Uses of Class
org.apache.commons.math3.exception.MathArithmeticException

Packages that use MathArithmeticException

Package	Description
org.apache.commons.math3	Common classes used throughout the commons-math library.
org.apache.commons.math3.analysis.differentiation	This package holds the main interfaces and basic building block classes dealing with differentiation.
org.apache.commons.math3.analysis.interpolation	Univariate real functions interpolation algorithms.
org.apache.commons.math3.distribution	Implementations of common discrete and continuous distributions.
org.apache.commons.math3.geometry	This package is the top level package for geometry.
org.apache.commons.math3.geometry.euclidean.oned	This package provides basic 1D geometry components.
org.apache.commons.math3.geometry.euclidean.threed	This package provides basic 3D geometry components.
org.apache.commons.math3.geometry.euclidean.twod	This package provides basic 2D geometry components.
org.apache.commons.math3.geometry.spherical.twod	This package provides basic geometry components on the 2-sphere.
org.apache.commons.math3.linear	Linear algebra support.
org.apache.commons.math3.stat.inference	Classes providing hypothesis testing.
org.apache.commons.math3.util	Convenience routines and common data structures used throughout the commons-math library.

Uses of MathArithmeticException in org.apache.commons.math3

Methods in org.apache.commons.math3 that throw MathArithmeticException

Modifier and Type	Method	Description
T	FieldElement.divide(T a)	Compute this ÷ a.
T	FieldElement.reciprocal()	Returns the multiplicative inverse of this element.

Uses of MathArithmeticException in org.apache.commons.math3.analysis.differentiation

Methods in org.apache.commons.math3.analysis.differentiation that throw MathArithmeticException

Modifier and Type	Method	Description
double	DerivativeStructure.taylor(double... delta)	Evaluate Taylor expansion a derivative structure.
double	DSCompiler.taylor(double[] ds, int dsOffset, double... delta)	Evaluate Taylor expansion of a derivative structure.

Uses of MathArithmeticException in org.apache.commons.math3.analysis.interpolation

Methods in org.apache.commons.math3.analysis.interpolation that throw MathArithmeticException

Modifier and Type	Method	Description
void	FieldHermiteInterpolator.addSamplePoint(T x, T[]... value)	Add a sample point.
void	HermiteInterpolator.addSamplePoint(double x, double[]... value)	Add a sample point.

Uses of MathArithmeticException in org.apache.commons.math3.distribution

Methods in org.apache.commons.math3.distribution that throw MathArithmeticException

Modifier and Type	Method	Description
double	KolmogorovSmirnovDistribution.cdf(double d)	Deprecated. Calculates P(D_n < d) using method described in [1] with quick decisions for extreme values given in [2] (see above).
double	KolmogorovSmirnovDistribution.cdf(double d, boolean exact)	Deprecated. Calculates P(D_n < d) using method described in [1] with quick decisions for extreme values given in [2] (see above).
double	KolmogorovSmirnovDistribution.cdfExact(double d)	Deprecated. Calculates P(D_n < d) using method described in [1] with quick decisions for extreme values given in [2] (see above).
private double	KolmogorovSmirnovDistribution.exactK(double d)	Deprecated. Calculates the exact value of P(D_n < d) using method described in [1] and BigFraction (see above).
private double	KolmogorovSmirnovDistribution.roundedK(double d)	Deprecated. Calculates P(D_n < d) using method described in [1] and doubles (see above).

Constructors in org.apache.commons.math3.distribution that throw MathArithmeticException

Constructor	Description
EnumeratedDistribution(java.util.List<Pair<T,java.lang.Double>> pmf)	Create an enumerated distribution using the given probability mass function enumeration.
EnumeratedDistribution(RandomGenerator rng, java.util.List<Pair<T,java.lang.Double>> pmf)	Create an enumerated distribution using the given random number generator and probability mass function enumeration.
EnumeratedIntegerDistribution(int[] singletons, double[] probabilities)	Create a discrete distribution using the given probability mass function definition.
EnumeratedIntegerDistribution(RandomGenerator rng, int[] singletons, double[] probabilities)	Create a discrete distribution using the given random number generator and probability mass function definition.
EnumeratedRealDistribution(double[] singletons, double[] probabilities)	Create a discrete real-valued distribution using the given probability mass function enumeration.
EnumeratedRealDistribution(RandomGenerator rng, double[] singletons, double[] probabilities)	Create a discrete real-valued distribution using the given random number generator and probability mass function enumeration.

Uses of MathArithmeticException in org.apache.commons.math3.geometry

Methods in org.apache.commons.math3.geometry that throw MathArithmeticException

Modifier and Type	Method	Description
Vector<S>	Vector.normalize()	Get a normalized vector aligned with the instance.

