(shape, !objprop->m_ghost?smmaterial:NULL,smprop,NULL);
sumoObj->setRigidBody(objprop->m_angular_rigidbody?true:false);
BL_RegisterSumoObject(gameobj,sceneptr,sumoObj,"",true, true);
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}
else {
// non physics object
if (meshobj)
{
int numpolys = meshobj->NumPolygons();
{
DT_ShapeHandle complexshape=0;
bool polytope = false;
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switch (objprop->m_boundclass)
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{
case KX_BOUNDBOX:
complexshape = DT_NewBox(objprop->m_boundobject.box.m_extends[0], objprop->m_boundobject.box.m_extends[1], objprop->m_boundobject.box.m_extends[2]);
break;
case KX_BOUNDSPHERE:
complexshape = DT_NewSphere(objprop->m_boundobject.c.m_radius);
break;
case KX_BOUNDCYLINDER:
complexshape = DT_NewCylinder(objprop->m_boundobject.c.m_radius, objprop->m_boundobject.c.m_height);
break;
case KX_BOUNDCONE:
complexshape = DT_NewCone(objprop->m_boundobject.c.m_radius, objprop->m_boundobject.c.m_height);
break;
case KX_BOUNDPOLYTOPE:
polytope = true;
// fall through
default:
case KX_BOUNDMESH:
if (numpolys>0)
{
complexshape = CreateShapeFromMesh(meshobj, polytope);
//std::cout << "Convert Physics Mesh: " << meshobj->GetName() << std::endl;
/* if (!complexshape)
{
// Something has to be done here - if the object has no polygons, it will not be able to have
// sensors attached to it.
DT_Vector3 pt = {0., 0., 0.};
complexshape = DT_NewSphere(1.0);
objprop->m_ghost = evilObject = true;
} */
}
break;
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}
if (complexshape)
{
SM_Object *dynamicParent = NULL;
if (objprop->m_dynamic_parent)
{
// problem is how to find the dynamic parent
// in the scenegraph
KX_SumoPhysicsController* sumoctrl =
(KX_SumoPhysicsController*)
objprop->m_dynamic_parent->GetPhysicsController();
if (sumoctrl)
{
dynamicParent = sumoctrl->GetSumoObject();
}
MT_assert(dynamicParent);
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}
sumoObj = new SM_Object(complexshape,!objprop->m_ghost?smmaterial:NULL,NULL, dynamicParent);
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const STR_String& matname=meshobj->GetMaterialName(0);
BL_RegisterSumoObject(gameobj,sceneptr,
sumoObj,
matname,
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objprop->m_dyna,
objprop->m_isactor);
}
}
}
}
// physics object get updated here !
// lazy evaluation because we might not support scaling !gameobj->UpdateTransform();
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if (objprop->m_in_active_layer && sumoObj)
{
sceneptr->add(*sumoObj);
}
}
static void BL_RegisterSumoObject(
KX_GameObject* gameobj,
class SM_Scene* sumoScene,
class SM_Object* sumoObj,
const STR_String& matname,
bool isDynamic,
bool isActor)
{
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PHY_IMotionState* motionstate = new KX_MotionState(gameobj->GetSGNode());
// need easy access, not via 'node' etc.
KX_SumoPhysicsController* physicscontroller = new KX_SumoPhysicsController(sumoScene,sumoObj,motionstate,isDynamic);
gameobj->SetPhysicsController(physicscontroller,isDynamic);
if (!gameobj->getClientInfo())
std::cout << "BL_RegisterSumoObject: WARNING: Object " << gameobj->GetName() << " has no client info" << std::endl;
physicscontroller->setNewClientInfo(gameobj->getClientInfo());
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gameobj->GetSGNode()->AddSGController(physicscontroller);
gameobj->getClientInfo()->m_type = (isActor ? KX_ClientObjectInfo::ACTOR : KX_ClientObjectInfo::STATIC);
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// store materialname in auxinfo, needed for touchsensors
gameobj->getClientInfo()->m_auxilary_info = (matname.Length() ? (void*)(matname.ReadPtr()+2) : NULL);
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physicscontroller->SetObject(gameobj->GetSGNode());
}
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static DT_ShapeHandle InstancePhysicsComplex(RAS_MeshObject* meshobj, RAS_DisplayArray *darray, RAS_IPolyMaterial *mat)
{
// instance a mesh from a single vertex array & material
