/* * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include "Options.h" namespace android { namespace gtest_extras { TEST(OptionsTest, unknown_arg) { CapturedStdout capture; std::vector cur_args{"ignore", "--unknown_arg"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("Unknown argument: --unknown_arg\n", capture.str()); } TEST(OptionsTest, unknown_arg_single_dash) { CapturedStdout capture; std::vector cur_args{"ignore", "-unknown_arg"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("Unknown argument: -unknown_arg\n", capture.str()); } TEST(OptionsTest, extra_arg) { CapturedStdout capture; std::vector cur_args{"ignore", "extra"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("Unexpected argument 'extra'\n", capture.str()); } TEST(OptionsTest, check_defaults) { std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_LT(0U, options.job_count()); EXPECT_EQ(90000ULL, options.deadline_threshold_ms()); EXPECT_EQ(2000ULL, options.slow_threshold_ms()); EXPECT_EQ(0ULL, options.shard_index()); EXPECT_EQ(0ULL, options.total_shards()); EXPECT_EQ("auto", options.color()); EXPECT_EQ("", options.xml_file()); EXPECT_EQ("", options.filter()); EXPECT_EQ(1, options.num_iterations()); EXPECT_TRUE(options.print_time()); EXPECT_TRUE(options.gtest_format()); EXPECT_FALSE(options.allow_disabled_tests()); EXPECT_FALSE(options.list_tests()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_format) { std::vector cur_args{"ignore", "--gtest_format"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.gtest_format()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_format_error_argument) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_format=not_allowed"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_format does not take an argument.\n", capture.str()); } TEST(OptionsTest, no_gtest_format) { std::vector cur_args{"ignore", "--no_gtest_format"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_FALSE(options.gtest_format()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, no_gtest_format_and_gtest_format) { std::vector cur_args{"ignore", "--no_gtest_format", "--gtest_format"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_FALSE(options.gtest_format()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, no_gtest_format_error_argument) { CapturedStdout capture; std::vector cur_args{"ignore", "--no_gtest_format=not_allowed"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--no_gtest_format does not take an argument.\n", capture.str()); } TEST(OptionsTest, gtest_list_tests) { std::vector cur_args{"ignore", "--gtest_list_tests"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.list_tests()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_list_tests_error_argument) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_list_tests=nothing"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_list_tests does not take an argument.\n", capture.str()); } TEST(OptionsTest, job_count_single_arg) { std::vector cur_args{"ignore", "-j11"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(11U, options.job_count()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, job_count_second_arg) { std::vector cur_args{"ignore", "-j", "23"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(23U, options.job_count()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, job_count_error_single_arg) { CapturedStdout capture; std::vector cur_args{"ignore", "-j0bad"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("-j value is not formatted as a numeric value (0bad)\n", capture.str()); } TEST(OptionsTest, job_count_error_second_arg) { CapturedStdout capture; std::vector cur_args{"ignore", "-j", "34b"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("-j value is not formatted as a numeric value (34b)\n", capture.str()); } TEST(OptionsTest, job_count_error_no_arg) { CapturedStdout capture; std::vector cur_args{"ignore", "-j"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("-j requires an argument.\n", capture.str()); } TEST(OptionsTest, deadline_threshold_ms) { std::vector cur_args{"ignore", "--deadline_threshold_ms=3200"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(3200ULL, options.deadline_threshold_ms()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, deadline_threshold_ms_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--deadline_threshold_ms"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--deadline_threshold_ms requires an argument.\n", capture.str()); } TEST(OptionsTest, deadline_threshold_ms_error_not_a_number) { CapturedStdout capture; std::vector cur_args{"ignore", "--deadline_threshold_ms=bad"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--deadline_threshold_ms value is not formatted as a numeric value (bad)\n", capture.str()); } TEST(OptionsTest, deadline_threshold_ms_error_illegal_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--deadline_threshold_ms=0"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--deadline_threshold_ms requires a number greater than zero.\n", capture.str()); } TEST(OptionsTest, slow_threshold_ms) { std::vector cur_args{"ignore", "--slow_threshold_ms=4580"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(4580ULL, options.slow_threshold_ms()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, slow_threshold_ms_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--slow_threshold_ms"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--slow_threshold_ms requires an argument.