Uses of MathArithmeticException in org.apache.commons.math3.geometry.euclidean.oned

Methods in org.apache.commons.math3.geometry.euclidean.oned that throw MathArithmeticException

Modifier and Type	Method	Description
Vector1D	Vector1D.normalize()	Get a normalized vector aligned with the instance.

Uses of MathArithmeticException in org.apache.commons.math3.geometry.euclidean.threed

Methods in org.apache.commons.math3.geometry.euclidean.threed that throw MathArithmeticException

Modifier and Type	Method	Description
static <T extends RealFieldElement<T>> T	FieldVector3D.angle(FieldVector3D<T> v1, FieldVector3D<T> v2)	Compute the angular separation between two vectors.
static <T extends RealFieldElement<T>> T	FieldVector3D.angle(FieldVector3D<T> v1, Vector3D v2)	Compute the angular separation between two vectors.
static <T extends RealFieldElement<T>> T	FieldVector3D.angle(Vector3D v1, FieldVector3D<T> v2)	Compute the angular separation between two vectors.
static double	Vector3D.angle(Vector3D v1, Vector3D v2)	Compute the angular separation between two vectors.
FieldVector3D<T>	FieldVector3D.normalize()	Get a normalized vector aligned with the instance.
Vector3D	Vector3D.normalize()	Get a normalized vector aligned with the instance.
FieldVector3D<T>	FieldVector3D.orthogonal()	Get a vector orthogonal to the instance.
Vector3D	Vector3D.orthogonal()	Get a vector orthogonal to the instance.
void	Plane.reset(Vector3D p, Vector3D normal)	Reset the instance as if built from a point and a normal.
private void	Plane.setNormal(Vector3D normal)	Set the normal vactor.

Constructors in org.apache.commons.math3.geometry.euclidean.threed that throw MathArithmeticException

Constructor	Description
FieldRotation(FieldVector3D<T> u, FieldVector3D<T> v)	Build one of the rotations that transform one vector into another one.
FieldRotation(FieldVector3D<T> u1, FieldVector3D<T> u2, FieldVector3D<T> v1, FieldVector3D<T> v2)	Build the rotation that transforms a pair of vectors into another pair.
Plane(Vector3D normal)	Deprecated. as of 3.3, replaced with Plane(Vector3D, double)
Plane(Vector3D normal, double tolerance)	Build a plane normal to a given direction and containing the origin.
Plane(Vector3D p, Vector3D normal)	Deprecated. as of 3.3, replaced with Plane(Vector3D, Vector3D, double)
Plane(Vector3D p, Vector3D normal, double tolerance)	Build a plane from a point and a normal.
Plane(Vector3D p1, Vector3D p2, Vector3D p3)	Deprecated. as of 3.3, replaced with Plane(Vector3D, Vector3D, Vector3D, double)
Plane(Vector3D p1, Vector3D p2, Vector3D p3, double tolerance)	Build a plane from three points.
Rotation(Vector3D u, Vector3D v)	Build one of the rotations that transform one vector into another one.
Rotation(Vector3D u1, Vector3D u2, Vector3D v1, Vector3D v2)	Build the rotation that transforms a pair of vectors into another pair.

Uses of MathArithmeticException in org.apache.commons.math3.geometry.euclidean.twod

Methods in org.apache.commons.math3.geometry.euclidean.twod that throw MathArithmeticException

Modifier and Type	Method	Description
static double	Vector2D.angle(Vector2D v1, Vector2D v2)	Compute the angular separation between two vectors.
Vector2D	Vector2D.normalize()	Get a normalized vector aligned with the instance.

Uses of MathArithmeticException in org.apache.commons.math3.geometry.spherical.twod

Constructors in org.apache.commons.math3.geometry.spherical.twod that throw MathArithmeticException

Constructor	Description
S2Point(Vector3D vector)	Simple constructor.

