import net.sf.openrocket.database.Databases;
import net.sf.openrocket.document.OpenRocketDocument;
import net.sf.openrocket.document.Simulation;
-import net.sf.openrocket.document.StorageOptions;
import net.sf.openrocket.document.Simulation.Status;
+import net.sf.openrocket.document.StorageOptions;
import net.sf.openrocket.file.RocketLoadException;
import net.sf.openrocket.file.RocketLoader;
import net.sf.openrocket.file.simplesax.ElementHandler;
import net.sf.openrocket.file.simplesax.PlainTextHandler;
import net.sf.openrocket.file.simplesax.SimpleSAX;
+import net.sf.openrocket.logging.LogHelper;
import net.sf.openrocket.material.Material;
import net.sf.openrocket.motor.Motor;
+import net.sf.openrocket.motor.MotorDigest;
import net.sf.openrocket.motor.ThrustCurveMotor;
import net.sf.openrocket.rocketcomponent.BodyComponent;
import net.sf.openrocket.rocketcomponent.BodyTube;
import net.sf.openrocket.rocketcomponent.EllipticalFinSet;
import net.sf.openrocket.rocketcomponent.EngineBlock;
import net.sf.openrocket.rocketcomponent.ExternalComponent;
+import net.sf.openrocket.rocketcomponent.ExternalComponent.Finish;
import net.sf.openrocket.rocketcomponent.FinSet;
+import net.sf.openrocket.rocketcomponent.FinSet.TabRelativePosition;
import net.sf.openrocket.rocketcomponent.FreeformFinSet;
import net.sf.openrocket.rocketcomponent.IllegalFinPointException;
import net.sf.openrocket.rocketcomponent.InnerTube;
import net.sf.openrocket.rocketcomponent.RingComponent;
import net.sf.openrocket.rocketcomponent.Rocket;
import net.sf.openrocket.rocketcomponent.RocketComponent;
+import net.sf.openrocket.rocketcomponent.RocketComponent.Position;
import net.sf.openrocket.rocketcomponent.ShockCord;
import net.sf.openrocket.rocketcomponent.Stage;
import net.sf.openrocket.rocketcomponent.Streamer;
import net.sf.openrocket.rocketcomponent.Transition;
import net.sf.openrocket.rocketcomponent.TrapezoidFinSet;
import net.sf.openrocket.rocketcomponent.TubeCoupler;
-import net.sf.openrocket.rocketcomponent.ExternalComponent.Finish;
-import net.sf.openrocket.rocketcomponent.FinSet.TabRelativePosition;
-import net.sf.openrocket.rocketcomponent.RocketComponent.Position;
import net.sf.openrocket.simulation.FlightData;
import net.sf.openrocket.simulation.FlightDataBranch;
import net.sf.openrocket.simulation.FlightDataType;
import net.sf.openrocket.simulation.FlightEvent;
-import net.sf.openrocket.simulation.GUISimulationConditions;
import net.sf.openrocket.simulation.FlightEvent.Type;
+import net.sf.openrocket.simulation.SimulationOptions;
import net.sf.openrocket.startup.Application;
import net.sf.openrocket.unit.UnitGroup;
import net.sf.openrocket.util.BugException;
import net.sf.openrocket.util.Coordinate;
+import net.sf.openrocket.util.GeodeticComputationStrategy;
import net.sf.openrocket.util.LineStyle;
import net.sf.openrocket.util.Reflection;
*
* @author Sampo Niskanen <sampo.niskanen@iki.fi>
*/
-
public class OpenRocketLoader extends RocketLoader {
+ private static final LogHelper log = Application.getLogger();
+
@Override
public OpenRocketDocument loadFromStream(InputStream source) throws RocketLoadException,
IOException {
+ log.info("Loading .ork file");
+
InputSource xmlSource = new InputSource(source);
OpenRocketHandler handler = new OpenRocketHandler();
try {
SimpleSAX.readXML(xmlSource, handler, warnings);
} catch (SAXException e) {
+ log.warn("Malformed XML in input");
throw new RocketLoadException("Malformed XML in input.", e);
}
doc.getDefaultStorageOptions().setExplicitlySet(false);
doc.clearUndo();
+ log.info("Loading done");
return doc;
}
class DocumentConfig {
/* Remember to update OpenRocketSaver as well! */
- public static final String[] SUPPORTED_VERSIONS = { "0.9", "1.0", "1.1" };
+ public static final String[] SUPPORTED_VERSIONS = { "0.9", "1.0", "1.1", "1.2", "1.3" };
