/* * Created by Phil on 22/10/2010. * Copyright 2010 Two Blue Cubes Ltd * * Distributed under the Boost Software License, Version 1.0. (See accompanying * file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) */ #ifdef __clang__ #pragma clang diagnostic ignored "-Wpadded" #endif #include "catch_self_test.hpp" #include "internal/catch_line_wrap.h" TEST_CASE( "selftest/main", "Runs all Catch self tests and checks their results" ) { using namespace Catch; /////////////////////////////////////////////////////////////////////////// SECTION( "selftest/expected result", "Tests do what they claim" ) { SECTION( "selftest/expected result/failing tests", "Tests in the 'failing' branch fail" ) { MetaTestRunner::runMatching( "./failing/*", MetaTestRunner::Expected::ToFail, 0, 2 ); } SECTION( "selftest/expected result/succeeding tests", "Tests in the 'succeeding' branch succeed" ) { MetaTestRunner::runMatching( "./succeeding/*", MetaTestRunner::Expected::ToSucceed, 1, 2 ); } } /////////////////////////////////////////////////////////////////////////// SECTION( "selftest/test counts", "Number of test cases that run is fixed" ) { EmbeddedRunner runner; SECTION( "selftest/test counts/succeeding tests", "Number of 'succeeding' tests is fixed" ) { Totals totals = runner.runMatching( "./succeeding/*", 0, 2 ); CHECK( totals.assertions.passed == 296 ); CHECK( totals.assertions.failed == 0 ); } SECTION( "selftest/test counts/failing tests", "Number of 'failing' tests is fixed" ) { Totals totals = runner.runMatching( "./failing/*", 1, 2 ); CHECK( totals.assertions.passed == 1 ); CHECK( totals.assertions.failed == 73 ); } } } TEST_CASE( "meta/Misc/Sections", "looped tests" ) { Catch::EmbeddedRunner runner; Catch::Totals totals = runner.runMatching( "./mixed/Misc/Sections/nested2", 0, 1 ); CHECK( totals.assertions.passed == 2 ); CHECK( totals.assertions.failed == 1 ); } #ifdef __clang__ #pragma clang diagnostic ignored "-Wweak-vtables" #endif #include "../../include/internal/catch_commandline.hpp" #include "../../include/internal/catch_test_spec.h" #include "../../include/reporters/catch_reporter_basic.hpp" #include "../../include/reporters/catch_reporter_xml.hpp" #include "../../include/reporters/catch_reporter_junit.hpp" template void parseIntoConfig( const char * (&argv)[size], Catch::ConfigData& config ) { static Catch::AllOptions options; options.parseIntoConfig( Catch::CommandParser( size, argv ), config ); } template std::string parseIntoConfigAndReturnError( const char * (&argv)[size], Catch::ConfigData& config ) { try { parseIntoConfig( argv, config ); FAIL( "expected exception" ); } catch( std::exception& ex ) { return ex.what(); } return ""; } inline Catch::TestCase fakeTestCase( const char* name ){ return Catch::makeTestCase( NULL, "", name, "", CATCH_INTERNAL_LINEINFO ); } TEST_CASE( "selftest/parser/2", "ConfigData" ) { Catch::ConfigData config; SECTION( "default", "" ) { const char* argv[] = { "test" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); CHECK( config.shouldDebugBreak == false ); CHECK( config.cutoff == -1 ); CHECK( config.allowThrows == true ); CHECK( config.reporter.empty() ); } SECTION( "test lists", "" ) { SECTION( "-t/1", "Specify one test case using -t" ) { const char* argv[] = { "test", "-t", "test1" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "notIncluded" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) ); } SECTION( "-t/exclude:1", "Specify one test case exclusion using -t exclude:" ) { const char* argv[] = { "test", "-t", "exclude:test1" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "alwaysIncluded" ) ) ); } SECTION( "--test/1", "Specify one test case using --test" ) { const char* argv[] = { "test", "--test", "test1" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "notIncluded" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) ); } SECTION( "--test/exclude:1", "Specify one test case exclusion using --test exclude:" ) { const char* argv[] = { "test", "--test", "exclude:test1" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "alwaysIncluded" ) ) ); } SECTION( "--test/exclude:2", "Specify