\n", capture.str()); } TEST(OptionsTest, slow_threshold_ms_error_not_a_number) { CapturedStdout capture; Options options; std::vector cur_args{"ignore", "--slow_threshold_ms=not"}; std::vector child_args; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--slow_threshold_ms value is not formatted as a numeric value (not)\n", capture.str()); } TEST(OptionsTest, slow_threshold_ms_error_illegal_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--slow_threshold_ms=0"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--slow_threshold_ms requires a number greater than zero.\n", capture.str()); } TEST(OptionsTest, shard_index) { ASSERT_NE(-1, setenv("GTEST_SHARD_INDEX", "100", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(100ULL, options.shard_index()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, setenv("GTEST_SHARD_INDEX", "0", 1)); ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(0ULL, options.shard_index()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_SHARD_INDEX")); } TEST(OptionsTest, shard_index_error_no_value) { ASSERT_NE(-1, setenv("GTEST_SHARD_INDEX", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_SHARD_INDEX] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_SHARD_INDEX")); } TEST(OptionsTest, shard_index_error_not_a_number) { ASSERT_NE(-1, setenv("GTEST_SHARD_INDEX", "bad", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_SHARD_INDEX] value is not formatted as a numeric value (bad)\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_SHARD_INDEX")); } TEST(OptionsTest, shard_index_error_not_from_env) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_shard_index=100"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_shard_index is only supported as an environment variable.\n", capture.str()); } TEST(OptionsTest, total_shards) { ASSERT_NE(-1, setenv("GTEST_TOTAL_SHARDS", "500", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(500ULL, options.total_shards()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, setenv("GTEST_TOTAL_SHARDS", "0", 1)); ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(0ULL, options.total_shards()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_TOTAL_SHARDS")); } TEST(OptionsTest, total_shards_error_no_value) { ASSERT_NE(-1, setenv("GTEST_TOTAL_SHARDS", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_TOTAL_SHARDS] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_TOTAL_SHARDS")); } TEST(OptionsTest, total_shards_error_not_a_number) { ASSERT_NE(-1, setenv("GTEST_TOTAL_SHARDS", "bad", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_TOTAL_SHARDS] value is not formatted as a numeric value (bad)\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_TOTAL_SHARDS")); } TEST(OptionsTest, total_shards_error_not_from_env) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_total_shards=100"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_total_shards is only supported as an environment variable.\n", capture.str()); } TEST(OptionsTest, gtest_color) { std::vector cur_args{"ignore", "--gtest_color=yes"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("yes", options.color()); EXPECT_EQ((std::vector{"ignore", "--gtest_color=yes"}), child_args); } TEST(OptionsTest, gtest_color_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_color="}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_color requires an argument.\n", capture.str()); } TEST(OptionsTest, gtest_filter) { std::vector cur_args{"ignore", "--gtest_filter=filter"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("filter", options.filter()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_filter_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_filter"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_filter requires an argument.\n", capture.str()); } TEST(OptionsTest, gtest_also_run_disabled_tests) { std::vector cur_args{"ignore", "--gtest_also_run_disabled_tests"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.allow_disabled_tests()); EXPECT_EQ((std::vector{"ignore", "--gtest_also_run_disabled_tests"}), child_args); } TEST(OptionsTest, gtest_also_run_disabled_tests_error_argument) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_also_run_disabled_tests=nothing"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_also_run_disabled_tests does not take an argument.\n", capture.str()); } TEST(OptionsTest, gtest_repeat) { std::vector cur_args{"ignore", "--gtest_repeat=10"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(10, options.num_iterations()); EXPECT_EQ(std::vector{"ignore"}, child_args); cur_args = std::vector{"ignore", "--gtest_repeat=-1"}; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(-1, options.num_iterations()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_repeat_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_repeat"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_repeat requires an argument.