stopifnot(require("testthat"), require("lme4")) ## use old (<=3.5.2) sample() algorithm if necessary if ("sample.kind" %in% names(formals(RNGkind))) { suppressWarnings(RNGkind("Mersenne-Twister", "Inversion", "Rounding")) } context("fitting lmer models") ## is "Nelder_Mead" default optimizer? -- no longer (isNM <- formals(lmerControl)$optimizer == "Nelder_Mead") test_that("lmer", { set.seed(101) d <- data.frame(z=rnorm(200), f=factor(sample(1:10,200, replace=TRUE))) ## Using 'method=*' defunct in 2019-05 (after 6 years of deprecation) ## expect_warning(lmer(z~ 1|f, d, method="abc"),"Use the REML argument") ## expect_warning(lmer(z~ 1|f, d, method="Laplace"),"Use the REML argument") ##sp No '...' anymore ##sp expect_warning(lmer(z~ 1|f, d, sparseX=TRUE),"has no effect at present") expect_error(lmer(z~ 1|f, ddd), "bad 'data': object 'ddd' not found") expect_error(lmer(z~ 1|f), "object 'z' not found") expect_error(lmer(z~ 1|f, d[,1:1000]), "bad 'data': undefined columns selected") expect_is(fm1 <- lmer(Yield ~ 1|Batch, Dyestuff), "lmerMod") expect_is(fm1_noCD <- update(fm1,control=lmerControl(calc.derivs=FALSE)), "lmerMod") expect_equal(VarCorr(fm1),VarCorr(fm1_noCD)) ## backward compatibility version {for optimizer="Nelder-Mead" only}: if(isNM) expect_is(fm1.old <- update(fm1,control=lmerControl(use.last.params=TRUE)), "lmerMod") expect_is(fm1@resp, "lmerResp") expect_is(fm1@pp, "merPredD") expect_that(fe1 <- fixef(fm1), is_equivalent_to(1527.5)) expect_that(VarCorr(fm1)[[1]][1,1], ## "bobyqa" : 1764.050060 equals(1764.0375195, tolerance = 1e-5)) ## back-compatibility ... if(isNM) expect_that(VarCorr(fm1.old)[[1]][1,1], equals(1764.0726543)) expect_that(isREML(fm1), equals(TRUE)) expect_is(REMLfun <- as.function(fm1), "function") expect_that(REMLfun(1), equals(319.792389042002)) expect_that(REMLfun(0), equals(326.023232155879)) expect_that(family(fm1), equals(gaussian())) expect_that(isREML(fm1ML <- refitML(fm1)), equals(FALSE)) expect_that(REMLcrit(fm1), equals(319.654276842342)) expect_that(deviance(fm1ML), equals(327.327059881135)) ## "bobyqa": 49.51009984775 expect_that(sigma(fm1), equals(49.5101272946856, tolerance=1e-6)) if(isNM) expect_that(sigma(fm1.old), equals(49.5100503990048)) expect_that(sigma(fm1ML), equals(49.5100999308089)) expect_that(extractAIC(fm1), equals(c(3, 333.327059881135))) expect_that(extractAIC(fm1ML), equals(c(3, 333.327059881135))) ## "bobyqa": 375.71667627943 expect_that(vcov(fm1) [1,1], equals(375.714676744, tolerance=1e-5)) if(isNM) expect_that(vcov(fm1.old)[1,1], equals(375.72027872986)) expect_that(vcov(fm1ML) [1,1], equals(313.09721874266, tolerance=1e-7)) # was 313.0972246957 expect_is(fm2 <- refit(fm1, Dyestuff2$Yield), "lmerMod") expect_that(fixef(fm2), is_equivalent_to(5.6656)) expect_that(VarCorr(fm2)[[1]][1,1], is_equivalent_to(0)) expect_that(getME(fm2, "theta"), is_equivalent_to(0)) expect_that(X <- getME(fm1, "X"), is_equivalent_to(array(1, c(1, 30)))) expect_is(Zt <- getME(fm1, "Zt"), "dgCMatrix") expect_that(dim(Zt), equals(c(6L, 30L))) expect_that(Zt@x, equals(rep.int(1, 30L))) expect_equal(dimnames(Zt), list(levels(Dyestuff$Batch), rownames(Dyestuff))) ## "bobyqa": 0.8483237982 expect_that(theta <- getME(fm1, "theta"), equals(0.84832031, tolerance=6e-6, check.attributes=FALSE)) if(isNM) expect_that(getME(fm1.old, "theta"), is_equivalent_to(0.848330078)) expect_is(Lambdat <- getME(fm1, "Lambdat"), "dgCMatrix") expect_that(as(Lambdat, "matrix"), is_equivalent_to(diag(theta, 6L, 6L))) expect_is(fm3 <- lmer(Reaction ~ Days + (1|Subject) + (0+Days|Subject), sleepstudy), "lmerMod") expect_that(getME(fm3,"n_rtrms"), equals(2L)) expect_that(getME(fm3,"n_rfacs"), equals(1L)) expect_equal(getME(fm3, "lower"), c(`Subject.