/* * ***** BEGIN GPL 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. * * 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, 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 ***** * Convert Blender actuators for use in the GameEngine */ /** \file gameengine/Converter/KX_ConvertActuators.cpp * \ingroup bgeconv */ #ifdef _MSC_VER # pragma warning (disable:4786) #endif #include #include "MEM_guardedalloc.h" #include "KX_BlenderSceneConverter.h" #include "KX_ConvertActuators.h" #ifdef WITH_AUDASPACE # include "AUD_C-API.h" # include "AUD_ChannelMapperFactory.h" #endif // Actuators //SCA logiclibrary native logicbricks #include "SCA_PropertyActuator.h" #include "SCA_LogicManager.h" #include "SCA_RandomActuator.h" #include "SCA_2DFilterActuator.h" // Ketsji specific logicbricks #include "KX_SceneActuator.h" #include "KX_IpoActuator.h" #include "KX_SoundActuator.h" #include "KX_ObjectActuator.h" #include "KX_TrackToActuator.h" #include "KX_ConstraintActuator.h" #include "KX_CameraActuator.h" #include "KX_GameActuator.h" #include "KX_StateActuator.h" #include "KX_VisibilityActuator.h" #include "KX_SCA_AddObjectActuator.h" #include "KX_SCA_EndObjectActuator.h" #include "KX_SCA_ReplaceMeshActuator.h" #include "KX_ParentActuator.h" #include "KX_SCA_DynamicActuator.h" #include "KX_SteeringActuator.h" #include "KX_Scene.h" #include "KX_KetsjiEngine.h" #include "IntValue.h" #include "KX_GameObject.h" /* This little block needed for linking to Blender... */ #include "BKE_text.h" #include "BLI_blenlib.h" #include "BLI_math_base.h" #include "BLI_path_util.h" #include "KX_NetworkMessageActuator.h" #ifdef WIN32 #include "BLI_winstuff.h" #endif #include "DNA_object_types.h" #include "DNA_sound_types.h" #include "DNA_scene_types.h" #include "DNA_actuator_types.h" #include "DNA_packedFile_types.h" #include "BL_ActionActuator.h" #include "BL_ShapeActionActuator.h" #include "BL_ArmatureActuator.h" #include "RNA_access.h" #include "BL_Action.h" /* end of blender include block */ #include "BL_BlenderDataConversion.h" /** * KX_flt_trunc needed to round 'almost' zero values to zero, else velocities etc. are incorrectly set */ BLI_INLINE float KX_flt_trunc(const float x) { return ( x < 0.0001f && x > -0.0001f ) ? 0.0f : x; } void BL_ConvertActuators(const char* maggiename, struct Object* blenderobject, KX_GameObject* gameobj, SCA_LogicManager* logicmgr, KX_Scene* scene, KX_KetsjiEngine* ketsjiEngine, int activeLayerBitInfo, bool isInActiveLayer, KX_BlenderSceneConverter* converter ) { int uniqueint = 0; int actcount = 0; int executePriority = 0; bActuator* bact = (bActuator*) blenderobject->actuators.first; while (bact) { actcount++; bact = bact->next; } gameobj->ReserveActuator(actcount); bact = (bActuator*) blenderobject->actuators.first; while (bact) { STR_String uniquename = bact->name; STR_String& objectname = gameobj->GetName(); SCA_IActuator* baseact = NULL; switch (bact->type) { case ACT_OBJECT: { bObjectActuator* obact = (bObjectActuator*) bact->data; KX_GameObject* obref = NULL; MT_Vector3 forcevec(KX_flt_trunc(obact->forceloc[0]), KX_flt_trunc(obact->forceloc[1]), KX_flt_trunc(obact->forceloc[2])); MT_Vector3 torquevec(obact->forcerot[0], obact->forcerot[1], obact->forcerot[2]); MT_Vector3 dlocvec(KX_flt_trunc(obact->dloc[0]), KX_flt_trunc(obact->dloc[1]), KX_flt_trunc(obact->dloc[2])); MT_Vector3 drotvec(KX_flt_trunc(obact->drot[0]), obact->drot[1],obact->drot[2]); MT_Vector3 