//// submodel.cxx - models a releasable submodel. // Written by Dave Culp, started Aug 2004 // With major additions by Vivian Meaaza 2004 - 2007 // // This file is in the Public Domain and comes with no warranty. #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "submodel.hxx" #include #include #include #include #include
#include
#include "AIBase.hxx" #include "AIManager.hxx" #include "AIBallistic.hxx" using std::cout; using std::endl; using std::string; using std::vector; const double FGSubmodelMgr::lbs_to_slugs = 0.031080950172; FGSubmodelMgr::FGSubmodelMgr() { x_offset = y_offset = z_offset = 0.0; pitch_offset = 0.0; yaw_offset = 0.0; //out[0] = out[1] = out[2] = 0; //string contents_node; contrail_altitude = 30000; _count = 0; _found_sub = true; } FGSubmodelMgr::~FGSubmodelMgr() { } FGAIManager* FGSubmodelMgr::aiManager() { return (FGAIManager*)globals->get_subsystem("ai-model"); } void FGSubmodelMgr::init() { index = 0; _serviceable_node = fgGetNode("/sim/submodels/serviceable", true); _serviceable_node->setBoolValue(true); _user_lat_node = fgGetNode("/position/latitude-deg", true); _user_lon_node = fgGetNode("/position/longitude-deg", true); _user_alt_node = fgGetNode("/position/altitude-ft", true); _user_heading_node = fgGetNode("/orientation/heading-deg", true); _user_pitch_node = fgGetNode("/orientation/pitch-deg", true); _user_roll_node = fgGetNode("/orientation/roll-deg", true); _user_yaw_node = fgGetNode("/orientation/yaw-deg", true); _user_alpha_node = fgGetNode("/orientation/alpha-deg", true); _user_speed_node = fgGetNode("/velocities/uBody-fps", true); _user_wind_from_east_node = fgGetNode("/environment/wind-from-east-fps", true); _user_wind_from_north_node = fgGetNode("/environment/wind-from-north-fps", true); _user_speed_down_fps_node = fgGetNode("/velocities/speed-down-fps", true); _user_speed_east_fps_node = fgGetNode("/velocities/speed-east-fps", true); _user_speed_north_fps_node = fgGetNode("/velocities/speed-north-fps", true); _contrail_altitude_node = fgGetNode("/environment/params/contrail-altitude", true); contrail_altitude = _contrail_altitude_node->getDoubleValue(); _contrail_trigger = fgGetNode("ai/submodels/contrails", true); _contrail_trigger->setBoolValue(false); load(); } void FGSubmodelMgr::postinit() { // postinit, so that the AI list is populated loadAI(); while (_found_sub) loadSubmodels(); //TODO reload submodels if an MP ac joins //_model_added_node = fgGetNode("ai/models/model-added", true); //_model_added_node->addChangeListener(this, false); } void FGSubmodelMgr::bind() { } void FGSubmodelMgr::unbind() { submodel_iterator = submodels.begin(); while (submodel_iterator != submodels.end()) { (*submodel_iterator)->prop->untie("count"); ++submodel_iterator; } } void FGSubmodelMgr::update(double dt) { if (!_serviceable_node->getBoolValue()) return; _impact = false; _hit = false; _expiry = false; // Check if the submodel hit an object or terrain FGAIManager::ai_list_type sm_list(aiManager()->get_ai_list()); FGAIManager::ai_list_iterator sm_list_itr = sm_list.begin(); FGAIManager::ai_list_iterator end = sm_list.end(); for (; sm_list_itr != end; ++sm_list_itr) { FGAIBase::object_type object_type =(*sm_list_itr)->getType(); // Continue if object is not ballistic if (object_type != FGAIBase::otBallistic) { continue; } int parent_subID = (*sm_list_itr)->_getSubID(); int id = (*sm_list_itr)->getID(); if (parent_subID == 0 || id == -1) // this entry in the list has no associated