/** * $Id$ * * ***** 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 ***** */ #pragma warning (disable : 4786) // defines USE_ODE to choose physics engine #include "KX_ConvertPhysicsObject.h" #include "KX_GameObject.h" #include "RAS_MeshObject.h" #include "KX_Scene.h" #include "SYS_System.h" #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 #ifdef HAVE_CONFIG_H #include #endif #ifdef USE_ODE #include "KX_OdePhysicsController.h" #include "OdePhysicsEnvironment.h" #endif //USE_ODE // USE_SUMO_SOLID is defined in headerfile KX_ConvertPhysicsObject.h #ifdef USE_SUMO_SOLID #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" GEN_Map map_gamemesh_to_sumoshape; // forward declarations void BL_RegisterSumoObject(KX_GameObject* gameobj,class SM_Scene* sumoScene,DT_SceneHandle solidscene,class SM_Object* sumoObj,const char* matname,bool isDynamic,bool isActor); DT_ShapeHandle CreateShapeFromMesh(RAS_MeshObject* meshobj); void KX_ConvertSumoObject( class KX_GameObject* gameobj, class RAS_MeshObject* meshobj, class KX_Scene* kxscene, PHY_ShapeProps* kxshapeprops, PHY_MaterialProps* kxmaterial, struct KX_ObjectProperties* objprop) { 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 = kxshapeprops->m_inertia; smprop->m_lin_drag = kxshapeprops->m_lin_drag; smprop->m_mass = kxshapeprops->m_mass; 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; class SumoPhysicsEnvironment* sumoEnv = (SumoPhysicsEnvironment*)kxscene->GetPhysicsEnvironment(); SM_Scene* sceneptr = sumoEnv->GetSumoScene(); SM_Object* sumoObj=NULL; if (objprop->m_dyna) { DT_ShapeHandle shape = DT_Sphere(0.0); if (objprop->m_ghost) { sumoObj = new SM_Object(shape,NULL,smprop,NULL); } else { sumoObj = new SM_Object(shape,smmaterial,smprop,NULL); } double radius = objprop->m_radius; MT_Scalar margin = radius;//0.5; sumoObj->setMargin(margin); //if (bRigidBody) //{ if (objprop->m_in_active_layer) { DT_AddObject(sumoEnv->GetSolidScene(), sumoObj->getObjectHandle()); } //} if (objprop->m_angular_rigidbody) { sumoObj->setRigidBody(true); } else { sumoObj->setRigidBody(false); } bool isDynamic = true; bool isActor = true; BL_RegisterSumoObject(gameobj,sceneptr,sumoEnv->GetSolidScene(),sumoObj,NULL,isDynamic,isActor); } else { // non physics object if (meshobj) { int numpolys = meshobj->NumPolygons(); { DT_ShapeHandle complexshape=0; if (objprop->m_implicitbox) { complexshape = DT_Box(objprop->m_boundingbox.m_extends[0],objprop->m_boundingbox.m_extends[1],objprop->m_boundingbox.m_extends[2]); } else { if (numpolys>0) { complexshape = CreateShapeFromMesh(meshobj); } } 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(); } assert(dynamicParent); } if (objprop->m_ghost) { sumoObj = new SM_Object(complexshape,NULL,NULL, dynamicParent); } else { sumoObj = new SM_Object(complexshape,smmaterial,NULL, dynamicParent); } if (objprop->m_in_active_layer) { DT_AddObject(sumoEnv->GetSolidScene(), sumoObj->getObjectHandle()); } const STR_String& matname=meshobj->GetMaterialName(0); BL_RegisterSumoObject(gameobj,sceneptr, sumoEnv->GetSolidScene(),sumoObj, matname.ReadPtr(), objprop->m_dyna, objprop->m_isactor); } } } } // physics object get updated here ! // lazy evaluation because we might not support scaling !gameobj->UpdateTransform(); if (objprop->m_in_active_layer && sumoObj) { sceneptr->add(*sumoObj); } } void BL_RegisterSumoObject(KX_GameObject* gameobj,class SM_Scene* sumoScene,DT_SceneHandle solidscene,class SM_Object* sumoObj,const char* matname,bool isDynamic,bool isActor) { //gameobj->SetDynamic(isDynamic); PHY_IMotionState* motionstate = new KX_MotionState(gameobj->GetSGNode()); // need easy access, not via 'node' etc. KX_SumoPhysicsController* physicscontroller = new KX_SumoPhysicsController(sumoScene,solidscene,sumoObj,motionstate,isDynamic); gameobj->SetPhysicsController(physicscontroller); physicscontroller->setClientInfo(gameobj); gameobj->GetSGNode()->AddSGController(physicscontroller); //gameobj->GetClientInfo()->m_type = (isActor ? 1 : 0); //gameobj->GetClientInfo()->m_clientobject = gameobj; // store materialname in auxinfo, needed for touchsensors //gameobj->GetClientInfo()->m_auxilary_info = (matname? (void*)(matname+2) : NULL); physicscontroller->SetObject(gameobj->GetSGNode()); //gameobj->SetDynamicsScaling(MT_Vector3(1.0, 1.0, 1.0)); }; DT_ShapeHandle CreateShapeFromMesh(RAS_MeshObject* meshobj) { DT_ShapeHandle* shapeptr = map_gamemesh_to_sumoshape[GEN_HashedPtr(meshobj)]; if (shapeptr) { return *shapeptr; } // todo: shared meshes DT_ShapeHandle shape = DT_NewComplexShape(); int p=0; int numpolys = meshobj->NumPolygons(); if (!numpolys) { return NULL; } int numvalidpolys = 0; for (p=0;pm_triangle_indices.size();p++) { RAS_TriangleIndex& idx = meshobj->m_triangle_indices[p]; // only add polygons that have the collisionflag set if (idx.m_collider) { DT_Begin(); for (int v=0;v<3;v++) { int num = meshobj->m_xyz_index_to_vertex_index_mapping[idx.m_index[v]].size(); if (num != 1) { int i=0; } RAS_MatArrayIndex& vertindex = meshobj->m_xyz_index_to_vertex_index_mapping[idx.m_index[v]][0]; numvalidpolys++; { const MT_Point3& pt = meshobj->GetVertex(vertindex.m_array, vertindex.m_index, (RAS_IPolyMaterial*)vertindex.m_matid)->xyz(); DT_Vertex(pt[0],pt[1],pt[2]); } } DT_End(); } } DT_EndComplexShape(); if (numvalidpolys > 0) { map_gamemesh_to_sumoshape.insert(GEN_HashedPtr(meshobj),shape); return shape; } // memleak... todo: delete shape return NULL; } void KX_ClearSumoSharedShapes() { int numshapes = map_gamemesh_to_sumoshape.size(); for (int i=0;im_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(); if (!objprop->m_implicitsphere && MT_fuzzyZero(objprop->m_boundingbox.m_extends[0]) || MT_fuzzyZero(objprop->m_boundingbox.m_extends[1]) || MT_fuzzyZero(objprop->m_boundingbox.m_extends[2]) ) { } else { KX_OdePhysicsController* physicscontroller = new KX_OdePhysicsController( dyna, fullRigidBody, phantom, motionstate, space, world, shapeprops->m_mass, smmaterial->m_friction, smmaterial->m_restitution, objprop->m_implicitsphere, objprop->m_boundingbox.m_center, objprop->m_boundingbox.m_extends, objprop->m_radius ); gameobj->SetPhysicsController(physicscontroller); physicscontroller->setClientInfo(gameobj); gameobj->GetSGNode()->AddSGController(physicscontroller); STR_String materialname; if (meshobj) materialname = meshobj->GetMaterialName(0); const char* matname = materialname.ReadPtr(); physicscontroller->SetObject(gameobj->GetSGNode()); } } #endif // USE_ODE