//////// Component constructors
static {
// RocketComponent
setters.put("RocketComponent:name", new StringSetter(
- Reflection.findMethodStatic(RocketComponent.class, "setName", String.class)));
+ Reflection.findMethod(RocketComponent.class, "setName", String.class)));
setters.put("RocketComponent:color", new ColorSetter(
- Reflection.findMethodStatic(RocketComponent.class, "setColor", Color.class)));
+ Reflection.findMethod(RocketComponent.class, "setColor", Color.class)));
setters.put("RocketComponent:linestyle", new EnumSetter<LineStyle>(
- Reflection.findMethodStatic(RocketComponent.class, "setLineStyle", LineStyle.class),
+ Reflection.findMethod(RocketComponent.class, "setLineStyle", LineStyle.class),
LineStyle.class));
setters.put("RocketComponent:position", new PositionSetter());
setters.put("RocketComponent:overridemass", new OverrideSetter(
- Reflection.findMethodStatic(RocketComponent.class, "setOverrideMass", double.class),
- Reflection.findMethodStatic(RocketComponent.class, "setMassOverridden", boolean.class)));
+ Reflection.findMethod(RocketComponent.class, "setOverrideMass", double.class),
+ Reflection.findMethod(RocketComponent.class, "setMassOverridden", boolean.class)));
setters.put("RocketComponent:overridecg", new OverrideSetter(
- Reflection.findMethodStatic(RocketComponent.class, "setOverrideCGX", double.class),
- Reflection.findMethodStatic(RocketComponent.class, "setCGOverridden", boolean.class)));
+ Reflection.findMethod(RocketComponent.class, "setOverrideCGX", double.class),
+ Reflection.findMethod(RocketComponent.class, "setCGOverridden", boolean.class)));
setters.put("RocketComponent:overridesubcomponents", new BooleanSetter(
- Reflection.findMethodStatic(RocketComponent.class, "setOverrideSubcomponents", boolean.class)));
+ Reflection.findMethod(RocketComponent.class, "setOverrideSubcomponents", boolean.class)));
setters.put("RocketComponent:comment", new StringSetter(
- Reflection.findMethodStatic(RocketComponent.class, "setComment", String.class)));
+ Reflection.findMethod(RocketComponent.class, "setComment", String.class)));
// ExternalComponent
setters.put("ExternalComponent:finish", new EnumSetter<Finish>(
- Reflection.findMethodStatic(ExternalComponent.class, "setFinish", Finish.class),
+ Reflection.findMethod(ExternalComponent.class, "setFinish", Finish.class),
Finish.class));
setters.put("ExternalComponent:material", new MaterialSetter(
- Reflection.findMethodStatic(ExternalComponent.class, "setMaterial", Material.class),
+ Reflection.findMethod(ExternalComponent.class, "setMaterial", Material.class),
Material.Type.BULK));
// BodyComponent
setters.put("BodyComponent:length", new DoubleSetter(
- Reflection.findMethodStatic(BodyComponent.class, "setLength", double.class)));
+ Reflection.findMethod(BodyComponent.class, "setLength", double.class)));
// SymmetricComponent
setters.put("SymmetricComponent:thickness", new DoubleSetter(
- Reflection.findMethodStatic(SymmetricComponent.class, "setThickness", double.class),
+ Reflection.findMethod(SymmetricComponent.class, "setThickness", double.class),
"filled",
- Reflection.findMethodStatic(SymmetricComponent.class, "setFilled", boolean.class)));
+ Reflection.findMethod(SymmetricComponent.class, "setFilled", boolean.class)));
// BodyTube
setters.put("BodyTube:radius", new DoubleSetter(
- Reflection.findMethodStatic(BodyTube.class, "setRadius", double.class),
+ Reflection.findMethod(BodyTube.class, "setOuterRadius", double.class),
"auto",
- Reflection.findMethodStatic(BodyTube.class, "setRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(BodyTube.class, "setOuterRadiusAutomatic", boolean.class)));
// Transition
setters.put("Transition:shape", new EnumSetter<Transition.Shape>(
- Reflection.findMethodStatic(Transition.class, "setType", Transition.Shape.class),
+ Reflection.findMethod(Transition.class, "setType", Transition.Shape.class),
