// Copyright Catch2 Authors // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at // https://www.boost.org/LICENSE_1_0.txt) // SPDX-License-Identifier: BSL-1.0 #include #include #include #include #include #include #include #include #include #include namespace { auto fakeTestCase(const char* name, const char* desc = "") { return Catch::makeTestCaseInfo("", { name, desc }, CATCH_INTERNAL_LINEINFO); } } TEST_CASE( "Parse test names and tags", "[command-line][test-spec]" ) { using Catch::parseTestSpec; using Catch::TestSpec; auto tcA = fakeTestCase( "a" ); auto tcB = fakeTestCase( "b", "[one][x]" ); auto tcC = fakeTestCase( "longer name with spaces", "[two][three][.][x]" ); auto tcD = fakeTestCase( "zlonger name with spacesz" ); SECTION( "Empty test spec should have no filters" ) { TestSpec spec; CHECK( spec.hasFilters() == false ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); } SECTION( "Test spec from empty string should have no filters" ) { TestSpec spec = parseTestSpec( "" ); CHECK( spec.hasFilters() == false ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); } SECTION( "Test spec from just a comma should have no filters" ) { TestSpec spec = parseTestSpec( "," ); CHECK( spec.hasFilters() == false ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); } SECTION( "Test spec from name should have one filter" ) { TestSpec spec = parseTestSpec( "b" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == true ); } SECTION( "Test spec from quoted name should have one filter" ) { TestSpec spec = parseTestSpec( "\"b\"" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == true ); } SECTION( "Test spec from name should have one filter" ) { TestSpec spec = parseTestSpec( "b" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == false ); } SECTION( "Wildcard at the start" ) { TestSpec spec = parseTestSpec( "*spaces" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == false ); CHECK( parseTestSpec( "*a" ).matches( *tcA ) == true ); } SECTION( "Wildcard at the end" ) { TestSpec spec = parseTestSpec( "long*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == false ); CHECK( parseTestSpec( "a*" ).matches( *tcA ) == true ); } SECTION( "Wildcard at both ends" ) { TestSpec spec = parseTestSpec( "*name*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == true ); CHECK( parseTestSpec( "*a*" ).matches( *tcA ) == true ); } SECTION( "Redundant wildcard at the start" ) { TestSpec spec = parseTestSpec( "*a" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == false ); } SECTION( "Redundant wildcard at the end" ) { TestSpec spec = parseTestSpec( "a*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == false ); } SECTION( "Redundant wildcard at both ends" ) { TestSpec spec = parseTestSpec( "*a*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == false ); } SECTION( "Wildcard at both ends, redundant at start" ) { TestSpec spec = parseTestSpec( "*longer*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == true ); } SECTION( "Just wildcard" ) { TestSpec spec = parseTestSpec( "*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == true ); } SECTION( "Single tag" ) { TestSpec spec = parseTestSpec( "[one]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == false ); } SECTION( "Single tag, two matches" ) { TestSpec spec = parseTestSpec( "[x]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == true ); } SECTION( "Two tags" ) { TestSpec spec = parseTestSpec( "[two][x]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); } SECTION( "Two tags, spare separated" ) { TestSpec spec = parseTestSpec( "[two] [x]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); } SECTION( "Wildcarded name and tag" ) { TestSpec spec = parseTestSpec( "*name*[x]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "Single tag exclusion" ) { TestSpec spec = parseTestSpec( "~[one]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); } SECTION( "One tag exclusion and one tag inclusion" ) { TestSpec spec = parseTestSpec( "~[two][x]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == false ); } SECTION( "One tag exclusion and one wldcarded name inclusion" ) { TestSpec spec = parseTestSpec( "~[two]*name*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == true ); } SECTION( "One tag exclusion, using exclude:, and one wldcarded name inclusion" ) { TestSpec spec = parseTestSpec( "exclude:[two]*name*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == true ); } SECTION( "name exclusion" ) { TestSpec spec = parseTestSpec( "~b" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == true ); } SECTION( "wildcarded name exclusion" ) { TestSpec spec = parseTestSpec( "~*name*" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "wildcarded name exclusion with tag inclusion" ) { TestSpec spec = parseTestSpec( "~*name*,[three]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "wildcarded name exclusion, using exclude:, with tag inclusion" ) { TestSpec spec = parseTestSpec( "exclude:*name*,[three]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == true ); CHECK( spec.matches( *tcB ) == true ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "two wildcarded names" ) { TestSpec spec = parseTestSpec( "\"longer*\"\"*spaces\"" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == true ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "empty tag" ) { TestSpec spec = parseTestSpec( "[]" ); CHECK( spec.hasFilters() == false ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "empty quoted name" ) { TestSpec spec = parseTestSpec( "\"\"" ); CHECK( spec.hasFilters() == false ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == false ); } SECTION( "quoted string followed by tag exclusion" ) { TestSpec spec = parseTestSpec( "\"*name*\"~[.]" ); CHECK( spec.hasFilters() == true ); CHECK( spec.matches( *tcA ) == false ); CHECK( spec.matches( *tcB ) == false ); CHECK( spec.matches( *tcC ) == false ); CHECK( spec.matches( *tcD ) == true ); } SECTION( "Leading and trailing spaces in test spec" ) { TestSpec spec = parseTestSpec( "\" aardvark \"" ); CHECK( spec.matches( *fakeTestCase( " aardvark " ) ) ); CHECK( spec.matches( *fakeTestCase( " aardvark" ) ) ); CHECK( spec.matches( *fakeTestCase( " aardvark " ) ) ); CHECK( spec.matches( *fakeTestCase( "aardvark " ) ) ); CHECK( spec.matches( *fakeTestCase( "aardvark" ) ) ); } SECTION( "Leading and trailing spaces in test name" ) { TestSpec spec = parseTestSpec( "aardvark" ); CHECK( spec.matches( *fakeTestCase( " aardvark " ) ) ); CHECK( spec.matches( *fakeTestCase( " aardvark" ) ) ); CHECK( spec.matches( *fakeTestCase( " aardvark " ) ) ); CHECK( spec.matches( *fakeTestCase( "aardvark " ) ) ); CHECK( spec.matches( *fakeTestCase( "aardvark" ) ) ); } SECTION("Shortened hide tags are split apart when parsing") { TestSpec spec = parseTestSpec("[.foo]"); CHECK(spec.matches(*fakeTestCase("hidden and foo", "[.][foo]"))); CHECK_FALSE(spec.matches(*fakeTestCase("only foo", "[foo]"))); } SECTION("Shortened hide tags also properly handle exclusion") { TestSpec spec = parseTestSpec("~[.foo]"); CHECK_FALSE(spec.matches(*fakeTestCase("hidden and foo", "[.][foo]"))); CHECK_FALSE(spec.matches(*fakeTestCase("only foo", "[foo]"))); CHECK_FALSE(spec.matches(*fakeTestCase("only hidden", "[.]"))); CHECK(spec.matches(*fakeTestCase("neither foo nor hidden", "[bar]"))); } } TEST_CASE("#1905 -- test spec parser properly clears internal state between compound tests", "[command-line][test-spec]") { using Catch::parseTestSpec; using Catch::TestSpec; // We ask for one of 2 different tests and the latter one of them has a , in name that needs escaping TestSpec spec = parseTestSpec(R"("spec . char","spec \, char")"); REQUIRE(spec.matches(*fakeTestCase("spec . char"))); REQUIRE(spec.matches(*fakeTestCase("spec , char"))); REQUIRE_FALSE(spec.matches(*fakeTestCase(R"(spec \, char)"))); } TEST_CASE("#1912 -- test spec parser handles escaping", "[command-line][test-spec]") { using Catch::parseTestSpec; using Catch::TestSpec; SECTION("Various parentheses") { TestSpec spec = parseTestSpec(R"(spec {a} char,spec \[a] char)"); REQUIRE(spec.matches(*fakeTestCase(R"(spec {a} char)"))); REQUIRE(spec.matches(*fakeTestCase(R"(spec [a] char)"))); REQUIRE_FALSE(spec.matches(*fakeTestCase("differs but has similar tag", "[a]"))); } SECTION("backslash in test name") { TestSpec spec = parseTestSpec(R"(spec \\ char)"); REQUIRE(spec.matches(*fakeTestCase(R"(spec \ char)"))); } } TEST_CASE( "Process can be configured on command line", "[config][command-line]" ) { using namespace Catch::Matchers; Catch::ConfigData config; auto cli = Catch::makeCommandLineParser(config); SECTION("empty args don't cause a crash") { auto result = cli.parse({""}); CHECK(result); CHECK(config.processName == ""); } SECTION("default - no arguments") { auto result = cli.parse({"test"}); CHECK(result); CHECK(config.processName == "test"); CHECK(config.shouldDebugBreak == false); CHECK(config.abortAfter == -1); CHECK(config.noThrow == false); CHECK( config.reporterSpecifications.empty() ); Catch::Config cfg(config); CHECK_FALSE(cfg.hasTestFilters()); // The Config is responsible for mixing in the default reporter auto expectedReporter = #if defined( CATCH_CONFIG_DEFAULT_REPORTER ) CATCH_CONFIG_DEFAULT_REPORTER #else "console" #endif ; CHECK( cfg.getReporterSpecs().size() == 1 ); CHECK( cfg.getReporterSpecs()[0] == Catch::ReporterSpec{ expectedReporter, {}, {}, {} } ); CHECK( cfg.getProcessedReporterSpecs().size() == 1 ); CHECK( cfg.getProcessedReporterSpecs()[0] == Catch::ProcessedReporterSpec{ expectedReporter, std::string{}, Catch::ColourMode::PlatformDefault, {} } ); } SECTION("test lists") { SECTION("Specify one test case using") { auto result = cli.parse({"test", "test1"}); CHECK(result); Catch::Config cfg(config); REQUIRE(cfg.hasTestFilters()); REQUIRE(cfg.testSpec().matches(*fakeTestCase("notIncluded")) == false); REQUIRE(cfg.testSpec().matches(*fakeTestCase("test1"))); } SECTION("Specify one test case exclusion using exclude:") { auto result = cli.parse({"test", "exclude:test1"}); CHECK(result); Catch::Config cfg(config); REQUIRE(cfg.hasTestFilters()); REQUIRE(cfg.testSpec().matches(*fakeTestCase("test1")) == false); REQUIRE(cfg.testSpec().matches(*fakeTestCase("alwaysIncluded"))); } SECTION("Specify one test case exclusion using ~") { auto result = cli.parse({"test", "~test1"}); CHECK(result); Catch::Config cfg(config); REQUIRE(cfg.hasTestFilters()); REQUIRE(cfg.testSpec().matches(*fakeTestCase("test1")) == false); REQUIRE(cfg.testSpec().matches(*fakeTestCase("alwaysIncluded"))); } } SECTION("reporter") { using vec_Specs = std::vector; using namespace std::string_literals; SECTION("-r/console") { auto result = cli.parse({"test", "-r", "console"}); CAPTURE(result.errorMessage()); CHECK(result); REQUIRE( config.reporterSpecifications == vec_Specs{ { "console", {}, {}, {} } } ); } SECTION("-r/xml") { auto result = cli.parse({"test", "-r", "xml"}); CAPTURE(result.errorMessage()); CHECK(result); REQUIRE( config.reporterSpecifications == vec_Specs{ { "xml", {}, {}, {} } } ); } SECTION("--reporter/junit") { auto result = cli.parse({"test", "--reporter", "junit"}); CAPTURE(result.errorMessage()); CHECK(result); REQUIRE( config.reporterSpecifications == vec_Specs{ { "junit", {}, {}, {} } } ); } SECTION("must match one of the available ones") { auto result = cli.parse({"test", "--reporter", "unsupported"}); CHECK(!result); REQUIRE_THAT(result.errorMessage(), ContainsSubstring("Unrecognized reporter")); } SECTION("With output