Uses of MathArithmeticException in org.apache.commons.math3.linear

Methods in org.apache.commons.math3.linear that throw MathArithmeticException

Modifier and Type	Method	Description
double	RealVector.cosine(RealVector v)	Computes the cosine of the angle between this vector and the argument.
ArrayFieldVector<T>	ArrayFieldVector.ebeDivide(ArrayFieldVector<T> v)	Element-by-element division.
FieldVector<T>	ArrayFieldVector.ebeDivide(FieldVector<T> v)	Element-by-element division.
FieldVector<T>	FieldVector.ebeDivide(FieldVector<T> v)	Element-by-element division.
FieldVector<T>	SparseFieldVector.ebeDivide(FieldVector<T> v)	Element-by-element division.
private void	EigenDecomposition.findEigenVectorsFromSchur(SchurTransformer schur)	Find eigenvectors from a matrix transformed to Schur form.
FieldVector<T>	ArrayFieldVector.mapDivide(T d)	Map a division operation to each entry.
FieldVector<T>	FieldVector.mapDivide(T d)	Map a division operation to each entry.
FieldVector<T>	SparseFieldVector.mapDivide(T d)	Map a division operation to each entry.
FieldVector<T>	ArrayFieldVector.mapDivideToSelf(T d)	Map a division operation to each entry.
FieldVector<T>	FieldVector.mapDivideToSelf(T d)	Map a division operation to each entry.
FieldVector<T>	SparseFieldVector.mapDivideToSelf(T d)	Map a division operation to each entry.
FieldVector<T>	ArrayFieldVector.mapInv()	Map the 1/x function to each entry.
FieldVector<T>	FieldVector.mapInv()	Map the 1/x function to each entry.
FieldVector<T>	SparseFieldVector.mapInv()	Map the 1/x function to each entry.
FieldVector<T>	ArrayFieldVector.mapInvToSelf()	Map the 1/x function to each entry.
FieldVector<T>	FieldVector.mapInvToSelf()	Map the 1/x function to each entry.
FieldVector<T>	SparseFieldVector.mapInvToSelf()	Map the 1/x function to each entry.
ArrayFieldVector<T>	ArrayFieldVector.projection(ArrayFieldVector<T> v)	Find the orthogonal projection of this vector onto another vector.
FieldVector<T>	ArrayFieldVector.projection(FieldVector<T> v)	Find the orthogonal projection of this vector onto another vector.
FieldVector<T>	FieldVector.projection(FieldVector<T> v)	Find the orthogonal projection of this vector onto another vector.
RealVector	RealVector.projection(RealVector v)	Find the orthogonal projection of this vector onto another vector.
FieldVector<T>	SparseFieldVector.projection(FieldVector<T> v)	Find the orthogonal projection of this vector onto another vector.
static void	MatrixUtils.solveLowerTriangularSystem(RealMatrix rm, RealVector b)	Solve a system of composed of a Lower Triangular Matrix RealMatrix.
static void	MatrixUtils.solveUpperTriangularSystem(RealMatrix rm, RealVector b)	Solver a system composed of an Upper Triangular Matrix RealMatrix.
void	OpenMapRealVector.unitize()	Converts this vector into a unit vector.
void	RealVector.unitize()	Converts this vector into a unit vector.
OpenMapRealVector	OpenMapRealVector.unitVector()	Creates a unit vector pointing in the direction of this vector.
RealVector	RealVector.unitVector()	Creates a unit vector pointing in the direction of this vector.

Constructors in org.apache.commons.math3.linear that throw MathArithmeticException

Constructor	Description
EigenDecomposition(RealMatrix matrix)	Calculates the eigen decomposition of the given real matrix.
EigenDecomposition(RealMatrix matrix, double splitTolerance)	Deprecated. in 3.1 (to be removed in 4.0) due to unused parameter

Uses of MathArithmeticException in org.apache.commons.math3.stat.inference

Methods in org.apache.commons.math3.stat.inference that throw MathArithmeticException

Modifier and Type	Method	Description
double	KolmogorovSmirnovTest.cdf(double d, int n)	Calculates \(P(D_n < d)\) using the method described in [1] with quick decisions for extreme values given in [2] (see above).
double	KolmogorovSmirnovTest.cdf(double d, int n, boolean exact)	Calculates P(D_n < d) using method described in [1] with quick decisions for extreme values given in [2] (see above).
double	KolmogorovSmirnovTest.cdfExact(double d, int n)	Calculates P(D_n < d).
private double	KolmogorovSmirnovTest.exactK(double d, int n)	Calculates the exact value of P(D_n < d) using the method described in [1] (reference in class javadoc above) and BigFraction (see above).