Transition.Shape.class));
setters.put("Transition:shapeclipped", new BooleanSetter(
- Reflection.findMethodStatic(Transition.class, "setClipped", boolean.class)));
+ Reflection.findMethod(Transition.class, "setClipped", boolean.class)));
setters.put("Transition:shapeparameter", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setShapeParameter", double.class)));
+ Reflection.findMethod(Transition.class, "setShapeParameter", double.class)));
setters.put("Transition:foreradius", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setForeRadius", double.class),
+ Reflection.findMethod(Transition.class, "setForeRadius", double.class),
"auto",
- Reflection.findMethodStatic(Transition.class, "setForeRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(Transition.class, "setForeRadiusAutomatic", boolean.class)));
setters.put("Transition:aftradius", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setAftRadius", double.class),
+ Reflection.findMethod(Transition.class, "setAftRadius", double.class),
"auto",
- Reflection.findMethodStatic(Transition.class, "setAftRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(Transition.class, "setAftRadiusAutomatic", boolean.class)));
setters.put("Transition:foreshoulderradius", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setForeShoulderRadius", double.class)));
+ Reflection.findMethod(Transition.class, "setForeShoulderRadius", double.class)));
setters.put("Transition:foreshoulderlength", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setForeShoulderLength", double.class)));
+ Reflection.findMethod(Transition.class, "setForeShoulderLength", double.class)));
setters.put("Transition:foreshoulderthickness", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setForeShoulderThickness", double.class)));
+ Reflection.findMethod(Transition.class, "setForeShoulderThickness", double.class)));
setters.put("Transition:foreshouldercapped", new BooleanSetter(
- Reflection.findMethodStatic(Transition.class, "setForeShoulderCapped", boolean.class)));
+ Reflection.findMethod(Transition.class, "setForeShoulderCapped", boolean.class)));
setters.put("Transition:aftshoulderradius", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setAftShoulderRadius", double.class)));
+ Reflection.findMethod(Transition.class, "setAftShoulderRadius", double.class)));
setters.put("Transition:aftshoulderlength", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setAftShoulderLength", double.class)));
+ Reflection.findMethod(Transition.class, "setAftShoulderLength", double.class)));
setters.put("Transition:aftshoulderthickness", new DoubleSetter(
- Reflection.findMethodStatic(Transition.class, "setAftShoulderThickness", double.class)));
+ Reflection.findMethod(Transition.class, "setAftShoulderThickness", double.class)));
setters.put("Transition:aftshouldercapped", new BooleanSetter(
- Reflection.findMethodStatic(Transition.class, "setAftShoulderCapped", boolean.class)));
+ Reflection.findMethod(Transition.class, "setAftShoulderCapped", boolean.class)));
// NoseCone - disable disallowed elements
setters.put("NoseCone:foreradius", null);
// FinSet
setters.put("FinSet:fincount", new IntSetter(
- Reflection.findMethodStatic(FinSet.class, "setFinCount", int.class)));
+ Reflection.findMethod(FinSet.class, "setFinCount", int.class)));
setters.put("FinSet:rotation", new DoubleSetter(
- Reflection.findMethodStatic(FinSet.class, "setBaseRotation", double.class), Math.PI / 180.0));
+ Reflection.findMethod(FinSet.class, "setBaseRotation", double.class), Math.PI / 180.0));
setters.put("FinSet:thickness", new DoubleSetter(
- Reflection.findMethodStatic(FinSet.class, "setThickness", double.class)));
+ Reflection.findMethod(FinSet.class, "setThickness", double.class)));
setters.put("FinSet:crosssection", new EnumSetter<FinSet.CrossSection>(
