Uses of Class
org.mariuszgromada.math.mxparser.Expression
Packages that use Expression
Package
Description
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Uses of Expression in org.mariuszgromada.math.mxparser
Methods in org.mariuszgromada.math.mxparser that return ExpressionModifier and TypeMethodDescriptionprotected ExpressionExpression.clone()Expression cloning.Expression.cloneForThreadSafe()Creates a completely independent 1-1 clone that can be safely used by a separate thread.Methods in org.mariuszgromada.math.mxparser with parameters of type ExpressionModifier and TypeMethodDescriptionstatic doublemXparser.getFunctionValue(Expression f, Argument x, double x0) Deprecated.static double[]mXparser.getFunctionValues(Expression f, Argument index, double from, double to, double delta) Deprecated.Planned to be removed, useMathFunctions.getFunctionValues(Expression, Argument, double, double, double)instead -
Uses of Expression in org.mariuszgromada.math.mxparser.mathcollection
Methods in org.mariuszgromada.math.mxparser.mathcollection with parameters of type ExpressionModifier and TypeMethodDescriptionstatic doubleStatistics.avg(Expression f, Argument index, double from, double to, double delta) Average from sample function values - iterative operator.static doubleCalculus.backwardDifference(Expression f, double h, Argument x) Backward difference(h) operator (at the current value of the argument x)static doubleCalculus.backwardDifference(Expression f, double h, Argument x, double x0) Backward difference(h) operator (at x = x0)static doubleCalculus.backwardDifference(Expression f, Argument x) Backward difference(1) operator (at current value of argument x)static doubleCalculus.backwardDifference(Expression f, Argument x, double x0) Backward difference(1) operator (at x = x0).static doubleCalculus.derivative(Expression f, Argument x, double x0, int derType, double eps, int maxSteps) Numerical derivative at x = x0static doubleCalculus.derivativeNth(Expression f, double n, Argument x, double x0, int derType, double eps, int maxSteps) Numerical n-th derivative at x = x0 (you should avoid calculation of derivatives with order higher than 2).static doubleCalculus.forwardDifference(Expression f, double h, Argument x) Forward difference(h) operator (at the current value of the argument x)static doubleCalculus.forwardDifference(Expression f, double h, Argument x, double x0) Forward difference(h) operator (at x = x0)static doubleCalculus.forwardDifference(Expression f, Argument x) Forward difference(1) operator (at current value of argument x)static doubleCalculus.forwardDifference(Expression f, Argument x, double x0) Forward difference(1) operator (at x = x0)static doubleMathFunctions.getFunctionValue(Expression f, Argument x, double x0) Calculates function f(x0) (given as expression) assigning Argument x = x0;static double[]MathFunctions.getFunctionValues(Expression f, Argument index, double from, double to, double delta) Returns array of double values of the function f(i) calculated on the range: i = from to i = to by step = deltastatic doubleCalculus.integralTrapezoid(Expression f, Argument x, double a, double b, double eps, int maxSteps) Trapezoid numerical integrationstatic doubleNumberTheory.max(Expression f, Argument index, double from, double to, double delta) Maximum value - iterative operator.static doubleNumberTheory.min(Expression f, Argument index, double from, double to, double delta) Minimum value - iterative operator.static doubleNumberTheory.piProduct(Expression f, Argument index, double from, double to, double delta) Product operatorstatic doubleNumberTheory.sigmaSummation(Expression f, Argument index, double from, double to, double delta) Summation operator (SIGMA FROM i = a, to b, f(i) by deltastatic doubleCalculus.solveBrent(Expression f, Argument x, double a, double b, double eps, double maxSteps) Brent solver (Brent root finder)static doubleStatistics.std(Expression f, Argument index, double from, double to, double delta) Bias-corrected standard deviation from sample function values - iterative operator.static doubleStatistics.var(Expression f, Argument index, double from, double to, double delta) Bias-corrected variance from sample function values - iterative operator.
MathFunctions.getFunctionValue(Expression, Argument, double)instead