X-Git-Url: https://git.mxchange.org/?a=blobdiff_plain;f=src%2FAIModel%2FAIBase.cxx;h=de107a682bfc8ae356784e42c119304aa80098b3;hb=d35b8db13f7aceee46d63b061cd20e6d3968f92a;hp=d837f569981ad237987ec19041a646357fc407cd;hpb=4fe615fff546df5e381f7fc9ddae92dd3dc36251;p=flightgear.git diff --git a/src/AIModel/AIBase.cxx b/src/AIModel/AIBase.cxx index d837f5699..de107a682 100644 --- a/src/AIModel/AIBase.cxx +++ b/src/AIModel/AIBase.cxx @@ -26,17 +26,15 @@ #include -#include STL_STRING +#include #include #include +#include -#include -#include -#include +#include #include -#include -#include +#include #include #include #include @@ -45,32 +43,79 @@ #include #include - #include "AIBase.hxx" #include "AIManager.hxx" - +const char *default_model = "Models/Geometry/glider.ac"; const double FGAIBase::e = 2.71828183; const double FGAIBase::lbs_to_slugs = 0.031080950172; //conversion factor +using namespace simgear; FGAIBase::FGAIBase(object_type ot) : props( NULL ), model_removed( fgGetNode("/ai/models/model-removed", true) ), manager( NULL ), fp( NULL ), + + _impact_lat(0), + _impact_lon(0), + _impact_elev(0), + _impact_hdg(0), + _impact_pitch(0), + _impact_roll(0), + _impact_speed(0), + _refID( _newAIModelID() ), - _otype(ot) + _otype(ot), + _initialized(false) { tgt_heading = hdg = tgt_altitude_ft = tgt_speed = 0.0; tgt_roll = roll = tgt_pitch = tgt_yaw = tgt_vs = vs = pitch = 0.0; bearing = elevation = range = rdot = 0.0; x_shift = y_shift = rotation = 0.0; in_range = false; - invisible = true; + invisible = false; no_roll = true; life = 900; delete_me = false; + _impact_reported = false; + _collision_reported = false; + _subID = 0; + + _x_offset = 0; + _y_offset = 0; + _z_offset = 0; + + _pitch_offset = 0; + _roll_offset = 0; + _yaw_offset = 0; + + userpos = SGGeod::fromDeg(0, 0); + + pos = SGGeod::fromDeg(0, 0); + speed = 0; + altitude_ft = 0; + speed_north_deg_sec = 0; + speed_east_deg_sec = 0; + turn_radius_ft = 0; + + ft_per_deg_lon = 0; + ft_per_deg_lat = 0; + + horiz_offset = 0; + vert_offset = 0; + ht_diff = 0; + + serviceable = false; + + fp = 0; + + rho = 1; + T = 280; + p = 1e5; + a = 340; + Mach = 0; } FGAIBase::~FGAIBase() { @@ -94,7 +139,8 @@ void FGAIBase::readFromScenario(SGPropertyNode* scFileNode) if (!scFileNode) return; - setPath(scFileNode->getStringValue("model", "Models/Geometry/glider.ac")); + setPath(scFileNode->getStringValue("model", + fgGetString("/sim/multiplay/default-model", default_model))); setHeading(scFileNode->getDoubleValue("heading", 0.0)); setSpeed(scFileNode->getDoubleValue("speed", 0.0)); @@ -127,149 +173,149 @@ void FGAIBase::update(double dt) { void FGAIBase::Transform() { if (!invisible) { - aip.setPosition(pos); + aip.setVisible(true); + aip.setPosition(pos); if (no_roll) - aip.setOrientation(0.0, pitch, hdg); + aip.setOrientation(0.0, pitch, hdg); else - aip.setOrientation(roll, pitch, hdg); + aip.setOrientation(roll, pitch, hdg); - aip.update(); + aip.update(); + } else { + aip.setVisible(false); + aip.update(); } } bool FGAIBase::init(bool search_in_AI_path) { + osg::ref_ptr opt= + new osgDB::ReaderWriter::Options(*osgDB::Registry::instance()->getOptions()); + + if(search_in_AI_path) + { + SGPath ai_path(globals->get_fg_root()); + ai_path.append("AI"); + opt->getDatabasePathList().push_front(ai_path.str()); + } + + string f = osgDB::findDataFile(model_path, opt.get()); - if (!model_path.empty()) { - - if ( (search_in_AI_path) - &&(model_path.substr(model_path.size() - 4, 