linvelvec(KX_flt_trunc(obact->linearvelocity[0]), KX_flt_trunc(obact->linearvelocity[1]), KX_flt_trunc(obact->linearvelocity[2])); MT_Vector3 angvelvec(KX_flt_trunc(obact->angularvelocity[0]), KX_flt_trunc(obact->angularvelocity[1]), KX_flt_trunc(obact->angularvelocity[2])); short damping = obact->damping; /* Blender uses a bit vector internally for the local-flags. In */ /* KX, we have four bools. The compiler should be smart enough */ /* to do the right thing. We need to explicitly convert here! */ KX_LocalFlags bitLocalFlag; bitLocalFlag.Force = bool((obact->flag & ACT_FORCE_LOCAL)!=0); bitLocalFlag.Torque = bool((obact->flag & ACT_TORQUE_LOCAL) !=0);//rlocal; bitLocalFlag.DLoc = bool((obact->flag & ACT_DLOC_LOCAL)!=0); bitLocalFlag.DRot = bool((obact->flag & ACT_DROT_LOCAL)!=0); bitLocalFlag.LinearVelocity = bool((obact->flag & ACT_LIN_VEL_LOCAL)!=0); bitLocalFlag.AngularVelocity = bool((obact->flag & ACT_ANG_VEL_LOCAL)!=0); bitLocalFlag.ServoControl = bool(obact->type == ACT_OBJECT_SERVO); bitLocalFlag.CharacterMotion = bool(obact->type == ACT_OBJECT_CHARACTER); bitLocalFlag.CharacterJump = bool((obact->flag & ACT_CHAR_JUMP)!=0); bitLocalFlag.AddOrSetLinV = bool((obact->flag & ACT_ADD_LIN_VEL)!=0); bitLocalFlag.AddOrSetCharLoc = bool((obact->flag & ACT_ADD_CHAR_LOC)!=0); if (obact->reference && bitLocalFlag.ServoControl) { obref = converter->FindGameObject(obact->reference); } KX_ObjectActuator* tmpbaseact = new KX_ObjectActuator( gameobj, obref, forcevec.getValue(), torquevec.getValue(), dlocvec.getValue(), drotvec.getValue(), linvelvec.getValue(), angvelvec.getValue(), damping, bitLocalFlag); baseact = tmpbaseact; break; } case ACT_ACTION: { bActionActuator* actact = (bActionActuator*) bact->data; STR_String propname = actact->name; STR_String propframe = actact->frameProp; short ipo_flags = 0; // Convert flags if (actact->flag & ACT_IPOFORCE) ipo_flags |= BL_Action::ACT_IPOFLAG_FORCE; if (actact->flag & ACT_IPOLOCAL) ipo_flags |= BL_Action::ACT_IPOFLAG_LOCAL; if (actact->flag & ACT_IPOADD) ipo_flags |= BL_Action::ACT_IPOFLAG_ADD; if (actact->flag & ACT_IPOCHILD) ipo_flags |= BL_Action::ACT_IPOFLAG_CHILD; BL_ActionActuator* tmpbaseact = new BL_ActionActuator( gameobj, propname, propframe, actact->sta, actact->end, actact->act, actact->type, // + 1, because Blender starts to count at zero, actact->blend_mode, actact->blendin, actact->priority, actact->layer, actact->layer_weight, ipo_flags, actact->end_reset, actact->stridelength // Ketsji at 1, because zero is reserved for "NoDef" ); baseact= tmpbaseact; break; } case ACT_SHAPEACTION: { if (blenderobject->type==OB_MESH) { bActionActuator* actact = (bActionActuator*) bact->data; STR_String propname = actact->name; STR_String propframe = actact->frameProp; BL_ShapeActionActuator* tmpbaseact = new BL_ShapeActionActuator( gameobj, propname, propframe, actact->sta, actact->end, actact->act, actact->type, // + 1, because Blender starts to count at zero, actact->blendin, actact->priority, actact->stridelength); // Ketsji at 1, because zero is reserved for "NoDef" baseact= tmpbaseact; break; } else printf ("Discarded shape action actuator from non-mesh object [%s]\n", blenderobject->id.name+2); } case ACT_IPO: { bIpoActuator* ipoact = (bIpoActuator*) bact->data; bool ipochild = (ipoact->flag & ACT_IPOCHILD) !