catch2/tests/SelfTest/Baselines/tap.sw.multi.approved.txt
Stefan Haller 69d62abc9a Provide overloads for {Unordered}RangeEquals taking a std::initializer_list
This allows writing something like

  const auto v = calculateSomeVectorOfInts();
  CHECK_THAT(v, RangeEquals({1, 2, 3}));

Fixes #2915.
2024-10-14 21:02:03 +02:00

4561 lines
254 KiB
Plaintext

# filters: "*" ~[!nonportable] ~[!benchmark] ~[approvals]
# rng-seed: 1
# # A test name that starts with a #
ok {test-number} - with 1 message: 'yay'
# #1027: Bitfields can be captured
ok {test-number} - y.v == 0 for: 0 == 0
# #1027: Bitfields can be captured
ok {test-number} - 0 == y.v for: 0 == 0
# #1147
ok {test-number} - t1 == t2 for: {?} == {?}
# #1147
ok {test-number} - t1 != t2 for: {?} != {?}
# #1147
ok {test-number} - t1 < t2 for: {?} < {?}
# #1147
ok {test-number} - t1 > t2 for: {?} > {?}
# #1147
ok {test-number} - t1 <= t2 for: {?} <= {?}
# #1147
ok {test-number} - t1 >= t2 for: {?} >= {?}
# #1175 - Hidden Test
ok {test-number} -
# #1238
ok {test-number} - std::memcmp(uarr, "123", sizeof(uarr)) == 0 for: 0 == 0 with 2 messages: 'uarr := "123"' and 'sarr := "456"'
# #1238
ok {test-number} - std::memcmp(sarr, "456", sizeof(sarr)) == 0 for: 0 == 0 with 2 messages: 'uarr := "123"' and 'sarr := "456"'
# #1245
ok {test-number} -
# #1319: Sections can have description (even if it is not saved
ok {test-number} -
# #1403
ok {test-number} - h1 == h2 for: [1403 helper] == [1403 helper]
# #1455 - INFO and WARN can start with a linebreak
warning {test-number} - '
This info message starts with a linebreak' with 1 message: '
This warning message starts with a linebreak'
# #1514: stderr/stdout is not captured in tests aborted by an exception
not ok {test-number} - explicitly with 1 message: '1514'
# #1548
ok {test-number} - std::is_same<TypeList<int>, TypeList<int>>::value for: true
# #1905 -- test spec parser properly clears internal state between compound tests
ok {test-number} - spec.matches(*fakeTestCase("spec . char")) for: true
# #1905 -- test spec parser properly clears internal state between compound tests
ok {test-number} - spec.matches(*fakeTestCase("spec , char")) for: true
# #1905 -- test spec parser properly clears internal state between compound tests
ok {test-number} - !(spec.matches(*fakeTestCase(R"(spec \, char)"))) for: !false
# #1912 -- test spec parser handles escaping
ok {test-number} - spec.matches(*fakeTestCase(R"(spec {a} char)")) for: true
# #1912 -- test spec parser handles escaping
ok {test-number} - spec.matches(*fakeTestCase(R"(spec [a] char)")) for: true
# #1912 -- test spec parser handles escaping
ok {test-number} - !(spec.matches(*fakeTestCase("differs but has similar tag", "[a]"))) for: !false
# #1912 -- test spec parser handles escaping
ok {test-number} - spec.matches(*fakeTestCase(R"(spec \ char)")) for: true
# #1913 - GENERATE inside a for loop should not keep recreating the generator
ok {test-number} - counter < 7 for: 3 < 7
# #1913 - GENERATE inside a for loop should not keep recreating the generator
ok {test-number} - counter < 7 for: 6 < 7
# #1913 - GENERATEs can share a line
ok {test-number} - i != j for: 1 != 3
# #1913 - GENERATEs can share a line
ok {test-number} - i != j for: 1 != 4
# #1913 - GENERATEs can share a line
ok {test-number} - i != j for: 2 != 3
# #1913 - GENERATEs can share a line
ok {test-number} - i != j for: 2 != 4
# #1938 - GENERATE after a section
ok {test-number} - with 1 message: 'A'
# #1938 - GENERATE after a section
ok {test-number} - m for: 1
# #1938 - GENERATE after a section
ok {test-number} - m for: 2
# #1938 - GENERATE after a section
ok {test-number} - m for: 3
# #1938 - Section followed by flat generate
ok {test-number} - 1
# #1938 - Section followed by flat generate
ok {test-number} - m for: 2
# #1938 - Section followed by flat generate
ok {test-number} - m for: 3
# #1938 - flat generate
ok {test-number} - m for: 1
# #1938 - flat generate
ok {test-number} - m for: 2
# #1938 - flat generate
ok {test-number} - m for: 3
# #1938 - mixed sections and generates
ok {test-number} - with 1 message: 'A'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 1' and 'j := 3' and 'k := 5'
# #1938 - mixed sections and generates
ok {test-number} - with 1 message: 'B'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 1' and 'j := 3' and 'k := 6'
# #1938 - mixed sections and generates
ok {test-number} - with 1 message: 'B'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 1' and 'j := 4' and 'k := 5'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 1' and 'j := 4' and 'k := 6'
# #1938 - mixed sections and generates
ok {test-number} - with 1 message: 'A'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 2' and 'j := 3' and 'k := 5'
# #1938 - mixed sections and generates
ok {test-number} - with 1 message: 'B'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 2' and 'j := 3' and 'k := 6'
# #1938 - mixed sections and generates
ok {test-number} - with 1 message: 'B'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 2' and 'j := 4' and 'k := 5'
# #1938 - mixed sections and generates
ok {test-number} - with 3 messages: 'i := 2' and 'j := 4' and 'k := 6'
# #1938 - nested generate
ok {test-number} - m for: 1
# #1938 - nested generate
ok {test-number} - n for: 1
# #1938 - nested generate
ok {test-number} - m for: 1
# #1938 - nested generate
ok {test-number} - n for: 2
# #1938 - nested generate
ok {test-number} - m for: 1
# #1938 - nested generate
ok {test-number} - n for: 3
# #1938 - nested generate
ok {test-number} - m for: 2
# #1938 - nested generate
ok {test-number} - n for: 1
# #1938 - nested generate
ok {test-number} - m for: 2
# #1938 - nested generate
ok {test-number} - n for: 2
# #1938 - nested generate
ok {test-number} - m for: 2
# #1938 - nested generate
ok {test-number} - n for: 3
# #1938 - nested generate
ok {test-number} - m for: 3
# #1938 - nested generate
ok {test-number} - n for: 1
# #1938 - nested generate
ok {test-number} - m for: 3
# #1938 - nested generate
ok {test-number} - n for: 2
# #1938 - nested generate
ok {test-number} - m for: 3
# #1938 - nested generate
ok {test-number} - n for: 3
# #1954 - 7 arg template test case sig compiles - 1, 1, 1, 1, 1, 0, 0
ok {test-number} -