4) == ".xml")) { - SGPath ai_path("AI"); - ai_path.append(model_path); - try { - model = load3DModel( globals->get_fg_root(), ai_path.str(), props, - globals->get_sim_time_sec() ); - } catch (const sg_exception &e) { - model = NULL; - } - } else - model = NULL; - - if (!model) { - try { - model = load3DModel( globals->get_fg_root(), model_path, props, - globals->get_sim_time_sec() ); - } catch (const sg_exception &e) { - model = NULL; - } - } - - } - - if (model.get()) { - aip.init( model.get() ); - aip.setVisible(true); - invisible = false; - globals->get_scenery()->get_scene_graph()->addChild(aip.getSceneGraph()); - - fgSetString("/ai/models/model-added", props->getPath()); - } else { - - if (!model_path.empty()) - SG_LOG(SG_INPUT, SG_WARN, "AIBase: Could not load model " << model_path); - - } + if(f.empty()) + f = fgGetString("/sim/multiplay/default-model", default_model); + + model = load3DModel(f, props); + + if (model.valid() && _initialized == false) { + aip.init( model.get() ); + aip.setVisible(true); + invisible = false; + globals->get_scenery()->get_scene_graph()->addChild(aip.getSceneGraph()); + _initialized = true; + + } else if (!model_path.empty()) { + SG_LOG(SG_INPUT, SG_WARN, "AIBase: Could not load model " << model_path); + } + + setDie(false); + return true; +} + +void FGAIBase::initModel(osg::Node *node) +{ + if (model.valid()) { + + fgSetString("/ai/models/model-added", props->getPath().c_str()); + + } else if (!model_path.empty()) { + SG_LOG(SG_INPUT, SG_WARN, "AIBase: Could not load model " << model_path); + } props->setStringValue("submodels/path", _path.c_str()); - setDie(false); - return true; + setDie(false); } -osg::Node* FGAIBase::load3DModel(const string& fg_root, - const string &path, - SGPropertyNode *prop_root, - double sim_time_sec) +osg::Node* FGAIBase::load3DModel(const string &path, SGPropertyNode *prop_root) { - model = sgLoad3DModel(fg_root, path, prop_root, sim_time_sec, 0, - new FGNasalModelData(prop_root)); - model->setNodeMask(model->getNodeMask() & ~SG_NODEMASK_TERRAIN_BIT); + model = SGModelLib::loadPagedModel(path, prop_root, new FGNasalModelData(prop_root)); + initModel(model.get()); return model.get(); } bool FGAIBase::isa( object_type otype ) { - - if ( otype == _otype ) - return true; - else - return false; + return otype == _otype; } void FGAIBase::bind() { - props->tie("id", SGRawValueMethods(*this, - &FGAIBase::getID)); - props->tie("velocities/true-airspeed-kt", SGRawValuePointer(&speed)); - props->tie("velocities/vertical-speed-fps", - SGRawValueMethods(*this, - &FGAIBase::_getVS_fps, - &FGAIBase::_setVS_fps)); - - props->tie("position/altitude-ft", - SGRawValueMethods(*this, - &FGAIBase::_getAltitude, - &FGAIBase::_setAltitude)); - props->tie("position/latitude-deg", - SGRawValueMethods(*this, - &FGAIBase::_getLatitude, - &FGAIBase::_setLatitude)); - props->tie("position/longitude-deg", - SGRawValueMethods(*this, - &FGAIBase::_getLongitude, - &FGAIBase::_setLongitude)); - - props->tie("position/global-x", - SGRawValueMethods(*this, - &FGAIBase::_getCartPosX, - 0)); - props->tie("position/global-y", - SGRawValueMethods(*this, - &FGAIBase::_getCartPosY, - 0)); - props->tie("position/global-z", - SGRawValueMethods(*this, - &FGAIBase::_getCartPosZ, - 