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Merge remote-tracking branch 'origin/Change-side-view-to-top-view' into Change-side-view-to-top-view

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This commit is contained in:
SiboVG 2022-12-25 10:41:24 +01:00
commit 3306ed0f50
36 changed files with 1263 additions and 397 deletions
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core/resources-src/pix/componenticons/stage-large.xcf.gz
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core/resources/l10n/messages.properties
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@ -1149,6 +1149,8 @@ NoseConeCfg.tab.General = General
NoseConeCfg.tab.ttip.General = General properties
NoseConeCfg.tab.Shoulder = Shoulder
NoseConeCfg.tab.ttip.Shoulder = Shoulder properties
NoseConeCfg.checkbox.Flip = Flip to tail cone
NoseConeCfg.checkbox.Flip.ttip = Flips the nose cone direction to a tail cone.
! ParachuteConfig
Parachute.Parachute = Parachute
@ -1363,7 +1365,7 @@ TCMotorSelPan.lbl.Datapoints = Data points:
TCMotorSelPan.lbl.Digest = Digest:
TCMotorSelPan.title.Thrustcurve = Thrust curve:
TCMotorSelPan.title.Thrust = Thrust
TCMotorSelPan.delayBox.None = None
TCMotorSelPan.delayBox.None = Plugged (none)
TCMotorSelPan.noDescription = No description available.
TCMotorSelPan.btn.checkAll = Select All
TCMotorSelPan.btn.checkNone = Clear All

2
core/resources/l10n/messages_ja.properties
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@ -1046,7 +1046,7 @@ TCMotorSelPan.lbl.Datapoints = \u30C7\u30FC\u30BF\u70B9\uFF1A
TCMotorSelPan.lbl.Digest = \u30C0\u30A4\u30B8\u30A7\u30B9\u30C8\uFF1A
TCMotorSelPan.title.Thrustcurve = \u63A8\u529B\u5C65\u6B74\uFF1A
TCMotorSelPan.title.Thrust = \u63A8\u529B
TCMotorSelPan.delayBox.None = None
TCMotorSelPan.delayBox.None = Plugged (none)
TCMotorSelPan.noDescription = No description available.

2
core/resources/l10n/messages_uk_UA.properties
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@ -1119,7 +1119,7 @@ TCMotorSelPan.lbl.Datapoints = Data points:
TCMotorSelPan.lbl.Digest = Digest:
TCMotorSelPan.title.Thrustcurve = Thrust curve:
TCMotorSelPan.title.Thrust = Thrust
TCMotorSelPan.delayBox.None = None
TCMotorSelPan.delayBox.None = Plugged (none)
TCMotorSelPan.noDescription = No description available.
TCMotorSelPan.btn.checkAll = Select All
TCMotorSelPan.btn.checkNone = Clear All

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core/resources/pix/componenticons/stage-large.png
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core/src/net/sf/openrocket/aerodynamics/barrowman/RailButtonCalc.java Normal file
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@ -0,0 +1,102 @@
package net.sf.openrocket.aerodynamics.barrowman;
import java.util.List;
import java.lang.Math;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import net.sf.openrocket.aerodynamics.AerodynamicForces;
import net.sf.openrocket.aerodynamics.FlightConditions;
import net.sf.openrocket.aerodynamics.WarningSet;
import net.sf.openrocket.rocketcomponent.RailButton;
import net.sf.openrocket.rocketcomponent.RocketComponent;
import net.sf.openrocket.util.Coordinate;
import net.sf.openrocket.util.MathUtil;
import net.sf.openrocket.util.Transformation;
public class RailButtonCalc extends RocketComponentCalc {
private final static Logger log = LoggerFactory.getLogger(RailButtonCalc.class);
// values transcribed from Gowen and Perkins, "Drag of Circular Cylinders for a Wide Range
// of Reynolds Numbers and Mach Numbers", NACA Technical Note 2960, Figure 7
private static final List<Double> cdDomain = List.of(0.0, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 1.0, 1.6, 2.0, 2.8, 100.0);
private static final List<Double> cdRange = List.of(1.2, 1.22, 1.25, 1.3, 1.4, 1.5, 1.6, 2.1, 1.5, 1.45, 1.33, 1.33);
private final RailButton button;
public RailButtonCalc(RocketComponent component) {
super(component);
// need to stash the button
button = (RailButton) component;
}
@Override
public double calculateFrictionCD(FlightConditions conditions, double componentCf, WarningSet warnings) {
// very small relative surface area, and slick
return 0.0;
}
@Override
public void calculateNonaxialForces(FlightConditions conditions, Transformation transform,
AerodynamicForces forces, WarningSet warnings) {
// Nothing to be done
}
@Override
public double calculatePressureCD(FlightConditions conditions,
double stagnationCD, double baseCD, WarningSet warnings) {
// grab relevant button params
final int instanceCount = button.getInstanceCount();
final Coordinate[] instanceOffsets = button.getInstanceOffsets();
// compute button reference area
final double buttonHt = button.getTotalHeight();
final double outerArea = buttonHt * button.getOuterDiameter();
final double notchArea = (button.getOuterDiameter() - button.getInnerDiameter()) * button.getInnerHeight();
final double refArea = outerArea - notchArea;
// accumulate Cd contribution from each rail button
double CDmul = 0.0;
for (int i = 0; i < button.getInstanceCount(); i++) {
// compute boundary layer height at button location. I can't find a good reference for the
// formula, e.g. https://aerospaceengineeringblog.com/boundary-layers/ simply says it's the
// "scientific consensus".
double x = (button.toAbsolute(instanceOffsets[i]))[0].x; // location of button
double rex = calculateReynoldsNumber(x, conditions); // Reynolds number of button location
double del = 0.37 * x / Math.pow(rex, 0.2); // Boundary layer thickness
// compute mean airspeed over button
// this assumes airspeed changes linearly through boundary layer
// and that all parts of the railbutton contribute equally to Cd,
// neither of which is true but both are plenty close enough for our purposes
double mach;
if (buttonHt > del) {
// Case 1: button extends beyond boundary layer
// Mean velocity is 1/2 rocket velocity up to limit of boundary layer,
// full velocity after that
mach = (buttonHt - 0.5*del) * conditions.getMach()/buttonHt;
} else {
// Case 2: button is entirely within boundary layer
mach = MathUtil.map(buttonHt/2.0, 0, del, 0, conditions.getMach());
}
// look up Cd as function of speed. It's pretty constant as a function of Reynolds
// number when slow, so we can just use a function of Mach number
double cd = MathUtil.interpolate(cdDomain, cdRange, mach);
// Since later drag force calculations don't consider boundary layer, compute "effective Cd"
// based on rocket velocity
cd = cd * MathUtil.pow2(mach)/MathUtil.pow2(conditions.getMach());
// add to CDmul
CDmul += cd;
}
return CDmul * stagnationCD * refArea / conditions.getRefArea();
}
}

3
core/src/net/sf/openrocket/database/motor/ThrustCurveMotorSet.java
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@ -220,6 +220,9 @@ public class ThrustCurveMotorSet implements Comparable<ThrustCurveMotorSet> {
(type != m.getMotorType())) {
return false;
}
if (!designation.equalsIgnoreCase(m.getDesignation()))
return false;
if (!commonName.equalsIgnoreCase(m.getCommonName()))
return false;

10
core/src/net/sf/openrocket/document/Simulation.java
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@ -384,15 +384,19 @@ public class Simulation implements ChangeSource, Cloneable {
simulatedData = simulator.simulate(simulationConditions);
t2 = System.currentTimeMillis();
log.debug("Simulation: returning from simulator, simulation took " + (t2 - t1) + "ms");
// Set simulated info after simulation, will not be set in case of exception
} catch (SimulationException e) {
simulatedData = e.getFlightData();
throw e;
} finally {
// Set simulated info after simulation
simulatedConditions = options.clone();
simulatedConfigurationDescription = descriptor.format( this.rocket, getId());
simulatedRocketID = rocket.getFunctionalModID();
status = Status.UPTODATE;
fireChangeEvent();
} finally {
mutex.unlock("simulate");
}
}

2
core/src/net/sf/openrocket/file/motor/ZipFileMotorLoader.java
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@ -44,7 +44,7 @@ public class ZipFileMotorLoader implements MotorLoader {
@Override
public List<ThrustCurveMotor.Builder> load(InputStream stream, String filename) throws IOException {
public List<ThrustCurveMotor.Builder> load(InputStream stream, String filename) throws IOException, IllegalArgumentException {
List<ThrustCurveMotor.Builder> motors = new ArrayList<>();
ZipInputStream is = new ZipInputStream(stream);

19
core/src/net/sf/openrocket/file/openrocket/importt/BooleanSetter.java
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@ -10,9 +10,11 @@ import net.sf.openrocket.util.Reflection;
//// BooleanSetter - set a boolean value
class BooleanSetter implements Setter {
private final Reflection.Method setMethod;
private Object[] extraParameters = null;
public BooleanSetter(Reflection.Method set) {
public BooleanSetter(Reflection.Method set, Object... parameters) {
setMethod = set;
this.extraParameters = parameters;
}
@Override
@ -20,12 +22,23 @@ class BooleanSetter implements Setter {
WarningSet warnings) {
s = s.trim();
final boolean setValue;
if (s.equalsIgnoreCase("true")) {
setMethod.invoke(c, true);
setValue = true;
} else if (s.equalsIgnoreCase("false")) {
setMethod.invoke(c, false);
setValue = false;
} else {
warnings.add(Warning.FILE_INVALID_PARAMETER);
return;
}
if (extraParameters != null) {
Object[] parameters = new Object[extraParameters.length + 1];
parameters[0] = setValue;
System.arraycopy(extraParameters, 0, parameters, 1, extraParameters.length);
setMethod.invoke(c, parameters);
} else {
setMethod.invoke(c, setValue);
}
}
}

4
core/src/net/sf/openrocket/file/openrocket/importt/DocumentConfig.java
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@ -248,7 +248,9 @@ class DocumentConfig {
Reflection.findMethod(Transition.class, "setAftShoulderThickness", double.class)));
setters.put("Transition:aftshouldercapped", new BooleanSetter(
Reflection.findMethod(Transition.class, "setAftShoulderCapped", boolean.class)));
setters.put("NoseCone:isflipped", new BooleanSetter(
Reflection.findMethod(NoseCone.class, "setFlipped", boolean.class, boolean.class), false));
// NoseCone - disable disallowed elements
setters.put("NoseCone:foreradius", null);
setters.put("NoseCone:foreshoulderradius", null);

