Uses of Interface
cern.colt.function.DoubleFunction
Packages that use DoubleFunction
Package
Description
Automatically growing and shrinking maps holding objects or primitive
data types such as int, double, etc.
Matrix interfaces and factories; efficient and flexible dense and sparse
1, 2, 3 and d-dimensional matrices holding objects or primitive data types such
as int, double, etc; Templated, fixed sized (not dynamically
resizable); Also known as multi-dimensional arrays or Data Cubes.
Matrix implementations; You normally need not look at this package, because all concrete classes implement the abstract interfaces of
cern.colt.matrix, without subsetting or supersetting.Linear Algebraic matrix computations operating on
DoubleMatrix2D
and DoubleMatrix1D.Tools for basic and advanced mathematics: Arithmetics and Algebra, Polynomials and Chebyshev series, Bessel and Airy functions,
Function Objects for generic function evaluation, etc.
Large variety of probability distributions featuring high performance generation
of random numbers, CDF's and PDF's.
Engines generating strong uniformly distributed pseudo-random numbers;
Needed by all JET probability distributions since they rely on uniform random numbers to generate random numbers from their own distribution.
Multisets (bags) with efficient statistics operations defined upon; This package
requires the Colt distribution.
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Uses of DoubleFunction in cern.colt.map
Methods in cern.colt.map with parameters of type DoubleFunctionModifier and TypeMethodDescriptionvoidAbstractIntDoubleMap.assign(DoubleFunction function) Assigns the result of a function to each value; v[i] = function(v[i]).voidOpenIntDoubleHashMap.assign(DoubleFunction function) Assigns the result of a function to each value; v[i] = function(v[i]). -
Uses of DoubleFunction in cern.colt.matrix
Methods in cern.colt.matrix with parameters of type DoubleFunctionModifier and TypeMethodDescriptiondoubleDoubleMatrix1D.aggregate(DoubleDoubleFunction aggr, DoubleFunction f) Applies a function to each cell and aggregates the results.doubleDoubleMatrix2D.aggregate(DoubleDoubleFunction aggr, DoubleFunction f) Applies a function to each cell and aggregates the results.doubleDoubleMatrix3D.aggregate(DoubleDoubleFunction aggr, DoubleFunction f) Applies a function to each cell and aggregates the results.DoubleMatrix1D.assign(DoubleFunction function) Assigns the result of a function to each cell; x[i] = function(x[i]).DoubleMatrix2D.assign(DoubleFunction function) Assigns the result of a function to each cell; x[row,col] = function(x[row,col]).DoubleMatrix3D.assign(DoubleFunction function) Assigns the result of a function to each cell; x[slice,row,col] = function(x[slice,row,col]). -
Uses of DoubleFunction in cern.colt.matrix.impl
Methods in cern.colt.matrix.impl with parameters of type DoubleFunctionModifier and TypeMethodDescriptionDenseDoubleMatrix1D.assign(DoubleFunction function) Assigns the result of a function to each cell; x[i] = function(x[i]).DenseDoubleMatrix2D.assign(DoubleFunction function) Assigns the result of a function to each cell; x[row,col] = function(x[row,col]).RCDoubleMatrix2D.assign(DoubleFunction function) SparseDoubleMatrix2D.assign(DoubleFunction function) Assigns the result of a function to each cell; x[row,col] = function(x[row,col]).TridiagonalDoubleMatrix2D.assign(DoubleFunction function) -
Uses of DoubleFunction in cern.colt.matrix.linalg
Methods in cern.colt.matrix.linalg with parameters of type DoubleFunctionModifier and TypeMethodDescriptionvoidBlas.assign(DoubleMatrix2D A, DoubleFunction function) Assigns the result of a function to each cell; x[row,col] = function(x[row,col]).voidSeqBlas.assign(DoubleMatrix2D A, DoubleFunction function) voidSmpBlas.assign(DoubleMatrix2D A, DoubleFunction function) -
Uses of DoubleFunction in cern.jet.math
Classes in cern.jet.math that implement DoubleFunctionModifier and TypeClassDescriptionfinal classOnly for performance tuning of compute intensive linear algebraic computations.Fields in cern.jet.math declared as DoubleFunctionModifier and TypeFieldDescriptionstatic final DoubleFunctionFunctions.absFunction that returns Math.abs(a).static final DoubleFunctionFunctions.acosFunction that returns Math.acos(a).static final DoubleFunctionFunctions.asinFunction that returns Math.asin(a).static final DoubleFunctionFunctions.atanFunction that returns Math.atan(a).static final DoubleFunctionFunctions.ceilFunction that returns Math.ceil(a).static final DoubleFunctionFunctions.cosFunction that returns Math.cos(a).static final DoubleFunctionFunctions.expFunction that returns Math.exp(a).static final DoubleFunctionFunctions.floorFunction that returns Math.floor(a).static final DoubleFunctionFunctions.identityFunction that returns its argument.static final DoubleFunctionFunctions.invFunction that returns 1.0 / a.static final DoubleFunctionFunctions.logFunction that returns Math.log(a).static final DoubleFunctionFunctions.log2Function that returns Math.log(a) / Math.log(2).static final DoubleFunctionFunctions.negFunction that returns -a.static final DoubleFunctionFunctions.rintFunction that returns Math.rint(a).static final DoubleFunctionFunctions.signFunction that returns a invalid input: '<' 0 ? -1 : a > 0 ? 1 : 0.static final DoubleFunctionFunctions.sinFunction that returns Math.sin(a).static final DoubleFunctionFunctions.sqrtFunction that returns Math.sqrt(a).static final DoubleFunctionFunctions.squareFunction that returns a * a.static final DoubleFunctionFunctions.tanFunction that returns Math.tan(a).Methods in cern.jet.math that return DoubleFunctionModifier and TypeMethodDescriptionstatic DoubleFunctionFunctions.between(double from, double to) Constructs a function that returns (frominvalid input: '<'=a invalid input: '&'invalid input: '&' ainvalid input: '<'=to) ? 