one test case exclusion using --test ~" ) { const char* argv[] = { "test", "--test", "~test1" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "alwaysIncluded" ) ) ); } SECTION( "-t/2", "Specify two test cases using -t" ) { const char* argv[] = { "test", "-t", "test1", "test2" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "notIncluded" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test2" ) ) ); } SECTION( "-t/0", "When no test names are supplied it is an error" ) { const char* argv[] = { "test", "-t" }; REQUIRE_THAT( parseIntoConfigAndReturnError( argv, config ), Contains( "at least 1" ) ); } } SECTION( "reporter", "" ) { SECTION( "-r/console", "" ) { const char* argv[] = { "test", "-r", "console" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.reporter == "console" ); } SECTION( "-r/xml", "" ) { const char* argv[] = { "test", "-r", "xml" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.reporter == "xml" ); } SECTION( "--reporter/junit", "" ) { const char* argv[] = { "test", "--reporter", "junit" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.reporter == "junit" ); } SECTION( "-r/error", "reporter config only accepts one argument" ) { const char* argv[] = { "test", "-r", "one", "two" }; REQUIRE_THAT( parseIntoConfigAndReturnError( argv, config ), Contains( "1 argument" ) ); } } SECTION( "debugger", "" ) { SECTION( "-b", "" ) { const char* argv[] = { "test", "-b" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.shouldDebugBreak == true ); } SECTION( "--break", "" ) { const char* argv[] = { "test", "--break" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.shouldDebugBreak ); } SECTION( "-b", "break option has no arguments" ) { const char* argv[] = { "test", "-b", "unexpected" }; REQUIRE_THAT( parseIntoConfigAndReturnError( argv, config ), Contains( "0 arguments" ) ); } } SECTION( "abort", "" ) { SECTION( "-a", "" ) { const char* argv[] = { "test", "-a" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.cutoff == 1 ); } SECTION( "-a/2", "" ) { const char* argv[] = { "test", "-a", "2" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.cutoff == 2 ); } SECTION( "-a/error/0", "" ) { const char* argv[] = { "test", "-a", "0" }; REQUIRE_THAT( parseIntoConfigAndReturnError( argv, config ), Contains( "greater than zero" ) ); } SECTION( "-a/error/non numeric", "" ) { const char* argv[] = { "test", "-a", "oops" }; REQUIRE_THAT( parseIntoConfigAndReturnError( argv, config ), Contains( "greater than zero" ) ); } SECTION( "-a/error/two args", "cutoff only takes one argument" ) { const char* argv[] = { "test", "-a", "1", "2" }; REQUIRE_THAT( parseIntoConfigAndReturnError( argv, config ), Contains( "0 and 1 argument" ) ); } } SECTION( "nothrow", "" ) { SECTION( "-nt", "" ) { const char* argv[] = { "test", "-nt" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.allowThrows == false ); } SECTION( "--nothrow", "" ) { const char* argv[] = { "test", "--nothrow" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.allowThrows == false ); } } SECTION( "streams", "" ) { SECTION( "-o filename", "" ) { const char* argv[] = { "test", "-o", "filename.ext" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.outputFilename == "filename.ext" ); REQUIRE( config.stream.empty() ); } SECTION( "-o %stdout", "" ) { const char* argv[] = { "test", "-o", "%stdout" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.stream == "stdout" ); REQUIRE( config.outputFilename.empty() ); } SECTION( "--out", "" ) { const char* argv[] = { "test", "--out", "filename.ext" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); REQUIRE( config.outputFilename == "filename.ext" ); } } SECTION( "combinations", "" ) { SECTION( "-a -b", "" ) { const char* argv[] = { "test", "-a", "-b", "-nt" }; CHECK_NOTHROW( parseIntoConfig( argv, config ) ); CHECK( config.cutoff == 1 ); CHECK( config.shouldDebugBreak ); CHECK( config.allowThrows == false ); } } } TEST_CASE( "selftest/test filter", "Individual filters" ) { Catch::TestCaseFilter