### tests library(testthat) library(jagshelper) # library(jagsUI) test_that("skeleton", { expect_output(skeleton("a")) }) test_that("jags_df", { out_df <- jags_df(asdf_jags_out) expect_true(inherits(out_df, "data.frame")) expect_equal(dim(out_df), c(1500,8)) expect_equal(sum(out_df), 259036, tolerance = 0.1) expect_error(jags_df(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("pull_post", { out_df <- jags_df(asdf_jags_out) a <- pull_post(out_df, "a") expect_true(inherits(a, "data.frame")) expect_equal(dim(a), c(1500,3)) expect_equal(dim(pull_post(out_df)), c(1500,8)) expect_equal(sum(a), 108.1291, tolerance = 0.1) expect_error(pull_post(asdf_jags_out), "Input must be a data.frame") }) test_that("jags_plist", { out_plist <- jags_plist(asdf_jags_out) expect_equal(length(out_plist),8) dims <- lapply(out_plist, dim) expect_true(all(sapply(dims,"[",1)==500)) expect_true(all(sapply(dims,"[",2)==3)) }) test_that("trace_jags", { out_df <- jags_df(asdf_jags_out) expect_silent(trace_jags(asdf_jags_out)) expect_silent(trace_jags(asdf_jags_out, p="a", parmfrow=c(2,2))) expect_error(trace_jags(asdf_jags_out, p="steve"), "No parameters with matching names") expect_error(trace_jags(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("chaindens_jags", { out_df <- jags_df(asdf_jags_out) expect_silent(chaindens_jags(asdf_jags_out)) expect_silent(chaindens_jags(asdf_jags_out, p="a", parmfrow=c(2,2))) expect_error(chaindens_jags(asdf_jags_out, p="steve"), "No parameters with matching names") expect_error(chaindens_jags(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("tracedens_jags", { out_df <- jags_df(asdf_jags_out) expect_silent(tracedens_jags(asdf_jags_out)) expect_silent(tracedens_jags(asdf_jags_out, p="a", parmfrow=c(2,2))) expect_error(tracedens_jags(asdf_jags_out, p="steve"), "No parameters with matching names") expect_error(tracedens_jags(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("nparam", { out_df <- jags_df(asdf_jags_out) expect_equal(nparam(asdf_jags_out),8) expect_equal(nparam(SS_out), 334) expect_error(nparam(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("nbyname", { out_df <- jags_df(asdf_jags_out) expect_true(inherits(nbyname(asdf_jags_out),"list")) expect_equal(sum(unlist(nbyname(asdf_jags_out))), 8) expect_equal(nbyname(asdf_jags_out)$a, 3) expect_equal(nbyname(SS_out)$cycle_s, c(41,2)) expect_error(nbyname(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("check_Rhat", { out_df <- jags_df(asdf_jags_out) expect_equal(length(check_Rhat(SS_out)),12) expect_equal(sum(unlist(check_Rhat(asdf_jags_out))), 6) expect_equal(sum(unlist(check_Rhat(SS_out))), 10.5863,tolerance=0.0001) expect_equal(unname(check_Rhat(SS_out)[9]), 0.5121951, tolerance=0.0001) expect_equal(names(check_Rhat(SS_out)[9]), "cycle_s") expect_error(check_Rhat(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("check_neff", { out_df <- jags_df(asdf_jags_out) expect_equal(length(check_neff(SS_out)),12) expect_equal(sum(unlist(check_neff(asdf_jags_out))), 5) expect_equal(sum(unlist(check_neff(SS_out))), 1.012195,tolerance=0.0001) expect_equal(unname(check_neff(SS_out)[9]), 0.03658537, tolerance=0.0001) expect_equal(names(check_neff(SS_out)[9]), "cycle_s") expect_error(check_neff(out_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("logit", { expect_equal(logit(0.5),0) }) test_that("expit", { expect_equal(expit(0),0.5) }) test_that("trace_line", { expect_silent(trace_line(1:30, nline=3)) out_df <- jags_df(asdf_jags_out) b1 <- pull_post(out_df, "b1") a <- pull_post(out_df, "a") expect_silent(trace_line(b1, nline=3)) }) test_that("chaindens_line", { expect_silent(chaindens_line(1:30, nline=3)) out_df <- jags_df(asdf_jags_out) b1 <- pull_post(out_df, "b1") a <- pull_post(out_df, "a") expect_silent(chaindens_line(b1, nline=3)) }) test_that("trace_df", { out_df <- jags_df(asdf_jags_out) expect_silent(trace_df(out_df, nline=3)) expect_silent(trace_df(as.matrix(out_df), nline=3)) expect_silent(trace_df(out_df, nline=3, parmfrow=c(2,2))) expect_error(trace_df(asdf_jags_out), "Input must be a data.frame") }) test_that("chaindens_df", { out_df <- jags_df(asdf_jags_out) expect_silent(chaindens_df(out_df, nline=3)) expect_silent(chaindens_df(as.matrix(out_df), nline=3)) expect_silent(chaindens_df(out_df, nline=3, parmfrow=c(2,2))) expect_error(chaindens_df(asdf_jags_out), "Input must be a data.frame") }) test_that("envelope", { SS_df <- jags_df(SS_out) trend <- pull_post(SS_df, "trend") expect_silent(envelope(trend, x=SS_data$x)) expect_silent(envelope(trend, x=SS_data$x ,ci=.5)) expect_silent(envelope(trend, x=SS_data$x ,ci=c(.1,.5,.9))) expect_silent(envelope(SS_out, p="trend")) expect_silent(envelope(SS_out, p="cycle_s", column=1)) expect_silent(envelope(SS_out, p="cycle_s", column=1, main="cycle_s")) expect_silent(envelope(SS_out, p="cycle_s", column=2, col=2, add=TRUE)) expect_error(envelope(SS_out, p=c("trend","rate")), "Need single parameter name in p= argument") expect_error(envelope(SS_out), "Need single parameter name in p= argument") expect_error(envelope(SS_out, p="steve"), "No parameters with matching names") expect_silent(envelope(trend, x=SS_data$x, transform="exp")) expect_silent(envelope(trend, x=SS_data$x, transform="exp", log="y")) expect_silent(envelope(SS_out, p="trend", transform="exp", log="y")) expect_silent(envelope(SS_out, p="trend", transform="expit", log="y", ylab="transform it")) expect_error(envelope(SS_out, p="trend", transform="somethingsalwayswrong", log="y")) }) test_that("overlayenvelope", { expect_silent(overlayenvelope(df=list(SS_out$sims.list$cycle_s[,,1],SS_out$sims.list$cycle_s[,,2]))) expect_silent(overlayenvelope(df=SS_out$sims.list$cycle_s)) expect_silent(overlayenvelope(df=SS_out, p="cycle_s")) expect_silent(overlayenvelope(df=SS_out, p=c("trend","rate"))) expect_silent(overlayenvelope(df=SS_out, p=c("trend","cycle_s"), column=2)) expect_silent(overlayenvelope(df=SS_out, p=c("trend","rate"), legendnames=c("bob","larry"))) expect_error(overlayenvelope(df=SS_out)) expect_silent(overlayenvelope(df=SS_out, p="cycle_s", transform="exp")) expect_silent(overlayenvelope(df=SS_out, p="cycle_s", transform="exp", log="y")) expect_error(overlayenvelope(df=SS_out, p="cycle_s", transform="bob")) }) test_that("caterpillar", { SS_df <- jags_df(SS_out) trend <- pull_post(SS_df, "trend") expect_silent(caterpillar(trend, x=SS_data$x)) expect_silent(caterpillar(trend, x=SS_data$x ,ci=.5)) expect_silent(caterpillar(trend, x=SS_data$x ,ci=c(.1,.5,.9))) expect_silent(caterpillar(SS_out, p="trend")) expect_silent(caterpillar(SS_out, p="trend", xax=c(letters, LETTERS)[1:41])) expect_silent(caterpillar(SS_out, p="trend", xax=c(letters, LETTERS)[1:41], las=2)) expect_silent(caterpillar(SS_out, p="trend", ylim=c(-10, 10))) expect_silent(caterpillar(SS_out, p="cycle_s", column=1)) expect_silent(caterpillar(SS_out, p="cycle_s", column=1, main="cycle_s")) expect_silent(caterpillar(SS_out, p="cycle_s", column=2, col=2, add=TRUE)) expect_error(caterpillar(SS_out, p=c("trend","rate")), "Need single parameter name in p= argument") expect_error(caterpillar(SS_out), "Need single parameter name in p= argument") expect_error(caterpillar(SS_out, p="steve"), "No parameters with matching