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Colt 1.2.0 | ||||||||||
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| Packages that use DoubleFunction | |
| cern.colt.map | Automatically growing and shrinking maps holding objects or primitive data types such as int, double, etc. |
| cern.colt.matrix | 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. |
| cern.colt.matrix.impl | 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. |
| cern.colt.matrix.linalg | Linear Algebraic matrix computations operating on DoubleMatrix2D
and DoubleMatrix1D. |
| cern.jet.math | Tools for basic and advanced mathematics: Arithmetics and Algebra, Polynomials and Chebyshev series, Bessel and Airy functions, Function Objects for generic function evaluation, etc. |
| cern.jet.random | Large variety of probability distributions featuring high performance generation of random numbers, CDF's and PDF's. |
| cern.jet.random.engine | 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. |
| hep.aida.bin | Multisets (bags) with efficient statistics operations defined upon; This package requires the Colt distribution. |
| Uses of DoubleFunction in cern.colt.map |
| Methods in cern.colt.map with parameters of type DoubleFunction | |
void |
OpenIntDoubleHashMap.assign(DoubleFunction function)
Assigns the result of a function to each value; v[i] = function(v[i]). |
void |
AbstractIntDoubleMap.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 DoubleFunction | |
double |
DoubleMatrix3D.aggregate(DoubleDoubleFunction aggr,
DoubleFunction f)
Applies a function to each cell and aggregates the results. |
DoubleMatrix3D |
DoubleMatrix3D.assign(DoubleFunction function)
Assigns the result of a function to each cell; x[slice,row,col] = function(x[slice,row,col]). |
double |
DoubleMatrix2D.aggregate(DoubleDoubleFunction aggr,
DoubleFunction f)
Applies a function to each cell and aggregates the results. |
DoubleMatrix2D |
DoubleMatrix2D.assign(DoubleFunction function)
Assigns the result of a function to each cell; x[row,col] = function(x[row,col]). |
double |
DoubleMatrix1D.aggregate(DoubleDoubleFunction aggr,
DoubleFunction f)
Applies a function to each cell and aggregates the results. |
DoubleMatrix1D |
DoubleMatrix1D.assign(DoubleFunction function)
Assigns the result of a function to each cell; x[i] = function(x[i]). |
| Uses of DoubleFunction in cern.colt.matrix.impl |
| Methods in cern.colt.matrix.impl with parameters of type DoubleFunction | |
DoubleMatrix2D |
SparseDoubleMatrix2D.assign(DoubleFunction function)
Assigns the result of a function to each cell; x[row,col] = function(x[row,col]). |
DoubleMatrix2D |
RCDoubleMatrix2D.assign(DoubleFunction function)
|
DoubleMatrix2D |
DenseDoubleMatrix2D.assign(DoubleFunction function)
Assigns the result of a function to each cell; x[row,col] = function(x[row,col]). |
DoubleMatrix1D |
DenseDoubleMatrix1D.assign(DoubleFunction function)
Assigns the result of a function to each cell; x[i] = function(x[i]). |
| Uses of DoubleFunction in cern.colt.matrix.linalg |
| Methods in cern.colt.matrix.linalg with parameters of type DoubleFunction | |
void |
SmpBlas.assign(DoubleMatrix2D A,
DoubleFunction function)
|
void |
SeqBlas.assign(DoubleMatrix2D A,
DoubleFunction function)
|
void |
Blas.assign(DoubleMatrix2D A,
DoubleFunction function)
Assigns the result of a function to each cell; x[row,col] = function(x[row,col]). |
| Uses of DoubleFunction in cern.jet.math |
| Classes in cern.jet.math that implement DoubleFunction | |
class |
Mult
Only for performance tuning of compute intensive linear algebraic computations. |
| Fields in cern.jet.math declared as DoubleFunction | |
static DoubleFunction |
Functions.abs
Function that returns Math.abs(a). |
static DoubleFunction |
Functions.acos
Function that returns Math.acos(a). |
static DoubleFunction |
Functions.asin
Function that returns Math.asin(a). |
static DoubleFunction |
Functions.atan
Function that returns Math.atan(a). |
static DoubleFunction |
Functions.ceil
Function that returns Math.ceil(a). |
static DoubleFunction |
Functions.cos
Function that returns Math.cos(a). |
static DoubleFunction |
Functions.exp
Function that returns Math.exp(a). |
static DoubleFunction |
Functions.floor
Function that returns Math.floor(a). |
static DoubleFunction |
Functions.identity
Function that returns its argument. |
static DoubleFunction |
Functions.inv
Function that returns 1.0 / a. |
static DoubleFunction |
Functions.log
Function that returns Math.log(a). |
static DoubleFunction |
Functions.log2
Function that returns Math.log(a) / Math.log(2). |
static DoubleFunction |
Functions.neg
Function that returns -a. |
static DoubleFunction |
Functions.rint
Function that returns Math.rint(a). |
static DoubleFunction |
Functions.sign
Function that returns a < 0 ? -1 : a > 0 ? 1 : 0. |
static DoubleFunction |
Functions.sin
Function that returns Math.sin(a). |
static DoubleFunction |
Functions.sqrt
Function that returns Math.sqrt(a). |
static DoubleFunction |
Functions.square
Function that returns a * a. |
static DoubleFunction |
Functions.tan
Function that returns Math.tan(a). |
| Methods in cern.jet.math that return DoubleFunction | |
static DoubleFunction |
Functions.between(double from,