- Reflection.findMethodStatic(FinSet.class, "setCrossSection", FinSet.CrossSection.class),
+ Reflection.findMethod(FinSet.class, "setCrossSection", FinSet.CrossSection.class),
FinSet.CrossSection.class));
setters.put("FinSet:cant", new DoubleSetter(
- Reflection.findMethodStatic(FinSet.class, "setCantAngle", double.class), Math.PI / 180.0));
+ Reflection.findMethod(FinSet.class, "setCantAngle", double.class), Math.PI / 180.0));
setters.put("FinSet:tabheight", new DoubleSetter(
- Reflection.findMethodStatic(FinSet.class, "setTabHeight", double.class)));
+ Reflection.findMethod(FinSet.class, "setTabHeight", double.class)));
setters.put("FinSet:tablength", new DoubleSetter(
- Reflection.findMethodStatic(FinSet.class, "setTabLength", double.class)));
+ Reflection.findMethod(FinSet.class, "setTabLength", double.class)));
setters.put("FinSet:tabposition", new FinTabPositionSetter());
// TrapezoidFinSet
setters.put("TrapezoidFinSet:rootchord", new DoubleSetter(
- Reflection.findMethodStatic(TrapezoidFinSet.class, "setRootChord", double.class)));
+ Reflection.findMethod(TrapezoidFinSet.class, "setRootChord", double.class)));
setters.put("TrapezoidFinSet:tipchord", new DoubleSetter(
- Reflection.findMethodStatic(TrapezoidFinSet.class, "setTipChord", double.class)));
+ Reflection.findMethod(TrapezoidFinSet.class, "setTipChord", double.class)));
setters.put("TrapezoidFinSet:sweeplength", new DoubleSetter(
- Reflection.findMethodStatic(TrapezoidFinSet.class, "setSweep", double.class)));
+ Reflection.findMethod(TrapezoidFinSet.class, "setSweep", double.class)));
setters.put("TrapezoidFinSet:height", new DoubleSetter(
- Reflection.findMethodStatic(TrapezoidFinSet.class, "setHeight", double.class)));
+ Reflection.findMethod(TrapezoidFinSet.class, "setHeight", double.class)));
// EllipticalFinSet
setters.put("EllipticalFinSet:rootchord", new DoubleSetter(
- Reflection.findMethodStatic(EllipticalFinSet.class, "setLength", double.class)));
+ Reflection.findMethod(EllipticalFinSet.class, "setLength", double.class)));
setters.put("EllipticalFinSet:height", new DoubleSetter(
- Reflection.findMethodStatic(EllipticalFinSet.class, "setHeight", double.class)));
+ Reflection.findMethod(EllipticalFinSet.class, "setHeight", double.class)));
// FreeformFinSet points handled as a special handler
// LaunchLug
setters.put("LaunchLug:radius", new DoubleSetter(
- Reflection.findMethodStatic(LaunchLug.class, "setRadius", double.class)));
+ Reflection.findMethod(LaunchLug.class, "setOuterRadius", double.class)));
setters.put("LaunchLug:length", new DoubleSetter(
- Reflection.findMethodStatic(LaunchLug.class, "setLength", double.class)));
+ Reflection.findMethod(LaunchLug.class, "setLength", double.class)));
setters.put("LaunchLug:thickness", new DoubleSetter(
- Reflection.findMethodStatic(LaunchLug.class, "setThickness", double.class)));
+ Reflection.findMethod(LaunchLug.class, "setThickness", double.class)));
setters.put("LaunchLug:radialdirection", new DoubleSetter(
- Reflection.findMethodStatic(LaunchLug.class, "setRadialDirection", double.class),
+ Reflection.findMethod(LaunchLug.class, "setRadialDirection", double.class),
Math.PI / 180.0));
// InternalComponent - nothing
// StructuralComponent
setters.put("StructuralComponent:material", new MaterialSetter(
- Reflection.findMethodStatic(StructuralComponent.class, "setMaterial", Material.class),
+ Reflection.findMethod(StructuralComponent.class, "setMaterial", Material.class),
Material.Type.BULK));
// RingComponent
setters.put("RingComponent:length", new DoubleSetter(
- Reflection.findMethodStatic(RingComponent.class, "setLength", double.class)));
+ Reflection.findMethod(RingComponent.class, "setLength", double.class)));
setters.put("RingComponent:radialposition", new DoubleSetter(
- Reflection.findMethodStatic(RingComponent.class, "setRadialPosition", double.class)));