# #1954 - 7 arg template test case sig compiles - 5, 1, 1, 1, 1, 0, 0
ok {test-number} -
# #1954 - 7 arg template test case sig compiles - 5, 3, 1, 1, 1, 0, 0
ok {test-number} -
# #2152 - ULP checks between differently signed values were wrong - double
ok {test-number} - smallest_non_zero, WithinULP( -smallest_non_zero, 2 ) for: 0.0 is within 2 ULPs of -4.9406564584124654e-324 ([-1.4821969375237396e-323, 4.9406564584124654e-324])
# #2152 - ULP checks between differently signed values were wrong - double
ok {test-number} - smallest_non_zero, !WithinULP( -smallest_non_zero, 1 ) for: 0.0 not is within 1 ULPs of -4.9406564584124654e-324 ([-9.8813129168249309e-324, -0.0000000000000000e+00])
# #2152 - ULP checks between differently signed values were wrong - float
ok {test-number} - smallest_non_zero, WithinULP( -smallest_non_zero, 2 ) for: 0.0f is within 2 ULPs of -1.40129846e-45f ([-4.20389539e-45, 1.40129846e-45])
# #2152 - ULP checks between differently signed values were wrong - float
ok {test-number} - smallest_non_zero, !WithinULP( -smallest_non_zero, 1 ) for: 0.0f not is within 1 ULPs of -1.40129846e-45f ([-2.80259693e-45, -0.00000000e+00])
# #2615 - Throwing in constructor generator fails test case but does not abort
not ok {test-number} - unexpected exception with message: 'failure to init'
# #748 - captures with unexpected exceptions
not ok {test-number} - unexpected exception with message: 'answer := 42' with 1 message: 'expected exception'
# #748 - captures with unexpected exceptions
not ok {test-number} - unexpected exception with message: 'answer := 42'; expression was: thisThrows() with 1 message: 'expected exception'
# #748 - captures with unexpected exceptions
ok {test-number} - thisThrows() with 1 message: 'answer := 42'
# #809
ok {test-number} - 42 == f for: 42 == {?}
# #833
ok {test-number} - a == t for: 3 == 3
# #833
ok {test-number} - a == t for: 3 == 3
# #833
ok {test-number} - throws_int(true)
# #833
ok {test-number} - throws_int(true), int
# #833
ok {test-number} - throws_int(false)
# #833
ok {test-number} - "aaa", Catch::Matchers::EndsWith("aaa") for: "aaa" ends with: "aaa"
# #833
ok {test-number} - templated_tests<int>(3) for: true
# #835 -- errno should not be touched by Catch2
not ok {test-number} - f() == 0 for: 1 == 0
# #835 -- errno should not be touched by Catch2
ok {test-number} - errno_after == 1 for: 1 == 1
# #872
ok {test-number} - x == 4 for: {?} == 4 with 1 message: 'dummy := 0'
# #961 -- Dynamically created sections should all be reported
ok {test-number} - with 1 message: 'Everything is OK'
# #961 -- Dynamically created sections should all be reported
ok {test-number} - with 1 message: 'Everything is OK'
# #961 -- Dynamically created sections should all be reported
ok {test-number} - with 1 message: 'Everything is OK'
# #961 -- Dynamically created sections should all be reported
ok {test-number} - with 1 message: 'Everything is OK'
# #961 -- Dynamically created sections should all be reported
ok {test-number} - with 1 message: 'Everything is OK'
# 'Not' checks that should fail
not ok {test-number} - false != false
# 'Not' checks that should fail
not ok {test-number} - true != true
# 'Not' checks that should fail
not ok {test-number} - !true for: false
# 'Not' checks that should fail
not ok {test-number} - !(true) for: !true
# 'Not' checks that should fail
not ok {test-number} - !trueValue for: false
# 'Not' checks that should fail
not ok {test-number} - !(trueValue) for: !true
# 'Not' checks that should fail
not ok {test-number} - !(1 == 1) for: false
# 'Not' checks that should fail
not ok {test-number} - !(1 == 1)
# 'Not' checks that should succeed
ok {test-number} - false == false
# 'Not' checks that should succeed
ok {test-number} - true == true
# 'Not' checks that should succeed
ok {test-number} - !false for: true
# 'Not' checks that should succeed
ok {test-number} - !(false) for: !false
# 'Not' checks that should succeed
ok {test-number} - !falseValue for: true
# 'Not' checks that should succeed
ok {test-number} - !(falseValue) for: !false
# 'Not' checks that should succeed
ok {test-number} - !(1 == 2) for: true
# 'Not' checks that should succeed
ok {test-number} - !(1 == 2)
# (unimplemented) static bools can be evaluated
ok {test-number} - is_true<true>::value == true for: true == true
# (unimplemented) static bools can be evaluated
ok {test-number} - true == is_true<true>::value for: true == true
# (unimplemented) static bools can be evaluated
ok {test-number} - is_true<false>::value == false for: false == false
# (unimplemented) static bools can be evaluated
ok {test-number} - false == is_true<false>::value for: false == false
# (unimplemented) static bools can be evaluated
ok {test-number} - !is_true<false>::value for: true
# (unimplemented) static bools can be evaluated
ok {test-number} - !!is_true<true>::value for: true
# (unimplemented) static bools can be evaluated
ok {test-number} - is_true<true>::value for: true
# (unimplemented) static bools can be evaluated
ok {test-number} - !(is_true<false>::value) for: !false
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 1 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 1 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 2 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 2 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 4
# 3x3x3 ints
ok {test-number} - y < z for: 4 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 5
# 3x3x3 ints
ok {test-number} - y < z for: 5 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 9
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 7
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 7
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 8
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 8
# 3x3x3 ints
ok {test-number} - x < y for: 3 < 6
# 3x3x3 ints
ok {test-number} - y < z for: 6 < 9
# 3x3x3 ints
ok {test-number} - x < z for: 3 < 9
# A METHOD_AS_TEST_CASE based test run that fails
not ok {test-number} - s == "world" for: "hello" == "world"
# A METHOD_AS_TEST_CASE based test run that succeeds
ok {test-number} - s == "hello" for: "hello" == "hello"
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that fails - Template_Foo<float>
not ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 1 for: 0 == 1
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that fails - Template_Foo<int>
not ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 1 for: 0 == 1
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that fails - std::vector<float>
not ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 1 for: 0 == 1
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that fails - std::vector<int>
not ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 1 for: 0 == 1
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that succeeds - Template_Foo<float>
ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 0 for: 0 == 0
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that succeeds - Template_Foo<int>
ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 0 for: 0 == 0
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that succeeds - std::vector<float>
ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 0 for: 0 == 0
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD based test run that succeeds - std::vector<int>
ok {test-number} - Template_Fixture_2<TestType>::m_a.size() == 0 for: 0 == 0
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that fails - Template_Foo_2<float, 6>
not ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() < 2 for: 6 < 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that fails - Template_Foo_2<int, 2>
not ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() < 2 for: 2 < 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that fails - std::array<float, 6>
not ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() < 2 for: 6 < 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that fails - std::array<int, 2>
not ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() < 2 for: 2 < 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that succeeds - Template_Foo_2<float,6>
ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() >= 2 for: 6 >= 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that succeeds - Template_Foo_2<int,2>
ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() >= 2 for: 2 >= 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that succeeds - std::array<float,6>
ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() >= 2 for: 6 >= 2
# A TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG based test run that succeeds - std::array<int,2>
ok {test-number} - Template_Fixture_2<TestType>{}.m_a.size() >= 2 for: 2 >= 2
# A TEMPLATE_TEST_CASE_METHOD based test run that fails - double
not ok {test-number} - Template_Fixture<TestType>::m_a == 2 for: 1.0 == 2
# A TEMPLATE_TEST_CASE_METHOD based test run that fails - float
not ok {test-number} - Template_Fixture<TestType>::m_a == 2 for: 1.0f == 2
# A TEMPLATE_TEST_CASE_METHOD based test run that fails - int
not ok {test-number} - Template_Fixture<TestType>::m_a == 2 for: 1 == 2
# A TEMPLATE_TEST_CASE_METHOD based test run that succeeds - double
ok {test-number} - Template_Fixture<TestType>::m_a == 1 for: 1.0 == 1
# A TEMPLATE_TEST_CASE_METHOD based test run that succeeds - float
ok {test-number} - Template_Fixture<TestType>::m_a == 1 for: 1.0f == 1
# A TEMPLATE_TEST_CASE_METHOD based test run that succeeds - int
ok {test-number} - Template_Fixture<TestType>::m_a == 1 for: 1 == 1
# A TEMPLATE_TEST_CASE_METHOD_SIG based test run that fails - 1
not ok {test-number} - Nttp_Fixture<V>::value == 0 for: 1 == 0
# A TEMPLATE_TEST_CASE_METHOD_SIG based test run that fails - 3
not ok {test-number} - Nttp_Fixture<V>::value == 0 for: 3 == 0
# A TEMPLATE_TEST_CASE_METHOD_SIG based test run that fails - 6
not ok {test-number} - Nttp_Fixture<V>::value == 0 for: 6 == 0
# A TEMPLATE_TEST_CASE_METHOD_SIG based test run that succeeds - 1
ok {test-number} - Nttp_Fixture<V>::value > 0 for: 1 > 0
# A TEMPLATE_TEST_CASE_METHOD_SIG based test run that succeeds - 3
ok {test-number} - Nttp_Fixture<V>::value > 0 for: 3 > 0
# A TEMPLATE_TEST_CASE_METHOD_SIG based test run that succeeds - 6
ok {test-number} - Nttp_Fixture<V>::value > 0 for: 6 > 0
# A TEST_CASE_METHOD based test run that fails
not ok {test-number} - m_a == 2 for: 1 == 2
# A TEST_CASE_METHOD based test run that succeeds
ok {test-number} - m_a == 1 for: 1 == 1
# A TEST_CASE_PERSISTENT_FIXTURE based test run that fails
ok {test-number} - m_a++ == 0 for: 0 == 0
# A TEST_CASE_PERSISTENT_FIXTURE based test run that fails
not ok {test-number} - m_a == 0 for: 1 == 0
# A TEST_CASE_PERSISTENT_FIXTURE based test run that succeeds
ok {test-number} - m_a++ == 0 for: 0 == 0
# A TEST_CASE_PERSISTENT_FIXTURE based test run that succeeds
ok {test-number} - m_a == 1 for: 1 == 1
# A Template product test case - Foo<float>
ok {test-number} - x.size() == 0 for: 0 == 0
# A Template product test case - Foo<int>
ok {test-number} - x.size() == 0 for: 0 == 0
# A Template product test case - std::vector<float>
ok {test-number} - x.size() == 0 for: 0 == 0
# A Template product test case - std::vector<int>
ok {test-number} - x.size() == 0 for: 0 == 0
# A Template product test case with array signature - Bar<float, 42>
ok {test-number} - x.size() > 0 for: 42 > 0
# A Template product test case with array signature - Bar<int, 9>
ok {test-number} - x.size() > 0 for: 9 > 0
# A Template product test case with array signature - std::array<float, 42>
ok {test-number} - x.size() > 0 for: 42 > 0
# A Template product test case with array signature - std::array<int, 9>
ok {test-number} - x.size() > 0 for: 9 > 0
# A comparison that uses literals instead of the normal constructor
ok {test-number} - d == 1.23_a for: 1.22999999999999998 == Approx( 1.22999999999999998 )
# A comparison that uses literals instead of the normal constructor
ok {test-number} - d != 1.22_a for: 1.22999999999999998 != Approx( 1.21999999999999997 )
# A comparison that uses literals instead of the normal constructor
ok {test-number} - -d == -1.23_a for: -1.22999999999999998 == Approx( -1.22999999999999998 )
# A comparison that uses literals instead of the normal constructor
ok {test-number} - d == 1.2_a .epsilon(.1) for: 1.22999999999999998 == Approx( 1.19999999999999996 )
