CRAN Package Check Results for Package VAJointSurv

Last updated on 2024-06-17 08:51:25 CEST.

Flavor Version Tinstall Tcheck Ttotal Status Flags
r-devel-linux-x86_64-debian-clang 0.1.0 333.26 127.51 460.77 ERROR
r-devel-linux-x86_64-debian-gcc 0.1.0 265.03 130.70 395.73 ERROR
r-devel-linux-x86_64-fedora-clang 0.1.0 720.97 ERROR
r-devel-linux-x86_64-fedora-gcc 0.1.0 813.75 ERROR
r-devel-windows-x86_64 0.1.0 277.00 141.00 418.00 ERROR
r-patched-linux-x86_64 0.1.0 294.07 179.71 473.78 OK
r-release-linux-x86_64 0.1.0 288.65 190.75 479.40 OK
r-release-macos-arm64 0.1.0 141.00 NOTE
r-release-macos-x86_64 0.1.0 133.00 NOTE
r-release-windows-x86_64 0.1.0 271.00 152.00 423.00 OK
r-oldrel-macos-arm64 0.1.0 180.00 NOTE
r-oldrel-macos-x86_64 0.1.0 283.00 NOTE
r-oldrel-windows-x86_64 0.1.0 349.00 182.00 531.00 OK

Additional issues

gcc-UBSAN valgrind

Check Details

Version: 0.1.0
Check: tests
Result: ERROR Running ‘testthat.R’ [4s/5s] Running the tests in ‘tests/testthat.R’ failed. Complete output: > library(testthat) > library(VAJointSurv) Loading required package: survival > > options(testthat.progress.max_fails = 1000) > test_check("VAJointSurv") *** caught segfault *** address 0x1, cause 'memory not mapped' Traceback: 1: eval_expansion(ptr, x, weights, der, lower_limit) 2: obj_cpp$eval(out_x) 3: eval(code, test_env) 4: eval(code, test_env) 5: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 6: doTryCatch(return(expr), name, parentenv, handler) 7: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 8: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 9: doTryCatch(return(expr), name, parentenv, handler) 10: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 11: tryCatchList(expr, classes, parentenv, handlers) 12: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 13: test_code(desc, code, env = parent.frame(), default_reporter = local_interactive_reporter()) 14: test_that("The C++ version of poly gives the right result", { in_x <- 2:5 obj_truth <- poly(in_x, degree = 3) out_x <- 1:6 truth <- predict(obj_truth, out_x) obj_cpp <- poly_term(in_x, degree = 3) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(truth), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, rbind(1, t(truth)), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 1:3, `^`))) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 0:3, `^`))) obj_cpp <- poly_term(in_x, degree = 0) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(0, 0, length(out_x))) obj_cpp <- poly_term(in_x, degree = 0, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(1, 1, length(out_x)))}) 15: eval(code, test_env) 16: eval(code, test_env) 17: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 18: doTryCatch(return(expr), name, parentenv, handler) 19: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 20: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 21: doTryCatch(return(expr), name, parentenv, handler) 22: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 23: tryCatchList(expr, classes, parentenv, handlers) 24: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 25: test_code(test = NULL, code = exprs, env = env, default_reporter = StopReporter$new()) 26: source_file(path, env = env(env), desc = desc, error_call = error_call) 27: FUN(X[[i]], ...) 28: lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call) 29: doTryCatch(return(expr), name, parentenv, handler) 30: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 31: tryCatchList(expr, classes, parentenv, handlers) 32: tryCatch(code, testthat_abort_reporter = function(cnd) { cat(conditionMessage(cnd), "\n") NULL}) 33: with_reporter(reporters$multi, lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call)) 34: test_files_serial(test_dir = test_dir, test_package = test_package, test_paths = test_paths, load_helpers = load_helpers, reporter = reporter, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, desc = desc, load_package = load_package, error_call = error_call) 35: test_files(test_dir = path, test_paths = test_paths, test_package = package, reporter = reporter, load_helpers = load_helpers, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, load_package = load_package, parallel = parallel) 36: test_dir("testthat", package = package, reporter = reporter, ..., load_package = "installed") 37: test_check("VAJointSurv") An irrecoverable exception occurred. R is aborting now ... Segmentation fault Flavor: r-devel-linux-x86_64-debian-clang

