/** * Configure the delta parameter. * * @param config Parameter source */ protected void configLambda(Parameterization config) { IntParameter lambdaP = new IntParameter(LAMBDA_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(lambdaP)) { settings.lambda = lambdaP.intValue(); } }
/** * Configure the delta parameter. * * @param config Parameter source */ protected void configLambda(Parameterization config) { IntParameter lambdaP = new IntParameter(LAMBDA_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(lambdaP)) { settings.lambda = lambdaP.intValue(); } }
/** * Configure the delta parameter. * * @param config Parameter source */ protected void configLambda(Parameterization config) { IntParameter lambdaP = new IntParameter(LAMBDA_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(lambdaP)) { settings.lambda = lambdaP.intValue(); } }
/** * Configure the delta parameter. * * @param config Parameter source */ protected void configLambda(Parameterization config) { IntParameter lambdaP = new IntParameter(LAMBDA_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(lambdaP)) { settings.lambda = lambdaP.intValue(); } }
/** * Configure the delta parameter. * * @param config Parameter source */ protected void configLambda(Parameterization config) { IntParameter lambdaP = new IntParameter(LAMBDA_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(lambdaP)) { settings.lambda = lambdaP.intValue(); } }
/** * Configure the delta parameter. * * @param config Parameter source */ protected void configLambda(Parameterization config) { IntParameter lambdaP = new IntParameter(LAMBDA_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(lambdaP)) { settings.lambda = lambdaP.intValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); IntParameter dimP = new IntParameter(DIM_P)// .setOptional(true)// .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT); dim = config.grab(dimP) ? dimP.intValue() : -1; }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); IntParameter dimP = new IntParameter(DIM_P)// .setOptional(true)// .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT); dim = config.grab(dimP) ? dimP.intValue() : -1; }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); IntParameter dimP = new IntParameter(DIM_P)// .setOptional(true)// .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT); dim = config.grab(dimP) ? dimP.intValue() : -1; }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); PatternParameter positiveClassNameP = new PatternParameter(POSITIVE_CLASS_NAME_ID); if(config.grab(positiveClassNameP)) { positiveClassName = positiveClassNameP.getValue(); } IntParameter maxkP = new IntParameter(MAX_K_ID) // .setOptional(true); if(config.grab(maxkP)) { maxk = maxkP.getValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); PatternParameter positiveClassNameP = new PatternParameter(POSITIVE_CLASS_NAME_ID); if(config.grab(positiveClassNameP)) { positiveClassName = positiveClassNameP.getValue(); } IntParameter maxkP = new IntParameter(MAX_K_ID) // .setOptional(true); if(config.grab(maxkP)) { maxk = maxkP.getValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); PatternParameter positiveClassNameP = new PatternParameter(POSITIVE_CLASS_NAME_ID); if(config.grab(positiveClassNameP)) { positiveClassName = positiveClassNameP.getValue(); } IntParameter maxkP = new IntParameter(MAX_K_ID); maxkP.setOptional(true); if(config.grab(maxkP)) { maxk = maxkP.getValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); final DoubleParameter alphaP = new DoubleParameter(HiSC.Parameterizer.ALPHA_ID, HiSC.Parameterizer.DEFAULT_ALPHA) // .addConstraint(CommonConstraints.GREATER_THAN_ZERO_DOUBLE) // .addConstraint(CommonConstraints.LESS_THAN_ONE_DOUBLE); if(config.grab(alphaP)) { alpha = alphaP.doubleValue(); } final IntParameter kP = new IntParameter(HiSC.Parameterizer.K_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(kP)) { k = kP.intValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); final DoubleParameter alphaP = new DoubleParameter(ALPHA_ID, DEFAULT_ALPHA); alphaP.addConstraint(CommonConstraints.GREATER_THAN_ZERO_DOUBLE); alphaP.addConstraint(CommonConstraints.LESS_THAN_ONE_DOUBLE); if(config.grab(alphaP)) { alpha = alphaP.doubleValue(); } final IntParameter kP = new IntParameter(K_ID); kP.addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT); kP.setOptional(true); if(config.grab(kP)) { k = kP.intValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); final DoubleParameter alphaP = new DoubleParameter(HiSC.Parameterizer.ALPHA_ID, HiSC.Parameterizer.DEFAULT_ALPHA) // .addConstraint(CommonConstraints.GREATER_THAN_ZERO_DOUBLE) // .addConstraint(CommonConstraints.LESS_THAN_ONE_DOUBLE); if(config.grab(alphaP)) { alpha = alphaP.doubleValue(); } final IntParameter kP = new IntParameter(HiSC.Parameterizer.K_ID) // .addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT) // .setOptional(true); if(config.grab(kP)) { k = kP.intValue(); } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); ObjectParameter<Uncertainifier<?