+ Reflection.findMethod(RingComponent.class, "setRadialPosition", double.class)));
setters.put("RingComponent:radialdirection", new DoubleSetter(
- Reflection.findMethodStatic(RingComponent.class, "setRadialDirection", double.class),
+ Reflection.findMethod(RingComponent.class, "setRadialDirection", double.class),
Math.PI / 180.0));
// ThicknessRingComponent - radius on separate components due to differing automatics
setters.put("ThicknessRingComponent:thickness", new DoubleSetter(
- Reflection.findMethodStatic(ThicknessRingComponent.class, "setThickness", double.class)));
+ Reflection.findMethod(ThicknessRingComponent.class, "setThickness", double.class)));
// EngineBlock
setters.put("EngineBlock:outerradius", new DoubleSetter(
- Reflection.findMethodStatic(EngineBlock.class, "setOuterRadius", double.class),
+ Reflection.findMethod(EngineBlock.class, "setOuterRadius", double.class),
"auto",
- Reflection.findMethodStatic(EngineBlock.class, "setOuterRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(EngineBlock.class, "setOuterRadiusAutomatic", boolean.class)));
// TubeCoupler
setters.put("TubeCoupler:outerradius", new DoubleSetter(
- Reflection.findMethodStatic(TubeCoupler.class, "setOuterRadius", double.class),
+ Reflection.findMethod(TubeCoupler.class, "setOuterRadius", double.class),
"auto",
- Reflection.findMethodStatic(TubeCoupler.class, "setOuterRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(TubeCoupler.class, "setOuterRadiusAutomatic", boolean.class)));
// InnerTube
setters.put("InnerTube:outerradius", new DoubleSetter(
- Reflection.findMethodStatic(InnerTube.class, "setOuterRadius", double.class)));
+ Reflection.findMethod(InnerTube.class, "setOuterRadius", double.class)));
setters.put("InnerTube:clusterconfiguration", new ClusterConfigurationSetter());
setters.put("InnerTube:clusterscale", new DoubleSetter(
- Reflection.findMethodStatic(InnerTube.class, "setClusterScale", double.class)));
+ Reflection.findMethod(InnerTube.class, "setClusterScale", double.class)));
setters.put("InnerTube:clusterrotation", new DoubleSetter(
- Reflection.findMethodStatic(InnerTube.class, "setClusterRotation", double.class),
+ Reflection.findMethod(InnerTube.class, "setClusterRotation", double.class),
Math.PI / 180.0));
// RadiusRingComponent
// Bulkhead
setters.put("RadiusRingComponent:innerradius", new DoubleSetter(
- Reflection.findMethodStatic(RadiusRingComponent.class, "setInnerRadius", double.class)));
+ Reflection.findMethod(RadiusRingComponent.class, "setInnerRadius", double.class)));
setters.put("Bulkhead:outerradius", new DoubleSetter(
- Reflection.findMethodStatic(Bulkhead.class, "setOuterRadius", double.class),
+ Reflection.findMethod(Bulkhead.class, "setOuterRadius", double.class),
"auto",
- Reflection.findMethodStatic(Bulkhead.class, "setOuterRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(Bulkhead.class, "setOuterRadiusAutomatic", boolean.class)));
// CenteringRing
setters.put("CenteringRing:innerradius", new DoubleSetter(
- Reflection.findMethodStatic(CenteringRing.class, "setInnerRadius", double.class),
+ Reflection.findMethod(CenteringRing.class, "setInnerRadius", double.class),
"auto",
- Reflection.findMethodStatic(CenteringRing.class, "setInnerRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(CenteringRing.class, "setInnerRadiusAutomatic", boolean.class)));
setters.put("CenteringRing:outerradius", new DoubleSetter(
- Reflection.findMethodStatic(CenteringRing.class, "setOuterRadius", double.class),
+ Reflection.findMethod(CenteringRing.class, "setOuterRadius", double.class),
"auto",
- Reflection.findMethodStatic(CenteringRing.class, "setOuterRadiusAutomatic", boolean.class)));
+ Reflection.findMethod(CenteringRing.class, "setOuterRadiusAutomatic", boolean.class)));
// MassObject
setters.put("MassObject:packedlength", new DoubleSetter(