=0; STR_String propname = ipoact->name; STR_String frameProp = ipoact->frameProp; // first bit? bool ipo_as_force = (ipoact->flag & ACT_IPOFORCE); bool local = (ipoact->flag & ACT_IPOLOCAL); bool ipo_add = (ipoact->flag & ACT_IPOADD); KX_IpoActuator* tmpbaseact = new KX_IpoActuator( gameobj, propname , frameProp, ipoact->sta, ipoact->end, ipochild, ipoact->type + 1, // + 1, because Blender starts to count at zero, // Ketsji at 1, because zero is reserved for "NoDef" ipo_as_force, ipo_add, local); baseact = tmpbaseact; break; } case ACT_LAMP: { break; } case ACT_CAMERA: { bCameraActuator *camact = (bCameraActuator *) bact->data; if (camact->ob) { KX_GameObject *tmpgob = converter->FindGameObject(camact->ob); /* visifac, fac and axis are not copied from the struct... */ /* that's some internal state... */ KX_CameraActuator *tmpcamact = new KX_CameraActuator( gameobj, tmpgob, camact->height, camact->min, camact->max, camact->axis, camact->damping); baseact = tmpcamact; } break; } case ACT_MESSAGE: { bMessageActuator *msgAct = (bMessageActuator *) bact->data; /* Get the name of the properties that objects must own that * we're sending to, if present */ STR_String toPropName = msgAct->toPropName; /* Get the Message Subject to send. */ STR_String subject = msgAct->subject; /* Get the bodyType */ int bodyType = msgAct->bodyType; /* Get the body (text message or property name whose value * we'll be sending, might be empty */ const STR_String body = msgAct->body; KX_NetworkMessageActuator *tmpmsgact = new KX_NetworkMessageActuator( gameobj, // actuator controlling object scene->GetNetworkScene(), // needed for replication toPropName, subject, bodyType, body); baseact = tmpmsgact; break; } case ACT_MATERIAL: { break; } case ACT_SOUND: { bSoundActuator* soundact = (bSoundActuator*) bact->data; /* get type, and possibly a start and end frame */ KX_SoundActuator::KX_SOUNDACT_TYPE soundActuatorType = KX_SoundActuator::KX_SOUNDACT_NODEF; switch (soundact->type) { case ACT_SND_PLAY_STOP_SOUND: soundActuatorType = KX_SoundActuator::KX_SOUNDACT_PLAYSTOP; break; case ACT_SND_PLAY_END_SOUND: soundActuatorType = KX_SoundActuator::KX_SOUNDACT_PLAYEND; break; case ACT_SND_LOOP_STOP_SOUND: soundActuatorType = KX_SoundActuator::KX_SOUNDACT_LOOPSTOP; break; case ACT_SND_LOOP_END_SOUND: soundActuatorType = KX_SoundActuator::KX_SOUNDACT_LOOPEND; break; case ACT_SND_LOOP_BIDIRECTIONAL_SOUND: soundActuatorType = KX_SoundActuator::KX_SOUNDACT_LOOPBIDIRECTIONAL; break; case ACT_SND_LOOP_BIDIRECTIONAL_STOP_SOUND: soundActuatorType = KX_SoundActuator::KX_SOUNDACT_LOOPBIDIRECTIONAL_STOP; break; default: /* This is an error!!! */ soundActuatorType = KX_SoundActuator::KX_SOUNDACT_NODEF; } if (soundActuatorType != KX_SoundActuator::KX_SOUNDACT_NODEF) { bSound* sound = soundact->sound; bool is3d = soundact->flag & ACT_SND_3D_SOUND ? true : false; boost::shared_ptr snd_sound; KX_3DSoundSettings settings; settings.cone_inner_angle = soundact->sound3D.cone_inner_angle; settings.cone_outer_angle = soundact->sound3D.cone_outer_angle; settings.cone_outer_gain = soundact->sound3D.cone_outer_gain; settings.max_distance = soundact->sound3D.max_distance; settings.max_gain = soundact->sound3D.max_gain; settings.min_gain = soundact->sound3D.min_gain; settings.reference_distance = soundact->sound3D.reference_distance; settings.rolloff_factor = soundact->sound3D.rolloff_factor; if (!sound) { std::cout << "WARNING: Sound actuator \"" << bact->name << "\" from object \"" << blenderobject->id.name+2 << "\" has no sound datablock." << std::endl; } else { snd_sound = *reinterpret_cast*>(sound->playback_handle); // if sound shall be 3D but isn't