source("utils.R") wrap_dnn = function(pars) { testthat::expect_error({model = do.call(dnn, pars)}, NA) testthat::expect_error({.n = predict(model, newdata=pars$X)}, NA) testthat::expect_error({.n = continue_training(model, epochs = 2L, verbose = FALSE)}, NA) testthat::expect_error({.n = predict(model)}, NA) testthat::expect_error({.n = predict(model, type = "response")}, NA) testthat::expect_error({.n = coef(model)}, NA) testthat::expect_error({.n = plot(model)}, NA) testthat::expect_error({.n = residuals(model)}, NA) testthat::expect_error({.n = summary(model)}, NA) suppressWarnings(testthat::expect_error({.n = PDP(model, variable = "X.1")}, NA)) suppressWarnings(testthat::expect_error({.n = ALE(model, variable = "X.1")}, NA)) } X = matrix(runif(3*50), 50, 3) Y = matrix(rbinom(3*50, 1, 0.5), 50, 3) data = data.frame(Y = Y, X = X) #### Test scenarios #### # Architecture scenarios = list( list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = NULL), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = c(2L, 5L)), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = c(9, 1L, 3L)), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = c(9, 1L), activation = c("relu", "tanh")), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = c(9, 1L), activation = c("leaky_relu", "tanh")), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = c(9, 1L), activation = c("leaky_relu", "tanh"), bias=FALSE), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, hidden = c(9, 1L), activation = c("leaky_relu", "tanh"), bias=c(TRUE, FALSE)) ) testthat::test_that("DNN architecture", { testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() for(i in 1:length(scenarios)) { .n = wrap_dnn(scenarios[[i]]) } }) # Family X = matrix(runif(3*50), 50, 3) Y = matrix(as.character(rbinom(50, 3, 0.5))) data = data.frame(Y = Y, X = X) scenarios = list( list(formula = stats::as.formula("Y ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = "softmax", epochs = 1L), list(formula = stats::as.formula("Y ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L), list(formula = stats::as.formula("Y ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = "softmax", epochs = 1L, bootstrap = 2L), list(formula = stats::as.formula("Y ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::binomial(), epochs = 1L, bootstrap = 2L) ) testthat::test_that("DNN softmax/binomial", { testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() for(i in 1:length(scenarios)) { wrap_dnn(scenarios[[i]]) } }) X = matrix(runif(3*50), 50, 3) Y = matrix(rpois(50*3,lambda = 2), 50, 3) data = data.frame(Y = Y, X = X) scenarios = list( list(formula = stats::as.formula("Y.1 ~ ."), plot=FALSE,data = data, loss = stats::gaussian(), epochs = 1L), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::gaussian(), epochs = 1L), list(formula = stats::as.formula("Y.1 ~ ."), plot=FALSE,data = data, loss = stats::poisson(), epochs = 1L), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::poisson(), epochs = 1L), list(formula = stats::as.formula("Y.1 ~ ."), plot=FALSE,data = data, loss = stats::gaussian(), epochs = 1L, bootstrap = 2L), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::gaussian(), epochs = 1L, bootstrap = 2L), list(formula = stats::as.formula("Y.1 ~ ."), plot=FALSE,data = data, loss = stats::poisson(), epochs = 1L, bootstrap = 2L), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = stats::poisson(), epochs = 1L, bootstrap = 2L) ) testthat::test_that("DNN rnorm/poisson", { testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() for(i in 1:length(scenarios)) { wrap_dnn(scenarios[[i]]) } }) X = matrix(runif(3*50), 50, 3) Y = matrix(rpois(50*3,lambda = 2), 50, 3) data = data.frame(Y = Y, X = X) scenarios = list( list(formula = stats::as.formula("Y.1 ~ ."), plot=FALSE,data = data, loss = "mae", epochs = 1L), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = "mae", epochs = 1L), list(formula = stats::as.formula("Y.1 ~ ."), plot=FALSE,data = data, loss = "mae", epochs = 1L, bootstrap = 2L), list(formula = stats::as.formula("cbind(Y.1, Y.2, Y.3) ~ ."), plot=FALSE, verbose = FALSE, data = data, loss = "mae", epochs = 1L, bootstrap = 2L) ) testthat::test_that("DNN mae", { testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() for(i in 1:length(scenarios)) { wrap_dnn(scenarios[[i]]) } }) testthat::test_that("DNN save and reload", { testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() testthat::skip_on_cran() set.seed(222) validation_set<- sample(c(1:nrow(datasets::iris)),25) # Build and train Network nn.fit<- dnn(Sepal.Length~., data = datasets::iris[-validation_set,], epochs = 5L, verbose = FALSE, plot = FALSE) saveRDS(nn.fit, "test_model.RDS") nn.fit = readRDS("test_model.RDS") testthat::expect_error({.n = predict(nn.fit)}, NA) testthat::expect_error({.n = predict(nn.fit, newdata = datasets::iris[validation_set,])}, NA) testthat::expect_error({.n = continue_training(nn.fit,epochs = 5)}, NA) file.remove("test_model.RDS") }) testthat::test_that("DNN custom loss and custom parameters", { testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() custom_loss = function(true, pred) { logLik = torch::distr_normal(pred, scale = torch::nnf_relu(scale)+ 0.001)$log_prob(true) return(-logLik$mean()) } testthat::expect_error({ testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() nn.fit<- dnn(Sepal.Length~., data = datasets::iris[], loss = custom_loss, epochs = 2L, verbose = FALSE, plot = FALSE, custom_parameters = list(scale = 1.0) ) }, NA) create_cov = function(LU, Diag) { return(torch::torch_matmul(LU, LU$t()) + torch::torch_diag(Diag+0.01)) } custom_loss_MVN = function(true, pred) { Sigma = create_cov(SigmaPar, SigmaDiag) logLik = torch::distr_multivariate_normal(pred, covariance_matrix = Sigma)$ log_prob(true) return(-logLik$mean()) } testthat::expect_error({ testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() nn.fit<- dnn(cbind(Sepal.Length, Sepal.Width, Petal.Length)~., data = datasets::iris, lr = 0.01, epochs = 200L, loss = custom_loss_MVN, verbose = FALSE, plot = FALSE, custom_parameters = list(SigmaDiag = rep(1., 3), SigmaPar = matrix(rnorm(6, sd = 0.001), 3, 2)) ) }, NA) }) testthat::test_that("DNN coef accuracy check",{ #testthat::skip_on_cran() #testthat::skip_on_ci() skip_if_no_torch() data <- as.data.frame(matrix(rnorm(n=200*10, mean= 0, sd=1),nrow=200,ncol=10)) coefs <- runif(n=10) data$Y <- apply(data,1,function(x) sum(x*coefs)) nn.fit<- dnn(Y~., data=data, hidden= NULL,epochs=200, verbose = FALSE, plot = FALSE) testthat::expect_lt(max(abs((unlist(coef(nn.fit))[-1] - coefs))), 1e02) }) testthat::test_that("DNN baseline loss check",{ testthat::skip_on_cran() testthat::skip_on_ci() skip_if_no_torch() Y = rbinom(50, 1, 0.5) X = rnorm(50) m = dnn(Y~., data = data.frame(Y = Y, X = X), loss = "binomial", epochs = 2L, verbose = FALSE, plot = FALSE) testthat::expect_equal( !!m$base_loss, !!(-sum(dbinom(Y, 1, (mean(Y)), log = TRUE)/50)), tolerance = 0.01) Y = rpois(50, 5) X = rnorm(50) m = dnn(Y~., data = data.frame(Y = Y, X = X), loss = "poisson", epochs = 2L, verbose = FALSE, plot = FALSE) testthat::expect_equal( !!m$base_loss, !!(-sum(dpois(Y, (mean(Y)), log = TRUE)/50)), tolerance = 0.01) Y = rnorm(50, 5) X = rnorm(50) m = dnn(Y~., data = data.frame(Y = Y, X = X), loss = "mse", epochs = 2L, verbose = FALSE, plot = FALSE) testthat::expect_equal( !!m$base_loss, !!mean((Y - mean(Y))**2 ), tolerance = 0.01) Y = rbinom(50, 2, 0.5) X = rnorm(50) m = dnn(Y~., data = data.frame(Y = as.factor(Y+1), X = X), loss = "softmax", epochs = 2L, verbose = FALSE, plot = FALSE) pred = log(matrix(table(as.factor(Y+1))/sum(table(as.factor(Y+1))), 50, 3, byrow = TRUE)) + log(3) loss = as.numeric(torch::nnf_cross_entropy(pred, torch::torch_tensor(Y+1, dtype = torch::torch_long()))) testthat::expect_equal( !!m$base_loss, !!loss , tolerance = 0.01) })