params <- list(EVAL = TRUE) ## ----SETTINGS-knitr, include=FALSE------------------------------------------------------ stopifnot(require(knitr)) options(width = 90) opts_chunk$set( comment = NA, message = FALSE, warning = FALSE, eval = if (isTRUE(exists("params"))) params$EVAL else FALSE, dev = "jpeg", dpi = 100, fig.asp = 0.8, fig.width = 5, out.width = "60%", fig.align = "center" ) library(brms) ggplot2::theme_set(theme_default()) ## --------------------------------------------------------------------------------------- phylo <- ape::read.nexus("https://paul-buerkner.github.io/data/phylo.nex") data_simple <- read.table( "https://paul-buerkner.github.io/data/data_simple.txt", header = TRUE ) head(data_simple) ## --------------------------------------------------------------------------------------- A <- ape::vcv.phylo(phylo) ## ----results='hide'--------------------------------------------------------------------- model_simple <- brm( phen ~ cofactor + (1|gr(phylo, cov = A)), data = data_simple, family = gaussian(), data2 = list(A = A), prior = c( prior(normal(0, 10), "b"), prior(normal(0, 50), "Intercept"), prior(student_t(3, 0, 20), "sd"), prior(student_t(3, 0, 20), "sigma") ) ) ## --------------------------------------------------------------------------------------- summary(model_simple) plot(model_simple, N = 2, ask = FALSE) plot(conditional_effects(model_simple), points = TRUE) ## --------------------------------------------------------------------------------------- hyp <- "sd_phylo__Intercept^2 / (sd_phylo__Intercept^2 + sigma^2) = 0" (hyp <- hypothesis(model_simple, hyp, class = NULL)) plot(hyp) ## --------------------------------------------------------------------------------------- data_repeat <- read.table( "https://paul-buerkner.github.io/data/data_repeat.txt", header = TRUE ) data_repeat$spec_mean_cf <- with(data_repeat, sapply(split(cofactor, phylo), mean)[phylo]) head(data_repeat) ## ----results='hide'--------------------------------------------------------------------- model_repeat1 <- brm( phen ~ spec_mean_cf + (1|gr(phylo, cov = A)) + (1|species), data = data_repeat, family = gaussian(), data2 = list(A = A), prior = c( prior(normal(0,10), "b"), prior(normal(0,50), "Intercept"), prior(student_t(3,0,20), "sd"), prior(student_t(3,0,20), "sigma") ), sample_prior = TRUE, chains = 2, cores = 2, iter = 4000, warmup = 1000 ) ## --------------------------------------------------------------------------------------- summary(model_repeat1) ## --------------------------------------------------------------------------------------- hyp <- paste( "sd_phylo__Intercept^2 /", "(sd_phylo__Intercept^2 + sd_species__Intercept^2 + sigma^2) = 0" ) (hyp <- hypothesis(model_repeat1, hyp, class = NULL)) plot(hyp) ## --------------------------------------------------------------------------------------- data_repeat$within_spec_cf <- data_repeat$cofactor - data_repeat$spec_mean_cf ## ----results='hide'--------------------------------------------------------------------- model_repeat2 <- update( model_repeat1, formula = ~ . + within_spec_cf, newdata = data_repeat, chains = 2, cores = 2, iter = 4000, warmup = 1000 ) ## --------------------------------------------------------------------------------------- summary(model_repeat2) ## --------------------------------------------------------------------------------------- hyp <- paste( "sd_phylo__Intercept^2 /", "(sd_phylo__Intercept^2 + sd_species__Intercept^2 + sigma^2) = 0" ) (hyp <- hypothesis(model_repeat2, hyp, class = NULL)) ## --------------------------------------------------------------------------------------- data_fisher <- read.table( "https://paul-buerkner.github.io/data/data_effect.txt", header = TRUE ) data_fisher$obs <- 1:nrow(data_fisher) head(data_fisher) ## ----results='hide'--------------------------------------------------------------------- model_fisher <- brm( Zr | se(sqrt(1 / (N - 3))) ~ 1 + (1|gr(phylo, cov = A)) + (1|obs), data = data_fisher, family = gaussian(), data2 = list(A = A), prior = c( prior(normal(0, 10), "Intercept"), prior(student_t(3, 0, 10), "sd") ), control = list(adapt_delta = 0.95), chains = 2, cores = 2, iter = 4000, warmup = 1000 ) ## --------------------------------------------------------------------------------------- summary(model_fisher) plot(model_fisher) ## --------------------------------------------------------------------------------------- data_pois <- read.table( "https://paul-buerkner.github.io/data/data_pois.txt", header = TRUE ) data_pois$obs <- 1:nrow(data_pois) head(data_pois) ## ----results='hide'--------------------------------------------------------------------- model_pois <- brm( phen_pois ~ cofactor + (1|gr(phylo, cov = A)) + (1|obs), data = data_pois, family = poisson("log"), data2 = list(A = A), chains = 2, cores = 2, iter = 4000, control = list(adapt_delta = 0.95) ) ## --------------------------------------------------------------------------------------- summary(model_pois) plot(conditional_effects(model_pois), points = TRUE) ## ----results='hide'--------------------------------------------------------------------- model_normal <- brm( phen_pois ~ cofactor + (1|gr(phylo, cov = A)), data = data_pois, family = gaussian(), data2 = list(A = A), chains = 2, cores = 2, iter = 4000, control = list(adapt_delta = 0.95) ) ## --------------------------------------------------------------------------------------- summary(model_normal) ## --------------------------------------------------------------------------------------- pp_check(model_pois) pp_check(model_normal) ## --------------------------------------------------------------------------------------- loo(model_pois, model_normal)