const RAS_TexVert *vertex_array = &darray->m_vertex[0];
DT_VertexBaseHandle vertex_base = DT_NewVertexBase(vertex_array[0].getXYZ(), sizeof(RAS_TexVert));
DT_ShapeHandle shape = DT_NewComplexShape(vertex_base);
std::vector<DT_Index> indices;
for (int p = 0; p < meshobj->NumPolygons(); p++)
{
RAS_Polygon* poly = meshobj->GetPolygon(p);
// only add polygons that have the collisionflag set
if (poly->IsCollider())
{
DT_Begin();
DT_VertexIndex(poly->GetVertexOffset(0));
DT_VertexIndex(poly->GetVertexOffset(1));
DT_VertexIndex(poly->GetVertexOffset(2));
DT_End();
// tesselate
if (poly->VertexCount() == 4)
{
DT_Begin();
DT_VertexIndex(poly->GetVertexOffset(0));
DT_VertexIndex(poly->GetVertexOffset(2));
DT_VertexIndex(poly->GetVertexOffset(3));
DT_End();
}
}
}
//DT_VertexIndices(indices.size(), &indices[0]);
DT_EndComplexShape();
map_gamemesh_to_instance.insert(GEN_HashedPtr(meshobj), new KX_PhysicsInstance(vertex_base, darray, mat));
return shape;
}
static DT_ShapeHandle InstancePhysicsPolytope(RAS_MeshObject* meshobj, RAS_DisplayArray *darray, RAS_IPolyMaterial *mat)
{
// instance a mesh from a single vertex array & material
const RAS_TexVert *vertex_array = &darray->m_vertex[0];
DT_VertexBaseHandle vertex_base = DT_NewVertexBase(vertex_array[0].getXYZ(), sizeof(RAS_TexVert));
std::vector<DT_Index> indices;
for (int p = 0; p < meshobj->NumPolygons(); p++)
{
RAS_Polygon* poly = meshobj->GetPolygon(p);
// only add polygons that have the collisionflag set
if (poly->IsCollider())
{
indices.push_back(poly->GetVertexOffset(0));
indices.push_back(poly->GetVertexOffset(1));
indices.push_back(poly->GetVertexOffset(2));
if (poly->VertexCount() == 4)
indices.push_back(poly->GetVertexOffset(3));
}
}
DT_ShapeHandle shape = DT_NewPolytope(vertex_base);
DT_VertexIndices(indices.size(), &indices[0]);
DT_EndPolytope();
map_gamemesh_to_instance.insert(GEN_HashedPtr(meshobj), new KX_PhysicsInstance(vertex_base, darray, mat));
return shape;
}
// This will have to be a method in a class somewhere...
// Update SOLID with a changed physics mesh.
// not used... yet.
bool KX_ReInstanceShapeFromMesh(RAS_MeshObject* meshobj)
{
KX_PhysicsInstance *instance = *map_gamemesh_to_instance[GEN_HashedPtr(meshobj)];
if (instance)
{
const RAS_TexVert *vertex_array = &instance->m_darray->m_vertex[0];
DT_ChangeVertexBase(instance->m_vertexbase, vertex_array[0].getXYZ());
return true;
}
return false;
}
static DT_ShapeHandle CreateShapeFromMesh(RAS_MeshObject* meshobj, bool polytope)
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{
DT_ShapeHandle *shapeptr = map_gamemesh_to_sumoshape[GEN_HashedPtr(meshobj)];
// Mesh has already been converted: reuse
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if (shapeptr)
{
return *shapeptr;
}
// Mesh has no polygons!
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int numpolys = meshobj->NumPolygons();
if (!numpolys)
{
return NULL;
}
// Count the number of collision polygons and check they all come from the same
// vertex array
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int numvalidpolys = 0;
RAS_DisplayArray *darray = NULL;
RAS_IPolyMaterial *poly_material = NULL;
bool reinstance = true;
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for (int p=0; p<numpolys; p++)
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{
RAS_Polygon* poly = meshobj->GetPolygon(p);
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// only add polygons that have the collisionflag set
if (poly->IsCollider())
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{
// check polygon is from the same vertex array
if (poly->GetDisplayArray() != darray)
{
if (darray == NULL)
darray = poly->GetDisplayArray();
else
{
reinstance = false;
darray = NULL;
}
}
// check poly is from the same material
if (poly->GetMaterial()->GetPolyMaterial() != poly_material)
{
if (poly_material)
{
reinstance = false;
poly_material = NULL;
}
else
poly_material = poly->GetMaterial()->GetPolyMaterial();
}
// count the number of collision polys
numvalidpolys++;
// We have one collision poly, and we can't reinstance, so we
// might as well break here.
