#-----------------cgeck install julia packages---- test_that("insatll_Julia_packages", { skip_on_cran() expect_no_error(installJuliaPackages()) }) #-----------------No covariates, constrained-------------------------------- test_that("GP2Works", { skip_on_cran() length <- 300 par <- c(0.5,0.2,0.05,0.3,0.3) set.seed(123499) data <- cocoSim(order = 2, type = "GP", par = par, length = length) cocoSim(order = 2, type = "GP", par = par, length = length, julia = TRUE, julia_seed = 1234992) fit <- cocoReg(order = 2, type = "GP", data = data, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) test_that("Poisson2Works", { skip_on_cran() length <- 300 par <- c(0.5, 0.2, 0.05, 0.3) set.seed(12347) data <- cocoSim(order = 2, type = "Poisson", par = par, length = length) cocoSim(order = 2, type = "Poisson", par = par, length = length, julia = TRUE, julia_seed = 12342399) fit <- cocoReg(order = 2, type = "Poisson", data = data, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) test_that("GP1Works", { skip_on_cran() length <- 300 par <- c(0.5, 0.2, 0.2) set.seed(12341) data <- cocoSim(order = 1, type = "GP", par = par, length = length) cocoSim(order = 1, type = "GP", par = par, length = length, julia = TRUE, julia_seed = 123423299) fit <- cocoReg(order = 1, type = "GP", data = data, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) test_that("Poisson1Works", { skip_on_cran() length <- 300 par <- c(0.5, 0.2) set.seed(12345) data <- cocoSim(order = 1, type = "Poisson", par = par, length = length) cocoSim(order = 1, type = "Poisson", par = par, length = length, julia = TRUE, julia_seed = 1234232199) fit <- cocoReg(order = 1, type = "Poisson", data = data, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) #-----------------Covariates, constrained-------------------------------- test_that("Poisson1Works_cov", { skip_on_cran() ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.8, 0.2, -0.2) set.seed(1234) data <- cocoSim(order = 1, type = "Poisson", par = par, xreg = cov, length = length) cocoSim(order = 1, type = "Poisson", par = par, xreg = cov, length = length, julia = TRUE, julia_seed = 123499) fit <- cocoReg(order = 1, type = "Poisson", data = data, xreg = cov, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, xcast = cov[1,], julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) test_that("GP1Works_cov", { skip_on_cran() ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.8, 0.2, 0.2, -0.2) set.seed(1234567) data <- cocoSim(order = 1, type = "GP", par = par, xreg = cov, length = length) cocoSim(order = 1, type = "GP", par = par, xreg = cov, length = length, julia = TRUE, julia_seed = 123499) fit <- cocoReg(order = 1, type = "GP", data = data, xreg = cov, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, xcast = cov[1,], julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) test_that("Poisson2Works_cov", { skip_on_cran() ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.2, 0.05, 0.3, 0.2, -0.2) set.seed(12345678) data <- cocoSim(order = 2, type = "Poisson", par = par, xreg = cov, length = length) cocoSim(order = 2, type = "Poisson", par = par, xreg = cov, length = length, julia = TRUE, julia_seed = 123499) fit <- cocoReg(order = 2, type = "Poisson", data = data, xreg = cov, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, xcast = cov[1,], julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) test_that("GP2Works_cov", { skip_on_cran() ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.2, 0.05, 0.3, 0.2, 0.2, -0.2) set.seed(123456798) data <- cocoSim(order = 2, type = "GP", par = par, xreg = cov, length = length) cocoSim(order = 2, type = "GP", par = par, xreg = cov, length = length, julia = TRUE, julia_seed = 123499) fit <- cocoReg(order = 2, type = "GP", data = data, xreg = cov, julia_installed = TRUE) for (i in c(TRUE, FALSE)){ cocoPit(fit, julia=i) cocoResid(fit) summary(fit, julia=i) cocoScore(fit, julia=i) cocoForecastOneStep(fit, xcast = cov[1,], julia=i) cocoBoot(fit, rep.Bootstrap = 6, julia=i) } expect_no_error(fit) }) #-----------------No covariates, unconstrained-------------------------------- test_that("GP2Works_constr", { length <- 300 par <- c(0.5,0.2,0.05,0.3,0.3) set.seed(123499) data <- cocoSim(order = 2, type = "GP", par = par, length = length) fit <- cocoReg(order = 2, type = "GP", data = data, constrained.optim = FALSE) expect_no_error(fit) }) test_that("Poisson2Works_constr", { length <- 300 par <- c(0.5, 0.2, 0.05, 0.3) set.seed(12347) data <- cocoSim(order = 2, type = "Poisson", par = par, length = length) fit <- cocoReg(order = 2, type = "Poisson", data = data, constrained.optim = FALSE) expect_no_error(fit) }) test_that("GP1Works_constr", { length <- 300 par <- c(0.5, 0.2, 0.2) set.seed(12341) data <- cocoSim(order = 1, type = "GP", par = par, length = length) fit <- cocoReg(order = 1, type = "GP", data = data, constrained.optim = FALSE) expect_no_error(fit) }) test_that("Poisson1Works_constr", { length <- 300 par <- c(0.5, 0.2) set.seed(12345) data <- cocoSim(order = 1, type = "Poisson", par = par, length = length) fit <- cocoReg(order = 1, type = "Poisson", data = data, constrained.optim = FALSE) expect_no_error(fit) }) #-----------------Covariates, unconstrained-------------------------------- test_that("Poisson1Works_cov_constr", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.8, 0.2, -0.2) set.seed(1234) data <- cocoSim(order = 1, type = "Poisson", par = par, xreg = cov, length = length) fit <- cocoReg(order = 1, type = "Poisson", data = data, xreg = cov, constrained.optim = FALSE) expect_no_error(fit) }) test_that("GP1Works_cov_constr", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.8, 0.2, 0.2, -0.2) set.seed(1234567) data <- cocoSim(order = 1, type = "GP", par = par, xreg = cov, length = length) fit <- cocoReg(order = 1, type = "GP", data = data, xreg = cov, constrained.optim = FALSE) expect_no_error(fit) }) test_that("GP2Works_cov_uncosntrained", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.2, 0.05, 0.3, 0.2, 0.2, -0.2) set.seed(123456798) data <- cocoSim(order = 2, type = "GP", par = par, xreg = cov, length = length) fit <- cocoReg(order = 2, type = "GP", data = data, xreg = cov, constrained.optim = FALSE) expect_no_error(fit) }) test_that("Poisson2Works_cov_constr", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.2, 0.05, 0.3, 0.2, -0.2) set.seed(12345678) data <- cocoSim(order = 2, type = "Poisson", par = par, xreg = cov, length = length) fit <- cocoReg(order = 2, type = "Poisson", data = data, xreg = cov, constrained.optim = FALSE) expect_no_error(fit) }) #-----------------Simulate initial time series------------- test_that("initialize_time_series", { length <- 300 par <- c(0.5,0.2,0.05,0.3,0.3) set.seed(123499) data <- cocoSim(order = 2, type = "GP", par = par, length = length) data2 <- cocoSim(order = 2, type = "GP", par = par, length = length, init = data) expect_no_error(data) }) #----------------Custom starting values covariates------------------------------ test_that("custom_start_values_GP2", { length <- 300 par <- c(0.5,0.2,0.05,0.3,0.3) set.seed(122133499) data <- cocoSim(order = 2, type = "GP", par = par, length = length) fit <- cocoReg(order = 2, type = "GP", data = data, start = par) expect_no_error(fit) }) test_that("custom_start_values_Poisson2", { length <- 300 par <- c(0.5, 0.2, 0.05, 0.3) set.seed(13423499) data <- cocoSim(order = 2, type = "Poisson", par = par, length = length) fit <- cocoReg(order = 2, type = "Poisson", data = data, start = par) expect_no_error(fit) }) test_that("custom_start_values_GP1", { length <- 300 par <- c(0.5,0.2,0.3) set.seed(12323499) data <- cocoSim(order = 1, type = "GP", par = par, length = length) fit <- cocoReg(order = 1, type = "GP", data = data, start = par) expect_no_error(fit) }) test_that("custom_start_values_Poisson1", { length <- 300 par <- c(0.5,0.2) set.seed(12349923) data <- cocoSim(order = 1, type = "Poisson", par = par, length = length) fit <- cocoReg(order = 1, type = "Poisson", data = data, start = par) expect_no_error(fit) }) #----------------Custom starting values covariates------------------------------ test_that("Poisson1Works_cov_2", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.8, 0.2, -0.2) set.seed(1234) data <- cocoSim(order = 1, type = "Poisson", par = par, xreg = cov, length = length) fit <- cocoReg(order = 1, type = "Poisson", data = data, xreg = cov) expect_no_error(fit) }) test_that("GP1Works_cov_2", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.8, 0.2, 0.2, -0.2) set.seed(1234567) data <- cocoSim(order = 1, type = "GP", par = par, xreg = cov, length = length) fit <- cocoReg(order = 1, type = "GP", data = data, xreg = cov) cocoPit(fit) cocoResid(fit) summary(fit) cocoScore(fit) cocoForecastOneStep(fit, xcast = cov[1,]) cocoBoot(fit, rep.Bootstrap = 6) expect_no_error(fit) }) test_that("Poisson2Works_cov_2", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.2, 0.05, 0.3, 0.2, -0.2) set.seed(12345678) data <- cocoSim(order = 2, type = "Poisson", par = par, xreg = cov, length = length) fit <- cocoReg(order = 2, type = "Poisson", data = data, xreg = cov) cocoPit(fit) cocoResid(fit) summary(fit) cocoScore(fit) cocoForecastOneStep(fit, xcast = cov[1,]) cocoBoot(fit, rep.Bootstrap = 6) expect_no_error(fit) }) test_that("GP2Works_cov_2", { ##Poisson1 model with covariates length <- 300 period <- 50 sin <- sin(2*pi/period*(1:length)) cos <- cos(2*pi/period*(1:length)) cov <- cbind(sin, cos) par <- c(0.2, 0.05, 0.3, 0.2, 0.2, -0.2) set.seed(123456798) data <- cocoSim(order = 2, type = "GP", par = par, xreg = cov, length = length) fit <- cocoReg(order = 2, type = "GP", data = data, xreg = cov) cocoPit(fit) cocoResid(fit) summary(fit) cocoScore(fit) cocoForecastOneStep(fit, xcast = cov[1,]) cocoBoot(fit, rep.Bootstrap = 6) expect_no_error(fit) }) #----------------Wrong models no covariates----------------------------------- test_that("wrong_modelsGP2", { skip_on_cran() length <- 300 par <- c(0.5,0.2,0.05,0.3,0.3) set.seed(123499) data <- cocoSim(order = 2, type = "GP", par = par, length = length) for (julia in c(TRUE, FALSE)){ fit <- cocoReg(order = 1, type = "Poisson", data = data, julia = julia) fit <- cocoReg(order = 2, type = "Poisson", data = data, julia = julia) fit <- cocoReg(order = 1, type = "GP", data = data, julia = julia) } expect_no_error(fit) }) test_that("wrong_modelsPoisson2", { skip_on_cran() length <- 300 par <- c(0.5, 0.2, 0.05, 0.3) set.seed(12347) data <- cocoSim(order = 2, type = "Poisson", par = par, length = length) for (julia in c(TRUE, FALSE)){ fit <- cocoReg(order = 1, type = "Poisson", data = data, julia = julia) fit <- cocoReg(order = 1, type = "GP", data = data, julia = julia) fit <- cocoReg(order = 2, type = "GP", data = data, julia = julia) } expect_no_error(fit) }) test_that("wrong_modelsGP1", { skip_on_cran() length <- 300 par <- c(0.5, 0.2, 0.2) set.seed(12341) data <- cocoSim(order = 1, type = "GP", par = par, length = length) for (julia in c(TRUE, FALSE)){ fit <- cocoReg(order = 1, type = "Poisson", data = data, julia = julia) fit <- cocoReg(order = 2, type = "Poisson", data = data, julia = julia) fit <- cocoReg(order = 2, type = "GP", data = data, julia = julia) } expect_no_error(fit) }) test_that("wrong_modelsPoisson1", { skip_on_cran() length <- 300 par <- c(0.5, 0.2) set.seed(12345) data <- cocoSim(order = 1, type = "Poisson", par = par, length = length) for (julia in c(TRUE, FALSE)){ fit <- cocoReg(order = 2, type = "Poisson", data = data, julia = julia) fit <- cocoReg(order = 1, type = "GP", data = data, julia = julia) fit <- cocoReg(order = 2, type = "GP", data = data, julia = julia) } expect_no_error(fit) })