inst/models/passing/dependentConstraintTest.R

In OpenMx/OpenMx: Extended Structural Equation Modelling

#
#   Copyright 2007-2020 by the individuals mentioned in the source code history
#
#   Licensed under the Apache License, Version 2.0 (the "License");
#   you may not use this file except in compliance with the License.
#   You may obtain a copy of the License at
#
#        http://www.apache.org/licenses/LICENSE-2.0
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#   distributed under the License is distributed on an "AS IS" BASIS,
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library(OpenMx)
library(testthat)

if(TRUE){
	m1 <- mxModel(
		"MultinomialWithLinearConstraints",
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pred",name="Pred",lbound=0,ubound=1),
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pyellow",name="Pyellow",lbound=0,ubound=1),
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pgreen",name="Pgreen",lbound=0,ubound=1),
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pblue",name="Pblue",lbound=0,ubound=1),
		mxAlgebra( -2*(43*log(Pred) + 22*log(Pyellow) + 20*log(Pgreen) + 15*log(Pblue)), name="fitfunc"),
		mxAlgebra( cbind(-2*43/Pred,-2*22/Pyellow,-2*20/Pgreen,-2*15/Pblue), name="objgrad",
							 dimnames=list(NULL,c("pred","pyellow","pgreen","pblue"))),
		mxFitFunctionAlgebra(algebra="fitfunc",gradient="objgrad",numObs=100),
		mxCI(c("pred","pyellow","pgreen","pblue")),
		mxConstraint(Pred + Pyellow + Pgreen + Pblue - 1 == 0,name="indentifying"),
		mxConstraint(2*(Pred + Pyellow + Pgreen + Pblue) - 2 == 0,name="indentifying2")
	)
	m1run <- mxRun(m1)
	summary(m1run)
	omxCheckCloseEnough(coef(m1run),c(0.43,0.22,0.2,0.15),1e-7)
}

if(mxOption(NULL,"Default optimizer")=="SLSQP"){
	plan <- omxDefaultComputePlan()
	plan$steps <- list(GD=plan$steps$GD)
	plan$steps$GD <- mxComputeNelderMead(nudgeZeroStarts=FALSE, eqConstraintMthd="GDsearch")

	m1 <- mxModel(
		"MultinomialWithLinearConstraints",
		plan,
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pred",name="Pred",lbound=0,ubound=1),
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pyellow",name="Pyellow",lbound=0,ubound=1),
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pgreen",name="Pgreen",lbound=0,ubound=1),
		mxMatrix(type="Full",nrow=1,ncol=1,free=T,values=0.25,labels="pblue",name="Pblue",lbound=0,ubound=1),
		mxAlgebra( -2*(43*log(Pred) + 22*log(Pyellow) + 20*log(Pgreen) + 15*log(Pblue)), name="fitfunc"),
		mxAlgebra( cbind(-2*43/Pred,-2*22/Pyellow,-2*20/Pgreen,-2*15/Pblue), name="objgrad",
							 dimnames=list(NULL,c("pred","pyellow","pgreen","pblue"))),
		mxFitFunctionAlgebra(algebra="fitfunc",gradient="objgrad",numObs=100),
		mxCI(c("pred","pyellow","pgreen","pblue")),
		mxMatrix(type="Unit",nrow=1,ncol=4,dimnames=list(NULL,c("pred","pyellow","pgreen","pblue")),name="jac"),
		mxAlgebra(2%x%jac, name="jac2", dimnames=list(NULL,c("pred","pyellow","pgreen","pblue"))),
		mxConstraint(Pred + Pyellow + Pgreen + Pblue - 1 == 0,name="indentifying",jac="jac"),
		mxConstraint(2*(Pred + Pyellow + Pgreen + Pblue) - 2 == 0,name="indentifying2",jac="jac2")
	)
	expect_warning(mxRun(m1), NA)
}