if (!reinstance)
break;
}
}
// No collision polygons
if (numvalidpolys < 1)
return NULL;
DT_ShapeHandle shape;
if (reinstance)
{
if (polytope)
shape = InstancePhysicsPolytope(meshobj, darray, poly_material);
else
shape = InstancePhysicsComplex(meshobj, darray, poly_material);
}
else
{
if (polytope)
{
std::cout << "CreateShapeFromMesh: " << meshobj->GetName() << " is not suitable for polytope." << std::endl;
if (!poly_material)
std::cout << " Check mesh materials." << std::endl;
if (darray == NULL)
std::cout << " Check number of vertices." << std::endl;
}
shape = DT_NewComplexShape(NULL);
numvalidpolys = 0;
for (int p2=0; p2<numpolys; p2++)
{
RAS_Polygon* poly = meshobj->GetPolygon(p2);
// only add polygons that have the collisionflag set
if (poly->IsCollider())
{ /* We have to tesselate here because SOLID can only raycast triangles */
DT_Begin();
/* V1, V2, V3 */
DT_Vertex(poly->GetVertex(2)->getXYZ());
DT_Vertex(poly->GetVertex(1)->getXYZ());
DT_Vertex(poly->GetVertex(0)->getXYZ());
numvalidpolys++;
DT_End();
if (poly->VertexCount() == 4)
{
DT_Begin();
/* V1, V3, V4 */
DT_Vertex(poly->GetVertex(3)->getXYZ());
DT_Vertex(poly->GetVertex(2)->getXYZ());
DT_Vertex(poly->GetVertex(0)->getXYZ());
numvalidpolys++;
DT_End();
}
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}
}
DT_EndComplexShape();
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}
if (numvalidpolys > 0)
{
map_gamemesh_to_sumoshape.insert(GEN_HashedPtr(meshobj),shape);
return shape;
}
delete shape;
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return NULL;
}
void KX_ClearSumoSharedShapes()
{
int numshapes = map_gamemesh_to_sumoshape.size();
int i;
for (i=0;i<numshapes ;i++)
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{
DT_ShapeHandle shape = *map_gamemesh_to_sumoshape.at(i);
DT_DeleteShape(shape);
}
map_gamemesh_to_sumoshape.clear();
for (i=0; i < map_gamemesh_to_instance.size(); i++)
delete *map_gamemesh_to_instance.at(i);
map_gamemesh_to_instance.clear();
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}
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#endif //USE_SUMO_SOLID
#ifdef USE_ODE
void KX_ConvertODEEngineObject(KX_GameObject* gameobj,
RAS_MeshObject* meshobj,
KX_Scene* kxscene,
struct PHY_ShapeProps* shapeprops,
struct PHY_MaterialProps* smmaterial,
struct KX_ObjectProperties* objprop)
{
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// not yet, future extension :)
bool dyna=objprop->m_dyna;
bool fullRigidBody= ( objprop->m_dyna && objprop->m_angular_rigidbody) != 0;
bool phantom = objprop->m_ghost;
class PHY_IMotionState* motionstate = new KX_MotionState(gameobj->GetSGNode());
class ODEPhysicsEnvironment* odeEnv =
(ODEPhysicsEnvironment*)kxscene->GetPhysicsEnvironment();
dxSpace* space = odeEnv->GetOdeSpace();
dxWorld* world = odeEnv->GetOdeWorld();
bool isSphere = false;
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switch (objprop->m_boundclass)
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{
case KX_BOUNDBOX:
{
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KX_OdePhysicsController* physicscontroller =
new KX_OdePhysicsController(
dyna,
fullRigidBody,
phantom,
motionstate,
space,
world,
shapeprops->m_mass,
smmaterial->m_friction,
smmaterial->m_restitution,
isSphere,
objprop->m_boundobject.box.m_center,
objprop->m_boundobject.box.m_extends,
objprop->m_boundobject.c.m_radius
);
gameobj->SetPhysicsController(physicscontroller);
physicscontroller->setNewClientInfo(gameobj->getClientInfo());
gameobj->GetSGNode()->AddSGController(physicscontroller);
bool isActor = objprop->m_isactor;
STR_String materialname;
if (meshobj)
materialname = meshobj->GetMaterialName(0);
const char* matname = materialname.ReadPtr();
physicscontroller->SetObject(gameobj->GetSGNode());
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break;
}
default:
{
}
};
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}
#endif // USE_ODE
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#ifdef USE_BULLET
#include "CcdPhysicsEnvironment.h"
#include "CcdPhysicsController.h"
#include "BulletCollision/BroadphaseCollision/btBroadphaseInterface.h"
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#include "KX_BulletPhysicsController.h"
#include "btBulletDynamicsCommon.h"
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#ifdef WIN32
#if _MSC_VER >= 1310
//only use SIMD Hull code under Win32
//#define TEST_HULL 1
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#ifdef TEST_HULL
#define USE_HULL 1
//#define TEST_SIMD_HULL 1
#include "NarrowPhaseCollision/Hull.h"
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#endif //#ifdef TEST_HULL
#endif //_MSC_VER
#endif //WIN32
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class KX_SoftBodyDeformer : public RAS_Deformer
{
class RAS_MeshObject* m_pMeshObject;
class KX_GameObject* m_gameobj;
public:
KX_SoftBodyDeformer(RAS_MeshObject* pMeshObject,KX_GameObject* gameobj)
:m_pMeshObject(pMeshObject),
m_gameobj(gameobj)
{
//printf("KX_SoftBodyDeformer\n");
};
virtual ~KX_SoftBodyDeformer()