names") expect_silent(caterpillar(trend, x=SS_data$x, transform="exp", log="y")) expect_silent(caterpillar(SS_out, p="trend", transform="exp")) expect_silent(caterpillar(SS_out, p="trend", transform="expit")) expect_error(caterpillar(SS_out, p="trend", transform="somethingelse")) }) test_that("traceworstRhat", { expect_silent(traceworstRhat(SS_out, parmfrow=c(3,2))) expect_silent(traceworstRhat(SS_out, parmfrow=c(3,2), n.eff=TRUE)) expect_silent(traceworstRhat(x=SS_out, p="cycle_s", margin=2, parmfrow=c(2,2))) expect_silent(traceworstRhat(x=SS_out, p="cycle_s", margin=2, parmfrow=c(2,2), n.eff=TRUE)) SS_df <- jags_df(SS_out) expect_error(traceworstRhat(SS_df), "Input must be an output object returned from jagsUI::jags().") }) test_that("rcolors", { expect_equal(length(rcolors(10)),10) }) test_that("plotRhats", { expect_silent(plotRhats(SS_out)) expect_silent(plotRhats(SS_out, n.eff=TRUE)) expect_silent(plotRhats(SS_out)) expect_silent(plotRhats(SS_out, splitarr=TRUE, n.eff=TRUE)) expect_silent(plotRhats(SS_out, splitarr=TRUE, margin=2)) expect_silent(plotRhats(SS_out, p=c("trend", "cycle"), splitarr=TRUE, plotsequence=TRUE)) SS_df <- jags_df(SS_out) expect_error(plotRhats(SS_df), "Input must be an output object returned from jagsUI::jags().") expect_error(plotRhats(SS_out, p="steve"), "No parameters with matching names") }) test_that("comparedens", { expect_silent(comparedens(x1=asdf_jags_out, x2=asdf_jags_out, p=c("a","b","sig"))) out_df <- jags_df(asdf_jags_out) expect_silent(comparedens(x1=out_df, x2=asdf_jags_out, p=c("a","b","sig"))) expect_silent(comparedens(x1=out_df, x2=asdf_jags_out, p=c("a","b","sig"), ylim=c(-10,10))) expect_silent(comparedens(x1=out_df, x2=asdf_jags_out, p=c("a","b","sig"), col=2:3)) expect_silent(comparedens(x2=out_df, x1=asdf_jags_out, p=c("a","b","sig"))) expect_error(comparedens(x2=1:10, x1=asdf_jags_out, p=c("a","b","sig")),"Inputs must be data.frames or output objects returned from jagsUI::jags().") }) test_that("comparecat", { expect_silent(comparecat(x=list(asdf_jags_out, asdf_jags_out, asdf_jags_out),p=c("a","b","sig"))) expect_silent(comparecat(x=list(asdf_jags_out, asdf_jags_out, asdf_jags_out),p=c("a","b","sig"), col=1:3)) expect_silent(comparecat(x=list(asdf_jags_out, asdf_jags_out, asdf_jags_out),p=c("a","b","sig"), col=1:3, transform="exp")) expect_silent(comparecat(x=list(asdf_jags_out, asdf_jags_out, asdf_jags_out),p=c("a","b","sig"), col=1:3, transform="expit")) expect_error(comparecat(x=list(asdf_jags_out, asdf_jags_out, asdf_jags_out),p=c("a","b","sig"), col=1:3, transform="badbadbad")) expect_error(comparecat(x=list(1:10, asdf_jags_out, asdf_jags_out),p=c("a","b","sig"))) expect_error(comparecat(x=asdf_jags_out)) }) test_that("pairstrace_jags", { expect_silent(pairstrace_jags(SS_out, p="sig", parmfrow=c(2,3), lwd=2)) expect_silent(pairstrace_jags(SS_out, p="sig", parmfrow=c(2,3), points=TRUE)) expect_silent(pairstrace_jags(SS_out, p="sig", parmfrow=c(2,3), contour=TRUE)) expect_silent(pairstrace_jags(asdf_jags_out, parmfrow=c(3,3))) expect_silent(pairstrace_jags(asdf_jags_out, parmfrow=c(3,3), points=TRUE)) expect_silent(pairstrace_jags(asdf_jags_out, parmfrow=c(3,3), contour=TRUE)) out_df <- jags_df(asdf_jags_out) expect_error(pairstrace_jags(out_df),"Input must be an output object returned from jagsUI::jags().") }) test_that("cor_jags", { expect_equal(sum(cor_jags(asdf_jags_out)), 8.291098, tolerance=0.0001) expect_equal(dim(cor_jags(asdf_jags_out)), c(8,8)) expect_equal(dim(cor_jags(asdf_jags_out, p=c("a","b"))), c(5,5)) }) test_that("plotcor_jags", { expect_silent(plotcor_jags(asdf_jags_out)) expect_silent(plotcor_jags(jags_df(asdf_jags_out))) expect_silent(asdf_jags_out$sims.list$a) expect_silent(plotcor_jags(asdf_jags_out, p=c("a","b"))) expect_silent(plotcor_jags(asdf_jags_out, legend=F, mincor=0.1, maxn=1)) }) test_that("plotdens", { expect_silent(plotdens(asdf_jags_out, p="b1")) expect_silent(plotdens(asdf_jags_out, p="b1", add=T, shade=F, lwd=F)) expect_silent(plotdens(asdf_jags_out, p="a", minCI=.95, col=2:4)) expect_silent(plotdens(asdf_jags_out, p=c("a[1]","a[2]","a[3]"), legend=F)) expect_silent(plotdens(jags_df(asdf_jags_out, p="a"),legendnames=c("albert","betty","chuck"))) expect_silent(plotdens(list(asdf_jags_out,asdf_jags_out,asdf_jags_out), p="b1")) expect_error(plotdens(list(asdf_jags_out,asdf_jags_out,asdf_jags_out), p="a"),"No