Version: 0.1.0
Check: tests
Result: ERROR Running ‘testthat.R’ [3s/4s] Running the tests in ‘tests/testthat.R’ failed. Complete output: > library(testthat) > library(VAJointSurv) Loading required package: survival > > options(testthat.progress.max_fails = 1000) > test_check("VAJointSurv") *** caught segfault *** address 0x1, cause 'memory not mapped' Traceback: 1: eval_expansion(ptr, x, weights, der, lower_limit) 2: obj_cpp$eval(out_x) 3: eval(code, test_env) 4: eval(code, test_env) 5: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 6: doTryCatch(return(expr), name, parentenv, handler) 7: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 8: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 9: doTryCatch(return(expr), name, parentenv, handler) 10: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 11: tryCatchList(expr, classes, parentenv, handlers) 12: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 13: test_code(desc, code, env = parent.frame(), default_reporter = local_interactive_reporter()) 14: test_that("The C++ version of poly gives the right result", { in_x <- 2:5 obj_truth <- poly(in_x, degree = 3) out_x <- 1:6 truth <- predict(obj_truth, out_x) obj_cpp <- poly_term(in_x, degree = 3) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(truth), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, rbind(1, t(truth)), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 1:3, `^`))) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 0:3, `^`))) obj_cpp <- poly_term(in_x, degree = 0) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(0, 0, length(out_x))) obj_cpp <- poly_term(in_x, degree = 0, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(1, 1, length(out_x)))}) 15: eval(code, test_env) 16: eval(code, test_env) 17: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 18: doTryCatch(return(expr), name, parentenv, handler) 19: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 20: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 21: doTryCatch(return(expr), name, parentenv, handler) 22: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 23: tryCatchList(expr, classes, parentenv, handlers) 24: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 25: test_code(test = NULL, code = exprs, env = env, default_reporter = StopReporter$new()) 26: source_file(path, env = env(env), desc = desc, error_call = error_call) 27: FUN(X[[i]], ...) 28: lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call) 29: doTryCatch(return(expr), name, parentenv, handler) 30: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 31: tryCatchList(expr, classes, parentenv, handlers) 32: tryCatch(code, testthat_abort_reporter = function(cnd) { cat(conditionMessage(cnd), "\n") NULL}) 33: with_reporter(reporters$multi, lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call)) 34: test_files_serial(test_dir = test_dir, test_package = test_package, test_paths = test_paths, load_helpers = load_helpers, reporter = reporter, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, desc = desc, load_package = load_package, error_call = error_call) 35: test_files(test_dir = path, test_paths = test_paths, test_package = package, reporter = reporter, load_helpers = load_helpers, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, load_package = load_package, parallel = parallel) 36: test_dir("testthat", package = package, reporter = reporter, ..., load_package = "installed") 37: test_check("VAJointSurv") An irrecoverable exception occurred. R is aborting now ... Segmentation fault Flavor: r-devel-linux-x86_64-debian-gcc

Version: 0.1.0
Check: tests
Result: ERROR Running ‘testthat.R’ [6s/13s] Running the tests in ‘tests/testthat.R’ failed. Complete output: > library(testthat) > library(VAJointSurv) Loading required package: survival > > options(testthat.progress.max_fails = 1000) > test_check("VAJointSurv") *** caught segfault *** address 0x1, cause 'memory not mapped' Traceback: 1: eval_expansion(ptr, x, weights, der, lower_limit) 2: obj_cpp$eval(out_x) 3: eval(code, test_env) 4: eval(code, test_env) 5: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 6: doTryCatch(return(expr), name, parentenv, handler) 7: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 8: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 9: doTryCatch(return(expr), name, parentenv, handler) 10: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 11: tryCatchList(expr, classes, parentenv, handlers) 12: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 13: test_code(desc, code, env = parent.frame(), default_reporter = local_interactive_reporter()) 14: test_that("The C++ version of poly gives the right result", { in_x <- 2:5 obj_truth <- poly(in_x, degree = 3) out_x <- 1:6 truth <- predict(obj_truth, out_x) obj_cpp <- poly_term(in_x, degree = 3) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(truth), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, rbind(1, t(truth)), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 1:3, `^`))) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 0:3, `^`))) obj_cpp <- poly_term(in_x, degree = 0) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(0, 0, length(out_x))) obj_cpp <- poly_term(in_x, degree = 0, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(1, 1, length(out_x)))}) 15: eval(code, test_env) 16: eval(code, test_env) 17: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 18: doTryCatch(return(expr), name, parentenv, handler) 19: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 20: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 21: doTryCatch(return(expr), name, parentenv, handler) 22: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 23: tryCatchList(expr, classes, parentenv, handlers) 24: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 25: test_code(test = NULL, code = exprs, env = env, default_reporter = StopReporter$new()) 26: source_file(path, env = env(env), desc = desc, error_call = error_call) 27: FUN(X[[i]], ...) 28: lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call) 29: doTryCatch(return(expr), name, parentenv, handler) 30: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 31: tryCatchList(expr, classes, parentenv, handlers) 32: tryCatch(code, testthat_abort_reporter = function(cnd) { cat(conditionMessage(cnd), "\n") NULL}) 33: with_reporter(reporters$multi, lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call)) 34: test_files_serial(test_dir = test_dir, test_package = test_package, test_paths = test_paths, load_helpers = load_helpers, reporter = reporter, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, desc = desc, load_package = load_package, error_call = error_call) 35: test_files(test_dir = path, test_paths = test_paths, test_package = package, reporter = reporter, load_helpers = load_helpers, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, load_package = load_package, parallel = parallel) 36: test_dir("testthat", package = package, reporter = reporter, ..., load_package = "installed") 37: test_check("VAJointSurv") An irrecoverable exception occurred. R is aborting now ... Flavor: r-devel-linux-x86_64-fedora-clang