22
core/src/net/sf/openrocket/file/openrocket/savers/NoseConeSaver.java
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@ -1,7 +1,10 @@
package net.sf.openrocket.file.openrocket.savers;
import net.sf.openrocket.rocketcomponent.NoseCone;
import java.util.ArrayList;
import java.util.List;
import java.util.Locale;
public class NoseConeSaver extends TransitionSaver {
@ -20,8 +23,23 @@ public class NoseConeSaver extends TransitionSaver {
@Override
protected void addParams(net.sf.openrocket.rocketcomponent.RocketComponent c, List<String> elements) {
NoseCone noseCone = (NoseCone) c;
super.addParams(c, elements);
// Transition handles nose cone saving as well
if (noseCone.isBaseRadiusAutomatic())
elements.add("<aftradius>auto " + noseCone.getBaseRadiusNoAutomatic() + "</aftradius>");
else
elements.add("<aftradius>" + noseCone.getBaseRadius() + "</aftradius>");
elements.add("<aftshoulderradius>" + noseCone.getShoulderRadius()
+ "</aftshoulderradius>");
elements.add("<aftshoulderlength>" + noseCone.getShoulderLength()
+ "</aftshoulderlength>");
elements.add("<aftshoulderthickness>" + noseCone.getShoulderThickness()
+ "</aftshoulderthickness>");
elements.add("<aftshouldercapped>" + noseCone.isShoulderCapped()
+ "</aftshouldercapped>");
elements.add("<isflipped>" + noseCone.isFlipped() + "</isflipped>");
}
}

36
core/src/net/sf/openrocket/file/openrocket/savers/TransitionSaver.java
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@ -30,8 +30,6 @@ public class TransitionSaver extends SymmetricComponentSaver {
protected void addParams(net.sf.openrocket.rocketcomponent.RocketComponent c, List<String> elements) {
super.addParams(c, elements);
net.sf.openrocket.rocketcomponent.Transition trans = (net.sf.openrocket.rocketcomponent.Transition) c;
boolean nosecone = (trans instanceof NoseCone);
Transition.Shape shape = trans.getType();
elements.add("<shape>" + shape.name().toLowerCase(Locale.ENGLISH) + "</shape>");
@ -41,14 +39,16 @@ public class TransitionSaver extends SymmetricComponentSaver {
if (shape.usesParameter()) {
elements.add("<shapeparameter>" + trans.getShapeParameter() + "</shapeparameter>");
}
if (!nosecone) {
if (trans.isForeRadiusAutomatic())
elements.add("<foreradius>auto " + trans.getForeRadiusNoAutomatic() + "</foreradius>");
else
elements.add("<foreradius>" + trans.getForeRadius() + "</foreradius>");
// Nose cones need other parameter saving, due to the isFlipped() parameter
if (trans instanceof NoseCone) {
return;
}
if (trans.isForeRadiusAutomatic())
elements.add("<foreradius>auto " + trans.getForeRadiusNoAutomatic() + "</foreradius>");
else
elements.add("<foreradius>" + trans.getForeRadius() + "</foreradius>");
if (trans.isAftRadiusAutomatic())
elements.add("<aftradius>auto " + trans.getAftRadiusNoAutomatic() + "</aftradius>");
@ -56,16 +56,14 @@ public class TransitionSaver extends SymmetricComponentSaver {
elements.add("<aftradius>" + trans.getAftRadius() + "</aftradius>");
if (!nosecone) {
elements.add("<foreshoulderradius>" + trans.getForeShoulderRadius()
+ "</foreshoulderradius>");
elements.add("<foreshoulderlength>" + trans.getForeShoulderLength()
+ "</foreshoulderlength>");
elements.add("<foreshoulderthickness>" + trans.getForeShoulderThickness()
+ "</foreshoulderthickness>");
elements.add("<foreshouldercapped>" + trans.isForeShoulderCapped()
+ "</foreshouldercapped>");
}
elements.add("<foreshoulderradius>" + trans.getForeShoulderRadius()
+ "</foreshoulderradius>");
elements.add("<foreshoulderlength>" + trans.getForeShoulderLength()
+ "</foreshoulderlength>");
elements.add("<foreshoulderthickness>" + trans.getForeShoulderThickness()
+ "</foreshoulderthickness>");
elements.add("<foreshouldercapped>" + trans.isForeShoulderCapped()
+ "</foreshouldercapped>");
elements.add("<aftshoulderradius>" + trans.getAftShoulderRadius()
+ "</aftshoulderradius>");

6
core/src/net/sf/openrocket/file/rocksim/export/PodSetDTO.java
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@ -65,7 +65,11 @@ public class PodSetDTO extends BasePartDTO implements AttachableParts {
} else if (child instanceof BodyTube) {
addAttachedPart(new BodyTubeDTO((BodyTube) child));
} else if (child instanceof NoseCone) {
addAttachedPart(new NoseConeDTO((NoseCone) child));
if (((NoseCone) child).isFlipped()) {
addAttachedPart(new TransitionDTO((NoseCone) child));
} else {
addAttachedPart(new NoseConeDTO((NoseCone) child));
}
} else if (child instanceof Transition) {
addAttachedPart(new TransitionDTO((Transition) child));
}

8
core/src/net/sf/openrocket/file/rocksim/export/StageDTO.java
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@ -93,8 +93,12 @@ public class StageDTO {
externalPart.add(theExternalPartDTO);
}
private NoseConeDTO toNoseConeDTO(NoseCone nc) {
return new NoseConeDTO(nc);
private AbstractTransitionDTO toNoseConeDTO(NoseCone nc) {
if (nc.isFlipped()) {
return new TransitionDTO(nc);
} else {
return new NoseConeDTO(nc);
}
}
private BodyTubeDTO toBodyTubeDTO(BodyTube bt) {

2
core/src/net/sf/openrocket/optimization/services/DefaultSimulationModifierService.java
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@ -56,7 +56,7 @@ public class DefaultSimulationModifierService implements SimulationModifierServi
*/
addModifier("optimization.modifier.nosecone.length", UnitGroup.UNITS_LENGTH, 1.0, NoseCone.class, "Length");
addModifier("optimization.modifier.nosecone.diameter", UnitGroup.UNITS_LENGTH, 2.0, NoseCone.class, "AftRadius", "isAftRadiusAutomatic");
addModifier("optimization.modifier.nosecone.diameter", UnitGroup.UNITS_LENGTH, 2.0, NoseCone.class, "BaseRadius", "isBaseRadiusAutomatic");
addModifier("optimization.modifier.nosecone.thickness", UnitGroup.UNITS_LENGTH, 1.0, NoseCone.class, "Thickness", "isFilled");
addModifier("optimization.modifier.transition.length", UnitGroup.UNITS_LENGTH, 1.0, Transition.class, "Length");