file") { auto result = cli.parse({ "test", "-r", "console::out=out.txt" }); CAPTURE(result.errorMessage()); CHECK(result); REQUIRE( config.reporterSpecifications == vec_Specs{ { "console", "out.txt"s, {}, {} } } ); } SECTION("With Windows-like absolute path as output file") { auto result = cli.parse({ "test", "-r", "console::out=C:\\Temp\\out.txt" }); CAPTURE(result.errorMessage()); CHECK(result); REQUIRE( config.reporterSpecifications == vec_Specs{ { "console", "C:\\Temp\\out.txt"s, {}, {} } } ); } SECTION("Multiple reporters") { SECTION("All with output files") { CHECK(cli.parse({ "test", "-r", "xml::out=output.xml", "-r", "junit::out=output-junit.xml" })); REQUIRE( config.reporterSpecifications == vec_Specs{ { "xml", "output.xml"s, {}, {} }, { "junit", "output-junit.xml"s, {}, {} } } ); } SECTION("Mixed output files and default output") { CHECK(cli.parse({ "test", "-r", "xml::out=output.xml", "-r", "console" })); REQUIRE( config.reporterSpecifications == vec_Specs{ { "xml", "output.xml"s, {}, {} }, { "console", {}, {}, {} } } ); } SECTION("cannot have multiple reporters with default output") { auto result = cli.parse({ "test", "-r", "console", "-r", "xml::out=output.xml", "-r", "junit" }); CHECK(!result); REQUIRE_THAT(result.errorMessage(), ContainsSubstring("Only one reporter may have unspecified output file.")); } } } SECTION("debugger") { SECTION("-b") { CHECK(cli.parse({"test", "-b"})); REQUIRE(config.shouldDebugBreak == true); } SECTION("--break") { CHECK(cli.parse({"test", "--break"})); REQUIRE(config.shouldDebugBreak); } } SECTION("abort") { SECTION("-a aborts after first failure") { CHECK(cli.parse({"test", "-a"})); REQUIRE(config.abortAfter == 1); } SECTION("-x 2 aborts after two failures") { CHECK(cli.parse({"test", "-x", "2"})); REQUIRE(config.abortAfter == 2); } SECTION("-x must be numeric") { auto result = cli.parse({"test", "-x", "oops"}); CHECK(!result); REQUIRE_THAT(result.errorMessage(), ContainsSubstring("convert") && ContainsSubstring("oops")); } SECTION("wait-for-keypress") { SECTION("Accepted options") { using tuple_type = std::tuple; auto input = GENERATE(table({ tuple_type{"never", Catch::WaitForKeypress::Never}, tuple_type{"start", Catch::WaitForKeypress::BeforeStart}, tuple_type{"exit", Catch::WaitForKeypress::BeforeExit}, tuple_type{"both", Catch::WaitForKeypress::BeforeStartAndExit}, })); CHECK(cli.parse({"test", "--wait-for-keypress", std::get<0>(input)})); REQUIRE(config.waitForKeypress == std::get<1>(input)); } SECTION("invalid options are reported") { auto result = cli.parse({"test", "--wait-for-keypress", "sometimes"}); CHECK(!result); #ifndef CATCH_CONFIG_DISABLE_MATCHERS REQUIRE_THAT(result.errorMessage(), ContainsSubstring("never") && ContainsSubstring("both")); #endif } } } SECTION("nothrow") { SECTION("-e") { CHECK(cli.parse({"test", "-e"})); REQUIRE(config.noThrow); } SECTION("--nothrow") { CHECK(cli.parse({"test", "--nothrow"})); REQUIRE(config.noThrow); } } SECTION("output filename") { SECTION("-o filename") { CHECK(cli.parse({"test", "-o", "filename.ext"})); REQUIRE(config.defaultOutputFilename == "filename.ext"); } SECTION("--out") { CHECK(cli.parse({"test", "--out", "filename.ext"})); REQUIRE(config.defaultOutputFilename == "filename.ext"); } } SECTION("combinations") { SECTION("Single character flags can be combined") { CHECK(cli.parse({"test", "-abe"})); CHECK(config.abortAfter == 1); CHECK(config.shouldDebugBreak); CHECK(config.noThrow == true); } } SECTION( "use-colour") { using Catch::ColourMode; SECTION( "without option" ) { CHECK(cli.parse({"test"})); REQUIRE( config.defaultColourMode == ColourMode::PlatformDefault ); } SECTION( "auto" ) { CHECK( cli.parse( { "test", "--colour-mode", "default" } ) ); REQUIRE( config.defaultColourMode == ColourMode::PlatformDefault ); } SECTION( "yes" ) { CHECK(cli.parse({"test", "--colour-mode", "ansi"})); REQUIRE( config.defaultColourMode == ColourMode::ANSI ); } SECTION( "no" ) { CHECK(cli.parse({"test", "--colour-mode", "none"})); REQUIRE( config.defaultColourMode == ColourMode::None ); } SECTION( "error" ) { auto result = cli.parse({"test", "--colour-mode", "wrong"}); CHECK( !result ); CHECK_THAT( result.errorMessage(), ContainsSubstring( "colour mode must be one of" ) ); } } SECTION("Benchmark options") { SECTION("samples") { CHECK(cli.parse({ "test", "--benchmark-samples=200" })); REQUIRE(config.benchmarkSamples == 200); } SECTION("resamples") { CHECK(cli.parse({ "test", "--benchmark-resamples=20000" })); REQUIRE(config.benchmarkResamples == 20000); } SECTION("confidence-interval") { CHECK(cli.parse({ "test", "--benchmark-confidence-interval=0.99" })); REQUIRE(config.benchmarkConfidenceInterval == Catch::Approx(0.99)); } SECTION("no-analysis") { CHECK(cli.parse({ "test", "--benchmark-no-analysis" })); REQUIRE(config.benchmarkNoAnalysis); } SECTION("warmup-time") { CHECK(cli.parse({ "test", "--benchmark-warmup-time=10" })); REQUIRE(config.benchmarkWarmupTime == 10); } } } TEST_CASE("Parsing sharding-related cli flags", "[sharding]") { using namespace Catch::Matchers; Catch::ConfigData config; auto cli = Catch::makeCommandLineParser(config); SECTION("shard-count") { CHECK(cli.parse({ "test", "--shard-count=8" })); REQUIRE(config.shardCount == 8); } SECTION("Negative shard count reports error") { auto result = cli.parse({ "test", "--shard-count=-1" }); CHECK_FALSE(result); REQUIRE_THAT(result.errorMessage(), ContainsSubstring("Shard count must be a positive number")); } SECTION("Zero shard count reports error") { auto result = cli.parse({ "test", "--shard-count=0" }); CHECK_FALSE(result); REQUIRE_THAT(result.errorMessage(), ContainsSubstring("Shard count must be a positive number")); } SECTION("shard-index") { CHECK(cli.parse({ "test", "--shard-index=2" })); REQUIRE(config.shardIndex == 2); } SECTION("Negative shard index reports error") { auto result = cli.parse({ "test", "--shard-index=-12" }); CHECK_FALSE(result); REQUIRE_THAT(result.errorMessage(), ContainsSubstring("Shard index must be a non-negative number")); } SECTION("Shard index 0 is accepted") { CHECK(cli.parse({ "test", "--shard-index=0" })); REQUIRE(config.shardIndex == 0); } } TEST_CASE( "Parsing warnings", "[cli][warnings]" ) { using Catch::WarnAbout; Catch::ConfigData config; auto cli = Catch::makeCommandLineParser( config ); SECTION( "NoAssertions" ) { REQUIRE(cli.parse( { "test", "-w", "NoAssertions" } )); REQUIRE( config.warnings == WarnAbout::NoAssertions ); } SECTION( "NoTests is no longer supported" ) { REQUIRE_FALSE(cli.parse( { "test", "-w", "NoTests" } )); } SECTION( "Combining multiple warnings" ) { REQUIRE( cli.parse( { "test", "--warn", "NoAssertions", "--warn", "UnmatchedTestSpec" } ) ); REQUIRE( config.warnings == ( WarnAbout::NoAssertions | WarnAbout::UnmatchedTestSpec ) ); } } TEST_CASE("Test with special, characters \"in name", "[cli][regression]") { // This test case succeeds if we can invoke it from the CLI SUCCEED(); } TEST_CASE("Various suspicious reporter specs are rejected", "[cli][reporter-spec][approvals]") { Catch::ConfigData config; auto cli = Catch::makeCommandLineParser( config ); auto spec = GENERATE( as{}, "", "::console", "console::", "console::some-file::", "::console::some-file::" ); CAPTURE( spec ); auto result = cli.parse( { "test", "--reporter", spec } ); REQUIRE_FALSE( result ); } TEST_CASE("Win32 colour implementation is compile-time optional", "[approvals][cli][colours]") { Catch::ConfigData config; auto cli = Catch::makeCommandLineParser( config ); auto result = cli.parse( { "test", "--colour-mode", "win32" } ); #if defined( CATCH_CONFIG_COLOUR_WIN32 ) REQUIRE( result ); #else REQUIRE_FALSE( result ); #endif }