matchAny( "*" ); Catch::TestCaseFilter matchNone( "*", Catch::IfFilterMatches::ExcludeTests ); CHECK( matchAny.shouldInclude( fakeTestCase( "any" ) )); CHECK( matchNone.shouldInclude( fakeTestCase( "any" ) ) == false ); Catch::TestCaseFilter matchHidden( "./*" ); Catch::TestCaseFilter matchNonHidden( "./*", Catch::IfFilterMatches::ExcludeTests ); CHECK( matchHidden.shouldInclude( fakeTestCase( "any" ) ) == false ); CHECK( matchNonHidden.shouldInclude( fakeTestCase( "any" ) ) ); CHECK( matchHidden.shouldInclude( fakeTestCase( "./any" ) ) ); CHECK( matchNonHidden.shouldInclude( fakeTestCase( "./any" ) ) == false ); } TEST_CASE( "selftest/test filters", "Sets of filters" ) { Catch::TestCaseFilter matchHidden( "./*" ); Catch::TestCaseFilter dontMatchA( "./a*", Catch::IfFilterMatches::ExcludeTests ); Catch::TestCaseFilters filters( "" ); filters.addFilter( matchHidden ); filters.addFilter( dontMatchA ); CHECK( matchHidden.shouldInclude( fakeTestCase( "./something" ) ) ); CHECK( filters.shouldInclude( fakeTestCase( "any" ) ) == false ); CHECK( filters.shouldInclude( fakeTestCase( "./something" ) ) ); CHECK( filters.shouldInclude( fakeTestCase( "./anything" ) ) == false ); } TEST_CASE( "selftest/filter/prefix wildcard", "Individual filters with wildcards at the start" ) { Catch::TestCaseFilter matchBadgers( "*badger" ); CHECK( matchBadgers.shouldInclude( fakeTestCase( "big badger" ) )); CHECK( matchBadgers.shouldInclude( fakeTestCase( "little badgers" ) ) == false ); } TEST_CASE( "selftest/filter/wildcard at both ends", "Individual filters with wildcards at both ends" ) { Catch::TestCaseFilter matchBadgers( "*badger*" ); CHECK( matchBadgers.shouldInclude( fakeTestCase( "big badger" ) )); CHECK( matchBadgers.shouldInclude( fakeTestCase( "little badgers" ) ) ); CHECK( matchBadgers.shouldInclude( fakeTestCase( "badgers are big" ) ) ); CHECK( matchBadgers.shouldInclude( fakeTestCase( "hedgehogs" ) ) == false ); } template int getArgc( const char * (&)[size] ) { return size; } TEST_CASE( "selftest/option parsers", "" ) { Catch::ConfigData config; Catch::SharedImpl tcOpt; Catch::OptionParser& opt = tcOpt; const char* argv[] = { "test", "-t", "test1" }; Catch::CommandParser parser( getArgc( argv ), argv ); CHECK_NOTHROW( opt.parseIntoConfig( parser, config ) ); REQUIRE( config.filters.size() == 1 ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "notIncluded" ) ) == false ); REQUIRE( config.filters[0].shouldInclude( fakeTestCase( "test1" ) ) ); } TEST_CASE( "selftest/tags", "" ) { std::string p1 = "[one]"; std::string p2 = "[one],[two]"; std::string p3 = "[one][two]"; std::string p4 = "[one][two],[three]"; std::string p5 = "[one][two]~[hide],[three]"; SECTION( "one tag", "" ) { Catch::TestCase oneTag = makeTestCase( NULL, "", "test", "[one]", CATCH_INTERNAL_LINEINFO ); CHECK( oneTag.getTestCaseInfo().description == "" ); CHECK( oneTag.hasTag( "one" ) ); CHECK( oneTag.getTags().size() == 1 ); CHECK( oneTag.matchesTags( p1 ) == true ); CHECK( oneTag.matchesTags( p2 ) == true ); CHECK( oneTag.matchesTags( p3 ) == false ); CHECK( oneTag.matchesTags( p4 ) == false ); CHECK( oneTag.matchesTags( p5 ) == false ); } SECTION( "two tags", "" ) { Catch::TestCase twoTags= makeTestCase( NULL, "", "test", "[one][two]", CATCH_INTERNAL_LINEINFO ); CHECK( twoTags.getTestCaseInfo().description == "" ); CHECK( twoTags.hasTag( "one" ) ); CHECK( twoTags.hasTag( "two" ) ); CHECK( twoTags.hasTag( "Two" ) ); CHECK( twoTags.hasTag( "three" ) == false ); CHECK( twoTags.getTags().size() == 2 ); CHECK( twoTags.matchesTags( p1 ) == true ); CHECK( twoTags.matchesTags( p2 ) == true ); CHECK( twoTags.matchesTags( p3 ) == true ); CHECK( twoTags.matchesTags( p4 ) == true ); CHECK( twoTags.matchesTags( p5 ) == true ); } SECTION( "one tag with characters either side", "" ) { Catch::TestCase oneTagWithExtras = makeTestCase( NULL, "", "test", "12[one]34", CATCH_INTERNAL_LINEINFO ); CHECK( oneTagWithExtras.getTestCaseInfo().description == "1234" ); CHECK( oneTagWithExtras.hasTag( "one" ) ); CHECK( oneTagWithExtras.hasTag( "two" ) == false ); CHECK( oneTagWithExtras.getTags().size() == 1 ); } SECTION( "start of a tag, but not closed", "" ) { Catch::TestCase oneTagOpen = makeTestCase( NULL, "", "test", "[one", CATCH_INTERNAL_LINEINFO ); CHECK( oneTagOpen.getTestCaseInfo().description == "[one" ); CHECK( oneTagOpen.hasTag( "one" ) == false ); CHECK( oneTagOpen.getTags().size() == 0 ); } SECTION( "hidden", "" ) { Catch::TestCase oneTag = makeTestCase( NULL, "", "test", "[hide]", CATCH_INTERNAL_LINEINFO ); CHECK( oneTag.getTestCaseInfo().description == "" ); CHECK( oneTag.hasTag( "hide" ) ); CHECK( oneTag.isHidden() ); CHECK( oneTag.matchesTags( "~[hide]" ) == false ); } } TEST_CASE( "Long strings can be wrapped", "[wrap]" ) { SECTION( "plain string", "" ) { // guide: 123456789012345678 std::string testString = "one two three four"; SECTION( "No wrapping", "" ) { CHECK( Catch::LineWrapper().setRight( 80 ).wrap( testString ).toString() == testString ); CHECK( Catch::LineWrapper().setRight( 18 ).wrap( testString ).toString() == testString ); } SECTION( "Wrapped once", "" ) { CHECK( Catch::LineWrapper().setRight( 17 ).wrap( testString ).toString() == "one two three\nfour" ); CHECK( Catch::LineWrapper().setRight( 16 ).wrap( testString ).toString() == "one two three\nfour" ); CHECK( Catch::LineWrapper().setRight( 15 ).wrap( testString ).toString() == "one two three\nfour" ); CHECK( Catch::LineWrapper().setRight( 14 ).wrap( testString ).toString() == "one two three\nfour" ); CHECK( Catch::LineWrapper().setRight( 13 ).wrap( testString ).toString() == "one two\nthree four" ); } SECTION( "Wrapped twice", "" ) { CHECK( Catch::LineWrapper().setRight( 9 ).wrap( testString ).toString() == "one two\nthree\nfour" ); CHECK( Catch::LineWrapper().setRight( 8 ).wrap( testString ).toString() == "one two\nthree\nfour" ); } SECTION( "Wrapped three times", "" ) { CHECK( Catch::LineWrapper().setRight( 7 ).wrap( testString ).toString() == "one\ntwo\nthree\nfour" ); CHECK( Catch::LineWrapper().setRight( 5 ).wrap( testString ).toString() == "one\ntwo\nthree\nfour" ); } SECTION( "Short wrap", "" ) { CHECK( Catch::LineWrapper().setRight( 4 ).wrap( "abcdef" ).toString() == "abc-\ndef" ); CHECK( Catch::LineWrapper().setRight( 4 ).wrap( "abcdefg" ).toString() == "abc-\ndefg" ); CHECK( Catch::LineWrapper().setRight( 4 ).wrap("abcdefgh" ).toString() == "abc-\ndef-\ngh" ); CHECK( Catch::LineWrapper().setRight( 4 ).wrap( testString ).toString() == "one\ntwo\nthr-\nee\nfour" ); CHECK( Catch::LineWrapper().setRight( 3 ).wrap( testString ).toString() == "one\ntwo\nth-\nree\nfo-\nur" ); } SECTION( "As container", "" ) { Catch::LineWrapper wrapper; wrapper.setRight( 7 ).wrap( testString ); CHECK( wrapper.size() == 4 ); CHECK( wrapper[0] == "one" ); CHECK( wrapper[1] == "two" ); CHECK( wrapper[2] == "three" ); CHECK( wrapper[3] == "four" ); } } SECTION( "With newlines", "" ) { // guide: 1234567890123456789 std::string testString = "one two\nthree four"; SECTION( "No wrapping" , "" ) { CHECK( Catch::LineWrapper().setRight( 80 ).wrap( testString ).toString() == testString ); CHECK( Catch::LineWrapper().setRight( 18 ).wrap( testString ).toString() == testString ); CHECK( Catch::LineWrapper().setRight( 10 ).wrap( testString ).toString() == testString ); } SECTION( "Trailing newline" , "" ) { CHECK( Catch::LineWrapper().setRight( 10 ).wrap( "abcdef\n" ).toString() == "abcdef\n" ); CHECK( Catch::LineWrapper().setRight( 6 ).wrap( "abcdef" ).toString() == "abcdef" ); CHECK( Catch::LineWrapper().setRight( 6 ).wrap( "abcdef\n" ).toString() == "abcdef\n" ); } SECTION( "Wrapped once", "" ) { CHECK( Catch::LineWrapper().setRight( 9 ).wrap( testString ).toString() == "one two\nthree\nfour" ); CHECK( Catch::LineWrapper().setRight( 8 ).wrap( testString ).toString() == "one two\nthree\nfour" ); CHECK( Catch::LineWrapper().setRight( 7 ).wrap( testString ).toString() == "one two\nthree\nfour" ); } SECTION( "Wrapped twice", "" ) { CHECK( Catch::LineWrapper().setRight( 6 ).wrap( testString ).toString() == "one\ntwo\nthree\nfour" ); } } }