{
//printf("~KX_SoftBodyDeformer\n");
};
virtual void Relink(GEN_Map<class GEN_HashedPtr, void*>*map)
{
//printf("relink\n");
}
virtual bool Apply(class RAS_IPolyMaterial *polymat)
{
KX_BulletPhysicsController* ctrl = (KX_BulletPhysicsController*) m_gameobj->GetPhysicsController();
if (!ctrl)
return false;
btSoftBody* softBody= ctrl->GetSoftBody();
if (!softBody)
return false;
//printf("apply\n");
RAS_MeshSlot::iterator it;
RAS_MeshMaterial *mmat;
RAS_MeshSlot *slot;
size_t i;
// update the vertex in m_transverts
Update();
// The vertex cache can only be updated for this deformer:
// Duplicated objects with more than one ploymaterial (=multiple mesh slot per object)
// share the same mesh (=the same cache). As the rendering is done per polymaterial
// cycling through the objects, the entire mesh cache cannot be updated in one shot.
mmat = m_pMeshObject->GetMeshMaterial(polymat);
if(!mmat->m_slots[(void*)m_gameobj])
return true;
slot = *mmat->m_slots[(void*)m_gameobj];
// for each array
for(slot->begin(it); !slot->end(it); slot->next(it))
{
btSoftBody::tNodeArray& nodes(softBody->m_nodes);
int index = 0;
for(i=it.startvertex; i<it.endvertex; i++,index++) {
RAS_TexVert& v = it.vertex[i];
btAssert(v.getSoftBodyIndex() >= 0);
MT_Point3 pt (
nodes[v.getSoftBodyIndex()].m_x.getX(),
nodes[v.getSoftBodyIndex()].m_x.getY(),
nodes[v.getSoftBodyIndex()].m_x.getZ());
v.SetXYZ(pt);
MT_Vector3 normal (
nodes[v.getSoftBodyIndex()].m_n.getX(),
nodes[v.getSoftBodyIndex()].m_n.getY(),
nodes[v.getSoftBodyIndex()].m_n.getZ());
v.SetNormal(normal);
}
}
return true;
}
virtual bool Update(void)
{
//printf("update\n");
return true;//??
}
virtual RAS_Deformer *GetReplica(class KX_GameObject* replica)
{
KX_SoftBodyDeformer* deformer = new KX_SoftBodyDeformer(replica->GetMesh(0),replica);
return deformer;
}
virtual bool SkipVertexTransform()
{
return true;
}
protected:
//class RAS_MeshObject *m_pMesh;
};
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// forward declarations
void KX_ConvertBulletObject( class KX_GameObject* gameobj,
class RAS_MeshObject* meshobj,
class KX_Scene* kxscene,
struct PHY_ShapeProps* shapeprops,
struct PHY_MaterialProps* smmaterial,
struct KX_ObjectProperties* objprop)
{
CcdPhysicsEnvironment* env = (CcdPhysicsEnvironment*)kxscene->GetPhysicsEnvironment();
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assert(env);
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bool isbulletdyna = false;
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CcdConstructionInfo ci;
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class PHY_IMotionState* motionstate = new KX_MotionState(gameobj->GetSGNode());
class CcdShapeConstructionInfo *shapeInfo = new CcdShapeConstructionInfo();
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if (!objprop->m_dyna)
{
ci.m_collisionFlags |= btCollisionObject::CF_STATIC_OBJECT;
}
if (objprop->m_ghost)
{
ci.m_collisionFlags |= btCollisionObject::CF_NO_CONTACT_RESPONSE;
}
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ci.m_MotionState = motionstate;
ci.m_gravity = btVector3(0,0,0);
ci.m_localInertiaTensor =btVector3(0,0,0);
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ci.m_mass = objprop->m_dyna ? shapeprops->m_mass : 0.f;
BGE patch: new Physics button and margin parameter in Logic panel. Change subversion. The Physics button controls the creation of a physics representation of the object when starting the game. If the button is not selected, the object is a pure graphical object with no physics representation and all the other physics buttons are hidden. Selecting this button gives access to the usual physics buttons. The physics button is enabled by default to match previous Blender behavior. The margin parameter allows to control the collision margin from the UI. Previously, this parameter was only accessible through Python. By default, the collision margin is set to 0.0 on static objects and 0.06 on dynamic objects. To maintain compatibility with older games, the collision margin is set to 0.06 on all objects when loading older blend file. Note about the collision algorithms in Bullet 2.71 -------------------------------------------------- Bullet 2.71 handles the collision margin differently than Bullet 2.53 (the previous Bullet version in Blender). The collision margin is now kept "inside" the object for box, sphere and cylinder bound shapes. This means that two objects bound to any of these shape will come in close contact when colliding. The static mesh, convex hull and cone shapes still have their collision margin "outside" the object, which leaves a space of 1 or 2 times the collision margin between objects. The situation with Bullet 2.53 was more complicated, generally leading to more space between objects, except for box-box collisions. This means that running a old game under Bullet 2.71 may cause visual problems, especially if the objects are small. You can fix these problems by changing some visual aspect of the objects: center, shape, size, position of children, etc.