Uses of MathArithmeticException in org.apache.commons.math3.util

Methods in org.apache.commons.math3.util that throw MathArithmeticException

Modifier and Type	Method	Description
static int	ArithmeticUtils.addAndCheck(int x, int y)	Add two integers, checking for overflow.
static long	ArithmeticUtils.addAndCheck(long a, long b)	Add two long integers, checking for overflow.
private static long	ArithmeticUtils.addAndCheck(long a, long b, Localizable pattern)	Add two long integers, checking for overflow.
static int	FastMath.addExact(int a, int b)	Add two numbers, detecting overflows.
static long	FastMath.addExact(long a, long b)	Add two numbers, detecting overflows.
static long	ArithmeticUtils.binomialCoefficient(int n, int k)	Deprecated. use CombinatoricsUtils.binomialCoefficient(int, int)
static long	CombinatoricsUtils.binomialCoefficient(int n, int k)	Returns an exact representation of the Binomial Coefficient, "n choose k", the number of k-element subsets that can be selected from an n-element set.
static double	ArithmeticUtils.binomialCoefficientDouble(int n, int k)	Deprecated. use CombinatoricsUtils.binomialCoefficientDouble(int, int)
static double	CombinatoricsUtils.binomialCoefficientDouble(int n, int k)	Returns a double representation of the Binomial Coefficient, "n choose k", the number of k-element subsets that can be selected from an n-element set.
static double	ArithmeticUtils.binomialCoefficientLog(int n, int k)	Deprecated. use CombinatoricsUtils.binomialCoefficientLog(int, int)
static double	CombinatoricsUtils.binomialCoefficientLog(int n, int k)	Returns the natural log of the Binomial Coefficient, "n choose k", the number of k-element subsets that can be selected from an n-element set.
static byte	MathUtils.copySign(byte magnitude, byte sign)	Returns the first argument with the sign of the second argument.
static int	MathUtils.copySign(int magnitude, int sign)	Returns the first argument with the sign of the second argument.
static long	MathUtils.copySign(long magnitude, long sign)	Returns the first argument with the sign of the second argument.
static short	MathUtils.copySign(short magnitude, short sign)	Returns the first argument with the sign of the second argument.
static int	FastMath.decrementExact(int n)	Decrement a number, detecting overflows.
static long	FastMath.decrementExact(long n)	Decrement a number, detecting overflows.
BigReal	BigReal.divide(BigReal a)	Compute this ÷ a.
static long	ArithmeticUtils.factorial(int n)	Deprecated. use CombinatoricsUtils.factorial(int)
static long	CombinatoricsUtils.factorial(int n)	Returns n!.
static int	FastMath.floorDiv(int a, int b)	Finds q such that a = q b + r with 0 <= r < b if b > 0 and b < r <= 0 if b < 0.
static long	FastMath.floorDiv(long a, long b)	Finds q such that a = q b + r with 0 <= r < b if b > 0 and b < r <= 0 if b < 0.
static int	FastMath.floorMod(int a, int b)	Finds r such that a = q b + r with 0 <= r < b if b > 0 and b < r <= 0 if b < 0.
static int	ArithmeticUtils.gcd(int p, int q)	Computes the greatest common divisor of the absolute value of two numbers, using a modified version of the "binary gcd" method.
static long	ArithmeticUtils.gcd(long p, long q)	Gets the greatest common divisor of the absolute value of two numbers, using the "binary gcd" method which avoids division and modulo operations.
static int	FastMath.incrementExact(int n)	Increment a number, detecting overflows.
static long	FastMath.incrementExact(long n)	Increment a number, detecting overflows.
static int	ArithmeticUtils.lcm(int a, int b)	Returns the least common multiple of the absolute value of two numbers, using the formula lcm(a,b) = (a / gcd(a,b)) * b.
static long	ArithmeticUtils.lcm(long a, long b)	Returns the least common multiple of the absolute value of two numbers, using the formula lcm(a,b) = (a / gcd(a,b)) * b.
static int	ArithmeticUtils.mulAndCheck(int x, int y)	Multiply two integers, checking for overflow.
static long	ArithmeticUtils.mulAndCheck(long a, long b)	Multiply two long integers, checking for overflow.
static double[]	MathArrays.normalizeArray(double[] values, double normalizedSum)	Normalizes an array to make it sum to a specified value.
static int	ArithmeticUtils.pow(int k, int e)	Raise an int to an int power.
static long	ArithmeticUtils.pow(long k, int e)	Raise a long to an int power.
BigReal	BigReal.reciprocal()	Returns the multiplicative inverse of this element.
static float	Precision.round(float x, int scale, int roundingMethod)	Rounds the given value to the specified number of decimal places.
private static double	Precision.roundUnscaled(double unscaled, double sign, int roundingMethod)	Rounds the given non-negative value to the "nearest" integer.
static long	ArithmeticUtils.stirlingS2(int n, int k)	Deprecated. use CombinatoricsUtils.stirlingS2(int, int)
static long	CombinatoricsUtils.stirlingS2(int n, int k)	Returns the Stirling number of the second kind, "S(n,k)", the number of ways of partitioning an n-element set into k non-empty subsets.
static int	ArithmeticUtils.subAndCheck(int x, int y)	Subtract two integers, checking for overflow.
static long	ArithmeticUtils.subAndCheck(long a, long b)	Subtract two long integers, checking for overflow.
static int	FastMath.toIntExact(long n)	Convert a long to interger, detecting overflows