# A comparison that uses literals instead of the normal constructor
ok {test-number} - d != 1.2_a .epsilon(.001) for: 1.22999999999999998 != Approx( 1.19999999999999996 )
# A comparison that uses literals instead of the normal constructor
ok {test-number} - d == 1_a .epsilon(.3) for: 1.22999999999999998 == Approx( 1.0 )
# A couple of nested sections followed by a failure
ok {test-number} - with 1 message: 'that's not flying - that's failing in style'
# A couple of nested sections followed by a failure
not ok {test-number} - explicitly with 1 message: 'to infinity and beyond'
# A failing expression with a non streamable type is still captured
not ok {test-number} - &o1 == &o2 for: 0x<hex digits> == 0x<hex digits>
# A failing expression with a non streamable type is still captured
not ok {test-number} - o1 == o2 for: {?} == {?}
# Absolute margin
ok {test-number} - 104.0 != Approx(100.0) for: 104.0 != Approx( 100.0 )
# Absolute margin
ok {test-number} - 104.0 == Approx(100.0).margin(5) for: 104.0 == Approx( 100.0 )
# Absolute margin
ok {test-number} - 104.0 == Approx(100.0).margin(4) for: 104.0 == Approx( 100.0 )
# Absolute margin
ok {test-number} - 104.0 != Approx(100.0).margin(3) for: 104.0 != Approx( 100.0 )
# Absolute margin
ok {test-number} - 100.3 != Approx(100.0) for: 100.29999999999999716 != Approx( 100.0 )
# Absolute margin
ok {test-number} - 100.3 == Approx(100.0).margin(0.5) for: 100.29999999999999716 == Approx( 100.0 )
# An expression with side-effects should only be evaluated once
ok {test-number} - i++ == 7 for: 7 == 7
# An expression with side-effects should only be evaluated once
ok {test-number} - i++ == 8 for: 8 == 8
# An unchecked exception reports the line of the last assertion
ok {test-number} - 1 == 1
# An unchecked exception reports the line of the last assertion
not ok {test-number} - unexpected exception with message: 'unexpected exception'; expression was: {Unknown expression after the reported line}
# Anonymous test case 1
ok {test-number} - with 1 message: 'anonymous test case'
# Approx setters validate their arguments
ok {test-number} - Approx(0).margin(0)
# Approx setters validate their arguments
ok {test-number} - Approx(0).margin(1234656)
# Approx setters validate their arguments
ok {test-number} - Approx(0).margin(-2), std::domain_error
# Approx setters validate their arguments
ok {test-number} - Approx(0).epsilon(0)
# Approx setters validate their arguments
ok {test-number} - Approx(0).epsilon(1)
# Approx setters validate their arguments
ok {test-number} - Approx(0).epsilon(-0.001), std::domain_error
# Approx setters validate their arguments
ok {test-number} - Approx(0).epsilon(1.0001), std::domain_error
# Approx with exactly-representable margin
ok {test-number} - 0.25f == Approx(0.0f).margin(0.25f) for: 0.25f == Approx( 0.0 )
# Approx with exactly-representable margin
ok {test-number} - 0.0f == Approx(0.25f).margin(0.25f) for: 0.0f == Approx( 0.25 )
# Approx with exactly-representable margin
ok {test-number} - 0.5f == Approx(0.25f).margin(0.25f) for: 0.5f == Approx( 0.25 )
# Approx with exactly-representable margin
ok {test-number} - 245.0f == Approx(245.25f).margin(0.25f) for: 245.0f == Approx( 245.25 )
# Approx with exactly-representable margin
ok {test-number} - 245.5f == Approx(245.25f).margin(0.25f) for: 245.5f == Approx( 245.25 )
# Approximate PI
ok {test-number} - divide( 22, 7 ) == Approx( 3.141 ).epsilon( 0.001 ) for: 3.14285714285714279 == Approx( 3.14100000000000001 )
# Approximate PI
ok {test-number} - divide( 22, 7 ) != Approx( 3.141 ).epsilon( 0.0001 ) for: 3.14285714285714279 != Approx( 3.14100000000000001 )
# Approximate comparisons with different epsilons
ok {test-number} - d != Approx( 1.231 ) for: 1.22999999999999998 != Approx( 1.23100000000000009 )
# Approximate comparisons with different epsilons
ok {test-number} - d == Approx( 1.231 ).epsilon( 0.1 ) for: 1.22999999999999998 == Approx( 1.23100000000000009 )
# Approximate comparisons with floats
ok {test-number} - 1.23f == Approx( 1.23f ) for: 1.230000019f == Approx( 1.23000001907348633 )
# Approximate comparisons with floats
ok {test-number} - 0.0f == Approx( 0.0f ) for: 0.0f == Approx( 0.0 )
# Approximate comparisons with ints
ok {test-number} - 1 == Approx( 1 ) for: 1 == Approx( 1.0 )
# Approximate comparisons with ints
ok {test-number} - 0 == Approx( 0 ) for: 0 == Approx( 0.0 )
# Approximate comparisons with mixed numeric types
ok {test-number} - 1.0f == Approx( 1 ) for: 1.0f == Approx( 1.0 )
# Approximate comparisons with mixed numeric types
ok {test-number} - 0 == Approx( dZero) for: 0 == Approx( 0.0 )
# Approximate comparisons with mixed numeric types
ok {test-number} - 0 == Approx( dSmall ).margin( 0.001 ) for: 0 == Approx( 0.00001 )
# Approximate comparisons with mixed numeric types
ok {test-number} - 1.234f == Approx( dMedium ) for: 1.233999968f == Approx( 1.23399999999999999 )
# Approximate comparisons with mixed numeric types
ok {test-number} - dMedium == Approx( 1.234f ) for: 1.23399999999999999 == Approx( 1.23399996757507324 )
# Arbitrary predicate matcher
ok {test-number} - 1, Predicate<int>( alwaysTrue, "always true" ) for: 1 matches predicate: "always true"
# Arbitrary predicate matcher
ok {test-number} - 1, !Predicate<int>( alwaysFalse, "always false" ) for: 1 not matches predicate: "always false"
# Arbitrary predicate matcher
ok {test-number} - "Hello olleH", Predicate<std::string>( []( std::string const& str ) -> bool { return str.front() == str.back(); }, "First and last character should be equal" ) for: "Hello olleH" matches predicate: "First and last character should be equal"
# Arbitrary predicate matcher
ok {test-number} - "This wouldn't pass", !Predicate<std::string>( []( std::string const& str ) -> bool { return str.front() == str.back(); } ) for: "This wouldn't pass" not matches undescribed predicate
# Assertion macros support bit operators and bool conversions
ok {test-number} - lhs | rhs for: Val: 1 | Val: 2
# Assertion macros support bit operators and bool conversions
ok {test-number} - !(lhs & rhs) for: !(Val: 1 & Val: 2)
# Assertion macros support bit operators and bool conversions
ok {test-number} - HasBitOperators{ 1 } & HasBitOperators{ 1 } for: Val: 1 & Val: 1
# Assertion macros support bit operators and bool conversions
ok {test-number} - lhs ^ rhs for: Val: 1 ^ Val: 2