- Reflection.findMethodStatic(MassObject.class, "setLength", double.class)));
+ Reflection.findMethod(MassObject.class, "setLength", double.class)));
setters.put("MassObject:packedradius", new DoubleSetter(
- Reflection.findMethodStatic(MassObject.class, "setRadius", double.class)));
+ Reflection.findMethod(MassObject.class, "setRadius", double.class)));
setters.put("MassObject:radialposition", new DoubleSetter(
- Reflection.findMethodStatic(MassObject.class, "setRadialPosition", double.class)));
+ Reflection.findMethod(MassObject.class, "setRadialPosition", double.class)));
setters.put("MassObject:radialdirection", new DoubleSetter(
- Reflection.findMethodStatic(MassObject.class, "setRadialDirection", double.class),
+ Reflection.findMethod(MassObject.class, "setRadialDirection", double.class),
Math.PI / 180.0));
// MassComponent
setters.put("MassComponent:mass", new DoubleSetter(
- Reflection.findMethodStatic(MassComponent.class, "setComponentMass", double.class)));
+ Reflection.findMethod(MassComponent.class, "setComponentMass", double.class)));
// ShockCord
setters.put("ShockCord:cordlength", new DoubleSetter(
- Reflection.findMethodStatic(ShockCord.class, "setCordLength", double.class)));
+ Reflection.findMethod(ShockCord.class, "setCordLength", double.class)));
setters.put("ShockCord:material", new MaterialSetter(
- Reflection.findMethodStatic(ShockCord.class, "setMaterial", Material.class),
+ Reflection.findMethod(ShockCord.class, "setMaterial", Material.class),
Material.Type.LINE));
// RecoveryDevice
setters.put("RecoveryDevice:cd", new DoubleSetter(
- Reflection.findMethodStatic(RecoveryDevice.class, "setCD", double.class),
+ Reflection.findMethod(RecoveryDevice.class, "setCD", double.class),
"auto",
- Reflection.findMethodStatic(RecoveryDevice.class, "setCDAutomatic", boolean.class)));
+ Reflection.findMethod(RecoveryDevice.class, "setCDAutomatic", boolean.class)));
setters.put("RecoveryDevice:deployevent", new EnumSetter<RecoveryDevice.DeployEvent>(
- Reflection.findMethodStatic(RecoveryDevice.class, "setDeployEvent", RecoveryDevice.DeployEvent.class),
+ Reflection.findMethod(RecoveryDevice.class, "setDeployEvent", RecoveryDevice.DeployEvent.class),
RecoveryDevice.DeployEvent.class));
setters.put("RecoveryDevice:deployaltitude", new DoubleSetter(
- Reflection.findMethodStatic(RecoveryDevice.class, "setDeployAltitude", double.class)));
+ Reflection.findMethod(RecoveryDevice.class, "setDeployAltitude", double.class)));
setters.put("RecoveryDevice:deploydelay", new DoubleSetter(
- Reflection.findMethodStatic(RecoveryDevice.class, "setDeployDelay", double.class)));
+ Reflection.findMethod(RecoveryDevice.class, "setDeployDelay", double.class)));
setters.put("RecoveryDevice:material", new MaterialSetter(
- Reflection.findMethodStatic(RecoveryDevice.class, "setMaterial", Material.class),
+ Reflection.findMethod(RecoveryDevice.class, "setMaterial", Material.class),
Material.Type.SURFACE));
// Parachute
setters.put("Parachute:diameter", new DoubleSetter(
- Reflection.findMethodStatic(Parachute.class, "setDiameter", double.class)));
+ Reflection.findMethod(Parachute.class, "setDiameter", double.class)));
setters.put("Parachute:linecount", new IntSetter(
- Reflection.findMethodStatic(Parachute.class, "setLineCount", int.class)));
+ Reflection.findMethod(Parachute.class, "setLineCount", int.class)));
setters.put("Parachute:linelength", new DoubleSetter(
- Reflection.findMethodStatic(Parachute.class, "setLineLength", double.class)));
+ Reflection.findMethod(Parachute.class, "setLineLength", double.class)));
setters.put("Parachute:linematerial", new MaterialSetter(
- Reflection.findMethodStatic(Parachute.class, "setLineMaterial", Material.class),
+ Reflection.findMethod(Parachute.class, "setLineMaterial", Material.class),
Material.Type.LINE));
// Streamer