>> innerP = new ObjectParameter<>(INNER_ID, Uncertainifier.class); if(config.grab(innerP)) { inner = innerP.instantiateClass(config); if(inner instanceof AbstractDiscreteUncertainifier) { LoggingUtil.warning("Using a discrete uncertainifier inside a discrete uncertainifier is likely a configuration error, and is likely to produce too many duplicate points. Did you mean to use a uniform or gaussian distribution instead?"); } } IntParameter pmultMax = new IntParameter(MULT_MAX_ID, DEFAULT_SAMPLE_SIZE); if(config.grab(pmultMax)) { maxQuant = pmultMax.intValue(); } IntParameter pmultMin = new IntParameter(MULT_MIN_ID) // .setOptional(true); minQuant = config.grab(pmultMin) ? pmultMin.intValue() : maxQuant; } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); ObjectParameter<Uncertainifier<?>> innerP = new ObjectParameter<>(INNER_ID, Uncertainifier.class); if(config.grab(innerP)) { inner = innerP.instantiateClass(config); if(inner instanceof AbstractDiscreteUncertainifier) { LoggingUtil.warning("Using a discrete uncertainifier inside a discrete uncertainifier is likely a configuration error, and is likely to produce too many duplicate points. Did you mean to use a uniform or gaussian distribution instead?"); } } IntParameter pmultMax = new IntParameter(MULT_MAX_ID, DEFAULT_SAMPLE_SIZE); if(config.grab(pmultMax)) { maxQuant = pmultMax.intValue(); } IntParameter pmultMin = new IntParameter(MULT_MIN_ID) // .setOptional(true); minQuant = config.grab(pmultMin) ? pmultMin.intValue() : maxQuant; } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); ObjectParameter<Uncertainifier<?>> innerP = new ObjectParameter<>(INNER_ID, Uncertainifier.class); if(config.grab(innerP)) { inner = innerP.instantiateClass(config); if(inner instanceof AbstractDiscreteUncertainifier) { LoggingUtil.warning("Using a discrete uncertainifier inside a discrete uncertainifier is likely a configuration error, and is likely to produce too many duplicate points. Did you mean to use a uniform or gaussian distribution instead?"); } } IntParameter pmultMax = new IntParameter(MULT_MAX_ID, DEFAULT_SAMPLE_SIZE); if(config.grab(pmultMax)) { maxQuant = pmultMax.intValue(); } IntParameter pmultMin = new IntParameter(MULT_MIN_ID) // .setOptional(true); minQuant = config.grab(pmultMin) ? pmultMin.intValue() : maxQuant; } }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); IntParameter outputAccuracyP = new IntParameter(OUTPUT_ACCURACY_ID, 4); outputAccuracyP.addConstraint(CommonConstraints.GREATER_EQUAL_ZERO_INT); if(config.grab(outputAccuracyP)) { outputAccuracy = outputAccuracyP.getValue(); } IntParameter sampleSizeP = new IntParameter(SAMPLE_SIZE_ID); sampleSizeP.setOptional(true); sampleSizeP.addConstraint(CommonConstraints.GREATER_EQUAL_ONE_INT); if(config.grab(sampleSizeP)) { sampleSize = sampleSizeP.getValue(); } Flag randomSampleF = new Flag(DEPENDENCY_DERIVATOR_RANDOM_SAMPLE); if(config.grab(randomSampleF)) { randomSample = randomSampleF.getValue(); } Class<PCAFilteredRunner> cls = ClassGenericsUtil.uglyCastIntoSubclass(PCAFilteredRunner.class); pca = config.tryInstantiate(cls); }
@Override protected void makeOptions(Parameterization config) { super.makeOptions(config); out = super.getParameterOutputFile(config, "Output image file name."); IntParameter stepsP = new IntParameter(STEPS_ID) // .setOptional(true); if(config.grab(stepsP)) { steps = stepsP.intValue(); } IntParameter resolutionP = new IntParameter(RESOLUTION_ID, 2000); if(config.grab(resolutionP)) { resolution = resolutionP.intValue(); } EnumParameter<Mode> modeP = new EnumParameter<>(MODE_ID, Mode.class, Mode.XTD); if(config.grab(modeP)) { mode = modeP.getValue(); } ObjectParameter<EarthModel> modelP = new ObjectParameter<>(EarthModel.MODEL_ID, EarthModel.class, SphericalVincentyEarthModel.class); if(config.grab(modelP)) { model = modelP.instantiateClass(config); } }