# Assertion macros support bit operators and bool conversions
ok {test-number} - !(lhs ^ lhs) for: !(Val: 1 ^ Val: 1)
# Assertions then sections
ok {test-number} - true
# Assertions then sections
ok {test-number} - true
# Assertions then sections
ok {test-number} - true
# Assertions then sections
ok {test-number} - true
# Assertions then sections
ok {test-number} - true
# Assertions then sections
ok {test-number} - true
# Basic use of the Contains range matcher
ok {test-number} - a, Contains(1) for: { 1, 2, 3 } contains element 1
# Basic use of the Contains range matcher
ok {test-number} - b, Contains(1) for: { 0, 1, 2 } contains element 1
# Basic use of the Contains range matcher
ok {test-number} - c, !Contains(1) for: { 4, 5, 6 } not contains element 1
# Basic use of the Contains range matcher
ok {test-number} - a, Contains(0, close_enough) for: { 1, 2, 3 } contains element 0
# Basic use of the Contains range matcher
ok {test-number} - b, Contains(0, close_enough) for: { 0, 1, 2 } contains element 0
# Basic use of the Contains range matcher
ok {test-number} - c, !Contains(0, close_enough) for: { 4, 5, 6 } not contains element 0
# Basic use of the Contains range matcher
ok {test-number} - a, Contains(4, [](auto&& lhs, size_t sz) { return lhs.size() == sz; }) for: { "abc", "abcd", "abcde" } contains element 4
# Basic use of the Contains range matcher
ok {test-number} - in, Contains(1) for: { 1, 2, 3, 4, 5 } contains element 1
# Basic use of the Contains range matcher
ok {test-number} - in, !Contains(8) for: { 1, 2, 3, 4, 5 } not contains element 8
# Basic use of the Contains range matcher
ok {test-number} - in, Contains(MoveOnlyTestElement{ 2 }) for: { 1, 2, 3 } contains element 2
# Basic use of the Contains range matcher
ok {test-number} - in, !Contains(MoveOnlyTestElement{ 9 }) for: { 1, 2, 3 } not contains element 9
# Basic use of the Contains range matcher
ok {test-number} - in, Contains(Catch::Matchers::WithinAbs(0.5, 0.5)) for: { 1.0, 2.0, 3.0, 0.0 } contains element matching is within 0.5 of 0.5
# Basic use of the Empty range matcher
ok {test-number} - empty_array, IsEmpty() for: { } is empty
# Basic use of the Empty range matcher
ok {test-number} - non_empty_array, !IsEmpty() for: { 0.0 } not is empty
# Basic use of the Empty range matcher
ok {test-number} - empty_vec, IsEmpty() for: { } is empty
# Basic use of the Empty range matcher
ok {test-number} - non_empty_vec, !IsEmpty() for: { 'a', 'b', 'c' } not is empty
# Basic use of the Empty range matcher
ok {test-number} - inner_lists_are_empty, !IsEmpty() for: { { } } not is empty
# Basic use of the Empty range matcher
ok {test-number} - inner_lists_are_empty.front(), IsEmpty() for: { } is empty
# Basic use of the Empty range matcher
ok {test-number} - has_empty{}, !IsEmpty() for: {?} not is empty
# Basic use of the Empty range matcher
ok {test-number} - unrelated::ADL_empty{}, IsEmpty() for: {?} is empty
# CAPTURE can deal with complex expressions
ok {test-number} - with 7 messages: 'a := 1' and 'b := 2' and 'c := 3' and 'a + b := 3' and 'a+b := 3' and 'c > b := true' and 'a == 1 := true'
# CAPTURE can deal with complex expressions involving commas
ok {test-number} - with 7 messages: 'custom_index_op<int>{1, 2, 3}[0, 1, 2] := 0' and 'custom_index_op<int>{1, 2, 3}[(0, 1)] := 0' and 'custom_index_op<int>{1, 2, 3}[0] := 0' and '(helper_1436<int, int>{12, -12}) := { 12, -12 }' and '(helper_1436<int, int>(-12, 12)) := { -12, 12 }' and '(1, 2) := 2' and '(2, 3) := 3'
# CAPTURE parses string and character constants
ok {test-number} - with 11 messages: '("comma, in string", "escaped, \", ") := "escaped, ", "' and '"single quote in string,'," := "single quote in string,',"' and '"some escapes, \\,\\\\" := "some escapes, \,\\"' and '"some, ), unmatched, } prenheses {[<" := "some, ), unmatched, } prenheses {[<"' and ''"' := '"'' and ''\'' := '''' and '',' := ','' and ''}' := '}'' and '')' := ')'' and ''(' := '('' and ''{' := '{''
# Capture and info messages
ok {test-number} - true with 1 message: 'i := 2'
# Capture and info messages
ok {test-number} - true with 1 message: '3'
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - eq( "", "" ) for: true
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - !(eq( "", "a" )) for: !false
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - eq( "a", "a" ) for: true
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - eq( "a", "A" ) for: true
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - eq( "A", "a" ) for: true
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - eq( "A", "A" ) for: true
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - !(eq( "a", "b" )) for: !false
# CaseInsensitiveEqualsTo is case insensitive
ok {test-number} - !(eq( "a", "B" )) for: !false
# CaseInsensitiveLess is case insensitive
ok {test-number} - lt( "", "a" ) for: true
# CaseInsensitiveLess is case insensitive
ok {test-number} - !(lt( "a", "a" )) for: !false
# CaseInsensitiveLess is case insensitive
ok {test-number} - !(lt( "", "" )) for: !false
# CaseInsensitiveLess is case insensitive
ok {test-number} - lt( "a", "b" ) for: true
# CaseInsensitiveLess is case insensitive
ok {test-number} - lt( "a", "B" ) for: true
# CaseInsensitiveLess is case insensitive
ok {test-number} - lt( "A", "b" ) for: true
# CaseInsensitiveLess is case insensitive
ok {test-number} - lt( "A", "B" ) for: true
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify('\t') == "'\\t'" for: "'\t'" == "'\t'"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify('\n') == "'\\n'" for: "'\n'" == "'\n'"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify('\r') == "'\\r'" for: "'\r'" == "'\r'"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify('\f') == "'\\f'" for: "'\f'" == "'\f'"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify( ' ' ) == "' '" for: "' '" == "' '"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify( 'A' ) == "'A'" for: "'A'" == "'A'"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify( 'z' ) == "'z'" for: "'z'" == "'z'"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify( '\0' ) == "0" for: "0" == "0"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify( static_cast<char>(2) ) == "2" for: "2" == "2"