\n", capture.str()); } TEST(OptionsTest, gtest_repeat_error_overflow) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_repeat=2147483747"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_repeat value overflows (2147483747)\n", capture.str()); capture.Reset(); capture.Start(); cur_args = std::vector{"ignore", "--gtest_repeat=-2147483747"}; parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_repeat value overflows (-2147483747)\n", capture.str()); } TEST(OptionsTest, gtest_print_time) { std::vector cur_args{"ignore", "--gtest_print_time"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.print_time()); EXPECT_EQ(std::vector{"ignore"}, child_args); cur_args = std::vector{"ignore", "--gtest_print_time=0"}; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_FALSE(options.print_time()); EXPECT_EQ(std::vector{"ignore"}, child_args); cur_args = std::vector{"ignore", "--gtest_print_time=1"}; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.print_time()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_output) { std::vector cur_args{"ignore", "--gtest_output=xml:/file.xml"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("/file.xml", options.xml_file()); EXPECT_EQ(std::vector{"ignore"}, child_args); cur_args = std::vector{"ignore", "--gtest_output=xml:/directory/"}; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("/directory/test_details.xml", options.xml_file()); EXPECT_EQ(std::vector{"ignore"}, child_args); cur_args = std::vector{"ignore", "--gtest_output=xml:cwd.xml"}; ASSERT_TRUE(options.Process(cur_args, &child_args)); char* cwd = getcwd(nullptr, 0); std::string expected_file(cwd); expected_file += "/cwd.xml"; free(cwd); EXPECT_EQ(expected_file, options.xml_file()); EXPECT_EQ(std::vector{"ignore"}, child_args); } TEST(OptionsTest, gtest_output_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_output"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_output requires an argument.\n", capture.str()); } TEST(OptionsTest, gtest_output_error_no_xml) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_output=xml:"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_output requires a file name after xml:\n", capture.str()); capture.Reset(); capture.Start(); cur_args = std::vector{"ignore", "--gtest_output=not_xml"}; parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_output only supports an xml output file.\n", capture.str()); } TEST(OptionsTest, gtest_death_test_style) { std::vector cur_args{"ignore", "--gtest_death_test_style=something"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ((std::vector{"ignore", "--gtest_death_test_style=something"}), child_args); } TEST(OptionsTest, gtest_death_test_style_error_no_value) { CapturedStdout capture; std::vector cur_args{"ignore", "--gtest_death_test_style"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("--gtest_death_test_style requires an argument.\n", capture.str()); } static void CheckIncompatible(const std::string arg) { CapturedStdout capture; std::vector cur_args{"ignore", arg.c_str()}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly for arg " + arg; EXPECT_EQ(arg + " is not compatible with isolation runs.\n", capture.str()); } TEST(OptionsTest, incompatible) { ASSERT_NO_FATAL_FAILURE(CheckIncompatible("--gtest_break_on_failure")); ASSERT_NO_FATAL_FAILURE(CheckIncompatible("--gtest_catch_exceptions")); ASSERT_NO_FATAL_FAILURE(CheckIncompatible("--gtest_random_seed")); ASSERT_NO_FATAL_FAILURE(CheckIncompatible("--gtest_shuffle")); ASSERT_NO_FATAL_FAILURE(CheckIncompatible("--gtest_stream_result_to")); ASSERT_NO_FATAL_FAILURE(CheckIncompatible("--gtest_throw_on_failure")); } TEST(OptionsTest, verify_non_env_variables) { EXPECT_NE(-1, setenv("DEADLINE_THRESHOLD_MS", "VALUE", 1)); EXPECT_NE(-1, setenv("SLOW_THRESHOLD_MS", "VALUE", 1)); EXPECT_NE(-1, setenv("GTEST_FORMAT", "VALUE", 1)); EXPECT_NE(-1, setenv("GTEST_LIST_TESTS", "VALUE", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; EXPECT_TRUE(options.Process(cur_args, &child_args)); EXPECT_LT(0U, options.job_count()); EXPECT_EQ(90000ULL, options.deadline_threshold_ms()); EXPECT_EQ(2000ULL, options.slow_threshold_ms()); EXPECT_EQ("auto", options.color()); EXPECT_EQ("", options.xml_file()); EXPECT_EQ("", options.filter()); EXPECT_EQ(1, options.num_iterations()); EXPECT_TRUE(options.print_time()); EXPECT_TRUE(options.gtest_format()); EXPECT_FALSE(options.allow_disabled_tests()); EXPECT_FALSE(options.list_tests()); EXPECT_EQ(std::vector{"ignore"}, child_args); EXPECT_NE(-1, unsetenv("DEADLINE_THRESHOLD_MS")); EXPECT_NE(-1, unsetenv("SLOW_THRESHOLD_MS")); EXPECT_NE(-1, unsetenv("GTEST_FORMAT")); EXPECT_NE(-1, unsetenv("GTEST_LIST_TESTS")); } TEST(OptionsTest, gtest_filter_from_env) { ASSERT_NE(-1, setenv("GTEST_FILTER", "filter_value", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; EXPECT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("filter_value", options.filter()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_FILTER")); } TEST(OptionsTest, gtest_filter_error_no_value_from_env) { ASSERT_NE(-1, setenv("GTEST_FILTER", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_FILTER] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_FILTER")); } TEST(OptionsTest, gtest_also_run_disabled_tests_from_env) { ASSERT_NE(-1, setenv("GTEST_ALSO_RUN_DISABLED_TESTS", "", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.allow_disabled_tests()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_ALSO_RUN_DISABLED_TESTS")); } TEST(OptionsTest, gtest_also_run_disabled_tests_error_argument_from_env) { ASSERT_NE(-1, setenv("GTEST_ALSO_RUN_DISABLED_TESTS", "one", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_ALSO_RUN_DISABLED_TESTS] does