mono, we have to make it mono! if (is3d) { try { boost::shared_ptr reader = snd_sound->createReader(); if (reader->getSpecs().channels != AUD_CHANNELS_MONO) { AUD_DeviceSpecs specs; specs.channels = AUD_CHANNELS_MONO; specs.rate = AUD_RATE_INVALID; specs.format = AUD_FORMAT_INVALID; snd_sound = boost::shared_ptr(new AUD_ChannelMapperFactory(snd_sound, specs)); } } catch(AUD_Exception&) { // sound cannot be played... ignore } } } KX_SoundActuator* tmpsoundact = new KX_SoundActuator(gameobj, snd_sound, soundact->volume, (float)(expf((soundact->pitch / 12.0f) * (float)M_LN2)), is3d, settings, soundActuatorType); tmpsoundact->SetName(bact->name); baseact = tmpsoundact; } break; } case ACT_PROPERTY: { bPropertyActuator* propact = (bPropertyActuator*) bact->data; SCA_IObject* destinationObj = NULL; /* * here the destinationobject is searched. problem with multiple scenes: other scenes * have not been converted yet, so the destobj will not be found, so the prop will * not be copied. * possible solutions: * - convert everything when possible and not realtime only when needed. * - let the object-with-property report itself to the act when converted */ if (propact->ob) destinationObj = converter->FindGameObject(propact->ob); SCA_PropertyActuator* tmppropact = new SCA_PropertyActuator( gameobj, destinationObj, propact->name, propact->value, propact->type + 1); // + 1 because Ketsji Logic starts // with 0 for KX_ACT_PROP_NODEF baseact = tmppropact; break; } case ACT_EDIT_OBJECT: { bEditObjectActuator *editobact = (bEditObjectActuator *) bact->data; /* There are four different kinds of 'edit object' thingies */ /* The alternative to this lengthy conversion is packing */ /* several actuators in one, which is not very nice design.. */ switch (editobact->type) { case ACT_EDOB_ADD_OBJECT: { // does the 'original' for replication exists, and // is it in a non-active layer ? SCA_IObject* originalval = NULL; if (editobact->ob) { if (editobact->ob->lay & activeLayerBitInfo) { fprintf(stderr, "Warning, object \"%s\" from AddObject actuator \"%s\" is not in a hidden layer.\n", objectname.Ptr(), uniquename.Ptr()); } else { originalval = converter->FindGameObject(editobact->ob); } } KX_SCA_AddObjectActuator* tmpaddact = new KX_SCA_AddObjectActuator( gameobj, originalval, editobact->time, scene, editobact->linVelocity, (editobact->localflag & ACT_EDOB_LOCAL_LINV) != 0, editobact->angVelocity, (editobact->localflag & ACT_EDOB_LOCAL_ANGV) != 0); //editobact->ob to gameobj baseact = tmpaddact; } break; case ACT_EDOB_END_OBJECT: { KX_SCA_EndObjectActuator* tmpendact = new KX_SCA_EndObjectActuator(gameobj,scene); baseact = tmpendact; } break; case ACT_EDOB_REPLACE_MESH: { RAS_MeshObject *tmpmesh = NULL; if (editobact->me) tmpmesh = BL_ConvertMesh( editobact->me, blenderobject, scene, converter, false ); KX_SCA_ReplaceMeshActuator* tmpreplaceact = new KX_SCA_ReplaceMeshActuator( gameobj, tmpmesh, scene, (editobact->flag & ACT_EDOB_REPLACE_MESH_NOGFX) == 0, (editobact->flag & ACT_EDOB_REPLACE_MESH_PHYS) != 0); baseact = tmpreplaceact; } break; case ACT_EDOB_TRACK_TO: { SCA_IObject* originalval = NULL; if (editobact->ob) originalval = converter->FindGameObject(editobact->ob); KX_TrackToActuator* tmptrackact = new KX_TrackToActuator( gameobj, originalval, editobact->time, editobact->flag, blenderobject->trackflag, blenderobject->upflag); baseact = tmptrackact; break; } case ACT_EDOB_DYNAMICS: { KX_SCA_DynamicActuator* tmpdynact = new