# Character pretty printing
ok {test-number} - ::Catch::Detail::stringify( static_cast<char>(5) ) == "5" for: "5" == "5"
# Clara::Arg does not crash on incomplete input
ok {test-number} - name.empty() for: true
# Clara::Arg does not crash on incomplete input
ok {test-number} - result for: {?}
# Clara::Arg does not crash on incomplete input
ok {test-number} - result.type() == Catch::Clara::Detail::ResultType::Ok for: 0 == 0
# Clara::Arg does not crash on incomplete input
ok {test-number} - parsed.type() == Catch::Clara::ParseResultType::NoMatch for: 1 == 1
# Clara::Arg does not crash on incomplete input
ok {test-number} - parsed.remainingTokens().count() == 2 for: 2 == 2
# Clara::Arg does not crash on incomplete input
ok {test-number} - name.empty() for: true
# Clara::Arg supports single-arg parse the way Opt does
ok {test-number} - name.empty() for: true
# Clara::Arg supports single-arg parse the way Opt does
ok {test-number} - name == "foo" for: "foo" == "foo"
# Clara::Opt supports accept-many lambdas
ok {test-number} - !(parse_result) for: !{?}
# Clara::Opt supports accept-many lambdas
ok {test-number} - parse_result for: {?}
# Clara::Opt supports accept-many lambdas
ok {test-number} - res == std::vector<std::string>{ "aaa", "bbb" } for: { "aaa", "bbb" } == { "aaa", "bbb" }
# ColourGuard behaviour
ok {test-number} - streamWrapper.str().empty() for: true
# ColourGuard behaviour
ok {test-number} - streamWrapper.str() == "1\nUsing code: 2\n2\nUsing code: 0\n3\n" for: "1 Using code: 2 2 Using code: 0 3 " == "1 Using code: 2 2 Using code: 0 3 "
# ColourGuard behaviour
ok {test-number} - streamWrapper.str() == "Using code: 2\nA\nB\nUsing code: 0\nC\n" for: "Using code: 2 A B Using code: 0 C " == "Using code: 2 A B Using code: 0 C "
# Combining MatchAllOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( ( MatcherA() && MatcherB() ) && MatcherC() ), Catch::Matchers::Detail:: MatchAllOfGeneric<MatcherA, MatcherB, MatcherC>>::value'
# Combining MatchAllOfGeneric does not nest
ok {test-number} - 1, ( MatcherA() && MatcherB() ) && MatcherC() for: 1 ( equals: (int) 1 or (string) "1" and equals: (long long) 1 and equals: (T) 1 )
# Combining MatchAllOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( MatcherA() && ( MatcherB() && MatcherC() ) ), Catch::Matchers::Detail:: MatchAllOfGeneric<MatcherA, MatcherB, MatcherC>>::value'
# Combining MatchAllOfGeneric does not nest
ok {test-number} - 1, MatcherA() && ( MatcherB() && MatcherC() ) for: 1 ( equals: (int) 1 or (string) "1" and equals: (long long) 1 and equals: (T) 1 )
# Combining MatchAllOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( ( MatcherA() && MatcherB() ) && ( MatcherC() && MatcherD() ) ), Catch::Matchers::Detail:: MatchAllOfGeneric<MatcherA, MatcherB, MatcherC, MatcherD>>:: value'
# Combining MatchAllOfGeneric does not nest
ok {test-number} - 1, ( MatcherA() && MatcherB() ) && ( MatcherC() && MatcherD() ) for: 1 ( equals: (int) 1 or (string) "1" and equals: (long long) 1 and equals: (T) 1 and equals: true )
# Combining MatchAnyOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( ( MatcherA() || MatcherB() ) || MatcherC() ), Catch::Matchers::Detail:: MatchAnyOfGeneric<MatcherA, MatcherB, MatcherC>>::value'
# Combining MatchAnyOfGeneric does not nest
ok {test-number} - 1, ( MatcherA() || MatcherB() ) || MatcherC() for: 1 ( equals: (int) 1 or (string) "1" or equals: (long long) 1 or equals: (T) 1 )
# Combining MatchAnyOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( MatcherA() || ( MatcherB() || MatcherC() ) ), Catch::Matchers::Detail:: MatchAnyOfGeneric<MatcherA, MatcherB, MatcherC>>::value'
# Combining MatchAnyOfGeneric does not nest
ok {test-number} - 1, MatcherA() || ( MatcherB() || MatcherC() ) for: 1 ( equals: (int) 1 or (string) "1" or equals: (long long) 1 or equals: (T) 1 )
# Combining MatchAnyOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( ( MatcherA() || MatcherB() ) || ( MatcherC() || MatcherD() ) ), Catch::Matchers::Detail:: MatchAnyOfGeneric<MatcherA, MatcherB, MatcherC, MatcherD>>:: value'
# Combining MatchAnyOfGeneric does not nest
ok {test-number} - 1, ( MatcherA() || MatcherB() ) || ( MatcherC() || MatcherD() ) for: 1 ( equals: (int) 1 or (string) "1" or equals: (long long) 1 or equals: (T) 1 or equals: true )
# Combining MatchNotOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( !MatcherA() ), Catch::Matchers::Detail::MatchNotOfGeneric<MatcherA>>::value'
# Combining MatchNotOfGeneric does not nest
ok {test-number} - 0, !MatcherA() for: 0 not equals: (int) 1 or (string) "1"
# Combining MatchNotOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same<decltype( !!MatcherA() ), MatcherA const&>::value'
# Combining MatchNotOfGeneric does not nest
ok {test-number} - 1, !!MatcherA() for: 1 equals: (int) 1 or (string) "1"
# Combining MatchNotOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same< decltype( !!!MatcherA() ), Catch::Matchers::Detail::MatchNotOfGeneric<MatcherA>>::value'
# Combining MatchNotOfGeneric does not nest
ok {test-number} - 0, !!!MatcherA() for: 0 not equals: (int) 1 or (string) "1"
# Combining MatchNotOfGeneric does not nest
ok {test-number} - with 1 message: 'std::is_same<decltype( !!!!MatcherA() ), MatcherA const&>::value'
# Combining MatchNotOfGeneric does not nest
ok {test-number} - 1, !!!!MatcherA() for: 1 equals: (int) 1 or (string) "1"
# Combining concrete matchers does not use templated matchers
ok {test-number} - with 1 message: 'std::is_same<decltype( StartsWith( "foo" ) || ( StartsWith( "bar" ) && EndsWith( "bar" ) && !EndsWith( "foo" ) ) ), Catch::Matchers::Detail::MatchAnyOf<std::string>>::value'
# Combining only templated matchers
ok {test-number} - with 1 message: 'std::is_same<decltype( MatcherA() || MatcherB() ), Catch::Matchers::Detail:: MatchAnyOfGeneric<MatcherA, MatcherB>>::value'
# Combining only templated matchers
ok {test-number} - 1, MatcherA() || MatcherB() for: 1 ( equals: (int) 1 or (string) "1" or equals: (long long) 1 )
# Combining only templated matchers
ok {test-number} - with 1 message: 'std::is_same<decltype( MatcherA() && MatcherB() ), Catch::Matchers::Detail:: MatchAllOfGeneric<MatcherA, MatcherB>>::value'