268
core/src/net/sf/openrocket/rocketcomponent/NoseCone.java
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@ -13,6 +13,9 @@ import java.util.EventObject;
/**
* Rocket nose cones of various types. Implemented as a transition with the
* fore radius == 0.
* <p>
* The normal nose cone can be converted to a tail cone by setting the {@link #isFlipped} parameter.
* This will flip all the aft side dimensions with the fore side dimensions.
*
* @author Sampo Niskanen <sampo.niskanen@iki.fi>
*/
@ -21,6 +24,7 @@ public class NoseCone extends Transition implements InsideColorComponent {
private static final Translator trans = Application.getTranslator();
private InsideColorComponentHandler insideColorComponentHandler = new InsideColorComponentHandler(this);
private boolean isFlipped; // If true, the nose cone is converted to a tail cone
/********* Constructors **********/
public NoseCone() {
@ -29,16 +33,12 @@ public class NoseCone extends Transition implements InsideColorComponent {
public NoseCone(Transition.Shape type, double length, double radius) {
super();
this.isFlipped = false;
super.setType(type);
super.setForeRadiusAutomatic(false);
super.setForeRadius(0);
super.setForeShoulderLength(0);
super.setForeShoulderRadius(0.9 * radius);
super.setForeShoulderThickness(0);
super.setForeShoulderCapped(filled);
super.setThickness(0.002);
super.setLength(length);
super.setClipped(false);
resetForeRadius();
super.setAftRadiusAutomatic(false);
super.setAftRadius(radius);
@ -46,86 +46,220 @@ public class NoseCone extends Transition implements InsideColorComponent {
super.displayOrder_side = 1; // Order for displaying the component in the 2D side view
super.displayOrder_back = 0; // Order for displaying the component in the 2D back view
}
/********** Get/set methods for component parameters **********/
@Override
public double getForeRadius() {
return 0;
}
@Override
public void setForeRadius(double r) {
// No-op
}
@Override
public boolean isForeRadiusAutomatic() {
return false;
}
@Override
public void setForeRadiusAutomatic(boolean b) {
// No-op
/********** Nose cone dimensions **********/
/**
* Returns the base radius of the nose cone (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #getAftRadius()} because it works for both normal and flipped nose cones.
*/
public double getBaseRadius() {
return isFlipped ? getForeRadius() : getAftRadius();
}
@Override
public boolean usesPreviousCompAutomatic() {
return false;
/**
* Returns the raw base radius of the nose cone (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #getAftRadiusNoAutomatic()} because it works for both normal and flipped nose cones.
*/
public double getBaseRadiusNoAutomatic() {
return isFlipped ? getForeRadiusNoAutomatic() : getAftRadiusNoAutomatic();
}
@Override
public double getForeShoulderLength() {
return 0;
/**
* Sets the base radius of the nose cone (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #setAftRadius(double)} because it works for both normal and flipped nose cones.
*/
public void setBaseRadius(double radius) {
if (isFlipped) {
setForeRadius(radius);
} else {
setAftRadius(radius);
}
}
@Override
public double getForeShoulderRadius() {
return 0;
/**
* Returns whether the base radius of the nose cone takes it settings from the previous/next component
* (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #isAftRadiusAutomatic()} because it works for both normal and flipped nose cones.
*/
public boolean isBaseRadiusAutomatic() {
return isFlipped ? isForeRadiusAutomatic() : isAftRadiusAutomatic();
}
@Override
public double getForeShoulderThickness() {
return 0;
/**
* Sets whether the base radius of the nose cone takes it settings from the previous/next component
* (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #setAftRadiusAutomatic(boolean)} because it works for both normal and flipped nose cones.
*/
public void setBaseRadiusAutomatic(boolean auto) {
if (isFlipped) {
setForeRadiusAutomatic(auto);
} else {
setAftRadiusAutomatic(auto);
}
}
@Override
public boolean isForeShoulderCapped() {
return false;
/**
* Returns the shoulder length, regardless of how the nose cone is flipped (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #getAftShoulderLength()} because it works for both normal and flipped nose cones.
*/
public double getShoulderLength() {
return isFlipped ? getForeShoulderLength() : getAftShoulderLength();
}
@Override
public void setForeShoulderCapped(boolean capped) {
// No-op
/**
* Sets the shoulder length (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #setAftShoulderLength(double)} because it works for both normal and flipped nose cones.
*/
public void setShoulderLength(double length) {
if (isFlipped) {
setForeShoulderLength(length);
} else {
setAftShoulderLength(length);
}
}
@Override
public void setForeShoulderLength(double foreShoulderLength) {
// No-op
/**
* Returns the shoulder radius (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #getAftShoulderRadius()} because it works for both normal and flipped nose cones.
*/
public double getShoulderRadius() {
return isFlipped ? getForeShoulderRadius() : getAftShoulderRadius();
}
@Override
public void setForeShoulderRadius(double foreShoulderRadius) {
// No-op
/**
* Sets the shoulder radius (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #setAftShoulderRadius(double)} because it works for both normal and flipped nose cones.
*/
public void setShoulderRadius(double radius) {
if (isFlipped) {
setForeShoulderRadius(radius);
} else {
setAftShoulderRadius(radius);
}
}
@Override
public void setForeShoulderThickness(double foreShoulderThickness) {
// No-op
/**
* Returns the shoulder thickness (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #getAftShoulderThickness()} because it works for both normal and flipped nose cones.
*/
public double getShoulderThickness() {
return isFlipped ? getForeShoulderThickness() : getAftShoulderThickness();
}
/**
* Sets the shoulder thickness (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #setAftShoulderRadius(double)} because it works for both normal and flipped nose cones.
*/
public void setShoulderThickness(double thickness) {
if (isFlipped) {
setForeShoulderThickness(thickness);
} else {
setAftShoulderThickness(thickness);
}
}
/**
* Returns the shoulder cap (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #isAftShoulderCapped()} because it works for both normal and flipped nose cones.
*/
public boolean isShoulderCapped() {
return isFlipped ? isForeShoulderCapped() : isAftShoulderCapped();
}
/**
* Sets the shoulder cap (independent of whether the nose cone is flipped or not).
* This method should be used over {@link #setAftShoulderCapped(boolean)} because it works for both normal and flipped nose cones.
*/
public void setShoulderCapped(boolean capped) {
if (isFlipped) {
setForeShoulderCapped(capped);
} else {
setAftShoulderCapped(capped);
}
}
/********** Other **********/
/**
* Return true if the nose cone is flipped, i.e. converted to a tail cone, false if it is a regular nose cone.
*/
public boolean isFlipped() {
return isFlipped;
}
/**
* Set the nose cone to be flipped, i.e. converted to a tail cone, or set it to be a regular nose cone.
* @param flipped if true, the nose cone is converted to a tail cone, if false it is a regular nose cone.
* @param sanityCheck whether to check if the auto radius parameter can be used for the new nose cone orientation
*/
public void setFlipped(boolean flipped, boolean sanityCheck) {
if (isFlipped == flipped) {
return;
}
setBypassChangeEvent(true);
if (flipped) {
setForeRadius(getAftRadiusNoAutomatic());
setForeRadiusAutomatic(isAftRadiusAutomatic(), sanityCheck);
setForeShoulderLength(getAftShoulderLength());
setForeShoulderRadius(getAftShoulderRadius());
setForeShoulderThickness(getAftShoulderThickness());
setForeShoulderCapped(isAftShoulderCapped());
resetAftRadius();
} else {
setAftRadius(getForeRadiusNoAutomatic());
setAftRadiusAutomatic(isForeRadiusAutomatic(), sanityCheck);
setAftShoulderLength(getForeShoulderLength());
setAftShoulderRadius(getForeShoulderRadius());
setAftShoulderThickness(getForeShoulderThickness());
setAftShoulderCapped(isForeShoulderCapped());
resetForeRadius();
}
setBypassChangeEvent(false);
isFlipped = flipped;
fireComponentChangeEvent(ComponentChangeEvent.BOTH_CHANGE);
}
/**
* Set the nose cone to be flipped, i.e. converted to a tail cone, or set it to be a regular nose cone.
* @param flipped if true, the nose cone is converted to a tail cone, if false it is a regular nose cone.
*/
public void setFlipped(boolean flipped) {
setFlipped(flipped, true);
}
private void resetForeRadius() {
setForeRadius(0);
setForeRadiusAutomatic(false);
setForeShoulderLength(0);
setForeShoulderRadius(0);
setForeShoulderThickness(0);
setForeShoulderCapped(false);
}
private void resetAftRadius() {
setAftRadius(0);
setAftRadiusAutomatic(false);
setAftShoulderLength(0);
setAftShoulderRadius(0);
setAftShoulderThickness(0);
setAftShoulderCapped(false);
}
@Override
public boolean isClipped() {
return false;
}
@Override
public void setClipped(boolean b) {
// No-op
}
/********** RocketComponent methods **********/
@ -136,7 +270,7 @@ public class NoseCone extends Transition implements InsideColorComponent {
@Override
protected void loadFromPreset(ComponentPreset preset) {
setFlipped(false);
//Many parameters are handled by the super class Transition.loadFromPreset
super.loadFromPreset(preset);
}

6
core/src/net/sf/openrocket/rocketcomponent/RailButton.java
View File

@ -207,12 +207,6 @@ public class RailButton extends ExternalComponent implements AnglePositionable,
clearPreset();
fireComponentChangeEvent(ComponentChangeEvent.BOTH_CHANGE);
}
@Override
public boolean isAerodynamic(){
// TODO: implement aerodynamics
return false;
}
@Override
public double getAngleOffset(){

126
core/src/net/sf/openrocket/rocketcomponent/Transition.java
View File

@ -5,17 +5,13 @@ import static net.sf.openrocket.util.MathUtil.pow2;
import static net.sf.openrocket.util.MathUtil.pow3;
import java.util.Collection;
import java.util.EventObject;
import net.sf.openrocket.appearance.Appearance;
import net.sf.openrocket.appearance.Decal;
import net.sf.openrocket.l10n.Translator;
import net.sf.openrocket.preset.ComponentPreset;
import net.sf.openrocket.preset.ComponentPreset.Type;
import net.sf.openrocket.startup.Application;
import net.sf.openrocket.util.Coordinate;
import net.sf.openrocket.util.MathUtil;
import net.sf.openrocket.util.StateChangeListener;
public class Transition extends SymmetricComponent implements InsideColorComponent {
@ -27,8 +23,8 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
private double shapeParameter;
private boolean clipped; // Not to be read - use isClipped(), which may be overridden
private double foreRadius, aftRadius;
private boolean autoForeRadius, autoAftRadius2; // Whether the start radius is automatic
protected double foreRadius, aftRadius; // Warning: avoid using these directly, use getForeRadius() and getAftRadius() instead (because the definition of the two can change for flipped nose cones)
protected boolean autoForeRadius, autoAftRadius; // Whether the start radius is automatic
private double foreShoulderRadius;
@ -53,7 +49,7 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
this.aftRadius = DEFAULT_RADIUS;
this.length = DEFAULT_RADIUS * 3;
this.autoForeRadius = true;
this.autoAftRadius2 = true;
this.autoAftRadius = true;
this.type = Shape.CONICAL;
this.shapeParameter = 0;
@ -81,19 +77,24 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
@Override
public double getForeRadius() {
if (isForeRadiusAutomatic()) {
// Get the automatic radius from the front
double r = -1;
SymmetricComponent c = this.getPreviousSymmetricComponent();
if (c != null) {
r = c.getFrontAutoRadius();
}
if (r < 0)
r = DEFAULT_RADIUS;
return r;
return getAutoForeRadius();
}
return foreRadius;
}
/**
* Returns the automatic radius from the front, taken from the previous component. Returns the default radius if there
* is no previous component.
*/
protected double getAutoForeRadius() {
SymmetricComponent c = this.getPreviousSymmetricComponent();
if (c != null) {
return c.getFrontAutoRadius();
} else {
return DEFAULT_RADIUS;
}
}
/**
* Return the fore radius that was manually entered, so not the value that the component received from automatic
* fore radius.
@ -136,13 +137,24 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
return autoForeRadius;
}
public void setForeRadiusAutomatic(boolean auto) {
/**
* Set the fore radius to automatic mode (takes its value from the previous symmetric component's radius).
*
* @param auto whether to set the fore radius to automatic mode
* @param sanityCheck whether to sanity check auto mode for whether there is a previous component of which you can take the radius
*/
public void setForeRadiusAutomatic(boolean auto, boolean sanityCheck) {
for (RocketComponent listener : configListeners) {
if (listener instanceof Transition) {
((Transition) listener).setForeRadiusAutomatic(auto);
}
}
// You can only set the auto fore radius if it is possible
if (sanityCheck) {
auto = auto && canUsePreviousCompAutomatic();
}
if (autoForeRadius == auto)
return;
@ -152,25 +164,34 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
fireComponentChangeEvent(ComponentChangeEvent.BOTH_CHANGE);
}
public void setForeRadiusAutomatic(boolean auto) {
setForeRadiusAutomatic(auto, false);
}
//////// Aft radius /////////
@Override
public double getAftRadius() {
if (isAftRadiusAutomatic()) {
// Return the auto radius from the rear
double r = -1;
SymmetricComponent c = this.getNextSymmetricComponent();
if (c != null) {
r = c.getRearAutoRadius();
}
if (r < 0)
r = DEFAULT_RADIUS;
return r;
return getAutoAftRadius();
}
return aftRadius;
}
/**
* Returns the automatic radius from the rear, taken from the next component. Returns the default radius if there
* is no next component.
*/
protected double getAutoAftRadius() {
SymmetricComponent c = this.getNextSymmetricComponent();
if (c != null) {
return c.getRearAutoRadius();
} else {
return DEFAULT_RADIUS;
}
}
/**
* Return the aft radius that was manually entered, so not the value that the component received from automatic
* zft radius.
@ -191,10 +212,10 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
}
}
if ((this.aftRadius == radius) && (autoAftRadius2 == false))
if ((this.aftRadius == radius) && (autoAftRadius == false))
return;
this.autoAftRadius2 = false;
this.autoAftRadius = false;
this.aftRadius = Math.max(radius, 0);
if (doClamping && this.thickness > this.foreRadius && this.thickness > this.aftRadius)
@ -210,25 +231,40 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
@Override
public boolean isAftRadiusAutomatic() {
return autoAftRadius2;
return autoAftRadius;
}
public void setAftRadiusAutomatic(boolean auto) {
/**
* Set the aft radius to automatic mode (takes its value from the next symmetric component's radius).
*
* @param auto whether to set the aft radius to automatic mode
* @param sanityCheck whether to sanity check auto mode for whether there is a next component of which you can take the radius
*/
public void setAftRadiusAutomatic(boolean auto, boolean sanityCheck) {
for (RocketComponent listener : configListeners) {
if (listener instanceof Transition) {
((Transition) listener).setAftRadiusAutomatic(auto);
}
}
if (autoAftRadius2 == auto)
// You can only set the auto aft radius if it is possible
if (sanityCheck) {
auto = auto && canUseNextCompAutomatic();
}
if (autoAftRadius == auto)
return;
autoAftRadius2 = auto;
autoAftRadius = auto;
clearPreset();
fireComponentChangeEvent(ComponentChangeEvent.BOTH_CHANGE);
}
public void setAftRadiusAutomatic(boolean auto) {
setAftRadiusAutomatic(auto, false);
}
//// Radius automatics
@ -257,6 +293,32 @@ public class Transition extends SymmetricComponent implements InsideColorCompone
return isAftRadiusAutomatic();
}
/**
* Checks whether this component can use the automatic radius of the previous symmetric component.
* @return false if there is no previous symmetric component, or if the previous component already has this component
* as its auto dimension reference
*/
public boolean canUsePreviousCompAutomatic() {
SymmetricComponent referenceComp = getPreviousSymmetricComponent();
if (referenceComp == null) {
return false;
}
return !referenceComp.usesNextCompAutomatic();
}
/**
* Checks whether this component can use the automatic radius of the next symmetric component.
* @return false if there is no next symmetric component, or if the next component already has this component
* as its auto dimension reference
*/
public boolean canUseNextCompAutomatic() {
SymmetricComponent referenceComp = getNextSymmetricComponent();
if (referenceComp == null) {
return false;
}
return !referenceComp.usesPreviousCompAutomatic();
}
//////// Type & shape /////////