KX_SCA_DynamicActuator( gameobj, editobact->dyn_operation, editobact->mass); baseact = tmpdynact; } } break; } case ACT_CONSTRAINT: { float min = 0.0, max = 0.0; char *prop = NULL; KX_ConstraintActuator::KX_CONSTRAINTTYPE locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_NODEF; bConstraintActuator *conact = (bConstraintActuator*) bact->data; /* convert settings... degrees in the ui become radians */ /* internally */ if (conact->type == ACT_CONST_TYPE_ORI) { min = (float)(((float)MT_2_PI * conact->minloc[0]) / 360.0f); max = (float)(((float)MT_2_PI * conact->maxloc[0]) / 360.0f); switch (conact->mode) { case ACT_CONST_DIRPX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_ORIX; break; case ACT_CONST_DIRPY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_ORIY; break; case ACT_CONST_DIRPZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_ORIZ; break; } } else if (conact->type == ACT_CONST_TYPE_DIST) { switch (conact->mode) { case ACT_CONST_DIRPX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_DIRPX; min = conact->minloc[0]; max = conact->maxloc[0]; break; case ACT_CONST_DIRPY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_DIRPY; min = conact->minloc[1]; max = conact->maxloc[1]; break; case ACT_CONST_DIRPZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_DIRPZ; min = conact->minloc[2]; max = conact->maxloc[2]; break; case ACT_CONST_DIRNX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_DIRNX; min = conact->minloc[0]; max = conact->maxloc[0]; break; case ACT_CONST_DIRNY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_DIRNY; min = conact->minloc[1]; max = conact->maxloc[1]; break; case ACT_CONST_DIRNZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_DIRNZ; min = conact->minloc[2]; max = conact->maxloc[2]; break; } prop = conact->matprop; } else if (conact->type == ACT_CONST_TYPE_FH) { switch (conact->mode) { case ACT_CONST_DIRPX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_FHPX; min = conact->minloc[0]; max = conact->maxloc[0]; break; case ACT_CONST_DIRPY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_FHPY; min = conact->minloc[1]; max = conact->maxloc[1]; break; case ACT_CONST_DIRPZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_FHPZ; min = conact->minloc[2]; max = conact->maxloc[2]; break; case ACT_CONST_DIRNX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_FHNX; min = conact->minloc[0]; max = conact->maxloc[0]; break; case ACT_CONST_DIRNY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_FHNY; min = conact->minloc[1]; max = conact->maxloc[1]; break; case ACT_CONST_DIRNZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_FHNZ; min = conact->minloc[2]; max = conact->maxloc[2]; break; } prop = conact->matprop; } else { switch (conact->flag) { case ACT_CONST_LOCX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_LOCX; min = conact->minloc[0]; max = conact->maxloc[0]; break; case ACT_CONST_LOCY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_LOCY; min = conact->minloc[1]; max = conact->maxloc[1]; break; case ACT_CONST_LOCZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_LOCZ; min = conact->minloc[2]; max = conact->maxloc[2]; break; case ACT_CONST_ROTX: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_ROTX; min = conact->minrot[0] * (float)MT_RADS_PER_DEG; max = conact->maxrot[0] * (float)MT_RADS_PER_DEG; break; case ACT_CONST_ROTY: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_ROTY; min = conact->minrot[1] * (float)MT_RADS_PER_DEG; max = conact->maxrot[1] * (float)MT_RADS_PER_DEG; break; case ACT_CONST_ROTZ: locrot = KX_ConstraintActuator::KX_ACT_CONSTRAINT_ROTZ; min = conact->minrot[2] * (float)MT_RADS_PER_DEG; max = conact->maxrot[2] * (float)MT_RADS_PER_DEG; break; default: ; /* error */ } } KX_ConstraintActuator *tmpconact = new KX_ConstraintActuator( gameobj, conact->damp, conact->rotdamp, min, max, conact->maxrot, locrot, conact->time, conact->flag, prop); baseact = tmpconact; break; } case ACT_GROUP: { // deprecated } break; case ACT_SCENE: { bSceneActuator *sceneact = (bSceneActuator *) bact->data; STR_String nextSceneName(""); KX_SceneActuator* tmpsceneact; int mode = KX_SceneActuator::KX_SCENE_NODEF; KX_Camera *cam = NULL; //KX_Scene* scene = NULL; switch (sceneact->type) { case ACT_SCENE_RESUME: case ACT_SCENE_SUSPEND: case ACT_SCENE_ADD_FRONT: case ACT_SCENE_ADD_BACK: case ACT_SCENE_REMOVE: case ACT_SCENE_SET: { switch (sceneact->type) { case ACT_SCENE_RESUME: mode = KX_SceneActuator::KX_SCENE_RESUME; break; case ACT_SCENE_SUSPEND: mode = KX_SceneActuator::KX_SCENE_SUSPEND; break; case ACT_SCENE_ADD_FRONT: mode = KX_SceneActuator::KX_SCENE_ADD_FRONT_SCENE; break; case ACT_SCENE_ADD_BACK: mode = KX_SceneActuator::KX_SCENE_ADD_BACK_SCENE; break; case ACT_SCENE_REMOVE: mode = KX_SceneActuator::KX_SCENE_REMOVE_SCENE; break; case ACT_SCENE_SET: default: mode = KX_SceneActuator::KX_SCENE_SET_SCENE; break; }; if (sceneact->scene) { nextSceneName = sceneact->scene->id.name + 2; } break; } case ACT_SCENE_CAMERA: mode = KX_SceneActuator::KX_SCENE_SET_CAMERA; if (sceneact->camera) { cam = (KX_Camera*) converter->FindGameObject(sceneact->camera); } break; case ACT_SCENE_RESTART: { mode = KX_SceneActuator::KX_SCENE_RESTART; break; } default: ; /* flag error */ } tmpsceneact = new KX_SceneActuator( gameobj, mode, scene, ketsjiEngine, nextSceneName, cam); baseact = tmpsceneact; break; } case ACT_GAME: { bGameActuator *gameact = (bGameActuator *) bact->data; KX_GameActuator* tmpgameact; STR_String filename = maggiename; STR_String loadinganimationname = ""; int mode = KX_GameActuator::KX_GAME_NODEF; switch (gameact->type) { case ACT_GAME_LOAD: { mode = KX_GameActuator::KX_GAME_LOAD; filename = gameact->filename; loadinganimationname = gameact->loadaniname; break; } case ACT_GAME_START: { mode = KX_GameActuator::KX_GAME_START; filename = gameact->filename; loadinganimationname = gameact->loadaniname; break; } case ACT_GAME_RESTART: { mode = KX_GameActuator::KX_GAME_RESTART; break; } case ACT_GAME_QUIT: { mode = KX_GameActuator::KX_GAME_QUIT; break; } case ACT_GAME_SAVECFG: { mode = KX_GameActuator::KX_GAME_SAVECFG; break; } case ACT_GAME_LOADCFG: { mode = KX_GameActuator::KX_GAME_LOADCFG; break; } default: ; /* flag error */ } tmpgameact = new KX_GameActuator( gameobj, mode, filename, loadinganimationname, scene, ketsjiEngine); baseact = tmpgameact; break; } case ACT_RANDOM: { bRandomActuator *randAct = (bRandomActuator *) bact->data; unsigned long seedArg = randAct->seed; if (seedArg == 0) { seedArg = (int)(ketsjiEngine->GetRealTime()*100000.0); seedArg ^= (intptr_t)randAct; } SCA_RandomActuator::KX_RANDOMACT_MODE modeArg = SCA_RandomActuator::KX_RANDOMACT_NODEF; SCA_RandomActuator *tmprandomact; float paraArg1 = 0.0; float paraArg2 = 0.0; switch (randAct->distribution) { case ACT_RANDOM_BOOL_CONST: modeArg = SCA_RandomActuator::KX_RANDOMACT_BOOL_CONST; paraArg1 = (float) randAct->int_arg_1; break; case ACT_RANDOM_BOOL_UNIFORM: modeArg = SCA_RandomActuator::KX_RANDOMACT_BOOL_UNIFORM; break; case ACT_RANDOM_BOOL_BERNOUILLI: paraArg1 = randAct->float_arg_1; modeArg = SCA_RandomActuator::KX_RANDOMACT_BOOL_BERNOUILLI; break; case ACT_RANDOM_INT_CONST: modeArg = SCA_RandomActuator::KX_RANDOMACT_INT_CONST; paraArg1 = (float) randAct->int_arg_1; break; case ACT_RANDOM_INT_UNIFORM: paraArg1 = (float) randAct->int_arg_1; paraArg2 = (float) randAct->int_arg_2; modeArg = SCA_RandomActuator::KX_RANDOMACT_INT_UNIFORM; break; case ACT_RANDOM_INT_POISSON: paraArg1 = randAct->float_arg_1; modeArg = SCA_RandomActuator::KX_RANDOMACT_INT_POISSON; break; case ACT_RANDOM_FLOAT_CONST: paraArg1 = randAct->float_arg_1; modeArg = SCA_RandomActuator::KX_RANDOMACT_FLOAT_CONST; break; case ACT_RANDOM_FLOAT_UNIFORM: paraArg1 = randAct->float_arg_1; paraArg2 = randAct->float_arg_2; modeArg = SCA_RandomActuator::KX_RANDOMACT_FLOAT_UNIFORM; break; case ACT_RANDOM_FLOAT_NORMAL: paraArg1 = randAct->float_arg_1; paraArg2 = randAct->float_arg_2; modeArg = SCA_RandomActuator::KX_RANDOMACT_FLOAT_NORMAL; break; case ACT_RANDOM_FLOAT_NEGATIVE_EXPONENTIAL: paraArg1 = randAct->float_arg_1; modeArg = SCA_RandomActuator::KX_RANDOMACT_FLOAT_NEGATIVE_EXPONENTIAL; break; default: ; /* error */ } tmprandomact = new SCA_RandomActuator( gameobj, seedArg, modeArg, paraArg1, paraArg2, randAct->propname); baseact = tmprandomact; } break; case ACT_VISIBILITY: { bVisibilityActuator *vis_act = (bVisibilityActuator *) bact->data; KX_VisibilityActuator * tmp_vis_act = NULL; bool v = ((vis_act->flag & ACT_VISIBILITY_INVISIBLE) != 0); bool o = ((vis_act->flag & ACT_VISIBILITY_OCCLUSION) != 0); bool recursive = ((vis_act->flag & ACT_VISIBILITY_RECURSIVE) != 0); tmp_vis_act = new KX_VisibilityActuator(gameobj, !v, o, recursive); baseact = tmp_vis_act; } break; case ACT_STATE: { bStateActuator *sta_act = (bStateActuator *) bact->data; KX_StateActuator * tmp_sta_act = NULL; tmp_sta_act = new KX_StateActuator(gameobj, sta_act->type, sta_act->mask); baseact = tmp_sta_act; } break; case ACT_2DFILTER: { bTwoDFilterActuator *_2dfilter = (bTwoDFilterActuator*) bact->data; SCA_2DFilterActuator *tmp = NULL; RAS_2DFilterManager::RAS_2DFILTER_MODE filtermode; switch (_2dfilter->type) { case ACT_2DFILTER_MOTIONBLUR: filtermode = RAS_2DFilterManager::RAS_2DFILTER_MOTIONBLUR; break; case ACT_2DFILTER_BLUR: filtermode = RAS_2DFilterManager::RAS_2DFILTER_BLUR; break; case ACT_2DFILTER_SHARPEN: filtermode = RAS_2DFilterManager::RAS_2DFILTER_SHARPEN; break; case ACT_2DFILTER_DILATION: filtermode = RAS_2DFilterManager::RAS_2DFILTER_DILATION; break; case ACT_2DFILTER_EROSION: filtermode = RAS_2DFilterManager::RAS_2DFILTER_EROSION; break; case ACT_2DFILTER_LAPLACIAN: filtermode = RAS_2DFilterManager::RAS_2DFILTER_LAPLACIAN; break; case ACT_2DFILTER_SOBEL: filtermode = RAS_2DFilterManager::RAS_2DFILTER_SOBEL; break; case ACT_2DFILTER_PREWITT: filtermode = RAS_2DFilterManager::RAS_2DFILTER_PREWITT; break; case ACT_2DFILTER_GRAYSCALE: filtermode = RAS_2DFilterManager::RAS_2DFILTER_GRAYSCALE; break; case ACT_2DFILTER_SEPIA: filtermode = RAS_2DFilterManager::RAS_2DFILTER_SEPIA; break; case ACT_2DFILTER_INVERT: filtermode = RAS_2DFilterManager::RAS_2DFILTER_INVERT; break; case ACT_2DFILTER_CUSTOMFILTER: filtermode = RAS_2DFilterManager::RAS_2DFILTER_CUSTOMFILTER; break; case ACT_2DFILTER_NOFILTER: filtermode = RAS_2DFilterManager::RAS_2DFILTER_NOFILTER; break; case ACT_2DFILTER_DISABLED: filtermode = RAS_2DFilterManager::RAS_2DFILTER_DISABLED; break; case ACT_2DFILTER_ENABLED: filtermode = RAS_2DFilterManager::RAS_2DFILTER_ENABLED; break; default: filtermode = RAS_2DFilterManager::RAS_2DFILTER_NOFILTER; break; } tmp = new SCA_2DFilterActuator(gameobj, filtermode, _2dfilter->flag, _2dfilter->float_arg, _2dfilter->int_arg, ketsjiEngine->GetRasterizer(), scene); if (_2dfilter->text) { char *buf; // this is some blender specific code buf = txt_to_buf(_2dfilter->text); if (buf) { tmp->SetShaderText(buf); MEM_freeN(buf); } } baseact = tmp; } break; case ACT_PARENT: { bParentActuator *parAct = (bParentActuator *) bact->data; int mode = KX_ParentActuator::KX_PARENT_NODEF; bool addToCompound = true; bool ghost = true; KX_GameObject *tmpgob = NULL; switch (parAct->type) { case ACT_PARENT_SET: mode = KX_ParentActuator::KX_PARENT_SET; tmpgob = converter->FindGameObject(parAct->ob); addToCompound = !(parAct->flag & ACT_PARENT_COMPOUND); ghost = !(parAct->flag & ACT_PARENT_GHOST); break; case ACT_PARENT_REMOVE: mode = KX_ParentActuator::KX_PARENT_REMOVE; tmpgob = NULL; break; } KX_ParentActuator *tmpparact = new KX_ParentActuator(gameobj, mode, addToCompound, ghost, tmpgob); baseact = tmpparact; break; } case ACT_ARMATURE: { bArmatureActuator* armAct = (bArmatureActuator*) bact->data; KX_GameObject *tmpgob = converter->FindGameObject(armAct->target); KX_GameObject *subgob = converter->FindGameObject(armAct->subtarget); BL_ArmatureActuator* tmparmact = new BL_ArmatureActuator( gameobj, armAct->type, armAct->posechannel, armAct->constraint, tmpgob, subgob, armAct->weight, armAct->influence); baseact = tmparmact; break; } case ACT_STEERING: { bSteeringActuator *stAct = (bSteeringActuator *) bact->data; KX_GameObject *navmeshob = NULL; if (stAct->navmesh) { PointerRNA settings_ptr; RNA_pointer_create((ID *)stAct->navmesh, &RNA_GameObjectSettings, stAct->navmesh, &settings_ptr); if (RNA_enum_get(&settings_ptr, "physics_type") == OB_BODY_TYPE_NAVMESH) navmeshob = converter->FindGameObject(stAct->navmesh); } KX_GameObject *targetob = converter->FindGameObject(stAct->target); int mode = KX_SteeringActuator::KX_STEERING_NODEF; switch (stAct->type) { case ACT_STEERING_SEEK: mode = KX_SteeringActuator::KX_STEERING_SEEK; break; case ACT_STEERING_FLEE: mode = KX_SteeringActuator::KX_STEERING_FLEE; break; case ACT_STEERING_PATHFOLLOWING: mode = KX_SteeringActuator::KX_STEERING_PATHFOLLOWING; break; } bool selfTerminated = (stAct->flag & ACT_STEERING_SELFTERMINATED) !=0; bool enableVisualization = (stAct->flag & ACT_STEERING_ENABLEVISUALIZATION) !=0; short facingMode = (stAct->flag & ACT_STEERING_AUTOMATICFACING) ? stAct->facingaxis : 0; bool normalup = (stAct->flag & ACT_STEERING_NORMALUP) !=0; KX_SteeringActuator *tmpstact = new KX_SteeringActuator(gameobj, mode, targetob, navmeshob,stAct->dist, stAct->velocity, stAct->acceleration, stAct->turnspeed, selfTerminated, stAct->updateTime, scene->GetObstacleSimulation(), facingMode, normalup, enableVisualization); baseact = tmpstact; break; } default: ; /* generate some error */ } if (baseact) { baseact->SetExecutePriority(executePriority++); uniquename += "#ACT#"; uniqueint++; CIntValue* uniqueval = new CIntValue(uniqueint); uniquename += uniqueval->GetText(); uniqueval->Release(); baseact->SetName(bact->name); //gameobj->SetProperty(uniquename,baseact); gameobj->AddActuator(baseact); converter->RegisterGameActuator(baseact, bact); // done with baseact, release it baseact->Release(); } bact = bact->next; } }