setters.put("Streamer:striplength", new DoubleSetter(
- Reflection.findMethodStatic(Streamer.class, "setStripLength", double.class)));
+ Reflection.findMethod(Streamer.class, "setStripLength", double.class)));
setters.put("Streamer:stripwidth", new DoubleSetter(
- Reflection.findMethodStatic(Streamer.class, "setStripWidth", double.class)));
+ Reflection.findMethod(Streamer.class, "setStripWidth", double.class)));
// Rocket
// <motorconfiguration> handled by separate handler
setters.put("Rocket:referencetype", new EnumSetter<ReferenceType>(
- Reflection.findMethodStatic(Rocket.class, "setReferenceType", ReferenceType.class),
+ Reflection.findMethod(Rocket.class, "setReferenceType", ReferenceType.class),
ReferenceType.class));
setters.put("Rocket:customreference", new DoubleSetter(
- Reflection.findMethodStatic(Rocket.class, "setCustomReferenceLength", double.class)));
+ Reflection.findMethod(Rocket.class, "setCustomReferenceLength", double.class)));
setters.put("Rocket:designer", new StringSetter(
- Reflection.findMethodStatic(Rocket.class, "setDesigner", String.class)));
+ Reflection.findMethod(Rocket.class, "setDesigner", String.class)));
setters.put("Rocket:revision", new StringSetter(
- Reflection.findMethodStatic(Rocket.class, "setRevision", String.class)));
+ Reflection.findMethod(Rocket.class, "setRevision", String.class)));
}
Setter s = DocumentConfig.setters.get(setterKey);
if (s != null) {
// Setter found
- System.out.println("Calling with key " + setterKey);
s.set(component, content, attributes, warnings);
break;
}
private Motor.Type type = null;
private String manufacturer = null;
private String designation = null;
+ private String digest = null;
private double diameter = Double.NaN;
private double length = Double.NaN;
private double delay = Double.NaN;
warnings.add(Warning.fromString("No motor specified, ignoring."));
return null;
}
+
List<ThrustCurveMotor> motors = Application.getMotorSetDatabase().findMotors(type, manufacturer,
designation, diameter, length);
+
+ // No motors
if (motors.size() == 0) {
String str = "No motor with designation '" + designation + "'";
if (manufacturer != null)
str += " for manufacturer '" + manufacturer + "'";
- warnings.add(Warning.fromString(str + " found."));
+ str += " found.";
+ warnings.add(str);
return null;
}
- if (motors.size() > 1) {
+
+ // One motor
+ if (motors.size() == 1) {
+ ThrustCurveMotor m = motors.get(0);
+ if (digest != null && !MotorDigest.digestMotor(m).equals(digest)) {
+ String str = "Motor with designation '" + designation + "'";
+ if (manufacturer != null)
+ str += " for manufacturer '" + manufacturer + "'";
+ str += " has differing thrust curve than the original.";
+ warnings.add(str);
+ }
+ return m;
+ }
+
+ // Multiple motors, check digest for which one to use
+ if (digest != null) {
+
+ // Check for motor with correct digest
+ for (ThrustCurveMotor m : motors) {
+ if (MotorDigest.digestMotor(m).equals(digest)) {
+ return m;
+ }
+ }
+ String str = "Motor with designation '" + designation + "'";
+ if (manufacturer != null)
+ str += " for manufacturer '" + manufacturer + "'";
+ str += " has differing thrust curve than the original.";
+ warnings.add(str);
+
+ } else {
+
+ // No digest, check for preferred digest (OpenRocket <= 1.1.0)
+ // TODO: MEDIUM: This should only be done for document versions 1.1 and below
+ for (ThrustCurveMotor m : motors) {
+ if (PreferredMotorDigests.DIGESTS.contains(MotorDigest.digestMotor(m))) {
+ return m;
+ }
+ }
+
String str = "Multiple motors with designation '" + designation + "'";
if (manufacturer != null)
str += " for manufacturer '" + manufacturer + "'";
- warnings.add(Warning.fromString(str + " found, one chosen arbitrarily."));
+ str += " found, one chosen arbitrarily.";
+ warnings.add(str);
+
}
return motors.get(0);
}
-
/**
* Return the delay to use for the motor.