0)); - - props->tie("orientation/pitch-deg", SGRawValuePointer(&pitch)); - props->tie("orientation/roll-deg", SGRawValuePointer(&roll)); - props->tie("orientation/true-heading-deg", SGRawValuePointer(&hdg)); - - props->tie("radar/in-range", SGRawValuePointer(&in_range)); - props->tie("radar/bearing-deg", SGRawValuePointer(&bearing)); - props->tie("radar/elevation-deg", SGRawValuePointer(&elevation)); - props->tie("radar/range-nm", SGRawValuePointer(&range)); - props->tie("radar/h-offset", SGRawValuePointer(&horiz_offset)); - props->tie("radar/v-offset", SGRawValuePointer(&vert_offset)); - props->tie("radar/x-shift", SGRawValuePointer(&x_shift)); - props->tie("radar/y-shift", SGRawValuePointer(&y_shift)); - props->tie("radar/rotation", SGRawValuePointer(&rotation)); - props->tie("radar/ht-diff-ft", SGRawValuePointer(&ht_diff)); - - props->tie("controls/lighting/nav-lights", - SGRawValueFunctions(_isNight)); - props->setBoolValue("controls/lighting/beacon", true); - props->setBoolValue("controls/lighting/strobe", true); - props->setBoolValue("controls/glide-path", true); - - props->setStringValue("controls/flight/lateral-mode", "roll"); - props->setDoubleValue("controls/flight/target-hdg", hdg); - props->setDoubleValue("controls/flight/target-roll", roll); - - props->setStringValue("controls/flight/longitude-mode", "alt"); - props->setDoubleValue("controls/flight/target-alt", altitude_ft); - props->setDoubleValue("controls/flight/target-pitch", pitch); + props->tie("id", SGRawValueMethods(*this, + &FGAIBase::getID)); + props->tie("velocities/true-airspeed-kt", SGRawValuePointer(&speed)); + props->tie("velocities/vertical-speed-fps", + SGRawValueMethods(*this, + &FGAIBase::_getVS_fps, + &FGAIBase::_setVS_fps)); + + props->tie("position/altitude-ft", + SGRawValueMethods(*this, + &FGAIBase::_getAltitude, + &FGAIBase::_setAltitude)); + props->tie("position/latitude-deg", + SGRawValueMethods(*this, + &FGAIBase::_getLatitude, + &FGAIBase::_setLatitude)); + props->tie("position/longitude-deg", + SGRawValueMethods(*this, + &FGAIBase::_getLongitude, + &FGAIBase::_setLongitude)); + + props->tie("position/global-x", + SGRawValueMethods(*this, + &FGAIBase::_getCartPosX, + 0)); + props->tie("position/global-y", + SGRawValueMethods(*this, + &FGAIBase::_getCartPosY, + 0)); + props->tie("position/global-z", + SGRawValueMethods(*this, + &FGAIBase::_getCartPosZ, + 0)); + props->tie("callsign", + SGRawValueMethods(*this, + &FGAIBase::_getCallsign, + 0)); + + props->tie("orientation/pitch-deg", SGRawValuePointer(&pitch)); + props->tie("orientation/roll-deg", SGRawValuePointer(&roll)); + props->tie("orientation/true-heading-deg", SGRawValuePointer(&hdg)); + + props->tie("radar/in-range", SGRawValuePointer(&in_range)); + props->tie("radar/bearing-deg", SGRawValuePointer(&bearing)); + props->tie("radar/elevation-deg", SGRawValuePointer(&elevation)); + props->tie("radar/range-nm", SGRawValuePointer(&range)); + props->tie("radar/h-offset", SGRawValuePointer(&horiz_offset)); + props->tie("radar/v-offset", SGRawValuePointer(&vert_offset)); + props->tie("radar/x-shift", SGRawValuePointer(&x_shift)); + props->tie("radar/y-shift", SGRawValuePointer(&y_shift)); + props->tie("radar/rotation", SGRawValuePointer(&rotation)); + props->tie("radar/ht-diff-ft", SGRawValuePointer(&ht_diff)); + props->tie("subID", SGRawValuePointer(&_subID)); + props->tie("controls/lighting/nav-lights", + SGRawValueFunctions(_isNight)); + props->setBoolValue("controls/lighting/beacon", true); + props->setBoolValue("controls/lighting/strobe", true); + props->setBoolValue("controls/glide-path", true); + + props->setStringValue("controls/flight/lateral-mode", "roll"); + props->setDoubleValue("controls/flight/target-hdg", hdg); + props->setDoubleValue("controls/flight/target-roll", roll); + + props->setStringValue("controls/flight/longitude-mode", "alt"); + props->setDoubleValue("controls/flight/target-alt", altitude_ft); + props->setDoubleValue("controls/flight/target-pitch", pitch); props->setDoubleValue("controls/flight/target-spd", speed); @@ -286,6 +332,7 @@ void FGAIBase::unbind() { props->untie("position/global-x"); props->untie("position/global-y"); props->untie("position/global-z"); + props->untie("callsign"); props->untie("orientation/pitch-deg"); props->untie("orientation/roll-deg"); @@ -303,139 +350,144 @@ void FGAIBase::unbind() { props->untie("radar/ht-diff-ft"); props->untie("controls/lighting/nav-lights"); + + props->setBoolValue("/sim/controls/radar/", true); + } double FGAIBase::UpdateRadar(FGAIManager* manager) { - double radar_range_ft2 = fgGetDouble("/instrumentation/radar/range"); - bool force_on = fgGetBool("/instrumentation/radar/debug-mode", false); - radar_range_ft2 *= SG_NM_TO_METER * SG_METER_TO_FEET * 1.1; // + 10% - radar_range_ft2 *= radar_range_ft2; - - double user_latitude = manager->get_user_latitude(); - double user_longitude = manager->get_user_longitude(); - double lat_range = fabs(pos.getLatitudeDeg() - user_latitude) * ft_per_deg_lat; - double lon_range = fabs(pos.getLongitudeDeg() - user_longitude) * ft_per_deg_lon; - double range_ft2 = lat_range*lat_range + lon_range*lon_range; - - // - // Test whether the target is within radar range. - // - in_range = (range_ft2 && (range_ft2 <= radar_range_ft2)); - - if ( in_range || force_on ) { - props->setBoolValue("radar/in-range", true); - - // copy values from the AIManager - double user_altitude = manager->get_user_altitude(); - double user_heading = manager->get_user_heading(); - double user_pitch = manager->get_user_pitch(); - //double user_yaw = manager->get_user_yaw(); - //double user_speed = manager->get_user_speed(); - - // calculate range to target in feet and nautical miles - double range_ft = sqrt( range_ft2 ); - range = range_ft / 6076.11549; - - // calculate bearing to target - if (pos.getLatitudeDeg() >= user_latitude) { - bearing = atan2(lat_range, lon_range) * SG_RADIANS_TO_DEGREES; - if (pos.getLongitudeDeg() >= user_longitude) { - bearing = 90.0 - bearing; - } else { - bearing = 270.0 + bearing; - } - } else { - bearing = atan2(lon_range, lat_range) * SG_RADIANS_TO_DEGREES; - if (pos.getLongitudeDeg() >= user_longitude) { - bearing = 180.0 - bearing; + bool control = fgGetBool("/sim/controls/radar", true); + + if(!control) return 0; + + double radar_range_ft2 = fgGetDouble("/instrumentation/radar/range"); + bool force_on = fgGetBool("/instrumentation/radar/debug-mode", false); + radar_range_ft2 *= SG_NM_TO_METER * SG_METER_TO_FEET * 1.1; // + 10% + radar_range_ft2 *= radar_range_ft2; + + double user_latitude = manager->get_user_latitude(); + double user_longitude = manager->get_user_longitude(); + double lat_range = fabs(pos.getLatitudeDeg() - user_latitude) * ft_per_deg_lat; + double lon_range = fabs(pos.getLongitudeDeg() - user_longitude) * ft_per_deg_lon; + double range_ft2 = lat_range*lat_range + lon_range*lon_range; + + // + // Test whether the target is within radar range. + // + in_range = (range_ft2 && (range_ft2 <= radar_range_ft2)); + + if ( in_range || force_on ) { + props->setBoolValue("radar/in-range", true); + + // copy values from the AIManager + double user_altitude = manager->get_user_altitude(); + double user_heading = manager->get_user_heading(); + double user_pitch = manager->get_user_pitch(); + //double user_yaw = manager->get_user_yaw(); + //double user_speed = manager->get_user_speed(); + + // calculate range to target in feet and nautical miles + double range_ft = sqrt( range_ft2 ); + range = range_ft / 6076.11549; + + // calculate bearing to target + if (pos.getLatitudeDeg() >= user_latitude) { + bearing = atan2(lat_range, lon_range) * SG_RADIANS_TO_DEGREES; + if (pos.getLongitudeDeg() >= user_longitude) { + bearing = 90.0 - bearing; + } else { + bearing = 270.0 + bearing; + } } else { - bearing = 180.0 + bearing; + bearing = atan2(lon_range, lat_range) * SG_RADIANS_TO_DEGREES; + if (pos.getLongitudeDeg() >= user_longitude) { + bearing = 180.0 - bearing; + } else { + bearing = 180.0 + bearing; + } } - } - - // This is an alternate way to compute bearing and distance which - // agrees with the original scheme within about 0.1 degrees. - // - // Point3D start( user_longitude * SGD_DEGREES_TO_RADIANS, - // user_latitude * SGD_DEGREES_TO_RADIANS, 0 ); - // Point3D dest( pos.getLongitudeRad(), pos.getLatitudeRad(), 0 ); - // double gc_bearing, gc_range; - // calc_gc_course_dist( start, dest, &gc_bearing, &gc_range ); - // gc_range *= SG_METER_TO_NM; - // gc_bearing *= SGD_RADIANS_TO_DEGREES; - // printf("orig b = %.3f %.2f gc b= %.3f, %.2f\n", - // bearing, range, gc_bearing, gc_range); - - // calculate look left/right to target, without yaw correction - horiz_offset = bearing - user_heading; - if (horiz_offset > 180.0) horiz_offset -= 360.0; - if (horiz_offset < -180.0) horiz_offset += 360.0; - - // calculate elevation to target - elevation = atan2( altitude_ft - user_altitude, range_ft ) * SG_RADIANS_TO_DEGREES; - - // calculate look up/down to target - vert_offset = elevation - user_pitch; - - /* this calculation needs to be fixed, but it isn't important anyway - // calculate range rate - double recip_bearing = bearing + 180.0; - if (recip_bearing > 360.0) recip_bearing -= 360.0; - double my_horiz_offset = recip_bearing - hdg; - if (my_horiz_offset > 180.0) my_horiz_offset -= 360.0; - if (my_horiz_offset < -180.0) my_horiz_offset += 360.0; - rdot = (-user_speed * cos( horiz_offset * SG_DEGREES_TO_RADIANS )) - +(-speed * 1.686 * cos( my_horiz_offset * SG_DEGREES_TO_RADIANS )); -*/ - - // now correct look left/right for yaw - // horiz_offset += user_yaw; // FIXME: WHY WOULD WE WANT TO ADD IN SIDE-SLIP HERE? - // calculate values for radar display - y_shift = range * cos( horiz_offset * SG_DEGREES_TO_RADIANS); - x_shift = range * sin( horiz_offset * SG_DEGREES_TO_RADIANS); - rotation = hdg - user_heading; - if (rotation < 0.0) rotation += 360.0; - ht_diff = altitude_ft - user_altitude; + // This is an alternate way to compute bearing and distance which + // agrees with the original scheme within about 0.1 degrees. + // + // Point3D start( user_longitude * SGD_DEGREES_TO_RADIANS, + // user_latitude * SGD_DEGREES_TO_RADIANS, 0 ); + // Point3D dest( pos.getLongitudeRad(), pos.getLatitudeRad(), 0 ); + // double gc_bearing, gc_range; + // calc_gc_course_dist( start, dest, &gc_bearing, &gc_range ); + // gc_range *= SG_METER_TO_NM; + // gc_bearing *= SGD_RADIANS_TO_DEGREES; + // printf("orig b = %.3f %.2f gc b= %.3f, %.2f\n", + // bearing, range, gc_bearing, gc_range); + + // calculate look left/right to target, without yaw correction + horiz_offset = bearing - user_heading; + if (horiz_offset > 180.0) horiz_offset -= 360.0; + if (horiz_offset < -180.0) horiz_offset += 360.0; + + // calculate elevation to target + elevation = atan2( altitude_ft - user_altitude, range_ft ) * SG_RADIANS_TO_DEGREES; + + // calculate look up/down to target + vert_offset = elevation - user_pitch; + + /* this calculation needs to be fixed, but it isn't important anyway + // calculate range rate + double recip_bearing = bearing + 180.0; + if (recip_bearing > 360.0) recip_bearing -= 360.0; + double my_horiz_offset = recip_bearing - hdg; + if (my_horiz_offset > 180.0) my_horiz_offset -= 360.0; + if (my_horiz_offset < -180.0) my_horiz_offset += 360.0; + rdot = (-user_speed * cos( horiz_offset * SG_DEGREES_TO_RADIANS )) + +(-speed * 1.686 * cos( my_horiz_offset * SG_DEGREES_TO_RADIANS )); + */ + + // now correct look left/right for yaw + // horiz_offset += user_yaw; // FIXME: WHY WOULD WE WANT TO ADD IN SIDE-SLIP HERE? + + // calculate values for radar display + y_shift = range * cos( horiz_offset * SG_DEGREES_TO_RADIANS); + x_shift = range * sin( horiz_offset * SG_DEGREES_TO_RADIANS); + rotation = hdg - user_heading; + if (rotation < 0.0) rotation += 360.0; + ht_diff = altitude_ft - user_altitude; - } + } - return range_ft2; + return range_ft2; } /* * Getters and Setters */ - + SGVec3d FGAIBase::getCartPosAt(const SGVec3d& _off) const { // Transform that one to the horizontal local coordinate system. - SGQuatd hlTrans = SGQuatd::fromLonLat(pos); + SGQuatd hlTrans = SGQuatd::fromLonLat(pos); - // and postrotate the orientation of the AIModel wrt the horizontal - // local frame - hlTrans *= SGQuatd::fromYawPitchRollDeg(hdg, pitch, roll); + // and postrotate the orientation of the AIModel wrt the horizontal + // local frame + hlTrans *= SGQuatd::fromYawPitchRollDeg(hdg, pitch, roll); - // The offset converted to the usual body fixed coordinate system - // rotated to the earth fiexed coordinates axis - SGVec3d off = hlTrans.backTransform(_off); + // The offset converted to the usual body fixed coordinate system + // rotated to the earth fiexed coordinates axis + SGVec3d off = hlTrans.backTransform(_off); - // Add the position offset of the AIModel to gain the earth centered position - SGVec3d cartPos = SGVec3d::fromGeod(pos); + // Add the position offset of the AIModel to gain the earth centered position + SGVec3d cartPos = SGVec3d::fromGeod(pos); - return cartPos + off; + return cartPos + off; } SGVec3d FGAIBase::getCartPos() const { - // Transform that one to the horizontal local coordinate system. - SGQuatd hlTrans = SGQuatd::fromLonLat(pos); - - // and postrotate the orientation of the AIModel wrt the horizontal - // local frame - hlTrans *= SGQuatd::fromYawPitchRollDeg(hdg, pitch, roll); - - SGVec3d cartPos = SGVec3d::fromGeod(pos); + SGVec3d cartPos = SGVec3d::fromGeod(pos); + return cartPos; +} - return cartPos; +bool FGAIBase::getGroundElevationM(const SGGeod& pos, double& elev, + const SGMaterial** material) const { + return globals->get_scenery()->get_elevation_m(pos, elev, material, + model.get()); } double FGAIBase::_getCartPosX() const { @@ -461,14 +513,28 @@ void FGAIBase::_setLatitude ( double latitude ) { pos.setLatitudeDeg(latitude); } +void FGAIBase::_setUserPos(){ + userpos.setLatitudeDeg(manager->get_user_latitude()); + userpos.setLongitudeDeg(manager->get_user_longitude()); + userpos.setElevationM(manager->get_user_altitude() * SG_FEET_TO_METER); +} + +void FGAIBase::_setSubID( int s ) { + _subID = s; +} + double