(Intercept)` = 0, Subject.Days = 0)) expect_error(fm4 <- lmer(Reaction ~ Days + (1|Subject), subset(sleepstudy,Subject==levels(Subject)[1])), "must have > 1") expect_warning(fm4 <- lFormula(Reaction ~ Days + (1|Subject), subset(sleepstudy,Subject==levels(Subject)[1]), control=lmerControl(check.nlev.gtr.1="warning")), "must have > 1") expect_warning(fm4 <- lmer(Reaction ~ Days + (1|Subject), subset(sleepstudy,Subject %in% levels(Subject)[1:4]), control=lmerControl(check.nlev.gtreq.5="warning")), "< 5 sampled levels") sstudy9 <- subset(sleepstudy, Days == 1 | Days == 9) expect_error(lmer(Reaction ~ 1 + Days + (1 + Days | Subject), data = sleepstudy, subset = (Days == 1 | Days == 9)), "number of observations \\(=36\\) <= number of random effects \\(=36\\)") expect_error(lFormula(Reaction ~ 1 + Days + (1 + Days | Subject), data = sleepstudy, subset = (Days == 1 | Days == 9)), "number of observations \\(=36\\) <= number of random effects \\(=36\\)") ## with most recent Matrix (1.1-1), should *not* flag this ## for insufficient rank dat <- readRDS(system.file("testdata", "rankMatrix.rds", package="lme4")) expect_is(lFormula(y ~ (1|sample) + (1|day) + (1|day:sample) + (1|operator) + (1|day:operator) + (1|sample:operator) + (1|day:sample:operator), data = dat, control = lmerControl(check.nobs.vs.rankZ = "stop")), "list") ## check scale ss <- within(sleepstudy, Days <- Days*1e6) expect_warning(lmer(Reaction ~ Days + (1|Subject), data=ss), "predictor variables are on very different scales") ## Promote warning to error so that warnings or errors will stop the test: options(warn=2) expect_is(lmer(Yield ~ 1|Batch, Dyestuff, REML=TRUE), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, start=NULL), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, verbose=0L), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, subset=TRUE), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, weights=rep(1,nrow(Dyestuff))), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, na.action="na.exclude"), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, offset=rep(0,nrow(Dyestuff))), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, contrasts=NULL), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, devFunOnly=FALSE), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, control=lmerControl(optimizer="Nelder_Mead")), "lmerMod") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, control=lmerControl()), "lmerMod") ## avoid _R_CHECK_LENGTH_1_LOGIC2_ errors ... if (getRversion() < "3.6.0" || (requireNamespace("optimx", quietly = TRUE) && packageVersion("optimx")>"2018.7.10")) { expect_error(lmer(Yield ~ 1|Batch, Dyestuff, control=lmerControl(optimizer="optimx")),"must specify") expect_is(lmer(Yield ~ 1|Batch, Dyestuff, control=lmerControl(optimizer="optimx", optCtrl=list(method="L-BFGS-B"))), "lmerMod") } expect_error(lmer(Yield ~ 1|Batch, Dyestuff, control=lmerControl(optimizer="junk")), "couldn't find optimizer function") ## disable test ... should be no warning expect_is(lmer(Reaction ~ 1 + Days + (1 + Days | Subject), data = sleepstudy, subset = (Days == 1 | Days == 9), control=lmerControl(check.nobs.vs.rankZ="ignore", check.nobs.vs.nRE="ignore", check.conv.hess="ignore", ## need to ignore relative gradient check too; ## surface is flat so *relative* gradient gets large check.conv.grad="ignore")), "merMod") expect_is(lmer(Reaction ~ 1 + Days + (1|obs), data = transform(sleepstudy,obs=seq(nrow(sleepstudy))), control=lmerControl(check.nobs.vs.nlev="ignore", check.nobs.vs.nRE="ignore", check.nobs.vs.rankZ="ignore")), "merMod") expect_error(lmer(Reaction ~ 1 + Days + (1|obs), data = transform(sleepstudy,obs=seq(nrow(sleepstudy))), "number