*/
// Motor type
type = null;
for (Motor.Type t : Motor.Type.values()) {
- if (t.name().toLowerCase().equals(content)) {
+ if (t.name().toLowerCase().equals(content.trim())) {
type = t;
break;
}
} else if (element.equals("manufacturer")) {
// Manufacturer
- manufacturer = content;
+ manufacturer = content.trim();
} else if (element.equals("designation")) {
// Designation
- designation = content;
+ designation = content.trim();
+
+ } else if (element.equals("digest")) {
+
+ // Digest
+ digest = content.trim();
} else if (element.equals("diameter")) {
// Diameter
diameter = Double.NaN;
try {
- diameter = Double.parseDouble(content);
+ diameter = Double.parseDouble(content.trim());
} catch (NumberFormatException e) {
// Ignore
}
// Length
length = Double.NaN;
try {
- length = Double.parseDouble(content);
+ length = Double.parseDouble(content.trim());
} catch (NumberFormatException ignore) {
}
delay = Motor.PLUGGED;
} else {
try {
- delay = Double.parseDouble(content);
+ delay = Double.parseDouble(content.trim());
} catch (NumberFormatException ignore) {
}
status = Simulation.Status.OUTDATED;
}
- GUISimulationConditions conditions;
+ SimulationOptions conditions;
if (conditionHandler != null) {
conditions = conditionHandler.getConditions();
} else {
warnings.add("Simulation conditions not defined, using defaults.");
- conditions = new GUISimulationConditions(doc.getRocket());
+ conditions = new SimulationOptions(doc.getRocket());
}
if (name == null)
class SimulationConditionsHandler extends ElementHandler {
- private GUISimulationConditions conditions;
+ private SimulationOptions conditions;
private AtmosphereHandler atmosphereHandler;
public SimulationConditionsHandler(Rocket rocket) {
- conditions = new GUISimulationConditions(rocket);
+ conditions = new SimulationOptions(rocket);
+ // Set up default loading settings (which may differ from the new defaults)
+ conditions.setGeodeticComputation(GeodeticComputationStrategy.FLAT);
}
- public GUISimulationConditions getConditions() {
+ public SimulationOptions getConditions() {
return conditions;
}
} else {
conditions.setLaunchLatitude(d);
}
+ } else if (element.equals("launchlongitude")) {
+ if (Double.isNaN(d)) {
+ warnings.add("Illegal launch longitude.");
+ } else {
+ conditions.setLaunchLongitude(d);
+ }
+ } else if (element.equals("geodeticmethod")) {
+ GeodeticComputationStrategy gcs =
+ (GeodeticComputationStrategy) DocumentConfig.findEnum(content, GeodeticComputationStrategy.class);
+ if (gcs != null) {
+ conditions.setGeodeticComputation(gcs);
+ } else {
+ warnings.add("Unknown geodetic computation method '" + content + "'");
+ }
} else if (element.equals("atmosphere")) {
atmosphereHandler.storeSettings(conditions, warnings);
} else if (element.equals("timestep")) {
}
- public void storeSettings(GUISimulationConditions cond, WarningSet warnings) {
+ public void storeSettings(SimulationOptions cond, WarningSet warnings) {
if (!Double.isNaN(pressure)) {
cond.setLaunchPressure(pressure);
}
} catch (NumberFormatException ignore) {
}
+ // TODO: HIGH: Store and load launchRodVelocity
data = new FlightData(maxAltitude, maxVelocity, maxAcceleration, maxMach,
- timeToApogee, flightTime, groundHitVelocity);
+ timeToApogee, flightTime, groundHitVelocity, Double.NaN);
}
data.getWarningSet().addAll(warningSet);
setMethod = set;
}
+ @Override
public void set(RocketComponent c, String s, HashMap<String, String> attributes,
WarningSet warnings) {
setMethod.invoke(c, s);
setMethod = set;
}
+ @Override
public void set(RocketComponent c, String s, HashMap<String, String> attributes,
WarningSet warnings) {
try {
setMethod = set;
}
+ @Override
public void set(RocketComponent c, String s, HashMap<String, String> attributes,
WarningSet warnings) {
}
+ @Override
public void set(RocketComponent c, String s, HashMap<String, String> attributes,
WarningSet warnings) {
this.enabledMethod = enabledMethod;
}
+ @Override
public void set(RocketComponent c, String s, HashMap<String, String> attributes,
WarningSet warnings) {
setMethod = set;
}
+ @Override
public void set(RocketComponent c, String s, HashMap<String, String> attributes,
WarningSet warnings) {
this.type = type;
}
+ @Override
public void set(RocketComponent c, String name, HashMap<String, String> attributes,
WarningSet warnings) {
class PositionSetter implements Setter {
+ @Override
public void set(RocketComponent c, String value, HashMap<String, String> attributes,
WarningSet warnings) {
class FinTabPositionSetter extends DoubleSetter {
public FinTabPositionSetter() {
- super(Reflection.findMethodStatic(FinSet.class, "setTabShift", double.class));
+ super(Reflection.findMethod(FinSet.class, "setTabShift", double.class));
}
@Override
class ClusterConfigurationSetter implements Setter {
+ @Override
public void set(RocketComponent component, String value, HashMap<String, String> attributes,
WarningSet warnings) {