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ci.m_margin = objprop->m_margin;
shapeInfo->m_radius = objprop->m_radius;
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isbulletdyna = objprop->m_dyna;
ci.m_localInertiaTensor = btVector3(ci.m_mass/3.f,ci.m_mass/3.f,ci.m_mass/3.f);
btCollisionShape* bm = 0;
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switch (objprop->m_boundclass)
{
case KX_BOUNDSPHERE:
{
//float radius = objprop->m_radius;
//btVector3 inertiaHalfExtents (
// radius,
// radius,
// radius);
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//blender doesn't support multisphere, but for testing:
//bm = new MultiSphereShape(inertiaHalfExtents,,&trans.getOrigin(),&radius,1);
shapeInfo->m_shapeType = PHY_SHAPE_SPHERE;
bm = shapeInfo->CreateBulletShape();
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break;
};
case KX_BOUNDBOX:
{
shapeInfo->m_halfExtend.setValue(
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objprop->m_boundobject.box.m_extends[0],
objprop->m_boundobject.box.m_extends[1],
objprop->m_boundobject.box.m_extends[2]);
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shapeInfo->m_halfExtend /= 2.0;
shapeInfo->m_halfExtend = shapeInfo->m_halfExtend.absolute();
shapeInfo->m_shapeType = PHY_SHAPE_BOX;
bm = shapeInfo->CreateBulletShape();
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break;
};
case KX_BOUNDCYLINDER:
{
shapeInfo->m_halfExtend.setValue(
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objprop->m_boundobject.c.m_radius,
objprop->m_boundobject.c.m_radius,
objprop->m_boundobject.c.m_height * 0.5f
);
shapeInfo->m_shapeType = PHY_SHAPE_CYLINDER;
bm = shapeInfo->CreateBulletShape();
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break;
}
case KX_BOUNDCONE:
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{
shapeInfo->m_radius = objprop->m_boundobject.c.m_radius;
shapeInfo->m_height = objprop->m_boundobject.c.m_height;
shapeInfo->m_shapeType = PHY_SHAPE_CONE;
bm = shapeInfo->CreateBulletShape();
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break;
}
case KX_BOUNDPOLYTOPE:
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{
shapeInfo->SetMesh(meshobj, true,false);
bm = shapeInfo->CreateBulletShape();
break;
}
case KX_BOUNDMESH:
{
if (!ci.m_mass ||objprop->m_softbody)
{
// mesh shapes can be shared, check first if we already have a shape on that mesh
class CcdShapeConstructionInfo *sharedShapeInfo = CcdShapeConstructionInfo::FindMesh(meshobj, false);
if (sharedShapeInfo != NULL)
{
delete shapeInfo;
shapeInfo = sharedShapeInfo;
shapeInfo->AddRef();
} else
{
shapeInfo->SetMesh(meshobj, false,false);
}
if (objprop->m_softbody)
shapeInfo->setVertexWeldingThreshold(0.01f); //todo: expose this to the UI
bm = shapeInfo->CreateBulletShape();
//no moving concave meshes, so don't bother calculating inertia
//bm->calculateLocalInertia(ci.m_mass,ci.m_localInertiaTensor);
} else
{
shapeInfo->SetMesh(meshobj, false,true);
bm = shapeInfo->CreateBulletShape();
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}
break;
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}
}
// ci.m_localInertiaTensor.setValue(0.1f,0.1f,0.1f);
if (!bm)
{
delete motionstate;
delete shapeInfo;
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return;
}
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BGE patch: new Physics button and margin parameter in Logic panel. Change subversion. The Physics button controls the creation of a physics representation of the object when starting the game. If the button is not selected, the object is a pure graphical object with no physics representation and all the other physics buttons are hidden. Selecting this button gives access to the usual physics buttons. The physics button is enabled by default to match previous Blender behavior. The margin parameter allows to control the collision margin from the UI. Previously, this parameter was only accessible through Python. By default, the collision margin is set to 0.0 on static objects and 0.06 on dynamic objects. To maintain compatibility with older games, the collision margin is set to 0.06 on all objects when loading older blend file. Note about the collision algorithms in Bullet 2.71 -------------------------------------------------- Bullet 2.71 handles the collision margin differently than Bullet 2.53 (the previous Bullet version in Blender). The collision margin is now kept "inside" the object for box, sphere and cylinder bound shapes. This means that two objects bound to any of these shape will come in close contact when colliding. The static mesh, convex hull and cone shapes still have their collision margin "outside" the object, which leaves a space of 1 or 2 times the collision margin between objects. The situation with Bullet 2.53 was more complicated, generally leading to more space between objects, except for box-box collisions. This means that running a old game under Bullet 2.71 may cause visual problems, especially if the objects are small. You can fix these problems by changing some visual aspect of the objects: center, shape, size, position of children, etc.