of levels of each grouping factor")) ## check for errors with illegal input checking options flags <- lme4:::.get.checkingOpts(names(formals(lmerControl))) .t <- lapply(flags, function(OPT) { ## set each to invalid string: ## cat(OPT,"\n") expect_error(lFormula(Reaction~1+Days+(1|Subject), data = sleepstudy, control = do.call(lmerControl, ## Deliberate: fake typo ## vvv setNames(list("warnign"), OPT))), "invalid control level") }) ## disable warning via options options(lmerControl=list(check.nobs.vs.rankZ="ignore",check.nobs.vs.nRE="ignore")) expect_is(fm4 <- lmer(Reaction ~ Days + (1|Subject), subset(sleepstudy,Subject %in% levels(Subject)[1:4])), "merMod") expect_is(lmer(Reaction ~ 1 + Days + (1 + Days | Subject), data = sleepstudy, subset = (Days == 1 | Days == 9), control=lmerControl(check.conv.hess="ignore", check.conv.grad="ignore")), "merMod") options(lmerControl=NULL) ## check for when ignored options are set options(lmerControl=list(junk=1,check.conv.grad="ignore")) expect_warning(lmer(Reaction ~ Days + (1|Subject),sleepstudy), "some options") options(lmerControl=NULL) options(warn=0) expect_error(lmer(Yield ~ 1|Batch, Dyestuff, junkArg=TRUE), "unused argument") expect_warning(lmer(Yield ~ 1|Batch, Dyestuff, control=list()), "passing control as list is deprecated") if(FALSE) ## Hadley broke this expect_warning(lmer(Yield ~ 1|Batch, Dyestuff, control=glmerControl()), "passing control as list is deprecated") ss <- transform(sleepstudy,obs=factor(seq(nrow(sleepstudy)))) expect_warning(lmer(Reaction ~ 1 + (1|obs), data=ss, control=lmerControl(check.nobs.vs.nlev="warning", check.nobs.vs.nRE="ignore")), "number of levels of each grouping factor") ## test deparsing of very long terms inside mkReTrms set.seed(101) longNames <- sapply(letters[1:25], function(x) paste(rep(x,8),collapse="")) tstdat <- data.frame(Y=rnorm(10), F=factor(1:10), matrix(runif(250),ncol=25, dimnames=list(NULL, longNames))) expect_is(lFormula(Y~1+(aaaaaaaa+bbbbbbbb+cccccccc+dddddddd+ eeeeeeee+ffffffff+gggggggg+hhhhhhhh+ iiiiiiii+jjjjjjjj+kkkkkkkk+llllllll|F), data=tstdat, control=lmerControl(check.nobs.vs.nlev="ignore", check.nobs.vs.nRE="ignore", check.nobs.vs.rankZ="ignore")),"list") ## do.call(new,...) bug new <- "foo" expect_is(refit(fm1),"merMod") rm("new") ## test subset-with-( printing from summary fm1 <- lmer(z~1|f,d,subset=(z<1e9)) expect_equal(sum(grepl("Subset: \\(",capture.output(summary(fm1)))),1) ## test messed-up Hessian fm1 <- lmer(z~ as.numeric(f) + 1|f, d) fm1@optinfo$derivs$Hessian[2,2] <- NA expect_warning(lme4:::checkConv(fm1@optinfo$derivs, coefs=c(1,1), ctrl=lmerControl()$checkConv,lbound=0), "Problem with Hessian check") ## test ordering of Ztlist names ## this is a silly model, just using it for a case ## where nlevs(RE term 1) < nlevs(RE term 2)x data(cbpp) cbpp <- transform(cbpp,obs=factor(1:nrow(cbpp))) fm0 <- lmer(incidence~1+(1|herd)+(1|obs),cbpp, control=lmerControl(check.nobs.vs.nlev="ignore", check.nobs.vs.rankZ="ignore", check.nobs.vs.nRE="ignore", check.conv.grad="ignore", check.conv.singular="ignore", check.conv.hess="ignore")) fm0B <- update(fm0, .~1+(1|obs)+(1|herd)) expect_equal(names(getME(fm0,"Ztlist")), c("obs.(Intercept)", "herd.