# # Copyright 2007-2021 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 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. #------------------------------------------------------------------------------ # Author: Michael D. Hunter # Date: 2014.12.17 # Filename: test-ModelIdentification.R # Purpose: Check the model identification checking function. #------------------------------------------------------------------------------ #-------------------------------------------------------------------- # Load OpenMx library(OpenMx) library(testthat) context("Model Identification") #-------------------------------------------------------------------- # Read in and set up the data IndManExo <- 1:8 IndManEnd <- 9:12 # The data data(latentMultipleRegExample1) # Rearange Columns to separate exogenous and endogenous variables rawlisdat <- latentMultipleRegExample1[, c(IndManEnd, IndManExo)] rawlisy <- latentMultipleRegExample1[, IndManEnd] rawlisx <- latentMultipleRegExample1[, IndManExo] # Take covariance and means covlisdat <- cov(rawlisdat) mealisdat <- colMeans(rawlisdat) # Number of manifest and latent exogenous and endogenous variables numLatExo <- 2 numLatEnd <- 1 numManExo <- 8 numManEnd <- 4 # Dimnames LatExo <- paste('xi', 1:numLatExo, sep='') LatEnd <- paste('eta', 1:numLatEnd, sep='') ManExo <- names(rawlisdat)[(numManEnd+1):(numManEnd+numManExo)] ManEnd <- names(rawlisdat)[1:numManEnd] #-------------------------------------------------------------------- # Specify the 13 extended LISREL matrices lx <- mxMatrix("Full", numManExo, numLatExo, free=c(T,T,T,T,F,F,F,F,F,F,F,F,F,T,T,T), values=c(1, .2, .2, .2, 0, 0, 0, 0, 0, 0, 0, 0, 1, .2, .2, .2), labels=c( paste('l', 1, 1:4, sep=''), rep(NA, 8), paste('l', 2, 5:8, sep='')), name='LX', dimnames=list(ManExo, LatExo) ) #DONE ly <- mxMatrix("Full", numManEnd, numLatEnd, free=c(F,T,T,T), values=c(1, .2, .2, .2), labels= paste('l', 3, 9:12, sep=''), name='LY', dimnames=list(ManEnd, LatEnd) ) #DONE be <- mxMatrix("Zero", numLatEnd, numLatEnd, name='BE', dimnames=list(LatEnd, LatEnd)) #DONE ga <- mxMatrix("Full", numLatEnd, numLatExo, free=T, values=.2, labels=c('b13', 'b23'), name='GA', dimnames=list(LatEnd, LatExo) ) #DONE ph <- mxMatrix("Symm", numLatExo, numLatExo, free=c(T,T,T), values=c(.8, .3, .8), labels=c('varF1', 'covF1F2', 'varF2'), name='PH', dimnames=list(LatExo, LatExo) ) #DONE ps <- mxMatrix("Symm", numLatEnd, numLatEnd, free=T, values=.8, labels='varF3', name='PS', dimnames=list(LatEnd, LatEnd) ) #DONE td <- mxMatrix("Diag", numManExo, numManExo, free=T, values=.8, labels=paste('d', 1:8, sep=''), name='TD', dimnames=list(ManExo, ManExo) ) #DONE te <- mxMatrix("Diag", numManEnd, numManEnd, free=T, values=.8, labels=paste('e', 9:12, sep=''), name='TE', dimnames=list(ManEnd, ManEnd) ) #DONE th <- mxMatrix("Zero", numManExo, numManEnd, name='TH', dimnames=list(ManExo, ManEnd)) #DONE tx <- mxMatrix("Full", numManExo, 1, free=T, values=.1, labels=paste('m', 1:8, sep=''), name='TX', dimnames=list(ManExo, "TXMeans") ) #DONE ty <- mxMatrix("Full", numManEnd, 1, free=T, values=.1, labels=paste('m', 9:12, sep=''), name='TY', dimnames=list(ManEnd, "TYMeans") ) #DONE ka <- mxMatrix("Zero", numLatExo, 1, name='KA', dimnames=list(LatExo, "KAMeans")) #DONE al <- mxMatrix("Zero", numLatEnd, 1, name='AL', dimnames=list(LatEnd, "ALMeans")) #DONE #-------------------------------------------------------------------- #-------------------------------------------------------------------- # Define the model xmod <- mxModel( name='LISREL Exogenous Model with Means', mxData(observed=cbind(rawlisx, extra=NA), type='raw'), lx, ph, td, tx, ka, mxExpectationLISREL( LX=lx$name, PH=ph$name, TD=td$name, TX=tx$name, KA=ka$name ), mxFitFunctionML() ) #-------------------------------------------------------------------- #-------------------------------------------------------------------- # Model identification id <- mxCheckIdentification(xmod) omxCheckEquals(id$status, FALSE) omxCheckEquals(id$non_identified_parameters, c("l11", "l12", "l13", "l14", "varF1", "covF1F2")) #-------------------------------------------------------------------- #-------------------------------------------------------------------- # Add constraint, now I know what to do xmod2 <- mxModel(xmod, mxConstraint(TX[1,1] == TX[2,1], name='conman')) id2 <- mxCheckIdentification(xmod2) omxCheckEquals(id2$status, FALSE) omxCheckEquals(id$non_identified_parameters, c("l11", "l12", "l13", "l14", "varF1", "covF1F2")) xmod3 <- mxModel(xmod, mxConstraint(PH[1,1] == PH[2,2], name='convar')) id3 <- mxCheckIdentification(xmod3) omxCheckEquals(id3$status, TRUE) #-------------------------------------------------------------------- # End