# Combining only templated matchers
ok {test-number} - 1, MatcherA() && MatcherB() for: 1 ( equals: (int) 1 or (string) "1" and equals: (long long) 1 )
# Combining only templated matchers
ok {test-number} - with 1 message: 'std::is_same< decltype( MatcherA() || !MatcherB() ), Catch::Matchers::Detail::MatchAnyOfGeneric< MatcherA, Catch::Matchers::Detail::MatchNotOfGeneric<MatcherB>>>::value'
# Combining only templated matchers
ok {test-number} - 1, MatcherA() || !MatcherB() for: 1 ( equals: (int) 1 or (string) "1" or not equals: (long long) 1 )
# Combining templated and concrete matchers
ok {test-number} - vec, Predicate<std::vector<int>>( []( auto const& v ) { return std::all_of( v.begin(), v.end(), []( int elem ) { return elem % 2 == 1; } ); }, "All elements are odd" ) && !EqualsRange( a ) for: { 1, 3, 5 } ( matches predicate: "All elements are odd" and not Equals: { 5, 3, 1 } )
# Combining templated and concrete matchers
ok {test-number} - str, StartsWith( "foo" ) && EqualsRange( arr ) && EndsWith( "bar" ) for: "foobar" ( starts with: "foo" and Equals: { 'f', 'o', 'o', 'b', 'a', 'r' } and ends with: "bar" )
# Combining templated and concrete matchers
ok {test-number} - str, StartsWith( "foo" ) && !EqualsRange( bad_arr ) && EndsWith( "bar" ) for: "foobar" ( starts with: "foo" and not Equals: { 'o', 'o', 'f', 'b', 'a', 'r' } and ends with: "bar" )
# Combining templated and concrete matchers
ok {test-number} - str, EqualsRange( arr ) && StartsWith( "foo" ) && EndsWith( "bar" ) for: "foobar" ( Equals: { 'f', 'o', 'o', 'b', 'a', 'r' } and starts with: "foo" and ends with: "bar" )
# Combining templated and concrete matchers
ok {test-number} - str, !EqualsRange( bad_arr ) && StartsWith( "foo" ) && EndsWith( "bar" ) for: "foobar" ( not Equals: { 'o', 'o', 'f', 'b', 'a', 'r' } and starts with: "foo" and ends with: "bar" )
# Combining templated and concrete matchers
ok {test-number} - str, EqualsRange( bad_arr ) || ( StartsWith( "foo" ) && EndsWith( "bar" ) ) for: "foobar" ( Equals: { 'o', 'o', 'f', 'b', 'a', 'r' } or ( starts with: "foo" and ends with: "bar" ) )
# Combining templated and concrete matchers
ok {test-number} - str, ( StartsWith( "foo" ) && EndsWith( "bar" ) ) || EqualsRange( bad_arr ) for: "foobar" ( ( starts with: "foo" and ends with: "bar" ) or Equals: { 'o', 'o', 'f', 'b', 'a', 'r' } )
# Combining templated matchers
ok {test-number} - container, EqualsRange( a ) || EqualsRange( b ) || EqualsRange( c ) for: { 1, 2, 3 } ( Equals: { 1, 2, 3 } or Equals: { 0, 1, 2 } or Equals: { 4, 5, 6 } )
# Commas in various macros are allowed
ok {test-number} - std::vector<constructor_throws>{constructor_throws{}, constructor_throws{}}
# Commas in various macros are allowed
ok {test-number} - std::vector<constructor_throws>{constructor_throws{}, constructor_throws{}}
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2, 3} == std::vector<int>{1, 2, 3}
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2, 3} == std::vector<int>{1, 2, 3}
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2} == std::vector<int>{1, 2} for: { 1, 2 } == { 1, 2 }
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2} == std::vector<int>{1, 2} for: { 1, 2 } == { 1, 2 }
# Commas in various macros are allowed
ok {test-number} - !(std::vector<int>{1, 2} == std::vector<int>{1, 2, 3}) for: !({ 1, 2 } == { 1, 2, 3 })
# Commas in various macros are allowed
ok {test-number} - !(std::vector<int>{1, 2} == std::vector<int>{1, 2, 3}) for: !({ 1, 2 } == { 1, 2, 3 })
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2} == std::vector<int>{1, 2} for: { 1, 2 } == { 1, 2 }
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2} == std::vector<int>{1, 2} for: { 1, 2 } == { 1, 2 }
# Commas in various macros are allowed
ok {test-number} - true
# Commas in various macros are allowed
ok {test-number} - std::vector<int>{1, 2} == std::vector<int>{1, 2} for: { 1, 2 } == { 1, 2 }
# Comparing function pointers
ok {test-number} - a for: 0x<hex digits>
# Comparing function pointers
ok {test-number} - a == &foo for: 0x<hex digits> == 0x<hex digits>
# Comparison ops
ok {test-number} - SimplePcg32{} == SimplePcg32{} for: {?} == {?}
# Comparison ops
ok {test-number} - SimplePcg32{ 0 } != SimplePcg32{} for: {?} != {?}
# Comparison ops
ok {test-number} - !(SimplePcg32{ 1 } == SimplePcg32{ 2 }) for: !({?} == {?})
# Comparison ops
ok {test-number} - !(SimplePcg32{ 1 } != SimplePcg32{ 1 }) for: !({?} != {?})
# Comparison with explicitly convertible types
ok {test-number} - td == Approx(10.0) for: StrongDoubleTypedef(10) == Approx( 10.0 )
# Comparison with explicitly convertible types
ok {test-number} - Approx(10.0) == td for: Approx( 10.0 ) == StrongDoubleTypedef(10)
# Comparison with explicitly convertible types
ok {test-number} - td != Approx(11.0) for: StrongDoubleTypedef(10) != Approx( 11.0 )
# Comparison with explicitly convertible types
ok {test-number} - Approx(11.0) != td for: Approx( 11.0 ) != StrongDoubleTypedef(10)
# Comparison with explicitly convertible types
ok {test-number} - td <= Approx(10.0) for: StrongDoubleTypedef(10) <= Approx( 10.0 )
# Comparison with explicitly convertible types
ok {test-number} - td <= Approx(11.0) for: StrongDoubleTypedef(10) <= Approx( 11.0 )
# Comparison with explicitly convertible types
ok {test-number} - Approx(10.0) <= td for: Approx( 10.0 ) <= StrongDoubleTypedef(10)
# Comparison with explicitly convertible types
ok {test-number} - Approx(9.0) <= td for: Approx( 9.0 ) <= StrongDoubleTypedef(10)
# Comparison with explicitly convertible types
ok {test-number} - td >= Approx(9.0) for: StrongDoubleTypedef(10) >= Approx( 9.0 )
# Comparison with explicitly convertible types
ok {test-number} - td >= Approx(td) for: StrongDoubleTypedef(10) >= Approx( 10.0 )
# Comparison with explicitly convertible types
ok {test-number} - Approx(td) >= td for: Approx( 10.0 ) >= StrongDoubleTypedef(10)
# Comparison with explicitly convertible types
ok {test-number} - Approx(11.0) >= td for: Approx( 11.0 ) >= StrongDoubleTypedef(10)
# Comparisons between ints where one side is computed
ok {test-number} - 54 == 6*9 for: 54 == 54
# Comparisons between unsigned ints and negative signed ints match c++ standard behaviour
ok {test-number} - ( -1 > 2u ) for: true