submodel continue; // or is invalid so we can continue //SG_LOG(SG_AI, SG_DEBUG, "Submodel: Impact " << _impact << " hit! " // << _hit <<" parent_subID " << parent_subID); _hit = (*sm_list_itr)->_getCollisionData(); _impact = (*sm_list_itr)->_getImpactData(); _expiry = (*sm_list_itr)->_getExpiryData(); //SG_LOG(SG_AI, SG_ALERT, "Submodel: " << (*sm_list_itr)->_getName() // << " Impact " << _impact << " hit! " << _hit // << " exipiry :-( " << _expiry ); if (_impact || _hit || _expiry) { // SG_LOG(SG_AI, SG_ALERT, "Submodel: Impact " << _impact << " hit! " << _hit //<< " exipiry :-( " << _expiry ); submodel_iterator = submodels.begin(); while (submodel_iterator != submodels.end()) { int child_ID = (*submodel_iterator)->id; //cout << "Impact: parent SubID " << parent_subID << " child_ID " << child_ID << endl; if ( parent_subID == child_ID ) { _parent_lat = (*sm_list_itr)->_getImpactLat(); _parent_lon = (*sm_list_itr)->_getImpactLon(); _parent_elev = (*sm_list_itr)->_getImpactElevFt(); _parent_hdg = (*sm_list_itr)->_getImpactHdg(); _parent_pitch = (*sm_list_itr)->_getImpactPitch(); _parent_roll = (*sm_list_itr)->_getImpactRoll(); _parent_speed = (*sm_list_itr)->_getImpactSpeed(); (*submodel_iterator)->first_time = true; //cout << "Impact: parent SubID = child_ID elev " << _parent_elev << endl; if (release(*submodel_iterator, dt)) { (*sm_list_itr)->setDie(true); //cout << "Impact: set die" << (*sm_list_itr)->_getName() << endl; } } ++submodel_iterator; } } } _contrail_trigger->setBoolValue(_user_alt_node->getDoubleValue() > contrail_altitude); bool trigger = false; int i = -1; submodel_iterator = submodels.begin(); while (submodel_iterator != submodels.end()) { i++; /*SG_LOG(SG_AI, SG_DEBUG, "Submodels: " << (*submodel_iterator)->id << " name " << (*submodel_iterator)->name );*/ if ((*submodel_iterator)->trigger_node != 0) { _trigger_node = (*submodel_iterator)->trigger_node; trigger = _trigger_node->getBoolValue(); //cout << (*submodel_iterator)->name << "trigger node found " << trigger << endl; } else { trigger = false; //cout << (*submodel_iterator)->name << " trigger node not found " << trigger << endl; } if (trigger && (*submodel_iterator)->count != 0) { //int id = (*submodel_iterator)->id; //const string& name = (*submodel_iterator)->name; SG_LOG(SG_AI, SG_DEBUG, "Submodels release: " << (*submodel_iterator)->id << " name " << (*submodel_iterator)->name << " count " << (*submodel_iterator)->count << " slaved " << (*submodel_iterator)->slaved ); release(*submodel_iterator, dt); } else (*submodel_iterator)->first_time = true; ++submodel_iterator; } } bool FGSubmodelMgr::release(submodel *sm, double dt) { // Only run if first time or repeat is set to true if (!sm->first_time && !sm->repeat) { return false; } sm->timer += dt; if (sm->timer < sm->delay) { //cout << "not yet: timer " << sm->timer << " delay " << sm->delay << endl; return false; } //cout << "released timer: " << sm->timer << " delay " << sm->delay << endl; sm->timer = 0.0; if (sm->first_time) { dt = 0.0; sm->first_time = false; } // Calculate submodel's initial conditions in world-coordinates transform(sm); FGAIBallistic* ballist = new FGAIBallistic; ballist->setPath(sm->model.c_str()); ballist->setName(sm->name); ballist->setSlaved(sm->slaved); ballist->setRandom(sm->random); ballist->setLifeRandomness(sm->life_randomness->get_value()); ballist->setLatitude(offsetpos.getLatitudeDeg()); ballist->setLongitude(offsetpos.getLongitudeDeg()); ballist->setAltitude(offsetpos.getElevationFt()); ballist->setAzimuthRandomError(sm->azimuth_error->get_value()); ballist->setAzimuth(IC.azimuth); ballist->setElevationRandomError(sm->elevation_error->get_value()); ballist->setElevation(IC.elevation); ballist->setRoll(IC.roll); ballist->setSpeed(IC.speed / SG_KT_TO_FPS); ballist->setWind_from_east(IC.wind_from_east); ballist->setWind_from_north(IC.wind_from_north); ballist->setMass(IC.mass); ballist->setDragArea(sm->drag_area); ballist->setLife(sm->life); ballist->setBuoyancy(sm->buoyancy); ballist->setWind(sm->wind); ballist->setCdRandomness(sm->cd_randomness->get_value()); ballist->setCd(sm->cd); ballist->setStabilisation(sm->aero_stabilised); ballist->setNoRoll(sm->no_roll); ballist->setCollision(sm->collision); ballist->setExpiry(sm->expiry); ballist->setImpact(sm->impact); ballist->setImpactReportNode(sm->impact_report); ballist->setFuseRange(sm->fuse_range); ballist->setSubmodel(sm->submodel.c_str()); ballist->setSubID(sm->sub_id); ballist->setForceStabilisation(sm->force_stabilised); ballist->setExternalForce(sm->ext_force); ballist->setForcePath(sm->force_path.c_str()); ballist->setXoffset(_x_offset); ballist->setYoffset(_y_offset); ballist->setZoffset(_z_offset); ballist->setPitchoffset(sm->pitch_offset->get_value()); ballist->setYawoffset(sm->yaw_offset->get_value()); ballist->setParentNodes(_selected_ac); ballist->setContentsNode(sm->contents_node); ballist->setWeight(sm->weight); aiManager()->attach(ballist); if (sm->count > 0) sm->count--; return true; } void FGSubmodelMgr::load() { SGPropertyNode_ptr path_node = fgGetNode("/sim/submodels/path"); if (path_node) { const int id = 0; const string& path = path_node->getStringValue(); bool serviceable =_serviceable_node->getBoolValue(); setData(id, path, serviceable, "/ai/submodels/submodel", submodels); } } void FGSubmodelMgr::transform(submodel *sm) { // Set initial conditions if (sm->contents_node != 0 && !sm->slaved) { // Get the weight of the contents (lbs) and convert to mass (slugs) sm->contents = sm->contents_node->getChild("level-lbs",0,1)->getDoubleValue(); //cout << "transform: contents " << sm->contents << endl; IC.mass = (sm->weight + sm->contents) * lbs_to_slugs; //cout << "mass inc contents" << IC.mass << endl; // Set contents to 0 in the parent sm->contents_node->getChild("level-gal_us",0,1)->setDoubleValue(0); /*cout << "contents " << sm->contents_node->getChild("level-gal_us")->getDoubleValue() << " " << sm->contents_node->getChild("level-lbs",0,1)->getDoubleValue() << endl;*/ } else { IC.mass = sm->weight * lbs_to_slugs; } int id = sm->id; //int sub_id = sm->sub_id; //const string& name = sm->name; if (sm->speed_node != 0) sm->speed = sm->speed_node->getDoubleValue(); // set the Initial Conditions for the types of submodel parent if (_impact || _hit || _expiry) { _count++; // Set the data for a submodel tied to a submodel IC.lat = _parent_lat; IC.lon = _parent_lon; IC.alt = _parent_elev; IC.roll = _parent_roll; // rotation about x axis IC.elevation = _parent_pitch; // rotation about y axis IC.azimuth = _parent_hdg; // rotation about z axis IC.speed = _parent_speed; IC.speed_down_fps = 0; IC.speed_east_fps = 0; IC.speed_north_fps = 0; } else if (id == 0) { // Set the data for a submodel tied to the main model IC.lat = _user_lat_node->getDoubleValue(); IC.lon = _user_lon_node->getDoubleValue(); IC.alt = _user_alt_node->getDoubleValue(); IC.roll = _user_roll_node->getDoubleValue(); // rotation