1 : 0.static DoubleFunctionFunctions.bindArg1(DoubleDoubleFunction function, double c) Constructs a unary function from a binary function with the first operand (argument) fixed to the given constant c.static DoubleFunctionFunctions.bindArg2(DoubleDoubleFunction function, double c) Constructs a unary function from a binary function with the second operand (argument) fixed to the given constant c.static DoubleFunctionFunctions.chain(DoubleFunction g, DoubleFunction h) Constructs the function g( h(a) ).static DoubleFunctionFunctions.compare(double b) Constructs a function that returns a invalid input: '<' b ? -1 : a > b ? 1 : 0.static DoubleFunctionFunctions.constant(double c) Constructs a function that returns the constant c.static DoubleFunctionFunctions.div(double b) Constructs a function that returns a / b.static DoubleFunctionFunctions.equals(double b) Constructs a function that returns a == b ? 1 : 0.static DoubleFunctionFunctions.greater(double b) Constructs a function that returns a > b ? 1 : 0.static DoubleFunctionFunctions.IEEEremainder(double b) Constructs a function that returns Math.IEEEremainder(a,b).static DoubleFunctionFunctions.less(double b) Constructs a function that returns a invalid input: '<' b ? 1 : 0.static DoubleFunctionFunctions.lg(double b) Constructs a function that returns Math.log(a) / Math.log(b).static DoubleFunctionFunctions.max(double b) Constructs a function that returns Math.max(a,b).static DoubleFunctionFunctions.min(double b) Constructs a function that returns Math.min(a,b).static DoubleFunctionFunctions.minus(double b) Constructs a function that returns a - b.static DoubleFunctionFunctions.mod(double b) Constructs a function that returns a % b.static DoubleFunctionFunctions.mult(double b) Constructs a function that returns a * b.static DoubleFunctionFunctions.plus(double b) Constructs a function that returns a + b.static DoubleFunctionFunctions.pow(double b) Constructs a function that returns Math.pow(a,b).static DoubleFunctionFunctions.random()Constructs a function that returns a new uniform random number in the open unit interval(0.0,1.0)(excluding 0.0 and 1.0).static DoubleFunctionFunctions.round(double precision) Constructs a function that returns the number rounded to the given precision; Math.rint(a/precision)*precision.Methods in cern.jet.math with parameters of type DoubleFunctionModifier and TypeMethodDescriptionstatic DoubleDoubleFunctionFunctions.chain(DoubleDoubleFunction f, DoubleFunction g, DoubleFunction h) Constructs the function f( g(a), h(b) ).static DoubleDoubleFunctionFunctions.chain(DoubleFunction g, DoubleDoubleFunction h) Constructs the function g( h(a,b) ).static DoubleFunctionFunctions.chain(DoubleFunction g, DoubleFunction h) Constructs the function g( h(a) ). -
Uses of DoubleFunction in cern.jet.random
Classes in cern.jet.random that implement DoubleFunctionModifier and TypeClassDescriptionclassAbstract base class for all continous distributions.classAbstract base class for all discrete distributions.classAbstract base class for all random distributions.classBeta distribution; math definition and animated definition.classBinomial distribution; See the math definition and animated definition.classBreitWigner (aka Lorentz) distribution; See the math definition.classMean-square BreitWigner distribution; See the math definition.classChiSquare distribution; See the math definition and animated definition.classEmpirical distribution.classDiscrete Empirical distribution (pdf's can be specified).classExponential Distribution (aka Negative Exponential Distribution); See the math definition animated definition.classExponential Power distribution.classclassHyperbolic distribution.classHyperGeometric distribution; See the math definition The hypergeometric distribution with parameters N, n and s is the probability distribution of the random variable X, whose value is the number of successes in a sample of n items from a population of size N that has s 'success' items and N - s 'failure' items.classLogarithmic distribution.classNegative Binomial distribution; See the math definition.classNormal (aka Gaussian) distribution; See the math definition and animated definition.classPoisson distribution (quick); See the math definition and animated definition.classPoisson distribution; See the math definition and animated definition.classStudentT distribution (aka T-distribution); See the math definition and animated definition.classUniform distribution; Math definition and animated definition.classVon Mises distribution.classZeta distribution. -
Uses of DoubleFunction in cern.jet.random.engine
Classes in cern.jet.random.engine that implement DoubleFunctionModifier and TypeClassDescriptionclassQuick medium quality uniform pseudo-random number generator.classMersenneTwister (MT19937) is one of the strongest uniform pseudo-random number generators known so far; at the same time it is quick.classSame as MersenneTwister except that method raw() returns 64 bit random numbers instead of 32 bit random numbers.classAbstract base class for uniform pseudo-random number generating engines. -
Uses of DoubleFunction in hep.aida.bin
Methods in hep.aida.bin with parameters of type DoubleFunctionModifier and TypeMethodDescriptiondoubleDynamicBin1D.aggregate(DoubleDoubleFunction aggr, DoubleFunction f) Applies a function to each element and aggregates the results.