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bm->setMargin(ci.m_margin);
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if (objprop->m_isCompoundChild)
{
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//find parent, compound shape and add to it
//take relative transform into account!
KX_BulletPhysicsController* parentCtrl = (KX_BulletPhysicsController*)objprop->m_dynamic_parent->GetPhysicsController();
assert(parentCtrl);
CcdShapeConstructionInfo* parentShapeInfo = parentCtrl->GetShapeInfo();
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btRigidBody* rigidbody = parentCtrl->GetRigidBody();
btCollisionShape* colShape = rigidbody->getCollisionShape();
assert(colShape->isCompound());
btCompoundShape* compoundShape = (btCompoundShape*)colShape;
// compute the local transform from parent, this may include a parent inverse node
SG_Node* gameNode = gameobj->GetSGNode();
SG_Node* parentInverseNode = gameNode->GetSGParent();
if (parentInverseNode && parentInverseNode->GetSGClientObject() != NULL)
// this is not a parent inverse node, cancel it
parentInverseNode = NULL;
// now combine the parent inverse node and the game node
MT_Point3 childPos = gameNode->GetLocalPosition();
MT_Matrix3x3 childRot = gameNode->GetLocalOrientation();
MT_Vector3 childScale = gameNode->GetLocalScale();
if (parentInverseNode)
{
const MT_Point3& parentInversePos = parentInverseNode->GetLocalPosition();
const MT_Matrix3x3& parentInverseRot = parentInverseNode->GetLocalOrientation();
const MT_Vector3& parentInverseScale = parentInverseNode->GetLocalScale();
childRot = parentInverseRot * childRot;
childScale = parentInverseScale * childScale;
childPos = parentInversePos+parentInverseScale*(parentInverseRot*childPos);
}
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shapeInfo->m_childScale.setValue(childScale.x(),childScale.y(),childScale.z());
bm->setLocalScaling(shapeInfo->m_childScale);
shapeInfo->m_childTrans.setOrigin(btVector3(childPos.x(),childPos.y(),childPos.z()));
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float rotval[12];
childRot.getValue(rotval);
btMatrix3x3 newRot;
newRot.setValue(rotval[0],rotval[1],rotval[2],rotval[4],rotval[5],rotval[6],rotval[8],rotval[9],rotval[10]);
newRot = newRot.transpose();
shapeInfo->m_childTrans.setBasis(newRot);
parentShapeInfo->AddShape(shapeInfo);
compoundShape->addChildShape(shapeInfo->m_childTrans,bm);
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//do some recalc?