about x axis IC.elevation = _user_pitch_node->getDoubleValue(); // rotation about y axis IC.azimuth = _user_heading_node->getDoubleValue(); // rotation about z axis IC.speed = _user_speed_node->getDoubleValue(); IC.speed_down_fps = _user_speed_down_fps_node->getDoubleValue(); IC.speed_east_fps = _user_speed_east_fps_node->getDoubleValue(); IC.speed_north_fps = _user_speed_north_fps_node->getDoubleValue(); } else { // Set the data for a submodel tied to an AI Object setParentNode(id); } // Set the Initial Conditions that are common to all types of parent IC.wind_from_east = _user_wind_from_east_node->getDoubleValue(); IC.wind_from_north = _user_wind_from_north_node->getDoubleValue(); userpos.setLatitudeDeg(IC.lat); userpos.setLongitudeDeg(IC.lon); userpos.setElevationFt(IC.alt); if (sm->offsets_in_meter) { _x_offset = -sm->x_offset->get_value() * SG_METER_TO_FEET; _y_offset = sm->y_offset->get_value() * SG_METER_TO_FEET; _z_offset = sm->z_offset->get_value() * SG_METER_TO_FEET; } else { _x_offset = sm->x_offset->get_value(); _y_offset = sm->y_offset->get_value(); _z_offset = sm->z_offset->get_value(); } setOffsetPos(); // Compute initial orientation using yaw and pitch offsets and parent's orientation const double yaw_offset = sm->yaw_offset->get_value(); const double pitch_offset = sm->pitch_offset->get_value(); SGQuatd ic_quat = SGQuatd::fromYawPitchRollDeg(IC.azimuth, IC.elevation, IC.roll); ic_quat *= SGQuatd::fromYawPitchRollDeg(yaw_offset, pitch_offset, 0.0); // Calculate total speed using speeds of submodel and parent SGVec3d total_speed = SGVec3d(IC.speed_north_fps, IC.speed_east_fps, IC.speed_down_fps); total_speed += ic_quat.rotate(SGVec3d(sm->speed, 0, 0)); IC.speed = length(total_speed); // If speeds are low this calculation can become unreliable if (IC.speed > 1) { const double total_speed_north = total_speed.x(); const double total_speed_east = total_speed.y(); const double total_speed_down = total_speed.z(); IC.azimuth = atan2(total_speed_east, total_speed_north) * SG_RADIANS_TO_DEGREES; // Rationalize the output if (IC.azimuth < 0) IC.azimuth += 360; else if (IC.azimuth >= 360) IC.azimuth -= 360; IC.elevation = -atan(total_speed_down / sqrt(total_speed_north * total_speed_north + total_speed_east * total_speed_east)) * SG_RADIANS_TO_DEGREES; } else { double ic_roll; ic_quat.getEulerDeg(IC.azimuth, IC.elevation, ic_roll); } } void FGSubmodelMgr::updatelat(double lat) { ft_per_deg_latitude = 366468.96 - 3717.12 * cos(lat / SG_RADIANS_TO_DEGREES); ft_per_deg_longitude = 365228.16 * cos(lat / SG_RADIANS_TO_DEGREES); } void FGSubmodelMgr::loadAI() { SG_LOG(SG_AI, SG_DEBUG, "Submodels: Loading AI submodels"); FGAIManager::ai_list_type sm_list(aiManager()->get_ai_list()); if (sm_list.empty()) { SG_LOG(SG_AI, SG_ALERT, "Submodels: Unable to read AI submodel list"); return; } FGAIManager::ai_list_iterator sm_list_itr = sm_list.begin(); FGAIManager::ai_list_iterator end = sm_list.end(); while (sm_list_itr != end) { string path = (*sm_list_itr)->_getSMPath(); if (path.empty()) { ++sm_list_itr; continue; } int id = (*sm_list_itr)->getID(); bool serviceable = (*sm_list_itr)->_getServiceable(); //string type = (*sm_list_itr)->getTypeString(); //cout << "loadAI: type " << type << " path "<< path << " serviceable " << serviceable << endl; setData(id, path, serviceable, "/ai/submodels/submodel", submodels); ++sm_list_itr; } } void FGSubmodelMgr::setData(int id, const string& path, bool serviceable, const