Uses of Class
com.irurueta.numerical.NotAvailableException
Packages that use NotAvailableException
Package
Description
This library contains packages for:
This package contains classes to find function roots.
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Uses of NotAvailableException in com.irurueta.numerical
Methods in com.irurueta.numerical that throw NotAvailableExceptionModifier and TypeMethodDescriptiondouble[]MaximumLikelihoodEstimator.getInputData()Returns array containing input data to be used to find the most likely value.doubleMaximumLikelihoodEstimator.getMaxValue()Returns maximum value found on provided input data array.doubleMaximumLikelihoodEstimator.getMinValue()Returns minimum value found on provided input data array. -
Uses of NotAvailableException in com.irurueta.numerical.optimization
Methods in com.irurueta.numerical.optimization that throw NotAvailableExceptionModifier and TypeMethodDescriptionDerivativeBrentSingleOptimizer.getDerivativeListener()Returns derivative listener to get function derivative.double[]DerivativeLineMultiOptimizer.getDirection()Returns direction to start looking for a minimum.double[]LineMultiOptimizer.getDirection()Returns direction to start looking for a minimum.com.irurueta.algebra.MatrixPowellMultiOptimizer.getDirections()Returns set of directions to start looking for a minimum.doubleBracketedSingleOptimizer.getEvaluationAtMax()Returns single dimension function evaluation at provided or computed maximum evaluation point where the bracket finishes.doubleBracketedSingleOptimizer.getEvaluationAtMiddle()Returns single dimension function evaluation at provided or computed middle evaluation point within the bracket.doubleBracketedSingleOptimizer.getEvaluationAtMin()Returns single dimension function evaluation at provided or computed minimum evaluation point where the bracket starts.doubleMultiOptimizer.getEvaluationAtResult()Returns function evaluation at estimated minimum point.doubleSingleOptimizer.getEvaluationAtResult()Returns function evaluation at minimum that has been found.double[]SimplexMultiOptimizer.getEvaluationsAtSimplex()Returns function evaluations at simplex points or vertices.ConjugateGradientMultiOptimizer.getGradientListener()Returns gradient listener in charge of obtaining gradient values for the function to be evaluated.DerivativeLineMultiOptimizer.getGradientListener()Returns gradient listener.QuasiNewtonMultiOptimizer.getGradientListener()Returns gradient listener in charge of obtaining gradient values for the function to be evaluated.MultiOptimizer.getListener()Returns listener to evaluate a multidimensional functionSingleOptimizer.getListener()Returns listener to evaluate a single dimension function.doubleBracketedSingleOptimizer.getMaxEvaluationPoint()Returns maximum evaluation point whether the bracket finishes.doubleBracketedSingleOptimizer.getMiddleEvaluationPoint()Returns middle evaluation point within the bracket.doubleBracketedSingleOptimizer.getMinEvaluationPoint()Returns minimum evaluation point where the bracket startsdouble[]MultiOptimizer.getResult()Returns minimum point that was found.doubleSingleOptimizer.getResult()Returns value of the minimum that has been found.com.irurueta.algebra.MatrixSimplexMultiOptimizer.getSimplex()Returns current simplex.double[]DerivativeLineMultiOptimizer.getStartPoint()Returns start point where algorithm will be started.double[]LineMultiOptimizer.getStartPoint()Returns start point where algorithm will be started.double[]QuasiNewtonMultiOptimizer.getStartPoint()Returns start point where algorithm will be started. -
Uses of NotAvailableException in com.irurueta.numerical.roots
Methods in com.irurueta.numerical.roots that throw NotAvailableExceptionModifier and TypeMethodDescriptionDerivativeSingleRootEstimator.getDerivativeListener()Returns derivative listener to evaluate a function's derivative.SingleRootEstimator.getListener()Returns listener that evaluates a single dimension function in order to find its root.doubleBracketedSingleRootEstimator.getMaxEvaluationPoint()Returns largest value inside the bracket of values where the root will be searched.doubleBracketedSingleRootEstimator.getMinEvaluationPoint()Returns smallest value inside the bracket of values where the root will be searched.com.irurueta.algebra.Complex[]FirstDegreePolynomialRootsEstimator.getPolynomialParameters()This method will always raise a NotAvailableException because this class only supports REAL polynomial parameters.com.irurueta.algebra.Complex[]PolynomialRootsEstimator.getPolynomialParameters()Returns array containing polynomial parameters.com.irurueta.algebra.Complex[]SecondDegreePolynomialRootsEstimator.getPolynomialParameters()This method will always raise a NotAvailableException because this class only supports REAL polynomial parameterscom.irurueta.algebra.Complex[]ThirdDegreePolynomialRootsEstimator.getPolynomialParameters()This method will always raise a NotAvailableException because this class only supports REAL polynomial parameters.double[]FirstDegreePolynomialRootsEstimator.getRealPolynomialParameters()Returns array of first degree polynomial parameters.double[]SecondDegreePolynomialRootsEstimator.getRealPolynomialParameters()Returns array of second degree polynomial parameters.double[]ThirdDegreePolynomialRootsEstimator.getRealPolynomialParameters()Returns array of third degree polynomial parameters.doubleSingleRootEstimator.getRoot()Returns estimated root for a single dimension function inside a given bracket of values.com.irurueta.algebra.Complex[]PolynomialRootsEstimator.getRoots()Returns array of estimated polynomial roots.