//recalc inertia for rigidbody
if (!rigidbody->isStaticOrKinematicObject())
{
btVector3 localInertia;
float mass = 1.f/rigidbody->getInvMass();
compoundShape->calculateLocalInertia(mass,localInertia);
rigidbody->setMassProps(mass,localInertia);
}
return;
}
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if (objprop->m_hasCompoundChildren)
{
// create a compound shape info
CcdShapeConstructionInfo *compoundShapeInfo = new CcdShapeConstructionInfo();
compoundShapeInfo->m_shapeType = PHY_SHAPE_COMPOUND;
compoundShapeInfo->AddShape(shapeInfo);
// create the compound shape manually as we already have the child shape
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btCompoundShape* compoundShape = new btCompoundShape();
compoundShape->addChildShape(shapeInfo->m_childTrans,bm);
// now replace the shape
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bm = compoundShape;
shapeInfo = compoundShapeInfo;
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}
#ifdef TEST_SIMD_HULL
if (bm->IsPolyhedral())
{
PolyhedralConvexShape* polyhedron = static_cast<PolyhedralConvexShape*>(bm);
if (!polyhedron->m_optionalHull)
{
//first convert vertices in 'Point3' format
int numPoints = polyhedron->GetNumVertices();
Point3* points = new Point3[numPoints+1];
//first 4 points should not be co-planar, so add central point to satisfy MakeHull
points[0] = Point3(0.f,0.f,0.f);
btVector3 vertex;
for (int p=0;p<numPoints;p++)
{
polyhedron->GetVertex(p,vertex);
points[p+1] = Point3(vertex.getX(),vertex.getY(),vertex.getZ());
}
Hull* hull = Hull::MakeHull(numPoints+1,points);
polyhedron->m_optionalHull = hull;
}
}
#endif //TEST_SIMD_HULL
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ci.m_collisionShape = bm;
ci.m_shapeInfo = shapeInfo;
ci.m_friction = smmaterial->m_friction;//tweak the friction a bit, so the default 0.5 works nice
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ci.m_restitution = smmaterial->m_restitution;
ci.m_physicsEnv = env;
// drag / damping is inverted
ci.m_linearDamping = 1.f - shapeprops->m_lin_drag;
ci.m_angularDamping = 1.f - shapeprops->m_ang_drag;
//need a bit of damping, else system doesn't behave well
ci.m_inertiaFactor = shapeprops->m_inertia/0.4f;//defaults to 0.4, don't want to change behaviour
ci.m_do_anisotropic = shapeprops->m_do_anisotropic;
ci.m_anisotropicFriction.setValue(shapeprops->m_friction_scaling[0],shapeprops->m_friction_scaling[1],shapeprops->m_friction_scaling[2]);
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//////////
//do Fh, do Rot Fh
ci.m_do_fh = shapeprops->m_do_fh;
ci.m_do_rot_fh = shapeprops->m_do_rot_fh ;
ci.m_fh_damping = smmaterial->m_fh_damping;
ci.m_fh_distance = smmaterial->m_fh_distance;
ci.m_fh_normal = smmaterial->m_fh_normal;
ci.m_fh_spring = smmaterial->m_fh_spring;
ci.m_radius = objprop->m_radius;
///////////////////
ci.m_gamesoftFlag = objprop->m_gamesoftFlag;
ci.m_soft_linStiff = objprop->m_soft_linStiff;
ci.m_soft_angStiff = objprop->m_soft_angStiff; /* angular stiffness 0..1 */
ci.m_soft_volume= objprop->m_soft_volume; /* volume preservation 0..1 */
ci.m_soft_viterations= objprop->m_soft_viterations; /* Velocities solver iterations */
ci.m_soft_piterations= objprop->m_soft_piterations; /* Positions solver iterations */
ci.m_soft_diterations= objprop->m_soft_diterations; /* Drift solver iterations */
ci.m_soft_citerations= objprop->m_soft_citerations; /* Cluster solver iterations */
ci.m_soft_kSRHR_CL= objprop->m_soft_kSRHR_CL; /* Soft vs rigid hardness [0,1] (cluster only) */
ci.m_soft_kSKHR_CL= objprop->m_soft_kSKHR_CL; /* Soft vs kinetic hardness [0,1] (cluster only) */
ci.m_soft_kSSHR_CL= objprop->m_soft_kSSHR_CL; /* Soft vs soft hardness [0,1] (cluster only) */
ci.m_soft_kSR_SPLT_CL= objprop->m_soft_kSR_SPLT_CL; /* Soft vs rigid impulse split [0,1] (cluster only) */
ci.m_soft_kSK_SPLT_CL= objprop->m_soft_kSK_SPLT_CL; /* Soft vs rigid impulse split [0,1] (cluster only) */
ci.m_soft_kSS_SPLT_CL= objprop->m_soft_kSS_SPLT_CL; /* Soft vs rigid impulse split [0,1] (cluster only) */
ci.m_soft_kVCF= objprop->m_soft_kVCF; /* Velocities correction factor (Baumgarte) */
ci.m_soft_kDP= objprop->m_soft_kDP; /* Damping coefficient [0,1] */
ci.m_soft_kDG= objprop->m_soft_kDG; /* Drag coefficient [0,+inf] */
ci.m_soft_kLF= objprop->m_soft_kLF; /* Lift coefficient [0,+inf] */