double to)
Constructs a function that returns (from<=a && a<=to) ? 1 : 0. |
static DoubleFunction |
Functions.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 DoubleFunction |
Functions.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 DoubleFunction |
Functions.chain(DoubleFunction g,
DoubleFunction h)
Constructs the function g( h(a) ). |
static DoubleFunction |
Functions.compare(double b)
Constructs a function that returns a < b ? -1 : a > b ? 1 : 0. |
static DoubleFunction |
Functions.constant(double c)
Constructs a function that returns the constant c. |
static DoubleFunction |
Functions.div(double b)
Constructs a function that returns a / b. |
static DoubleFunction |
Functions.equals(double b)
Constructs a function that returns a == b ? 1 : 0. |
static DoubleFunction |
Functions.greater(double b)
Constructs a function that returns a > b ? 1 : 0. |
static DoubleFunction |
Functions.IEEEremainder(double b)
Constructs a function that returns Math.IEEEremainder(a,b). |
static DoubleFunction |
Functions.less(double b)
Constructs a function that returns a < b ? 1 : 0. |
static DoubleFunction |
Functions.lg(double b)
Constructs a function that returns Math.log(a) / Math.log(b). |
static DoubleFunction |
Functions.max(double b)
Constructs a function that returns Math.max(a,b). |
static DoubleFunction |
Functions.min(double b)
Constructs a function that returns Math.min(a,b). |
static DoubleFunction |
Functions.minus(double b)
Constructs a function that returns a - b. |
static DoubleFunction |
Functions.mod(double b)
Constructs a function that returns a % b. |
static DoubleFunction |
Functions.mult(double b)
Constructs a function that returns a * b. |
static DoubleFunction |
Functions.plus(double b)
Constructs a function that returns a + b. |
static DoubleFunction |
Functions.pow(double b)
Constructs a function that returns Math.pow(a,b). |
static DoubleFunction |
Functions.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 DoubleFunction |
Functions.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 DoubleFunction | |
static DoubleDoubleFunction |
Functions.chain(DoubleDoubleFunction f,
DoubleFunction g,
DoubleFunction h)
Constructs the function f( g(a), h(b) ). |
static DoubleDoubleFunction |
Functions.chain(DoubleFunction g,
DoubleDoubleFunction h)
Constructs the function g( h(a,b) ). |
static DoubleFunction |
Functions.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 DoubleFunction | |
class |
AbstractContinousDistribution
Abstract base class for all continous distributions. |
class |
AbstractDiscreteDistribution
Abstract base class for all discrete distributions. |
class |
AbstractDistribution
Abstract base class for all random distributions. |
class |
Beta
Beta distribution; math definition and animated definition. |
class |
Binomial
Binomial distribution; See the math definition and animated definition. |
class |
BreitWigner
BreitWigner (aka Lorentz) distribution; See the math definition. |
class |
BreitWignerMeanSquare
Mean-square BreitWigner distribution; See the math definition. |
class |
ChiSquare
ChiSquare distribution; See the math definition and animated definition. |
class |
Empirical
Empirical distribution. |
class |
EmpiricalWalker
Discrete Empirical distribution (pdf's can be specified). |
class |
Exponential
Exponential Distribution (aka Negative Exponential Distribution); See the math definition animated definition. |
class |
ExponentialPower
Exponential Power distribution. |
class |
Gamma
Gamma distribution; math definition, definition of gamma function and animated definition. |
class |
Hyperbolic
Hyperbolic distribution. |
class |
HyperGeometric
HyperGeometric 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. |
class |
Logarithmic
Logarithmic distribution. |
class |
NegativeBinomial
Negative Binomial distribution; See the math definition. |
class |
Normal
Normal (aka Gaussian) distribution; See the math definition and animated definition. |
class |
Poisson
Poisson distribution (quick); See the math definition and animated definition. |
class |
PoissonSlow
Poisson distribution; See the math definition and animated definition. |
class |
StudentT
StudentT distribution (aka T-distribution); See the math definition and animated definition. |
class |
Uniform
Uniform distribution; Math definition and animated definition. |
class |
VonMises
Von Mises distribution. |
class |
Zeta
Zeta distribution. |
| Uses of DoubleFunction in cern.jet.random.engine |
| Classes in cern.jet.random.engine that implement DoubleFunction | |
class |
DRand
Quick medium quality uniform pseudo-random number generator. |
class |
MersenneTwister
MersenneTwister (MT19937) is one of the strongest uniform pseudo-random number generators known so far; at the same time it is quick. |
class |
MersenneTwister64
Same as MersenneTwister except that method raw() returns 64 bit random numbers instead of 32 bit random numbers. |
class |
RandomEngine
Abstract 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 DoubleFunction | |
double |
DynamicBin1D.aggregate(DoubleDoubleFunction aggr,
DoubleFunction f)
Applies a function to each element and aggregates the results. |
|
Colt 1.2.0 | ||||||||||
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