parameter names are an exact match to p= argument.") expect_silent(plotdens(list(asdf_jags_out,asdf_jags_out,asdf_jags_out), p=c("a[1]","a[2]","a[3]"))) }) test_that("qq_postpred", { expect_silent(qq_postpred(ypp=SS_out, p="ypp", y=SS_data$y)) expect_silent(qq_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y)) expect_silent(qq_postpred(ypp=jags_df(x=SS_out, p="ypp"), y=SS_data$y)) expect_silent(qq_postpred(ypp=SS_out, p="ypp", y=SS_data$y, add=T, pch="+", col=4)) expect_error(qq_postpred(ypp=SS_out, p="ypp", y=SS_data$y[1])) expect_error(qq_postpred(ypp=SS_out, p="ypp", y=SS_data$y[1:2]), "Posterior matrix ypp has more columns than length of data matrix y") expect_warning(qq_postpred(ypp=SS_out$sims.list$ypp[,1:2], y=SS_data$y), "Posterior matrix ypp has fewer columns than length of data matrix y") expect_silent(qq_postpred(ypp=SS_out$sims.list$ypp[,1:2], y=SS_data$y[1:2])) expect_error(qq_postpred(ypp=SS_out, y=SS_data$y), "Parameter name must be supplied to p= argument if jagsUI object is used in argument ypp") }) test_that("ts_postpred", { expect_silent(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y)) expect_silent(ts_postpred(ypp=SS_out, x=SS_data$x, p="ypp", y=SS_data$y)) expect_silent(ts_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y)) expect_silent(ts_postpred(ypp=jags_df(x=SS_out, p="ypp"), y=SS_data$y)) expect_silent(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y, add=T, col=3)) expect_error(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y[1])) expect_error(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y[1:2]), "Posterior matrix ypp must have the same number of columns as length of data matrix y") expect_error(ts_postpred(ypp=SS_out, y=SS_data$y), "Parameter name must be supplied to p= argument if jagsUI object is used in argument ypp") expect_silent(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y, transform="exp")) expect_silent(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y, transform="expit")) expect_error(ts_postpred(ypp=SS_out, p="ypp", y=SS_data$y, transform="larryboy")) }) test_that("comparepriors", { expect_silent(comparepriors(x=asdf_prior_jags_out)) expect_silent(comparepriors(x=asdf_prior_jags_out, parmfrow=c(3,2))) expect_silent(comparepriors(x=asdf_prior_jags_out, parmfrow=c(3,2), col=3:2, minCI=0.7, legendpos="bottomleft")) expect_warning(comparepriors(x=asdf_jags_out), 'No parameter names ending in "_prior"') }) trend1 <- trend2 <- SS_out$sims.list$trend rate1 <- rate2 <- SS_out$sims.list$rate trend1[, 2:3] <- rate1[, 2:3] <- NA trend2[, 2:3] <- rate2[, 2:3] <- 42 test_that("crossplot", { expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate)) expect_silent(crossplot(dfx=SS_out$sims.list$trend[,1], dfy=SS_out$sims.list$rate[,1])) expect_silent(crossplot(dfx=as.data.frame(SS_out$sims.list$trend), dfy=as.data.frame(SS_out$sims.list$rate))) expect_silent(crossplot(dfx=log(20+SS_out$sims.list$trend), dfy=log(20+SS_out$sims.list$rate), transformx="exp", transformy="exp")) expect_silent(crossplot(dfx=suppressWarnings(log(SS_out$sims.list$trend)), dfy=suppressWarnings(log(SS_out$sims.list$rate)))) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=FALSE)) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=FALSE, drawx=TRUE, drawblob=FALSE)) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