ci.m_soft_kPR= objprop->m_soft_kPR; /* Pressure coefficient [-inf,+inf] */
ci.m_soft_kVC= objprop->m_soft_kVC; /* Volume conversation coefficient [0,+inf] */
ci.m_soft_kDF= objprop->m_soft_kDF; /* Dynamic friction coefficient [0,1] */
ci.m_soft_kMT= objprop->m_soft_kMT; /* Pose matching coefficient [0,1] */
ci.m_soft_kCHR= objprop->m_soft_kCHR; /* Rigid contacts hardness [0,1] */
ci.m_soft_kKHR= objprop->m_soft_kKHR; /* Kinetic contacts hardness [0,1] */
ci.m_soft_kSHR= objprop->m_soft_kSHR; /* Soft contacts hardness [0,1] */
ci.m_soft_kAHR= objprop->m_soft_kAHR; /* Anchors hardness [0,1] */
ci.m_soft_collisionflags= objprop->m_soft_collisionflags; /* Vertex/Face or Signed Distance Field(SDF) or Clusters, Soft versus Soft or Rigid */
ci.m_soft_numclusteriterations= objprop->m_soft_numclusteriterations; /* number of iterations to refine collision clusters*/
////////////////////
ci.m_collisionFilterGroup = (isbulletdyna) ? short(CcdConstructionInfo::DefaultFilter) : short(CcdConstructionInfo::StaticFilter);
ci.m_collisionFilterMask = (isbulletdyna) ? short(CcdConstructionInfo::AllFilter) : short(CcdConstructionInfo::AllFilter ^ CcdConstructionInfo::StaticFilter);
ci.m_bRigid = objprop->m_dyna && objprop->m_angular_rigidbody;
ci.m_bSoft = objprop->m_softbody;
MT_Vector3 scaling = gameobj->NodeGetWorldScaling();
ci.m_scaling.setValue(scaling[0], scaling[1], scaling[2]);
KX_BulletPhysicsController* physicscontroller = new KX_BulletPhysicsController(ci,isbulletdyna);
// shapeInfo is reference counted, decrement now as we don't use it anymore
if (shapeInfo)
shapeInfo->Release();
if (objprop->m_in_active_layer)
{
env->addCcdPhysicsController( physicscontroller);
}
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gameobj->SetPhysicsController(physicscontroller,isbulletdyna);
physicscontroller->setNewClientInfo(gameobj->getClientInfo());
{
btRigidBody* rbody = physicscontroller->GetRigidBody();
if (rbody && objprop->m_disableSleeping)
rbody->setActivationState(DISABLE_DEACTIVATION);
}
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CcdPhysicsController* parentCtrl = objprop->m_dynamic_parent ? (KX_BulletPhysicsController*)objprop->m_dynamic_parent->GetPhysicsController() : 0;
physicscontroller->setParentCtrl(parentCtrl);
//Now done directly in ci.m_collisionFlags so that it propagates to replica
//if (objprop->m_ghost)
//{
// rbody->setCollisionFlags(rbody->getCollisionFlags() | btCollisionObject::CF_NO_CONTACT_RESPONSE);
//}
if (objprop->m_dyna && !objprop->m_angular_rigidbody)
{
/*
//setting the inertia could achieve similar results to constraint the up
//but it is prone to instability, so use special 'Angular' constraint
btVector3 inertia = physicscontroller->GetRigidBody()->getInvInertiaDiagLocal();
inertia.setX(0.f);
inertia.setZ(0.f);
physicscontroller->GetRigidBody()->setInvInertiaDiagLocal(inertia);
physicscontroller->GetRigidBody()->updateInertiaTensor();
*/
//env->createConstraint(physicscontroller,0,PHY_ANGULAR_CONSTRAINT,0,0,0,0,0,1);
//Now done directly in ci.m_bRigid so that it propagates to replica
//physicscontroller->GetRigidBody()->setAngularFactor(0.f);
;
}
bool isActor = objprop->m_isactor;
gameobj->getClientInfo()->m_type = (isActor ? KX_ClientObjectInfo::ACTOR : KX_ClientObjectInfo::STATIC);
// store materialname in auxinfo, needed for touchsensors
if (meshobj)
{
const STR_String& matname=meshobj->GetMaterialName(0);
gameobj->getClientInfo()->m_auxilary_info = (matname.Length() ? (void*)(matname.ReadPtr()+2) : NULL);
} else
{
gameobj->getClientInfo()->m_auxilary_info = 0;
}
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gameobj->GetSGNode()->AddSGController(physicscontroller);
STR_String materialname;
if (meshobj)
materialname = meshobj->GetMaterialName(0);
physicscontroller->SetObject(gameobj->GetSGNode());
///test for soft bodies
if (objprop->m_softbody && physicscontroller)
{
btSoftBody* softBody = physicscontroller->GetSoftBody();
if (softBody && gameobj->GetMesh(0))//only the first mesh, if any
{
//should be a mesh then, so add a soft body deformer
KX_SoftBodyDeformer* softbodyDeformer = new KX_SoftBodyDeformer( gameobj->GetMesh(0),gameobj);
gameobj->SetDeformer(softbodyDeformer);
}
}
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}
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void KX_ClearBulletSharedShapes()
{
}
#endif