9
core/src/net/sf/openrocket/simulation/BasicEventSimulationEngine.java
View File

@ -58,12 +58,14 @@ public class BasicEventSimulationEngine implements SimulationEngine {
// this is just a list of simulation branches to
Deque<SimulationStatus> toSimulate = new ArrayDeque<SimulationStatus>();
FlightData flightData;
@Override
public FlightData simulate(SimulationConditions simulationConditions) throws SimulationException {
// Set up flight data
FlightData flightData = new FlightData();
flightData = new FlightData();
// Set up rocket configuration
this.fcid = simulationConditions.getFlightConfigurationID();
@ -268,6 +270,11 @@ public class BasicEventSimulationEngine implements SimulationEngine {
// Add FlightEvent for Abort.
currentStatus.getFlightData().addEvent(new FlightEvent(FlightEvent.Type.EXCEPTION, currentStatus.getSimulationTime(), currentStatus.getConfiguration().getRocket(), e.getLocalizedMessage()));
flightData.addBranch(currentStatus.getFlightData());
flightData.getWarningSet().addAll(currentStatus.getWarnings());
e.setFlightData(flightData);
throw e;
}

11
core/src/net/sf/openrocket/simulation/exception/SimulationException.java
View File

@ -1,7 +1,11 @@
package net.sf.openrocket.simulation.exception;
import net.sf.openrocket.simulation.FlightData;
public class SimulationException extends Exception {
private FlightData flightData = null;
public SimulationException() {
}
@ -18,4 +22,11 @@ public class SimulationException extends Exception {
super(message, cause);
}
public void setFlightData(FlightData f) {
flightData = f;
}
public FlightData getFlightData() {
return flightData;
}
}

101
core/test/net/sf/openrocket/aerodynamics/RailButtonCalcTest.java Normal file
View File

@ -0,0 +1,101 @@
package net.sf.openrocket.aerodynamics;
import static org.junit.Assert.assertEquals;
import org.junit.BeforeClass;
import org.junit.Test;
import com.google.inject.Guice;
import com.google.inject.Injector;
import com.google.inject.Module;
import net.sf.openrocket.ServicesForTesting;
import net.sf.openrocket.aerodynamics.BarrowmanCalculator;
import net.sf.openrocket.aerodynamics.barrowman.RailButtonCalc;
import net.sf.openrocket.plugin.PluginModule;
import net.sf.openrocket.rocketcomponent.FlightConfiguration;
import net.sf.openrocket.rocketcomponent.BodyTube;
import net.sf.openrocket.rocketcomponent.RailButton;
import net.sf.openrocket.rocketcomponent.LaunchLug;
import net.sf.openrocket.rocketcomponent.Rocket;
import net.sf.openrocket.rocketcomponent.position.AxialMethod;
import net.sf.openrocket.startup.Application;
import net.sf.openrocket.util.MathUtil;
import net.sf.openrocket.util.TestRockets;
import net.sf.openrocket.util.Transformation;
public class RailButtonCalcTest {
protected final double EPSILON = 0.0001;
private static Injector injector;
@BeforeClass
public static void setup() {
Module applicationModule = new ServicesForTesting();
Module pluginModule = new PluginModule();
injector = Guice.createInjector( applicationModule, pluginModule);
Application.setInjector(injector);
}
@Test
public void testRailButtons() {
Rocket rocket = TestRockets.makeEstesAlphaIII();
FlightConfiguration config = rocket.getSelectedConfiguration();
// Get the body tube...
BodyTube tube = (BodyTube)rocket.getChild(0).getChild(1);
// Replace the launch lug with a (single) railbutton
LaunchLug lug = (LaunchLug)tube.getChild(1);
rocket.removeChild(lug);
RailButton button = new RailButton();
tube.addChild(button);
// Button parameters from Binder Design standard 1010
button.setOuterDiameter(0.011);
button.setInnerDiameter(0.006);
button.setBaseHeight(0.002);
button.setFlangeHeight(0.002);
button.setTotalHeight(0.008);
button.setAxialMethod(AxialMethod.ABSOLUTE);
button.setAxialOffset(1.0);
// Set up flight conditions
FlightConditions conditions = new FlightConditions(config);
conditions.setMach(1.0);
BarrowmanCalculator barrowmanObj = new BarrowmanCalculator();
RailButtonCalc calcObj = new RailButtonCalc(button);
// Calculate effective CD for rail button
// Boundary layer height
double rex = calcObj.calculateReynoldsNumber(1.0, conditions); // Reynolds number of button location
double del = 0.37 * 1.0 / Math.pow(rex, 0.2); // Boundary layer height
// Interpolate velocity at midpoint of railbutton
double mach = MathUtil.map(0.008/2.0, 0, del, 0, 1.0);
// Interpolate to get CD
double cd = MathUtil.map(mach, 0.2, 0.3, 1.22, 1.25);
// Reference area of rail button
final double outerArea = button.getTotalHeight() * button.getOuterDiameter();
final double notchArea = (button.getOuterDiameter() - button.getInnerDiameter()) * button.getInnerHeight();
final double refArea = outerArea - notchArea;
// Get "effective" CD
double calccd = cd * MathUtil.pow2(mach) * barrowmanObj.calculateStagnationCD(conditions.getMach()) * refArea / conditions.getRefArea() ;
// Now compare with value from RailButtonCalc
WarningSet warnings = new WarningSet();
AerodynamicForces assemblyForces = new AerodynamicForces().zero();
AerodynamicForces componentForces = new AerodynamicForces();
double testcd = calcObj.calculatePressureCD(conditions, barrowmanObj.calculateStagnationCD(conditions.getMach()), 0, warnings);
assertEquals("Calculated rail button CD incorrect", calccd, testcd, EPSILON);
}
}

55
core/test/net/sf/openrocket/database/ThrustCurveMotorSetTest.java
View File

@ -23,7 +23,7 @@ public class ThrustCurveMotorSetTest {
private static final ThrustCurveMotor motor1 = new ThrustCurveMotor.Builder()
.setManufacturer(Manufacturer.getManufacturer("A"))
.setCommonName("F12")
.setDesignation("F12X")
.setDesignation("F12")
.setDescription("Desc")
.setMotorType(Motor.Type.UNKNOWN)
.setStandardDelays(new double[] {})
@ -38,7 +38,7 @@ public class ThrustCurveMotorSetTest {
private static final ThrustCurveMotor motor2 = new ThrustCurveMotor.Builder()
.setManufacturer(Manufacturer.getManufacturer("A"))
.setCommonName("F12")
.setDesignation("F12H")
.setDesignation("F12")
.setDescription("Desc")
.setMotorType(Motor.Type.SINGLE)
.setStandardDelays(new double[] { 5 })
@ -51,20 +51,6 @@ public class ThrustCurveMotorSetTest {
.build();
private static final ThrustCurveMotor motor3 = new ThrustCurveMotor.Builder()
.setManufacturer(Manufacturer.getManufacturer("A"))
.setCode("F12")
.setDescription("Desc")
.setMotorType(Motor.Type.UNKNOWN)
.setStandardDelays(new double[] { 0, Motor.PLUGGED_DELAY })
.setDiameter(0.024)
.setLength(0.07)
.setTimePoints(new double[] { 0, 1, 2 })
.setThrustPoints(new double[] { 0, 2, 0 })
.setCGPoints(new Coordinate[] { Coordinate.NUL, Coordinate.NUL, Coordinate.NUL })
.setDigest("digestC")
.build();
private static final ThrustCurveMotor motor4 = new ThrustCurveMotor.Builder()
.setManufacturer(Manufacturer.getManufacturer("A"))
.setDesignation("F12")
.setDescription("Desc")
@ -113,39 +99,20 @@ public class ThrustCurveMotorSetTest {
// Add motor2
assertTrue(set.matches(motor2));
set.addMotor(motor2);
assertEquals(motor1.getManufacturer(), set.getManufacturer());
assertEquals(motor3.getCommonName(), set.getCommonName());
assertEquals(motor2.getManufacturer(), set.getManufacturer());
assertEquals(motor2.getCommonName(), set.getCommonName());
assertEquals(Motor.Type.SINGLE, set.getType());
assertEquals(motor1.getDiameter(), set.getDiameter(), 0.00001);
assertEquals(motor1.getLength(), set.getLength(), 0.00001);
assertEquals(motor2.getDiameter(), set.getDiameter(), 0.00001);
assertEquals(motor2.getLength(), set.getLength(), 0.00001);
assertEquals(2, set.getMotors().size());
assertEquals(motor2, set.getMotors().get(0));
assertEquals(motor1, set.getMotors().get(1));
assertEquals(motor1, set.getMotors().get(0));
assertEquals(motor2, set.getMotors().get(1));
assertEquals(Arrays.asList(5.0), set.getDelays());
// Add motor3
assertTrue(set.matches(motor3));
set.addMotor(motor3);
assertEquals(motor1.getManufacturer(), set.getManufacturer());
assertEquals(motor3.getCommonName(), set.getCommonName());
assertEquals(Motor.Type.SINGLE, set.getType());
assertEquals(motor1.getDiameter(), set.getDiameter(), 0.00001);
assertEquals(motor1.getLength(), set.getLength(), 0.00001);
assertEquals(3, set.getMotors().size());
System.out.println("motor set");
System.out.println(set.getMotors());
System.out.println(motor3);
System.out.println(motor2);
System.out.println(motor1);
assertEquals(motor3, set.getMotors().get(0));
assertEquals(motor2, set.getMotors().get(1));
assertEquals(motor1, set.getMotors().get(2));
assertEquals(Arrays.asList(0.0, 5.0, Motor.PLUGGED_DELAY), set.getDelays());
// Test that adding motor4 fails
assertFalse(set.matches(motor4));
// Test that adding motor3 fails
assertFalse(set.matches(motor3));
try {
set.addMotor(motor4);
set.addMotor(motor3);
fail("Did not throw exception");
} catch (IllegalArgumentException e) {
}