Version: 0.1.0
Check: tests
Result: ERROR Running ‘testthat.R’ [5s/22s] Running the tests in ‘tests/testthat.R’ failed. Complete output: > library(testthat) > library(VAJointSurv) Loading required package: survival > > options(testthat.progress.max_fails = 1000) > test_check("VAJointSurv") *** caught segfault *** address 0x1, cause 'memory not mapped' Traceback: 1: eval_expansion(ptr, x, weights, der, lower_limit) 2: obj_cpp$eval(out_x) 3: eval(code, test_env) 4: eval(code, test_env) 5: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 6: doTryCatch(return(expr), name, parentenv, handler) 7: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 8: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 9: doTryCatch(return(expr), name, parentenv, handler) 10: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 11: tryCatchList(expr, classes, parentenv, handlers) 12: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 13: test_code(desc, code, env = parent.frame(), default_reporter = local_interactive_reporter()) 14: test_that("The C++ version of poly gives the right result", { in_x <- 2:5 obj_truth <- poly(in_x, degree = 3) out_x <- 1:6 truth <- predict(obj_truth, out_x) obj_cpp <- poly_term(in_x, degree = 3) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(truth), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, rbind(1, t(truth)), ignore_attr = TRUE) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 1:3, `^`))) obj_cpp <- poly_term(in_x, degree = 3, raw = TRUE, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, t(outer(out_x, 0:3, `^`))) obj_cpp <- poly_term(in_x, degree = 0) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(0, 0, length(out_x))) obj_cpp <- poly_term(in_x, degree = 0, intercept = TRUE) expect_s3_class(obj_cpp, "poly_term") expect_equal(obj_cpp$time, in_x) expansion <- obj_cpp$eval(out_x) expect_equal(expansion, matrix(1, 1, length(out_x)))}) 15: eval(code, test_env) 16: eval(code, test_env) 17: withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error) 18: doTryCatch(return(expr), name, parentenv, handler) 19: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 20: tryCatchList(expr, names[-nh], parentenv, handlers[-nh]) 21: doTryCatch(return(expr), name, parentenv, handler) 22: tryCatchOne(tryCatchList(expr, names[-nh], parentenv, handlers[-nh]), names[nh], parentenv, handlers[[nh]]) 23: tryCatchList(expr, classes, parentenv, handlers) 24: tryCatch(withCallingHandlers({ eval(code, test_env) if (!handled && !is.null(test)) { skip_empty() }}, expectation = handle_expectation, skip = handle_skip, warning = handle_warning, message = handle_message, error = handle_error), error = handle_fatal, skip = function(e) { }) 25: test_code(test = NULL, code = exprs, env = env, default_reporter = StopReporter$new()) 26: source_file(path, env = env(env), desc = desc, error_call = error_call) 27: FUN(X[[i]], ...) 28: lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call) 29: doTryCatch(return(expr), name, parentenv, handler) 30: tryCatchOne(expr, names, parentenv, handlers[[1L]]) 31: tryCatchList(expr, classes, parentenv, handlers) 32: tryCatch(code, testthat_abort_reporter = function(cnd) { cat(conditionMessage(cnd), "\n") NULL}) 33: with_reporter(reporters$multi, lapply(test_paths, test_one_file, env = env, desc = desc, error_call = error_call)) 34: test_files_serial(test_dir = test_dir, test_package = test_package, test_paths = test_paths, load_helpers = load_helpers, reporter = reporter, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, desc = desc, load_package = load_package, error_call = error_call) 35: test_files(test_dir = path, test_paths = test_paths, test_package = package, reporter = reporter, load_helpers = load_helpers, env = env, stop_on_failure = stop_on_failure, stop_on_warning = stop_on_warning, load_package = load_package, parallel = parallel) 36: test_dir("testthat", package = package, reporter = reporter, ..., load_package = "installed") 37: test_check("VAJointSurv") An irrecoverable exception occurred. R is aborting now ... Flavor: r-devel-linux-x86_64-fedora-gcc

Version: 0.1.0
Check: tests
Result: ERROR Running 'testthat.R' [3s] Running the tests in 'tests/testthat.R' failed. Complete output: > library(testthat) > library(VAJointSurv) Loading required package: survival > > options(testthat.progress.max_fails = 1000) > test_check("VAJointSurv") Flavor: r-devel-windows-x86_64

Version: 0.1.0
Check: installed package size
Result: NOTE installed size is 23.9Mb sub-directories of 1Mb or more: doc 2.2Mb libs 21.5Mb Flavors: r-release-macos-arm64, r-release-macos-x86_64, r-oldrel-macos-arm64, r-oldrel-macos-x86_64