not take an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_ALSO_RUN_DISABLED_TESTS")); } TEST(OptionsTest, gtest_repeat_from_env) { ASSERT_NE(-1, setenv("GTEST_REPEAT", "34", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(34, options.num_iterations()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_REPEAT")); } TEST(OptionsTest, gtest_repeat_error_no_value_from_env) { ASSERT_NE(-1, setenv("GTEST_REPEAT", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_REPEAT] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_REPEAT")); } TEST(OptionsTest, gtest_repeat_error_overflow_from_env) { ASSERT_NE(-1, setenv("GTEST_REPEAT", "2147483747", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_REPEAT] value overflows (2147483747)\n", capture.str()); ASSERT_NE(-1, setenv("GTEST_REPEAT", "-2147483747", 1)); capture.Reset(); capture.Start(); parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_REPEAT] value overflows (-2147483747)\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_REPEAT")); } TEST(OptionsTest, gtest_color_from_env) { ASSERT_NE(-1, setenv("GTEST_COLOR", "yes", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("yes", options.color()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_COLOR")); } TEST(OptionsTest, gtest_color_error_no_value_from_env) { ASSERT_NE(-1, setenv("GTEST_COLOR", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_COLOR] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_COLOR")); } TEST(OptionsTest, gtest_print_time_from_env) { ASSERT_NE(-1, setenv("GTEST_PRINT_TIME", "0", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_FALSE(options.print_time()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_PRINT_TIME")); } TEST(OptionsTest, gtest_print_time_no_value_from_env) { ASSERT_NE(-1, setenv("GTEST_PRINT_TIME", "", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_TRUE(options.print_time()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_PRINT_TIME")); } TEST(OptionsTest, gtest_output_from_env) { ASSERT_NE(-1, setenv("GTEST_OUTPUT", "xml:/file.xml", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ("/file.xml", options.xml_file()); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_PRINT_TIME")); } TEST(OptionsTest, gtest_output_error_no_value_from_env) { ASSERT_NE(-1, setenv("GTEST_OUTPUT", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_OUTPUT] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_OUTPUT")); } TEST(OptionsTest, gtest_output_error_no_xml_from_env) { ASSERT_NE(-1, setenv("GTEST_OUTPUT", "xml:", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_OUTPUT] requires a file name after xml:\n", capture.str()); ASSERT_NE(-1, setenv("GTEST_OUTPUT", "not_xml", 1)); capture.Reset(); capture.Start(); parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_OUTPUT] only supports an xml output file.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_OUTPUT")); } TEST(OptionsTest, gtest_death_test_style_from_env) { ASSERT_NE(-1, setenv("GTEST_DEATH_TEST_STYLE", "fast", 1)); std::vector cur_args{"ignore"}; std::vector child_args; Options options; ASSERT_TRUE(options.Process(cur_args, &child_args)); EXPECT_EQ(std::vector{"ignore"}, child_args); ASSERT_NE(-1, unsetenv("GTEST_DEATH_TEST_STYLE")); } TEST(OptionsTest, gtest_death_test_style_error_no_value_from_env) { ASSERT_NE(-1, setenv("GTEST_DEATH_TEST_STYLE", "", 1)); CapturedStdout capture; std::vector cur_args{"ignore"}; std::vector child_args; Options options; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly."; EXPECT_EQ("env[GTEST_DEATH_TEST_STYLE] requires an argument.\n", capture.str()); ASSERT_NE(-1, unsetenv("GTEST_DEATH_TEST_STYLE")); } static void CheckIncompatibleFromEnv(const std::string env_var) { ASSERT_NE(-1, setenv(env_var.c_str(), "", 1)); CapturedStdout capture; Options options; std::vector cur_args{"ignore"}; std::vector child_args; bool parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly for env var " + env_var; EXPECT_EQ("env[" + env_var + "] is not compatible with isolation runs.\n", capture.str()); ASSERT_NE(-1, setenv(env_var.c_str(), "not_empty", 1)); capture.Reset(); capture.Start(); parsed = options.Process(cur_args, &child_args); capture.Stop(); ASSERT_FALSE(parsed) << "Process did not fail properly for env var " + env_var; EXPECT_EQ("env[" + env_var + "] is not compatible with isolation runs.\n", capture.str()); ASSERT_NE(-1, unsetenv(env_var.c_str())); } TEST(OptionsTest, incompatible_from_env) { ASSERT_NO_FATAL_FAILURE(CheckIncompatibleFromEnv("GTEST_BREAK_ON_FAILURE")); ASSERT_NO_FATAL_FAILURE(CheckIncompatibleFromEnv("GTEST_CATCH_EXCEPTIONS")); ASSERT_NO_FATAL_FAILURE(CheckIncompatibleFromEnv("GTEST_RANDOM_SEED")); ASSERT_NO_FATAL_FAILURE(CheckIncompatibleFromEnv("GTEST_SHUFFLE")); ASSERT_NO_FATAL_FAILURE(CheckIncompatibleFromEnv("GTEST_STREAM_RESULT_TO")); ASSERT_NO_FATAL_FAILURE(CheckIncompatibleFromEnv("GTEST_THROW_ON_FAILURE")); } } // namespace gtest_extras } // namespace android