## This file is part of mvSLOUCH ## This software comes AS IS in the hope that it will be useful WITHOUT ANY WARRANTY, ## NOT even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. ## Please understand that there may still be bugs and errors. Use it at your own risk. ## We take no responsibility for any errors or omissions in this package or for any misfortune ## that may befall you or others as a result of its use. Please send comments and report ## bugs to Krzysztof Bartoszek at krzbar@protonmail.ch . library(testthat) context("mvSLOUCH: OU_xVz") library(mvSLOUCH) library(PCMBase) RNGversion(min(as.character(getRversion()),"3.6.1")) set.seed(12345, kind = "Mersenne-Twister", normal.kind = "Inversion") ### We will first simulate a small phylogenetic tree using functions from ape. ### For simulating the tree one could also use alternative functions, e.g. sim.bd.taxa ### from the TreeSim package phyltree<-ape::rtree(5) ## The line below is not necessary but advisable for speed phyltree<-phyltree_paths(phyltree) ### Define a vector of regimes. regimes<-c("small","small","large","small","small","large","large","large") ### Define SDE parameters to be able to simulate data under the OUOU model. ## 3D model ## OUOUparameters<-list(vY0=matrix(c(1,-1,0.5),nrow=3,ncol=1), ## A=rbind(c(9,0,0),c(0,5,0),c(0,0,1)),mPsi=cbind("small"=c(1,-1,0.5),"large"=c(-1,1,0.5)), ## Syy=rbind(c(1,0.25,0.3),c(0,1,0.2),c(0,0,1))) ## 2D model used to reduce running time on CRAN OUOUparameters<-list(vY0=matrix(c(1,-1),nrow=2,ncol=1), A=rbind(c(9,0),c(0,5)),mPsi=cbind("small"=c(1,-1),"large"=c(-1,1)), Syy=rbind(c(1,0.25),c(0,1))) ### Now simulate the data. OUOUdata1<-simulOUCHProcPhylTree(phyltree,OUOUparameters,regimes,NULL) OUOUdata1<-OUOUdata1[phyltree$tip.label,,drop=FALSE] OUOUdata2<-simulOUCHProcPhylTree(phyltree,OUOUparameters,regimes,NULL) OUOUdata2<-OUOUdata2[phyltree$tip.label,,drop=FALSE] xVz_output<-OU_xVz(OUOUdata1, OUOUdata2, phyltree, OUOUparameters, M.error=NULL, do_centre="evolutionary_model", regimes = regimes) testthat::expect_equivalent(xVz_output$xVz, -90.31009696162655586704)