398
core/test/net/sf/openrocket/rocketcomponent/NoseConeTest.java Normal file
View File

@ -0,0 +1,398 @@
package net.sf.openrocket.rocketcomponent;
import net.sf.openrocket.document.OpenRocketDocumentFactory;
import net.sf.openrocket.util.BaseTestCase.BaseTestCase;
import net.sf.openrocket.util.MathUtil;
import org.junit.Test;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNull;
import static org.junit.Assert.assertSame;
import static org.junit.Assert.assertTrue;
public class NoseConeTest extends BaseTestCase {
private final double EPSILON = MathUtil.EPSILON * 1000;
@Test
public void testNormalNoseCone() {
NoseCone noseCone = new NoseCone();
// First set the parameters using the normal transition setters (i.e. using AftRadius and AftShoulder instead of Base and Shoulder)
noseCone.setType(Transition.Shape.OGIVE);
noseCone.setLength(0.06);
noseCone.setAftRadius(0.1);
noseCone.setAftShoulderLength(0.01);
noseCone.setAftShoulderRadius(0.05);
noseCone.setAftShoulderCapped(false);
noseCone.setAftShoulderThickness(0.001);
assertEquals(Transition.Shape.OGIVE, noseCone.getType());
assertEquals(0.06, noseCone.getLength(), EPSILON);
assertEquals(0.1, noseCone.getAftRadius(), EPSILON);
assertEquals(0.1, noseCone.getBaseRadius(), EPSILON);
assertEquals(0.1, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0.1, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(0.01, noseCone.getAftShoulderLength(), EPSILON);
assertEquals(0.01, noseCone.getShoulderLength(), EPSILON);
assertEquals(0.05, noseCone.getAftShoulderRadius(), EPSILON);
assertEquals(0.05, noseCone.getShoulderRadius(), EPSILON);
assertFalse(noseCone.isAftShoulderCapped());
assertFalse(noseCone.isShoulderCapped());
assertEquals(0.001, noseCone.getAftShoulderThickness(), EPSILON);
assertEquals(0.001, noseCone.getShoulderThickness(), EPSILON);
assertFalse(noseCone.isAftRadiusAutomatic());
assertEquals(0, noseCone.getForeRadius(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeShoulderLength(), EPSILON);
assertEquals(0, noseCone.getForeShoulderRadius(), EPSILON);
assertEquals(0, noseCone.getForeShoulderThickness(), EPSILON);
assertFalse(noseCone.isForeShoulderCapped());
assertFalse(noseCone.isForeRadiusAutomatic());
// Test setting the specific nose cone setters
noseCone.setBaseRadius(0.2);
noseCone.setShoulderLength(0.03);
noseCone.setShoulderRadius(0.04);
noseCone.setShoulderCapped(true);
noseCone.setShoulderThickness(0.005);
assertEquals(0.2, noseCone.getAftRadius(), EPSILON);
assertEquals(0.2, noseCone.getBaseRadius(), EPSILON);
assertEquals(0.2, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0.2, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(0.03, noseCone.getAftShoulderLength(), EPSILON);
assertEquals(0.03, noseCone.getShoulderLength(), EPSILON);
assertEquals(0.04, noseCone.getAftShoulderRadius(), EPSILON);
assertEquals(0.04, noseCone.getShoulderRadius(), EPSILON);
assertTrue(noseCone.isAftShoulderCapped());
assertTrue(noseCone.isShoulderCapped());
assertEquals(0.005, noseCone.getAftShoulderThickness(), EPSILON);
assertEquals(0.005, noseCone.getShoulderThickness(), EPSILON);
assertFalse(noseCone.isAftRadiusAutomatic());
assertEquals(0, noseCone.getForeRadius(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeShoulderLength(), EPSILON);
assertEquals(0, noseCone.getForeShoulderRadius(), EPSILON);
assertEquals(0, noseCone.getForeShoulderThickness(), EPSILON);
assertFalse(noseCone.isForeShoulderCapped());
assertFalse(noseCone.isForeRadiusAutomatic());
}
@Test
public void testFlippedNoseCone() {
NoseCone noseCone = new NoseCone();
// First set the parameters using the normal transition setters (i.e. using AftRadius and AftShoulder instead of Base and Shoulder)
noseCone.setType(Transition.Shape.OGIVE);
noseCone.setLength(0.06);
noseCone.setAftRadius(0.1);
noseCone.setAftShoulderLength(0.01);
noseCone.setAftShoulderRadius(0.05);
noseCone.setAftShoulderCapped(false);
noseCone.setAftShoulderThickness(0.001);
noseCone.setFlipped(true);
assertEquals(Transition.Shape.OGIVE, noseCone.getType());
assertEquals(0.06, noseCone.getLength(), EPSILON);
assertEquals(0.1, noseCone.getForeRadius(), EPSILON);
assertEquals(0.1, noseCone.getBaseRadius(), EPSILON);
assertEquals(0.1, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0.1, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(0.01, noseCone.getForeShoulderLength(), EPSILON);
assertEquals(0.01, noseCone.getShoulderLength(), EPSILON);
assertEquals(0.05, noseCone.getForeShoulderRadius(), EPSILON);
assertEquals(0.05, noseCone.getShoulderRadius(), EPSILON);
assertFalse(noseCone.isForeShoulderCapped());
assertFalse(noseCone.isShoulderCapped());
assertEquals(0.001, noseCone.getForeShoulderThickness(), EPSILON);
assertEquals(0.001, noseCone.getShoulderThickness(), EPSILON);
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(0, noseCone.getAftRadius(), EPSILON);
assertEquals(0, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftShoulderLength(), EPSILON);
assertEquals(0, noseCone.getAftShoulderRadius(), EPSILON);
assertEquals(0, noseCone.getAftShoulderThickness(), EPSILON);
assertFalse(noseCone.isAftShoulderCapped());
assertFalse(noseCone.isAftRadiusAutomatic());
// Test setting the specific nose cone setters
noseCone.setBaseRadius(0.2);
noseCone.setShoulderLength(0.03);
noseCone.setShoulderRadius(0.04);
noseCone.setShoulderCapped(true);
noseCone.setShoulderThickness(0.005);
assertEquals(0.2, noseCone.getForeRadius(), EPSILON);
assertEquals(0.2, noseCone.getBaseRadius(), EPSILON);
assertEquals(0.2, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0.2, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(0.03, noseCone.getForeShoulderLength(), EPSILON);
assertEquals(0.03, noseCone.getShoulderLength(), EPSILON);
assertEquals(0.04, noseCone.getForeShoulderRadius(), EPSILON);
assertEquals(0.04, noseCone.getShoulderRadius(), EPSILON);
assertTrue(noseCone.isForeShoulderCapped());
assertTrue(noseCone.isShoulderCapped());
assertEquals(0.005, noseCone.getForeShoulderThickness(), EPSILON);
assertEquals(0.005, noseCone.getShoulderThickness(), EPSILON);
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(0, noseCone.getAftRadius(), EPSILON);
assertEquals(0, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftShoulderLength(), EPSILON);
assertEquals(0, noseCone.getAftShoulderRadius(), EPSILON);
assertEquals(0, noseCone.getAftShoulderThickness(), EPSILON);
assertFalse(noseCone.isAftShoulderCapped());
assertFalse(noseCone.isAftRadiusAutomatic());
// Flip back to normal
noseCone.setFlipped(false);
assertEquals(0.2, noseCone.getAftRadius(), EPSILON);
assertEquals(0.2, noseCone.getBaseRadius(), EPSILON);
assertEquals(0.2, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0.2, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(0.03, noseCone.getAftShoulderLength(), EPSILON);
assertEquals(0.03, noseCone.getShoulderLength(), EPSILON);
assertEquals(0.04, noseCone.getAftShoulderRadius(), EPSILON);
assertEquals(0.04, noseCone.getShoulderRadius(), EPSILON);
assertTrue(noseCone.isAftShoulderCapped());
assertTrue(noseCone.isShoulderCapped());
assertEquals(0.005, noseCone.getAftShoulderThickness(), EPSILON);
assertEquals(0.005, noseCone.getShoulderThickness(), EPSILON);
assertFalse(noseCone.isAftRadiusAutomatic());
assertEquals(0, noseCone.getForeRadius(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeShoulderLength(), EPSILON);
assertEquals(0, noseCone.getForeShoulderRadius(), EPSILON);
assertEquals(0, noseCone.getForeShoulderThickness(), EPSILON);
assertFalse(noseCone.isForeShoulderCapped());
assertFalse(noseCone.isForeRadiusAutomatic());
}
@Test
public void testNormalNoseConeRadiusAutomatic() {
Rocket rocket = OpenRocketDocumentFactory.createNewRocket().getRocket();
AxialStage stage = rocket.getStage(0);
NoseCone noseCone = new NoseCone(Transition.Shape.CONICAL, 0.06, 0.01);
BodyTube tube1 = new BodyTube(0.06, 0.02);
tube1.setOuterRadiusAutomatic(false);
BodyTube tube2 = new BodyTube(0.06, 0.03);
tube2.setOuterRadiusAutomatic(false);
// Test no previous or next component
stage.addChild(noseCone);
assertFalse(noseCone.usesPreviousCompAutomatic());
assertFalse(noseCone.usesNextCompAutomatic());
assertSame(stage, noseCone.getPreviousComponent());
assertNull(noseCone.getPreviousSymmetricComponent());
assertNull(noseCone.getNextComponent());
assertNull(noseCone.getNextSymmetricComponent());
assertFalse(noseCone.isAftRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getBaseRadius(), noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0.01, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setAftRadiusAutomatic(true, true);
assertFalse(noseCone.isAftRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
noseCone.setForeRadiusAutomatic(true, true);
assertFalse(noseCone.isForeRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
// Test with next component
stage.addChild(tube1);
assertFalse(noseCone.usesPreviousCompAutomatic());
assertFalse(noseCone.usesNextCompAutomatic());
assertSame(stage, noseCone.getPreviousComponent());
assertNull(noseCone.getPreviousSymmetricComponent());
assertSame(tube1, noseCone.getNextComponent());
assertSame(tube1, noseCone.getNextSymmetricComponent());
assertFalse(noseCone.isAftRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getBaseRadius(), noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setAftRadiusAutomatic(true, true);
assertFalse(noseCone.usesPreviousCompAutomatic());
assertTrue(noseCone.usesNextCompAutomatic());
assertSame(stage, noseCone.getPreviousComponent());
assertNull(noseCone.getPreviousSymmetricComponent());
assertSame(tube1, noseCone.getNextComponent());
assertSame(tube1, noseCone.getNextSymmetricComponent());
assertTrue(noseCone.isAftRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(tube1.getForeRadius(), noseCone.getAftRadius(), EPSILON);
assertEquals(0.01, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(tube1.getForeRadius(), noseCone.getBaseRadius(), EPSILON);
assertEquals(0.01, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setAftRadiusAutomatic(false, true);
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getBaseRadius(), noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setBaseRadiusAutomatic(true);
assertEquals(0.01, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(tube1.getForeRadius(), noseCone.getBaseRadius(), EPSILON);
assertEquals(0.01, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setForeRadiusAutomatic(true, true);
assertFalse(noseCone.isForeRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
// Test with previous component
stage.addChild(tube2, 0);
assertFalse(noseCone.usesPreviousCompAutomatic());
assertTrue(noseCone.usesNextCompAutomatic());
assertSame(tube2, noseCone.getPreviousComponent());
assertSame(tube2, noseCone.getPreviousSymmetricComponent());
assertSame(tube1, noseCone.getNextComponent());
assertSame(tube1, noseCone.getNextSymmetricComponent());
assertTrue(noseCone.isAftRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(tube1.getForeRadius(), noseCone.getAftRadius(), EPSILON);
assertEquals(0.01, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(tube1.getForeRadius(), noseCone.getBaseRadius(), EPSILON);
assertEquals(0.01, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getForeRadiusNoAutomatic(), EPSILON);
// Do a flip
noseCone.setFlipped(true);
assertTrue(noseCone.isForeRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isAftRadiusAutomatic());
}
@Test
public void testFlippedNoseConeRadiusAutomatic() {
Rocket rocket = OpenRocketDocumentFactory.createNewRocket().getRocket();
AxialStage stage = rocket.getStage(0);
NoseCone noseCone = new NoseCone(Transition.Shape.CONICAL, 0.06, 0.01);
noseCone.setFlipped(true);
BodyTube tube1 = new BodyTube(0.06, 0.02);
tube1.setOuterRadiusAutomatic(false);
BodyTube tube2 = new BodyTube(0.06, 0.03);
tube2.setOuterRadiusAutomatic(false);
// Test no previous or next component
stage.addChild(noseCone);
assertFalse(noseCone.usesPreviousCompAutomatic());
assertFalse(noseCone.usesNextCompAutomatic());
assertSame(stage, noseCone.getPreviousComponent());
assertNull(noseCone.getPreviousSymmetricComponent());
assertNull(noseCone.getNextComponent());
assertNull(noseCone.getNextSymmetricComponent());
assertFalse(noseCone.isAftRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getBaseRadius(), noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0.01, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setAftRadiusAutomatic(true, true);
assertFalse(noseCone.isAftRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
noseCone.setForeRadiusAutomatic(true, true);
assertFalse(noseCone.isForeRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
// Test with previous component
stage.addChild(tube1, 0);
assertFalse(noseCone.usesPreviousCompAutomatic());
assertFalse(noseCone.usesNextCompAutomatic());
assertSame(tube1, noseCone.getPreviousComponent());
assertSame(tube1, noseCone.getPreviousSymmetricComponent());
assertNull(noseCone.getNextComponent());
assertNull(noseCone.getNextSymmetricComponent());
assertFalse(noseCone.isAftRadiusAutomatic());
assertFalse(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isForeRadiusAutomatic());
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getBaseRadius(), noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftRadiusNoAutomatic(), EPSILON);
noseCone.setBaseRadiusAutomatic(true);
assertTrue(noseCone.usesPreviousCompAutomatic());
assertFalse(noseCone.usesNextCompAutomatic());
assertSame(tube1, noseCone.getPreviousComponent());
assertSame(tube1, noseCone.getPreviousSymmetricComponent());
assertNull(noseCone.getNextComponent());
assertNull(noseCone.getNextSymmetricComponent());
assertFalse(noseCone.isAftRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
assertTrue(noseCone.isForeRadiusAutomatic());
assertEquals(tube1.getAftRadius(), noseCone.getForeRadius(), EPSILON);
assertEquals(0.01, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(tube1.getAftRadius(), noseCone.getBaseRadius(), EPSILON);
assertEquals(0.01, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftRadiusNoAutomatic(), EPSILON);
noseCone.setForeRadiusAutomatic(false, true);
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getBaseRadius(), noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getForeRadius(), noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(0.01, noseCone.getForeRadiusNoAutomatic(), EPSILON);
noseCone.setBaseRadiusAutomatic(true);
assertEquals(tube1.getAftRadius(), noseCone.getForeRadius(), EPSILON);
assertEquals(0.01, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(tube1.getAftRadius(), noseCone.getBaseRadius(), EPSILON);
assertEquals(0.01, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertTrue(noseCone.isForeRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
assertFalse(noseCone.isAftRadiusAutomatic());
// Test with next component
stage.addChild(tube2);
assertTrue(noseCone.usesPreviousCompAutomatic());
assertFalse(noseCone.usesNextCompAutomatic());
assertSame(tube1, noseCone.getPreviousComponent());
assertSame(tube1, noseCone.getPreviousSymmetricComponent());
assertSame(tube2, noseCone.getNextComponent());
assertSame(tube2, noseCone.getNextSymmetricComponent());
assertFalse(noseCone.isAftRadiusAutomatic());
assertTrue(noseCone.isBaseRadiusAutomatic());
assertTrue(noseCone.isForeRadiusAutomatic());
assertEquals(tube1.getAftRadius(), noseCone.getForeRadius(), EPSILON);
assertEquals(0.01, noseCone.getForeRadiusNoAutomatic(), EPSILON);
assertEquals(tube1.getForeRadius(), noseCone.getBaseRadius(), EPSILON);
assertEquals(0.01, noseCone.getBaseRadiusNoAutomatic(), EPSILON);
assertEquals(noseCone.getAftRadius(), noseCone.getAftRadiusNoAutomatic(), EPSILON);
assertEquals(0, noseCone.getAftRadius(), EPSILON);
}
}