=FALSE, drawx=FALSE, drawblob=TRUE)) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=FALSE, drawx=FALSE, drawblob=TRUE, outline=TRUE, lwd=2)) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=TRUE, drawx=TRUE, drawblob=TRUE, lwd=1, link=TRUE, col=2, linklwd=3, labels=TRUE)) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=TRUE, drawx=TRUE, drawblob=TRUE, lwd=1, link=TRUE, col="random", linklwd=3, labels=TRUE)) expect_silent(crossplot(dfx=SS_out$sims.list$trend, dfy=SS_out$sims.list$rate, drawcross=TRUE, drawx=TRUE, drawblob=TRUE, labels=SS_data$x, labelpos=1, labelcex=1.2)) expect_silent(crossplot(dfx=trend1, dfy=rate1, drawblob=TRUE, drawx=TRUE)) expect_silent(crossplot(dfx=trend2, dfy=rate2, drawblob=TRUE, drawx=TRUE)) expect_silent(crossplot(dfx=SS_out, p=c("trend","rate"))) expect_silent(crossplot(dfx=SS_out, p=c("trend","rate"), whichx=7, whichy=7)) expect_silent(crossplot(dfx=SS_out, p=c("trend","rate"), whichx=7:10, whichy=7:10)) expect_silent(crossplot(dfx=SS_out, p=c("trend","sig_eps"), whichx=7)) expect_silent(crossplot(dfx=SS_out, p=rev(c("trend","sig_eps")), whichy=7)) expect_error(crossplot(dfx=SS_out, p=c("trend","sig_eps")), "Dimension or length mismatch between X and Y") expect_error(crossplot(dfx=SS_out, p=c("trend","cycle_s")), "Dimension or length mismatch between X and Y") expect_silent(crossplot(dfx=SS_out, p=rev(c("trend","cycle_s")), columnx = 1)) expect_silent(crossplot(dfx=SS_out, p=c("trend","cycle_s"), columny = 1)) }) test_that("plot_postpred", { expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, lines=TRUE)) expect_silent(plot_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y, x=SS_data$x)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, plot_residuals=FALSE)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, plot_data=FALSE)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, plot_sd=FALSE)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, whichplots=1)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, whichplots=2)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, whichplots=3)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, whichplots=4)) expect_silent(plot_postpred(ypp=SS_out, p="ypp", y=SS_data$y, x=SS_data$x, whichplots=1:4, pointcol=2+(SS_data$y>2), pch=2+(SS_data$x>2018))) }) x_withNA <- SS_data$x y_withNA <- SS_data$y ypp_withNA <- SS_out$sims.list$ypp x_withNA[sample(1:41, 2)] <- NA y_withNA[sample(1:41, 2)] <- NA ypp_withNA[,sample(1:41, 2)] <- NA test_that("NA cases in _postpred", { expect_silent(qq_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y)) expect_silent(qq_postpred(ypp=ypp_withNA, y=SS_data$y)) expect_silent(qq_postpred(ypp=SS_out$sims.list$ypp, y=y_withNA)) expect_silent(qq_postpred(ypp=ypp_withNA, y=y_withNA)) expect_silent(ts_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y, x=SS_data$x)) expect_silent(ts_postpred(ypp=ypp_withNA, y=SS_data$y, x=SS_data$x)) expect_silent(ts_postpred(ypp=SS_out$sims.list$ypp, y=y_withNA, x=SS_data$x)) expect_silent(ts_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y, x=x_withNA)) expect_silent(ts_postpred(ypp=ypp_withNA, y=y_withNA, x=x_withNA)) expect_silent(envelope(df=SS_out$sims.list$ypp, x=SS_data$x)) expect_silent(envelope(df=ypp_withNA, x=SS_data$x)) expect_silent(envelope(df=ypp_withNA, x=x_withNA)) expect_silent(plot_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y, x=SS_data$x)) expect_silent(plot_postpred(ypp=ypp_withNA, y=SS_data$y, x=SS_data$x)) expect_silent(plot_postpred(ypp=SS_out$sims.list$ypp, y=y_withNA, x=SS_data$x)) expect_silent(plot_postpred(ypp=SS_out$sims.list$ypp, y=SS_data$y, x=x_withNA)) expect_silent(plot_postpred(ypp=ypp_withNA, y=y_withNA, x=x_withNA)) })