- Rocket total mass is split into 'dryMass' and 'propellantMass'
-- each mass type has a corresponding calculation method in MassCalculator
- Calculating Inertias and Center-of-Mass FOR MOTORS assume:
- time-invariant x-coordinate
- time-decreasing density
- mass correctly tracks propellant usage, as measured by thrustCurves
- elimated MassCalcType enum: was not actually solving a problem.
- simply use motorTime: 0 for launch Double.MAX_VALUE for burnout
- NO_MOTORS is represented by a configuration without attached motors
-- try: "rocket.setSelectedConfiguration( rocket.getEmptyConfiguration())"
- 'dry mass' vs 'total mass': 90% of the time, a caller wanted 'total mass'
- total_mass = dry_mass + propellant_mass
- mass @ simulation time wasn't represented by the enum, had existing overloads anyway
- get vs calculate methods:
-- gets revalidate the cache, then retreive specific information
-- calculate simple calculate the desired information, and ignore the cache.
--- I'm particularly confident about cache reliability:
particularly as it doesn't account for changing time during simulation.
- reduced / simplified debugging messages
- Cleaned up the ThrustCurveMotor api interface
-- Converted 'getTimePoints().length' -> 'getSampleSize()'
-- Unified ThrustCurveMotor gets to the form getXXXX(double motorTime)
-- Restricted access for several methods from public -> protected
- Updated ThrustCurveMotorTest.java
- Fixed translation messages
- FlightConfiguration, MotorConfiguration
- correctly display under debug & production
- Fixed exception throw when adding empty-MotorConfiguration to a FlightConfig
- adjusted some type cast warnings
- Added 'ignore if new==current' paths in rocket configuration functions
-- These if paths break potential infinite loops
- added update code for the main-window selected configuration dropdown
-- now updates when the currently-selected configuration is removed.
- adjusted some class member names to be more descriptive
- When a component lacks an entry for the currently selected FC
-- Code would sometimes fail to create a new motor entry
- removing a flight configuration from a rocket
-- removes all component configurations tied to that configuration Id
- Pulled JComboBoxModel<FlightConfiguration> into its own class: ConfigurationModel
-- removed Rocket.toConfigArray() --> getFlightConfigurationByIndex(int,bool)
-Refactored document.getDefaultConfiguration -> getSelected...
-- because that's what it does. Default is a different thing.
-minor: minor spelling errors and unused fields/functions
- the selected configuration in a rocket is now specified by id instead of instance
- tighted up Configuration UI behavior - operations should now start from selected configuration row
- Rocket.getSelectedConfiguration will now create a new
configuration if only the default config exists
-- added additional unit tests for this behavior in: FLightConfigurationTest
- added test for saving ver 1.08 files to OpenRocketSaverTest
- Converted : "private static final long serialVersionUID ..." declarations to:
"@SuppressWarnings("serial")"
- cleaned up some other random errors:
-- tightened excessive permission modifiers -- public ->
-- change some methods from 'public' to '/*package-local*/'
-Changed default Motor Ignition event to AUTOMATIC
-enabled swing-test path under intellij
-fixed some simple compile errors in swing/test ... IntegrationTest
- added MotorConfiguration constructor which takes a template
-- this allows copy-constructing from the default
-- removed 'name' field: instead, call 'to?Description()'
- condensed & refactored a few debug methods.
- Fixed bugs in the simulation event handling:
-- removed extraneous BURNOUT checks
-- added MotorClusterState.burnOut(..) update calls on BURNOUT event
-- added MotorClusterState.expend(..) update calls on EJECTION_CHARGE event
- MotorInstanceId -> MotorConfigurationId (to reflect actual usage)
-- removed name field (unnecessary)
- changed FlightConfiguration behavior to cache ALL motors, and return active motors as requested
-- updated corresponding active-motor-list updating through to the simulation layers
- *Adjusted event handling in BasicEventSimulationEngine*
-- combined redundant event-handling for IGNITION FlightEvent
-- adjusted parameters for throwing IGNITION FlightEvents
- Added validation method internal to FlightEvent class.
-- documents assumptions about classes are expected for what types of flight events.
- renamed MotorState -> MotorSimulation -> MotorClusterState
- renamed MotorState enums -> ThrustState
- Adjusted MotorConfigurations to be init-linked to a mount, and FCID
-- these are final member fields, and required for construction. And immutable.
- moved IgnitionEvent to motor package
- Adjusted MotorInstanceId to represent a motorCluster key
-- wraps a UUID, and uniquely keyed to its: mount, FCID
- fixed AxialStage methods isLaunchStage() and getPreviousStage()
- added methods to MotorMount interface to reduce extraneous, always-true casts
- various miscellaneous fixes to reflect method changes
- various test fixes
-- added test to verify 'getPreviousStage()' method
- Created MotorState as an enum describing discrete states a motor may be in
- moved ThrustCurveMotorState info back into MotorSimulation
-- MotorSimulation will be used by the simulation code.
-- tracks simulation-time info, such as event times, and current state ( <MotorState> )
- MotorConfiguration no longer have any knowledge about their simulation info
- moved functionality (BUT NOT STATE) into ThrustCurveMotor
-- can query about thrust(t), mass(t), cgx(t)
- Fixed Bug in MassCalculator
-- demonstrated by MassCalculatorTest.testBoosterTotalCM() et al.
-- errors: 1) under-counts instanced children
2) erroneously required component have children before instancing mass
-- N.B. This method is ripe for refactoring, to make it MUCH cleaner....
- Updated numbers on MassCalculator Unit Tests
- Added Test for motor configuration multiplicity (FlightConfigurationTest)