1
fileformat.txt
View File

@ -58,6 +58,7 @@ The following file format versions exist:
Added PhotoStudio settings saving (<photostudio>)
Added override CD parameter (<overridecd>)
Added stage activeness remembrance (<stage> under <motorconfiguration>)
Added <isflipped> parameter for Nose Cones
Separated <overridesubcomponents> into individual parameters for mass, CG, and CD.
Rename <fincount> to <instancecount> (<fincount> remains for backward compatibility)
Rename <position> to <axialoffset> (<position> remains for backward compatibility)

BIN
swing/resources/datafiles/examples/A simple model rocket.ork
View File

Binary file not shown.

BIN
swing/resources/datafiles/examples/Boosted Dart.ork
View File

Binary file not shown.

10
swing/src/net/sf/openrocket/database/MotorDatabaseLoader.java
View File

@ -127,8 +127,8 @@ public class MotorDatabaseLoader extends AsynchronousDatabaseLoader {
new Pair<String,InputStream>(
file.getName(),
new BufferedInputStream(new FileInputStream(file))));
} catch (IOException e) {
log.warn("IOException while reading " + file + ": " + e, e);
} catch (Exception e) {
log.warn("Exception while reading " + file + ": " + e, e);
}
}
@ -158,8 +158,8 @@ public class MotorDatabaseLoader extends AsynchronousDatabaseLoader {
dialog.setVisible(true);
}
f.getV().close();
} catch (IOException e) {
log.warn("IOException while loading file " + f.getU() + ": " + e, e);
} catch (Exception e) {
log.warn("Exception while loading file " + f.getU() + ": " + e, e);
try {
f.getV().close();
} catch (IOException e1) {
@ -178,7 +178,7 @@ public class MotorDatabaseLoader extends AsynchronousDatabaseLoader {
FileIterator iterator;
try {
iterator = new DirectoryIterator(file, fileFilter, true);
} catch (IOException e) {
} catch (Exception e) {
log.warn("Unable to read directory " + file + ": " + e, e);
return;
}