FGAIBase::_getLongitude() const { return pos.getLongitudeDeg(); } -double FGAIBase::_getLatitude () const { +double FGAIBase::_getLatitude() const { return pos.getLatitudeDeg(); } +double FGAIBase::_getElevationFt () const { + return pos.getElevationFt(); +} + double FGAIBase::_getRdot() const { return rdot; } @@ -509,10 +575,50 @@ bool FGAIBase::_isNight() { return (fgGetFloat("/sim/time/sun-angle-rad") > 1.57); } +bool FGAIBase::_getCollisionData() { + return _collision_reported; +} + +bool FGAIBase::_getImpactData() { + return _impact_reported; +} + +double FGAIBase::_getImpactLat() const { + return _impact_lat; +} + +double FGAIBase::_getImpactLon() const { + return _impact_lon; +} + +double FGAIBase::_getImpactElevFt() const { + return _impact_elev * SG_METER_TO_FEET; +} + +double FGAIBase::_getImpactPitch() const { + return _impact_pitch; +} + +double FGAIBase::_getImpactRoll() const { + return _impact_roll; +} + +double FGAIBase::_getImpactHdg() const { + return _impact_hdg; +} + +double FGAIBase::_getImpactSpeed() const { + return _impact_speed; +} + int FGAIBase::getID() const { return _refID; } +int FGAIBase::_getSubID() const { + return _subID; +} + double FGAIBase::_getSpeed() const { return speed; } @@ -529,24 +635,52 @@ double FGAIBase::_getHeading() const { return hdg; } -const char* FGAIBase::_getPath() { +double FGAIBase::_getXOffset() const { + return _x_offset; +} + +double FGAIBase::_getYOffset() const { + return _y_offset; +} + +double FGAIBase::_getZOffset() const { + return _z_offset; +} + +const char* FGAIBase::_getPath() const { + return model_path.c_str(); +} + +const char* FGAIBase::_getSMPath() const { return _path.c_str(); } +const char* FGAIBase::_getName() const { + return _name.c_str(); +} + +const char* FGAIBase::_getCallsign() const { + return _callsign.c_str(); +} + +const char* FGAIBase::_getSubmodel() const { + return _submodel.c_str(); +} + void FGAIBase::CalculateMach() { // Calculate rho at altitude, using standard atmosphere // For the temperature T and the pressure p, double altitude = altitude_ft; if (altitude < 36152) { // curve fits for the troposphere - T = 59 - 0.00356 * altitude; - p = 2116 * pow( ((T + 459.7) / 518.6) , 5.256); + T = 59 - 0.00356 * altitude; + p = 2116 * pow( ((T + 459.7) / 518.6) , 5.256); } else if ( 36152 < altitude && altitude < 82345 ) { // lower stratosphere - T = -70; - p = 473.1 * pow( e , 1.73 - (0.000048 * altitude) ); + T = -70; + p = 473.1 * pow( e , 1.73 - (0.000048 * altitude) ); } else { // upper stratosphere - T = -205.05 + (0.00164 * altitude); - p = 51.97 * pow( ((T + 459.7) / 389.98) , -11.388); + T = -205.05 + (0.00164 * altitude); + p = 51.97 * pow( ((T + 459.7) / 389.98) , -11.388); } rho = p / (1718 * (T + 459.7)); @@ -556,21 +690,21 @@ void FGAIBase::CalculateMach() { // where: // a = speed of sound [ft/s] // g = specific heat ratio, which is usually equal to 1.4 - // R = specific gas constant, which equals 1716 ft-lb/slug/°R + // R = specific gas constant, which equals 1716 ft-lb/slug/R a = sqrt ( 1.4 * 1716 * (T + 459.7)); // calculate Mach number Mach = speed/a; -// cout << "Speed(ft/s) "<< speed <<" Altitude(ft) "<< altitude << " Mach " << Mach << endl; + // cout << "Speed(ft/s) "<< speed <<" Altitude(ft) "<< altitude << " Mach " << Mach << endl; } int FGAIBase::_newAIModelID() { static int id = 0; - if (!++id) - id++; // id = 0 is not allowed. + if (!++id) + id++; // id = 0 is not allowed. - return id; + return id; }