string& property_path, submodel_vector_type& models) { SGPropertyNode root; SGPath config = globals->resolve_aircraft_path(path); try { SG_LOG(SG_AI, SG_DEBUG, "Submodels: Trying to read AI submodels file: " << config); readProperties(config, &root); } catch (const sg_exception &) { SG_LOG(SG_AI, SG_ALERT, "Submodels: Unable to read AI submodels file: " << config); return; } vector children = root.getChildren("submodel"); vector::iterator it = children.begin(); vector::iterator end = children.end(); for (int i = 0; it != end; ++it, i++) { //cout << "Reading AI submodel " << (*it)->getPath() << endl; submodel *sm = new submodel; SGPropertyNode_ptr entry_node = *it; sm->name = entry_node->getStringValue("name", "none_defined"); sm->model = entry_node->getStringValue("model", "Models/Geometry/rocket.ac"); sm->speed = entry_node->getDoubleValue("speed", 2329.4); sm->repeat = entry_node->getBoolValue("repeat", false); sm->delay = entry_node->getDoubleValue("delay", 0.25); sm->count = entry_node->getIntValue("count", 1); sm->slaved = entry_node->getBoolValue("slaved", false); sm->drag_area = entry_node->getDoubleValue("eda", 0.034); sm->life = entry_node->getDoubleValue("life", 900.0); sm->buoyancy = entry_node->getDoubleValue("buoyancy", 0); sm->wind = entry_node->getBoolValue("wind", false); sm->cd = entry_node->getDoubleValue("cd", 0.193); sm->weight = entry_node->getDoubleValue("weight", 0.25); sm->aero_stabilised = entry_node->getBoolValue("aero-stabilised", true); sm->no_roll = entry_node->getBoolValue("no-roll", false); sm->collision = entry_node->getBoolValue("collision", false); sm->expiry = entry_node->getBoolValue("expiry", false); sm->impact = entry_node->getBoolValue("impact", false); sm->impact_report = entry_node->getStringValue("impact-reports"); sm->fuse_range = entry_node->getDoubleValue("fuse-range", 0.0); sm->contents_node = fgGetNode(entry_node->getStringValue("contents", "none"), false); sm->speed_node = fgGetNode(entry_node->getStringValue("speed-prop", "none"), false); sm->submodel = entry_node->getStringValue("submodel-path", ""); sm->force_stabilised = entry_node->getBoolValue("force-stabilised", false); sm->ext_force = entry_node->getBoolValue("external-force", false); sm->force_path = entry_node->getStringValue("force-path", ""); sm->random = entry_node->getBoolValue("random", false); SGPropertyNode_ptr prop_root = fgGetNode("/", true); SGPropertyNode n; SGPropertyNode_ptr a, b; // Offsets a = entry_node->getNode("offsets", false); sm->offsets_in_meter = (a != 0); if (a) { b = a->getNode("x-m"); sm->x_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); b = a->getNode("y-m"); sm->y_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); b = a->getNode("z-m"); sm->z_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); b = a->getNode("heading-deg"); sm->yaw_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); b = a->getNode("pitch-deg"); sm->pitch_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); } else { bool old = false; b = entry_node->getNode("x-offset"); sm->x_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); if (b) old = true; b = entry_node->getNode("y-offset"); sm->y_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); if (b) old = true; b = entry_node->getNode("z-offset"); sm->z_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); if (b) old = true; b = entry_node->getNode("yaw-offset"); sm->yaw_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); if (b) old = true; b = entry_node->getNode("pitch-offset"); sm->pitch_offset = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); if (b) old = true; if (old) { SG_LOG(SG_AI, SG_DEV_WARN, "Submodels: <*-offset> is deprecated. Use instead"); } } // Randomness a = entry_node->getNode("randomness", true); // Maximum azimuth randomness error in degrees b = a->getNode("azimuth"); sm->azimuth_error = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); // Maximum elevation randomness error in degrees b = a->getNode("elevation"); sm->elevation_error = new FGXMLAutopilot::InputValue(*prop_root, b ? *b : n); // Randomness of Cd (plus or minus) b = a->getNode("cd"); if (!b) { b = a->getNode("cd", true); b->setDoubleValue(0.1); } sm->cd_randomness = new FGXMLAutopilot::InputValue(*prop_root, *b); // Randomness of life (plus or minus) b = a->getNode("life"); if (!b) { b = a->getNode("life", true); b->setDoubleValue(0.5); } sm->life_randomness = new FGXMLAutopilot::InputValue(*prop_root, *b); if (sm->contents_node != 0) sm->contents = sm->contents_node->getDoubleValue(); const char *trigger_path = entry_node->getStringValue("trigger", 0); if (trigger_path) { sm->trigger_node = fgGetNode(trigger_path, true); sm->trigger_node->setBoolValue(sm->trigger_node->getBoolValue()); } else { sm->trigger_node = 0; } if (sm->speed_node != 0) sm->speed = sm->speed_node->getDoubleValue(); sm->timer = sm->delay; sm->id = id; sm->first_time = false; sm->serviceable = serviceable; sm->sub_id = 0; sm->prop = fgGetNode(property_path, index, true); sm->prop->tie("delay", SGRawValuePointer(&(sm->delay))); sm->prop->tie("count", SGRawValuePointer(&(sm->count))); sm->prop->tie("repeat", SGRawValuePointer(&(sm->repeat))); sm->prop->tie("id", SGRawValuePointer(&(sm->id))); sm->prop->tie("sub-id", SGRawValuePointer(&(sm->sub_id))); sm->prop->tie("serviceable", SGRawValuePointer(&(sm->serviceable))); sm->prop->tie("random", SGRawValuePointer(&(sm->random))); sm->prop->tie("slaved", SGRawValuePointer(&(sm->slaved))); const string& name = sm->name; sm->prop->setStringValue("name", name.c_str()); const string& submodel = sm->submodel; sm->prop->setStringValue("submodel", submodel.c_str()); const string& force_path = sm->force_path; sm->prop->setStringValue("force_path", force_path.c_str()); if (sm->contents_node != 0) sm->prop->tie("contents-lbs", SGRawValuePointer(&(sm->contents))); index++; models.push_back(sm); } } void FGSubmodelMgr::loadSubmodels() { SG_LOG(SG_AI, SG_DEBUG, "Submodels: Loading sub submodels"); _found_sub = false; submodel_iterator = submodels.begin(); while (submodel_iterator != submodels.end()) { const string& submodel = (*submodel_iterator)->submodel; if (!submodel.empty()) { //int id = (*submodel_iterator)->id; bool serviceable = true; SG_LOG(SG_AI, SG_DEBUG, "found path sub sub " << submodel << " index " << index << " name " << (*submodel_iterator)->name); if ((*submodel_iterator)->sub_id == 0) { (*submodel_iterator)->sub_id = index; _found_sub = true; setData(index, submodel, serviceable, "/ai/submodels/subsubmodel", subsubmodels); } } ++submodel_iterator; } submodels.reserve(submodels.size() + subsubmodels.size()); // Add all elements from subsubmodels to submodels subsubmodel_iterator = subsubmodels.begin(); while (subsubmodel_iterator != subsubmodels.end()) { submodels.push_back(*subsubmodel_iterator); ++subsubmodel_iterator; } subsubmodels.clear(); } SGVec3d FGSubmodelMgr::getCartOffsetPos() const { // Convert geodetic positions