68
swing/src/net/sf/openrocket/gui/configdialog/NoseConeConfig.java
View File

@ -3,6 +3,8 @@ package net.sf.openrocket.gui.configdialog;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;
import java.awt.event.ItemEvent;
import java.awt.event.ItemListener;
import javax.swing.JCheckBox;
import javax.swing.JComboBox;
@ -40,7 +42,7 @@ public class NoseConeConfig extends RocketComponentConfig {
private JLabel shapeLabel;
private JSpinner shapeSpinner;
private JSlider shapeSlider;
private final JCheckBox checkAutoAftRadius;
private final JCheckBox checkAutoBaseRadius;
private static final Translator trans = Application.getTranslator();
// Prepended to the description from NoseCone.DESCRIPTIONS
@ -106,21 +108,21 @@ public class NoseConeConfig extends RocketComponentConfig {
panel.add(new JLabel(trans.get("NoseConeCfg.lbl.Basediam")));
final DoubleModel aftRadiusModel = new DoubleModel(component, "AftRadius", 2.0, UnitGroup.UNITS_LENGTH, 0); // Diameter = 2*Radius
final JSpinner radiusSpinner = new JSpinner(aftRadiusModel.getSpinnerModel());
final DoubleModel baseRadius = new DoubleModel(component, "BaseRadius", 2.0, UnitGroup.UNITS_LENGTH, 0); // Diameter = 2*Radius
final JSpinner radiusSpinner = new JSpinner(baseRadius.getSpinnerModel());
radiusSpinner.setEditor(new SpinnerEditor(radiusSpinner));
panel.add(radiusSpinner, "growx");
order.add(((SpinnerEditor) radiusSpinner.getEditor()).getTextField());
panel.add(new UnitSelector(aftRadiusModel), "growx");
panel.add(new BasicSlider(aftRadiusModel.getSliderModel(0, 0.04, 0.2)), "w 100lp, wrap 0px");
panel.add(new UnitSelector(baseRadius), "growx");
panel.add(new BasicSlider(baseRadius.getSliderModel(0, 0.04, 0.2)), "w 100lp, wrap 0px");
checkAutoAftRadius = new JCheckBox(aftRadiusModel.getAutomaticAction());
checkAutoBaseRadius = new JCheckBox(baseRadius.getAutomaticAction());
//// Automatic
checkAutoAftRadius.setText(trans.get("NoseConeCfg.checkbox.Automatic"));
panel.add(checkAutoAftRadius, "skip, span 2, wrap");
order.add(checkAutoAftRadius);
updateCheckboxAutoAftRadius();
checkAutoBaseRadius.setText(trans.get("NoseConeCfg.checkbox.Automatic"));
panel.add(checkAutoBaseRadius, "skip, span 2, wrap");
order.add(checkAutoBaseRadius);
updateCheckboxAutoBaseRadius(((NoseCone) component).isFlipped());
}
{//// Wall thickness:
@ -142,10 +144,24 @@ public class NoseConeConfig extends RocketComponentConfig {
//// Filled
filledCheckbox.setText(trans.get("NoseConeCfg.checkbox.Filled"));
filledCheckbox.setToolTipText(trans.get("NoseConeCfg.checkbox.Filled.ttip"));
panel.add(filledCheckbox, "skip, span 2, wrap");
panel.add(filledCheckbox, "skip, span 2, wrap para");
order.add(filledCheckbox);
}
{//// Flip to tail cone:
final JCheckBox flipCheckbox = new JCheckBox(new BooleanModel(component, "Flipped"));
flipCheckbox.setText(trans.get("NoseConeCfg.checkbox.Flip"));
flipCheckbox.setToolTipText(trans.get("NoseConeCfg.checkbox.Flip.ttip"));
panel.add(flipCheckbox, "spanx, wrap");
order.add(flipCheckbox);
flipCheckbox.addItemListener(new ItemListener() {
@Override
public void itemStateChanged(ItemEvent e) {
updateCheckboxAutoBaseRadius(e.getStateChange() == ItemEvent.SELECTED);
}
});
}
panel.add(new JLabel(""), "growy");
//// Description
@ -189,25 +205,29 @@ public class NoseConeConfig extends RocketComponentConfig {
* Sets the checkAutoAftRadius checkbox's enabled state and tooltip text, based on the state of its next component.
* If there is no next symmetric component or if that component already has its auto checkbox checked, the
* checkAutoAftRadius checkbox is disabled.
*
* @param isFlipped whether the nose cone is flipped
*/
private void updateCheckboxAutoAftRadius() {
if (component == null || checkAutoAftRadius == null) return;
private void updateCheckboxAutoBaseRadius(boolean isFlipped) {
if (component == null || checkAutoBaseRadius == null) return;
// Disable check button if there is no component to get the diameter from
SymmetricComponent nextComp = ((NoseCone) component).getNextSymmetricComponent();
if (nextComp == null) {
checkAutoAftRadius.setEnabled(false);
((NoseCone) component).setAftRadiusAutomatic(false);
checkAutoAftRadius.setToolTipText(trans.get("NoseConeCfg.checkbox.ttip.Automatic_noReferenceComponent"));
NoseCone noseCone = ((NoseCone) component);
SymmetricComponent referenceComp = isFlipped ? noseCone.getPreviousSymmetricComponent() : noseCone.getNextSymmetricComponent();
if (referenceComp == null) {
checkAutoBaseRadius.setEnabled(false);
((NoseCone) component).setBaseRadiusAutomatic(false);
checkAutoBaseRadius.setToolTipText(trans.get("NoseConeCfg.checkbox.ttip.Automatic_noReferenceComponent"));
return;
}
if (!nextComp.usesPreviousCompAutomatic()) {
checkAutoAftRadius.setEnabled(true);
checkAutoAftRadius.setToolTipText(trans.get("NoseConeCfg.checkbox.ttip.Automatic"));
if ((!isFlipped&& !referenceComp.usesPreviousCompAutomatic()) ||
isFlipped && !referenceComp.usesNextCompAutomatic()) {
checkAutoBaseRadius.setEnabled(true);
checkAutoBaseRadius.setToolTipText(trans.get("NoseConeCfg.checkbox.ttip.Automatic"));
} else {
checkAutoAftRadius.setEnabled(false);
((NoseCone) component).setAftRadiusAutomatic(false);
checkAutoAftRadius.setToolTipText(trans.get("NoseConeCfg.checkbox.ttip.Automatic_alreadyAuto"));
checkAutoBaseRadius.setEnabled(false);
((NoseCone) component).setBaseRadiusAutomatic(false);
checkAutoBaseRadius.setToolTipText(trans.get("NoseConeCfg.checkbox.ttip.Automatic_alreadyAuto"));
}
}
}

233
swing/src/net/sf/openrocket/gui/configdialog/RocketComponentConfig.java
View File

@ -613,157 +613,170 @@ public class RocketComponentConfig extends JPanel {
protected JPanel shoulderTab() {
JPanel panel = new JPanel(new MigLayout("fill"));
JPanel sub;
DoubleModel m, m2;
DoubleModel m0 = new DoubleModel(0);
BooleanModel bm;
JCheckBox check;
JSpinner spin;
//// Fore shoulder, not for NoseCone
if (!(component instanceof NoseCone)) {
sub = new JPanel(new MigLayout("gap rel unrel", "[][65lp::][30lp::]", ""));
//// Fore shoulder
sub.setBorder(BorderFactory.createTitledBorder(trans.get("RocketCompCfg.border.Foreshoulder")));
//// Radius
//// Diameter:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Diameter")));
m = new DoubleModel(component, "ForeShoulderRadius", 2, UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, "ForeRadius", 2, UnitGroup.UNITS_LENGTH);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(m0, m2)), "w 100lp, wrap");
//// Length:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Length")));
m = new DoubleModel(component, "ForeShoulderLength", UnitGroup.UNITS_LENGTH, 0);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(0, 0.02, 0.2)), "w 100lp, wrap");
//// Thickness:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Thickness")));
m = new DoubleModel(component, "ForeShoulderThickness", UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, "ForeShoulderRadius", UnitGroup.UNITS_LENGTH);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(m0, m2)), "w 100lp, wrap");
//// Capped
bm = new BooleanModel(component, "ForeShoulderCapped");
check = new JCheckBox(bm);
//// End capped
check.setText(trans.get("RocketCompCfg.checkbox.Endcapped"));
check.setToolTipText(trans.get("RocketCompCfg.checkbox.Endcapped.ttip"));
sub.add(check, "spanx");
order.add(check);
panel.add(sub);
addForeShoulderSection(panel, m0);
}
//// Aft shoulder
addAftShoulderSection(panel, m0);
return panel;
}
private void addForeShoulderSection(JPanel panel, DoubleModel m0) {
DoubleModel m;
JCheckBox check;
JPanel sub;
DoubleModel m2;
JSpinner spin;
BooleanModel bm;
sub = new JPanel(new MigLayout("gap rel unrel", "[][65lp::][30lp::]", ""));
if (component instanceof NoseCone)
//// Nose cone shoulder
sub.setBorder(BorderFactory.createTitledBorder(trans.get("RocketCompCfg.title.Noseconeshoulder")));
else
//// Aft shoulder
sub.setBorder(BorderFactory.createTitledBorder(trans.get("RocketCompCfg.title.Aftshoulder")));
//// Fore shoulder
sub.setBorder(BorderFactory.createTitledBorder(trans.get("RocketCompCfg.border.Foreshoulder")));
//// Radius
//// Diameter:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Diameter")));
m = new DoubleModel(component, "AftShoulderRadius", 2, UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, "AftRadius", 2, UnitGroup.UNITS_LENGTH);
m = new DoubleModel(component, "ForeShoulderRadius", 2, UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, "ForeRadius", 2, UnitGroup.UNITS_LENGTH);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(m0, m2)), "w 100lp, wrap");
//// Length:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Length")));
m = new DoubleModel(component, "AftShoulderLength", UnitGroup.UNITS_LENGTH, 0);
m = new DoubleModel(component, "ForeShoulderLength", UnitGroup.UNITS_LENGTH, 0);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(0, 0.02, 0.2)), "w 100lp, wrap");
//// Thickness:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Thickness")));
m = new DoubleModel(component, "AftShoulderThickness", UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, "AftShoulderRadius", UnitGroup.UNITS_LENGTH);
m = new DoubleModel(component, "ForeShoulderThickness", UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, "ForeShoulderRadius", UnitGroup.UNITS_LENGTH);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(m0, m2)), "w 100lp, wrap");
//// Capped
bm = new BooleanModel(component, "AftShoulderCapped");
bm = new BooleanModel(component, "ForeShoulderCapped");
check = new JCheckBox(bm);
//// End capped
check.setText(trans.get("RocketCompCfg.checkbox.Endcapped"));
check.setToolTipText(trans.get("RocketCompCfg.checkbox.Endcapped.ttip"));
sub.add(check, "spanx");
order.add(check);
panel.add(sub);
return panel;
}
private void addAftShoulderSection(JPanel panel, DoubleModel m0) {
JSpinner spin;
JCheckBox check;
DoubleModel m;
DoubleModel m2;
JPanel sub;
BooleanModel bm;
sub = new JPanel(new MigLayout("gap rel unrel", "[][65lp::][30lp::]", ""));
String valueNameShoulder = "AftShoulder";
String valueNameRadius = "AftRadius";
if (component instanceof NoseCone) {
// Nose cones have a special shoulder method to cope with flipped nose cones
valueNameShoulder = "Shoulder";
valueNameRadius = "BaseRadius";
//// Nose cone shoulder
sub.setBorder(BorderFactory.createTitledBorder(trans.get("RocketCompCfg.title.Noseconeshoulder")));
} else {
//// Aft shoulder
sub.setBorder(BorderFactory.createTitledBorder(trans.get("RocketCompCfg.title.Aftshoulder")));
}
//// Radius
//// Diameter:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Diameter")));
m = new DoubleModel(component, valueNameShoulder+"Radius", 2, UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, valueNameRadius, 2, UnitGroup.UNITS_LENGTH);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(m0, m2)), "w 100lp, wrap");
//// Length:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Length")));
m = new DoubleModel(component, valueNameShoulder+"Length", UnitGroup.UNITS_LENGTH, 0);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(0, 0.02, 0.2)), "w 100lp, wrap");
//// Thickness:
sub.add(new JLabel(trans.get("RocketCompCfg.lbl.Thickness")));
m = new DoubleModel(component, valueNameShoulder+"Thickness", UnitGroup.UNITS_LENGTH, 0);
m2 = new DoubleModel(component, valueNameShoulder+"Radius", UnitGroup.UNITS_LENGTH);
spin = new JSpinner(m.getSpinnerModel());
spin.setEditor(new SpinnerEditor(spin));
sub.add(spin, "growx");
order.add(((SpinnerEditor) spin.getEditor()).getTextField());
sub.add(new UnitSelector(m), "growx");
sub.add(new BasicSlider(m.getSliderModel(m0, m2)), "w 100lp, wrap");
//// Capped
bm = new BooleanModel(component, valueNameShoulder+"Capped");
check = new JCheckBox(bm);
//// End capped
check.setText(trans.get("RocketCompCfg.checkbox.Endcapped"));
check.setToolTipText(trans.get("RocketCompCfg.checkbox.Endcapped.ttip"));
sub.add(check, "spanx");
order.add(check);
panel.add(sub);
}
/*
* Private inner class to handle events in componentNameField.
*/