(Intercept)")) ## stable regardless of order in formula expect_equal(getME(fm0,"Ztlist"),getME(fm0B,"Ztlist")) ## no optimization (GH #408) fm_noopt <- lmer(z~1|f,d, control=lmerControl(optimizer=NULL)) expect_equal(unname(unlist(getME(fm_noopt,c("theta","beta")))), c(0.244179074357121, -0.0336616441209862)) expect_error(lmer(z~1|f,d, control=lmerControl(optimizer="none")), "deprecated use") my_opt <- function(fn,par,lower,upper,control) { opt <- optim(fn=fn,par=par,lower=lower, upper=upper,control=control,,method="L-BFGS-B") return(list(par=opt$par,fval=opt$value,conv=opt$convergence)) } expect_is(fm_noopt <- lmer(z~1|f,d, control=lmerControl(optimizer=my_opt)),"merMod") ## test verbose option for nloptwrap cc <- capture.output(lmer(Reaction~1+(1|Subject), data=sleepstudy, control=lmerControl(optimizer="nloptwrap", optCtrl=list(xtol_abs=1e-6, ftol_abs=1e-6)), verbose=5)) expect_equal(sum(grepl("^iteration:",cc)),14) }) ## test_that(..) test_that("coef_lmer", { ## test coefficient extraction in the case where RE contain ## terms that are missing from the FE ... set.seed(101) d <- data.frame(resp=runif(100), var1=factor(sample(1:5,size=100,replace=TRUE)), var2=runif(100), var3=factor(sample(1:5,size=100,replace=TRUE))) library(lme4) mix1 <- lmer(resp ~ 0 + var1 + var1:var2 + (1|var3), data=d) c1 <- coef(mix1) expect_is(c1, "coef.mer") cd1 <- c1$var3 expect_is (cd1, "data.frame") n1 <- paste0("var1", 1:5) nn <- c(n1, paste(n1, "var2", sep=":")) expect_identical(names(cd1), c("(Intercept)", nn)) expect_equal(fixef(mix1), setNames(c(0.2703951, 0.3832911, 0.451279, 0.6528842, 0.6109819, 0.4949802, 0.1222705, 0.08702069, -0.2856431, -0.01596725), nn), tolerance= 6e-6)# 64-bit: 6.73e-9 }) test_that("getCall", { ## GH #535 getClass <- function() "foo" expect_is(glmer(round(Reaction) ~ 1 + (1|Subject), sleepstudy, family=poisson), "glmerMod") rm(getClass) }) test_that("better info about optimizer convergence", { set.seed(14) cbpp$var <- rnorm(nrow(cbpp), 10, 10) suppressWarnings(gm2 <- glmer(cbind(incidence, size - incidence) ~ period * var + (1 | herd), data = cbpp, family = binomial, control=glmerControl(optimizer=c("bobyqa","Nelder_Mead"))) ) ## FIXME: with new update, suppressWarnings(update(gm2)) will give ## Error in as.list.environment(X[[i]], ...) : ## promise already under evaluation: recursive default argument reference or earlier problems? op <- options(warn=-1) gm3 <- update(gm2, control=glmerControl(optimizer="bobyqa", optCtrl=list(maxfun=2))) options(op) cc <-capture.output(print(summary(gm2))) expect_equal(tail(cc,3)[1], "optimizer (Nelder_Mead) convergence code: 0 (OK)") }) context("convergence warnings etc.") fm1 <- lmer(Reaction~ Days + (Days|Subject), sleepstudy) suppressMessages(fm0 <- lmer(Reaction~ Days + (Days|Subject), sleepstudy[1:20,])) msg_in_output <- function(x, str) { cc <- capture.output(.prt.warn(x)) any(grepl(str , cc)) } test_that("convergence warnings from limited evals", { expect_warning(fm1B <- update(fm1, control=lmerControl(optCtrl=list(maxeval=3))), "convergence code 5") expect_true(msg_in_output(fm1B@optinfo, "convergence code: 5")) expect_warning(fm1C <- update(fm1, control=lmerControl(optimizer="bobyqa",optCtrl=list(maxfun=3))), "maximum number of function evaluations exceeded") expect_true(msg_in_output(fm1C@optinfo, "maximum number of function evaluations exceeded")) ## one extra (spurious) warning here ... expect_warning(fm1D <- update(fm1, control=lmerControl(optimizer="Nelder_Mead",optCtrl=list(maxfun=3))), "failure to converge in 3 evaluations") expect_true(msg_in_output(fm1D@optinfo, "failure to converge in 3 evaluations")) expect_message(fm0D <- update(fm0, control=lmerControl(optimizer="Nelder_Mead",calc.derivs=FALSE)), "boundary") expect_true(msg_in_output(fm0D@optinfo, "(OK)")) }) ## GH 533 test_that("test for zero non-NA cases", { data_bad <- sleepstudy data_bad$Days <- NA_real_ expect_error(lmer(Reaction ~ Days + (1| Subject), data_bad), "0 \\(non-NA\\) cases") }) ## test_that("catch matrix-valued responses", { dd <- data.frame(x = rnorm(1000), batch = factor(rep(1:20, each=50))) dd$y <- matrix(rnorm(1e4), ncol = 10) expect_error(lmer(y ~ x + (1|batch), dd), "matrix-valued") })