to geocentered SGVec3d cartuserPos = SGVec3d::fromGeod(userpos); // Transform to the right coordinate frame, configuration is done in // the x-forward, y-right, z-up coordinates (feet), computation // in the simulation usual body x-forward, y-right, z-down coordinates // (meters) ) SGVec3d _off(_x_offset * SG_FEET_TO_METER, _y_offset * SG_FEET_TO_METER, -_z_offset * SG_FEET_TO_METER); // Transform the user position to the horizontal local coordinate system. SGQuatd hlTrans = SGQuatd::fromLonLat(userpos); // And postrotate the orientation of the user model wrt the horizontal // local frame hlTrans *= SGQuatd::fromYawPitchRollDeg( IC.azimuth, IC.elevation, IC.roll); // The offset converted to the usual body fixed coordinate system // rotated to the earth-fixed coordinates axis SGVec3d off = hlTrans.backTransform(_off); // Add the position offset of the user model to get the geocentered position SGVec3d offsetPos = cartuserPos + off; return offsetPos; } void FGSubmodelMgr::setOffsetPos() { // Convert the offset geocentered position to geodetic SGVec3d cartoffsetPos = getCartOffsetPos(); SGGeodesy::SGCartToGeod(cartoffsetPos, offsetpos); } void FGSubmodelMgr::valueChanged(SGPropertyNode *prop) { return; // this isn't working atm const char* _model_added = _model_added_node->getStringValue(); std::basic_string ::size_type indexCh2b; string str2 = _model_added; const char *cstr2b = "multiplayer"; indexCh2b = str2.find(cstr2b, 0); // Ignoring Ballistic Objects; there are potentially too many if (indexCh2b != string::npos ) { //cout << "Submodels: model added - " << str2 <<" read path "<< endl; //return; SGPropertyNode *a_node = fgGetNode(_model_added, true); SGPropertyNode *sub_node = a_node->getChild("sim", 0, true); SGPropertyNode_ptr path_node = sub_node->getChild("path", 0, true); SGPropertyNode_ptr callsign_node = a_node->getChild("callsign", 0, true); //const string& callsign = callsign_node->getStringValue(); //cout << "Submodels: model added - " << callsign <<" read callsign "<< endl; } else { cout << "model added - " << str2 <<" returning " << endl; } } void FGSubmodelMgr::setParentNode(int id) { const SGPropertyNode_ptr ai = fgGetNode("/ai/models", true); for (int i = ai->nChildren() - 1; i >= -1; i--) { SGPropertyNode_ptr model; if (i < 0) { // Last iteration: selected model model = _selected_ac; } else { model = ai->getChild(i); int parent_id = model->getIntValue("id"); if (!model->nChildren()) { continue; } if (parent_id == id) { // Save selected model for last iteration _selected_ac = model; break; } } if (!model) continue; } if (_selected_ac != 0) { const string name = _selected_ac->getStringValue("name"); IC.lat = _selected_ac->getDoubleValue("position/latitude-deg"); IC.lon = _selected_ac->getDoubleValue("position/longitude-deg"); IC.alt = _selected_ac->getDoubleValue("position/altitude-ft"); IC.roll = _selected_ac->getDoubleValue("orientation/roll-deg"); IC.elevation = _selected_ac->getDoubleValue("orientation/pitch-deg"); IC.azimuth = _selected_ac->getDoubleValue("orientation/true-heading-deg"); IC.speed = _selected_ac->getDoubleValue("velocities/true-airspeed-kt") * SG_KT_TO_FPS; IC.speed_down_fps = -_selected_ac->getDoubleValue("velocities/vertical-speed-fps"); IC.speed_east_fps = _selected_ac->getDoubleValue("velocities/speed-east-fps"); IC.speed_north_fps = _selected_ac->getDoubleValue("velocities/speed-north-fps"); } else { SG_LOG(SG_AI, SG_ALERT, "AISubmodel: parent node not found "); } }