32
swing/src/net/sf/openrocket/gui/configdialog/TransitionConfig.java
View File

@ -228,18 +228,16 @@ public class TransitionConfig extends RocketComponentConfig {
private void updateCheckboxAutoAftRadius() {
if (component == null || checkAutoAftRadius == null) return;
// Disable check button if there is no component to get the diameter from
SymmetricComponent nextComp = ((Transition) component).getNextSymmetricComponent();
if (nextComp == null) {
Transition transition = (Transition) component;
boolean enabled = transition.canUseNextCompAutomatic();
if (enabled) { // Can use auto radius
checkAutoAftRadius.setEnabled(true);
checkAutoAftRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic"));
} else if (transition.getNextSymmetricComponent() == null) { // No next component to take the auto radius from
checkAutoAftRadius.setEnabled(false);
((Transition) component).setAftRadiusAutomatic(false);
checkAutoAftRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic_noReferenceComponent"));
return;
}
if (!nextComp.usesPreviousCompAutomatic()) {
checkAutoAftRadius.setEnabled(true);
checkAutoAftRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic"));
} else {
} else { // Next component already has its auto radius checked
checkAutoAftRadius.setEnabled(false);
((Transition) component).setAftRadiusAutomatic(false);
checkAutoAftRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic_alreadyAuto"));
@ -254,18 +252,16 @@ public class TransitionConfig extends RocketComponentConfig {
private void updateCheckboxAutoForeRadius() {
if (component == null || checkAutoForeRadius == null) return;
// Disable check button if there is no component to get the diameter from
SymmetricComponent prevComp = ((Transition) component).getPreviousSymmetricComponent();
if (prevComp == null) {
Transition transition = (Transition) component;
boolean enabled = transition.canUsePreviousCompAutomatic();
if (enabled) { // Can use auto radius
checkAutoForeRadius.setEnabled(true);
checkAutoForeRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic"));
} else if (transition.getPreviousSymmetricComponent() == null) { // No next component to take the auto radius from
checkAutoForeRadius.setEnabled(false);
((Transition) component).setForeRadiusAutomatic(false);
checkAutoForeRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic_noReferenceComponent"));
return;
}
if (!prevComp.usesNextCompAutomatic()) {
checkAutoForeRadius.setEnabled(true);
checkAutoForeRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic"));
} else {
} else { // Next component already has its auto radius checked
checkAutoForeRadius.setEnabled(false);
((Transition) component).setForeRadiusAutomatic(false);
checkAutoForeRadius.setToolTipText(trans.get("TransitionCfg.checkbox.ttip.Automatic_alreadyAuto"));

77
swing/src/net/sf/openrocket/gui/dialogs/BugReportDialog.java
View File

@ -27,6 +27,7 @@ import net.miginfocom.swing.MigLayout;
import net.sf.openrocket.gui.components.StyledLabel;
import net.sf.openrocket.gui.components.URLLabel;
import net.sf.openrocket.gui.util.GUIUtil;
import net.sf.openrocket.gui.util.SwingPreferences;
import net.sf.openrocket.l10n.Translator;
import net.sf.openrocket.logging.LogLevelBufferLogger;
import net.sf.openrocket.logging.LogLine;
@ -44,6 +45,7 @@ public class BugReportDialog extends JDialog {
private static final String REPORT_EMAIL_URL = "mailto:" + REPORT_EMAIL;
private static final Translator trans = Application.getTranslator();
private static final SwingPreferences preferences = (SwingPreferences) Application.getPreferences();
public BugReportDialog(Window parent, String labelText, final String message, final boolean sendIfUnchanged) {
@ -108,31 +110,10 @@ public class BugReportDialog extends JDialog {
* @param parent the parent window (may be null).
*/
public static void showBugReportDialog(Window parent) {
StringBuilder sb = new StringBuilder();
sb.append("<html>---------- Bug report ----------\n");
sb.append('\n');
sb.append("<b>Include detailed steps on how to trigger the bug:</b>\n");
sb.append("<i>(You can edit text directly in this window)</i>\n");
sb.append('\n');
sb.append("1. \n");
sb.append("2. \n");
sb.append("3. \n");
sb.append('\n');
sb.append("<b>What does the software do and what in your opinion should it do in the " +
"case described above:</b>\n");
sb.append('\n');
sb.append('\n');
sb.append('\n');
sb.append("Include your email address (optional; it helps if we can " +
"contact you in case we need additional information):\n");
sb.append('\n');
sb.append('\n');
sb.append('\n');
// ---------- Bug report ----------
addBugReportInformation(sb);
sb.append("(Do not modify anything below this line.)\n");
sb.append("---------- System information ----------\n");
@ -157,28 +138,9 @@ public class BugReportDialog extends JDialog {
*/
public static void showExceptionDialog(Window parent, Thread t, Throwable e) {
StringBuilder sb = new StringBuilder();
sb.append("<html>---------- Bug report ----------\n");
sb.append('\n');
sb.append("<b style='color:rgb(210, 20, 5)'>Please include a description about what actions you were " +
"performing when the exception occurred:</b>\n");
sb.append("<i>(You can edit text directly in this window)</i>\n");
sb.append('\n');
sb.append("1. \n");
sb.append("2. \n");
sb.append("3. \n");
sb.append("\n");
sb.append("<b>If possible, please send us the .ork file that caused the bug.</b>\n");
sb.append('\n');
sb.append("Include your email address (optional; it helps if we can " +
"contact you in case we need additional information):\n");
sb.append('\n');
sb.append('\n');
sb.append('\n');
sb.append('\n');
// ---------- Bug report ----------
addBugReportInformation(sb);
sb.append("(Do not modify anything below this line.)\n");
sb.append("---------- Exception stack trace ----------\n");
@ -211,12 +173,37 @@ public class BugReportDialog extends JDialog {
new BugReportDialog(parent, trans.get("bugreport.reportDialog.txt2"), sb.toString(), true);
reportDialog.setVisible(true);
}
private static void addBugReportInformation(StringBuilder sb) {
sb.append("<html>---------- Bug report ----------\n");
sb.append('\n');
sb.append("<b style='color:rgb(210, 20, 5)'>Please include a description about what actions you were " +
"performing when the exception occurred:</b>\n");
sb.append("<i>(You can edit text directly in this window)</i>\n");
sb.append('\n');
sb.append("1. \n");
sb.append("2. \n");
sb.append("3. \n");
sb.append("\n");
sb.append("<b>If possible, please send us the .ork file that caused the bug.</b>\n");
sb.append('\n');
sb.append("Include your email address (optional; it helps if we can " +
"contact you in case we need additional information):\n");
sb.append('\n');
sb.append('\n');
sb.append('\n');
sb.append('\n');
}
private static void addSystemInformation(StringBuilder sb) {
StringBuilder sbTemp = new StringBuilder();
sbTemp.append("OpenRocket version: " + BuildProperties.getVersion() + "\n");
sbTemp.append("OpenRocket source: " + BuildProperties.getBuildSource() + "\n");
sbTemp.append("OpenRocket location: " + JarUtil.getCurrentJarFile() + "\n");
sbTemp.append("User-defined thrust curves location: " + preferences.getUserThrustCurveFilesAsString() + "\n");
sbTemp.append("JOGL version: " + JoglVersion.getInstance().getImplementationVersion() + "\n");
sbTemp.append("Current default locale: " + Locale.getDefault() + "\n");
sbTemp.append("System properties:\n");

12
swing/src/net/sf/openrocket/gui/dialogs/ScaleDialog.java
View File

@ -83,7 +83,7 @@ public class ScaleDialog extends JDialog {
// SymmetricComponent
addScaler(SymmetricComponent.class, "Thickness", "isFilled", SCALERS_NO_OFFSET);
// Transition + Nose cone
// Transition
addScaler(Transition.class, "ForeRadius", "isForeRadiusAutomatic", SCALERS_NO_OFFSET);
addScaler(Transition.class, "AftRadius", "isAftRadiusAutomatic", SCALERS_NO_OFFSET);
addScaler(Transition.class, "ForeShoulderRadius", SCALERS_NO_OFFSET);
@ -92,6 +92,12 @@ public class ScaleDialog extends JDialog {
addScaler(Transition.class, "AftShoulderRadius", SCALERS_NO_OFFSET);
addScaler(Transition.class, "AftShoulderThickness", SCALERS_NO_OFFSET);
addScaler(Transition.class, "AftShoulderLength", SCALERS_NO_OFFSET);
// Nose cone
addScaler(NoseCone.class, "BaseRadius", "isBaseRadiusAutomatic", SCALERS_NO_OFFSET);
addScaler(NoseCone.class, "ShoulderRadius", SCALERS_NO_OFFSET);
addScaler(NoseCone.class, "ShoulderThickness", SCALERS_NO_OFFSET);
addScaler(NoseCone.class, "ShoulderLength", SCALERS_NO_OFFSET);
// Body tube
addScaler(BodyTube.class, "OuterRadius", "isOuterRadiusAutomatic", SCALERS_NO_OFFSET);
@ -559,6 +565,10 @@ public class ScaleDialog extends JDialog {
}
Collections.reverse(classes); // Always do the super component scales first (can cause problems otherwise in the scale order)
for (Class<?> cl : classes) {
// Don't use the super-class methods of transitions for nose cones
if (cl == Transition.class && component instanceof NoseCone) {
continue;
}
List<Scaler> list = SCALERS_NO_OFFSET.get(cl);
if (list != null && list.size() > 0) {
for (Scaler s : list) {

9
swing/src/net/sf/openrocket/gui/dialogs/preferences/GeneralPreferencesPanel.java
View File

@ -86,14 +86,7 @@ public class GeneralPreferencesPanel extends PreferencesPanel {
//// User-defined thrust curves:
this.add(new JLabel(trans.get("pref.dlg.lbl.User-definedthrust")), "spanx, wrap");
final JTextField field = new JTextField();
List<File> files = preferences.getUserThrustCurveFiles();
String str = "";
for (File file : files) {
if (str.length() > 0) {
str += ";";
}
str += file.getAbsolutePath();
}
String str = preferences.getUserThrustCurveFilesAsString();
field.setText(str);
field.getDocument().addDocumentListener(new DocumentListener() {
@Override

4
swing/src/net/sf/openrocket/gui/main/componenttree/ComponentTreeRenderer.java
View File

@ -1,7 +1,9 @@
package net.sf.openrocket.gui.main.componenttree;
import java.awt.Component;
import java.awt.Dimension;
import java.awt.FlowLayout;
import java.awt.Font;
import java.util.List;
import javax.swing.JLabel;
@ -80,6 +82,8 @@ public class ComponentTreeRenderer extends DefaultTreeCellRenderer {
p.setToolTipText(getToolTipSingleComponent(c));
}
Font originalFont = tree.getFont();
p.setFont(originalFont);
comp = p;
}

18
swing/src/net/sf/openrocket/gui/util/SwingPreferences.java
View File

@ -304,6 +304,24 @@ public class SwingPreferences extends net.sf.openrocket.startup.Preferences {
return list;
}
/**
* Returns the files/directories to be loaded as custom thrust curves, formatting as a string. If there are multiple
* locations, they are separated by a semicolon.
*
* @return a list of files to load as thrust curves, formatted as a semicolon separated string.
*/
public String getUserThrustCurveFilesAsString() {
List<File> files = getUserThrustCurveFiles();
StringBuilder sb = new StringBuilder();
for (File file : files) {
if (sb.length() > 0) {
sb.append(";");
}
sb.append(file.getAbsolutePath());
}
return sb.toString();
}
public File getDefaultUserThrustCurveFile() {
File appdir = SystemInfo.getUserApplicationDirectory();