mml

Class Continuous

java.lang.Object

la.la.Value

la.la.Function

la.la.Function.Native

mml.UPModel

mml.ByPdf

mml.Continuous

All Implemented Interfaces:

java.lang.Comparable<Value>

Direct Known Subclasses:

BetaUPM, Continuous.Bounded, Continuous.M.Transform, Continuous.Transform, ExponentialUPM, GammaUPM, HeavyTail.Over_x1, LaplaceUPM, NearInverse, NormalUPM

public abstract class Continuous
extends ByPdf

Continuous may be used to define (UnParameterised) Models over Cts Values by specifying a (-log) probability density function, Continuous.M.nlPdf_x(double), on a Value's 'x()'. The fully parameterised Models are Continuous.M.

Nested Class Summary

Nested Classes

Modifier and Type	Class and Description
static class	Continuous.Bounded UnParameterised Bounded Continuous Models, over a range, [lwb, upb], of Cts Values.
class	Continuous.M The (abstract) class of fully parameterised Continuous Models.
class	Continuous.Transform A transformed UnParameterised Continuous model; the parameterised Model is Continuous.Transform.M.
static class	Continuous.Uniform The UnParameterised Uniform Continuous Model on the range [lwb, upb].

Nested classes/interfaces inherited from class mml.UPModel

UPModel.Est

Nested classes/interfaces inherited from class la.la.Function.Native

Function.Native.WithInverse

Nested classes/interfaces inherited from class la.la.Function

Function.Cts2Cts, Function.Cts2Cts2Cts, Function.CtsD2CtsD, Function.HasInverse, Function.Native, Function.Native2, Function.Native3

Nested classes/interfaces inherited from class la.la.Value

Value.Atomic, Value.Bool, Value.Char, Value.Chars, Value.Cts, Value.Defer, Value.Discrete, Value.Enum, Value.Inc_Or, Value.Int, Value.Lambda, Value.List, Value.Maybe, Value.Option, Value.Real, Value.Scannable, Value.Structured, Value.Triv, Value.Tuple

Field Summary

Fields inherited from class mml.UPModel

dp

Fields inherited from class la.la.Value

C, comparator, CR, E, eight, ffalse, five, fiveR, four, fourR, half, negCR, negOne, negOneR, negTenR, nilVal, nine, None, one, oneR, PI, PIby2, point01, point1, point5, point9, quarter, seven, six, ten, tenR, three, threeR, triv, ttrue, two, twoR, zero, zeroR

Constructor Summary

Constructors

Constructor and Description
Continuous(Value dp)

Method Summary

Modifier and Type	Method and Description
abstract Continuous.M	sp2Model(double msg1, double msg2, Value sp) Given two-part message lengths msg1 & msg2, and statistical parameter sp, return a fully parameterised M-Model.
Continuous	transform(Function.Cts2Cts f) This transform(f) is like UPModel.transform(f) except that, instead of "just" returning a UPModel, this transform returns a (UnParameterised) Continuous (actually a Continuous.Transform). Also see the related but different Continuous.M.transform(f).

Methods inherited from class mml.UPModel

apply, defnParams, estimator, main, stats, stats, stats, stats, toString, transform

Methods inherited from class la.la.Function

bOp, fromBop, fromUop, type, uOp

Methods inherited from class la.la.Value

AoM, bOp, compareTo, cons, cts, elt, errMsg, error, force, isTuple, just, n, nElts, nlAoM, pair, print, quad, real, RTE, triple, tuple, UOE, x

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Constructor Detail

Continuous

public Continuous(Value dp)

Method Detail

sp2Model

public abstract Continuous.M sp2Model(double msg1,
                                      double msg2,
                                      Value sp)

Description copied from class: UPModel

Given two-part message lengths msg1 & msg2, and statistical parameter sp, return a fully parameterised M-Model. If 'this' UPModel produces a Model m, then sp2Model(m.msg1(), m.msg2(), m.statParams()) must be equivalent to m. Also see apply(sp).

Specified by:

sp2Model in class UPModel

transform

public Continuous transform(Function.Cts2Cts f)

This transform(f) is like UPModel.transform(f) except that, instead of "just" returning a UPModel, this transform returns a (UnParameterised) Continuous (actually a Continuous.Transform).
Also see the related but different Continuous.M.transform(f).