# Comparisons between unsigned ints and negative signed ints match c++ standard behaviour
ok {test-number} - -1 > 2u for: -1 > 2
# Comparisons between unsigned ints and negative signed ints match c++ standard behaviour
ok {test-number} - ( 2u < -1 ) for: true
# Comparisons between unsigned ints and negative signed ints match c++ standard behaviour
ok {test-number} - 2u < -1 for: 2 < -1
# Comparisons between unsigned ints and negative signed ints match c++ standard behaviour
ok {test-number} - ( minInt > 2u ) for: true
# Comparisons between unsigned ints and negative signed ints match c++ standard behaviour
ok {test-number} - minInt > 2u for: -2147483648 > 2
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - i == 1 for: 1 == 1
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - ui == 2 for: 2 == 2
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - l == 3 for: 3 == 3
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - ul == 4 for: 4 == 4
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - c == 5 for: 5 == 5
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - uc == 6 for: 6 == 6
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - 1 == i for: 1 == 1
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - 2 == ui for: 2 == 2
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - 3 == l for: 3 == 3
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - 4 == ul for: 4 == 4
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - 5 == c for: 5 == 5
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - 6 == uc for: 6 == 6
# Comparisons with int literals don't warn when mixing signed/ unsigned
ok {test-number} - (std::numeric_limits<uint32_t>::max)() > ul for: 4294967295 (0x<hex digits>) > 4
# Composed generic matchers shortcircuit
ok {test-number} - !(matcher.match( 1 )) for: !false
# Composed generic matchers shortcircuit
ok {test-number} - first.matchCalled for: true
# Composed generic matchers shortcircuit
ok {test-number} - !second.matchCalled for: true
# Composed generic matchers shortcircuit
ok {test-number} - matcher.match( 1 ) for: true
# Composed generic matchers shortcircuit
ok {test-number} - first.matchCalled for: true
# Composed generic matchers shortcircuit
ok {test-number} - !second.matchCalled for: true
# Composed matchers shortcircuit
ok {test-number} - !(matcher.match( 1 )) for: !false
# Composed matchers shortcircuit
ok {test-number} - first.matchCalled for: true
# Composed matchers shortcircuit
ok {test-number} - !second.matchCalled for: true
# Composed matchers shortcircuit
ok {test-number} - matcher.match( 1 ) for: true
# Composed matchers shortcircuit
ok {test-number} - first.matchCalled for: true
# Composed matchers shortcircuit
ok {test-number} - !second.matchCalled for: true
# Contains string matcher
not ok {test-number} - testStringForMatching(), ContainsSubstring( "not there", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" contains: "not there" (case insensitive)
# Contains string matcher
not ok {test-number} - testStringForMatching(), ContainsSubstring( "STRING" ) for: "this string contains 'abc' as a substring" contains: "STRING"
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - elem % 2 == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - call_count == 1 for: 1 == 1
# Copy and then generate a range
ok {test-number} - make_data().size() == test_count for: 6 == 6
# Cout stream properly declares it writes to stdout
ok {test-number} - Catch::makeStream( "-" )->isConsole() for: true
# Custom exceptions can be translated when testing for nothrow
not ok {test-number} - unexpected exception with message: 'custom exception - not std'; expression was: throwCustom()
# Custom exceptions can be translated when testing for throwing as something else
not ok {test-number} - unexpected exception with message: 'custom exception - not std'; expression was: throwCustom(), std::exception
# Custom std-exceptions can be custom translated
not ok {test-number} - unexpected exception with message: 'custom std exception'
# Default scale is invisible to comparison
ok {test-number} - 101.000001 != Approx(100).epsilon(0.01) for: 101.00000099999999748 != Approx( 100.0 )
# Default scale is invisible to comparison
ok {test-number} - std::pow(10, -5) != Approx(std::pow(10, -7)) for: 0.00001 != Approx( 0.0000001 )
# Directly creating an EnumInfo
ok {test-number} - enumInfo->lookup(0) == "Value1" for: Value1 == "Value1"
# Directly creating an EnumInfo
ok {test-number} - enumInfo->lookup(1) == "Value2" for: Value2 == "Value2"
# Directly creating an EnumInfo
ok {test-number} - enumInfo->lookup(3) == "{** unexpected enum value **}" for: {** unexpected enum value **} == "{** unexpected enum value **}"
# Empty generators can SKIP in constructor
ok {test-number} - # SKIP 'This generator is empty'
# Empty stream name opens cout stream
ok {test-number} - Catch::makeStream( "" )->isConsole() for: true
# EndsWith string matcher
not ok {test-number} - testStringForMatching(), EndsWith( "Substring" ) for: "this string contains 'abc' as a substring" ends with: "Substring"
# EndsWith string matcher
not ok {test-number} - testStringForMatching(), EndsWith( "this", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" ends with: "this" (case insensitive)
# Enums can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( EnumClass3::Value1 ) == "Value1" for: "Value1" == "Value1"
# Enums can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( EnumClass3::Value2 ) == "Value2" for: "Value2" == "Value2"
# Enums can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( EnumClass3::Value3 ) == "Value3" for: "Value3" == "Value3"
# Enums can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( EnumClass3::Value4 ) == "{** unexpected enum value **}" for: "{** unexpected enum value **}" == "{** unexpected enum value **}"
# Enums can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( ec3 ) == "Value2" for: "Value2" == "Value2"
# Enums in namespaces can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( Bikeshed::Colours::Red ) == "Red" for: "Red" == "Red"
# Enums in namespaces can quickly have stringification enabled using REGISTER_ENUM
ok {test-number} - stringify( Bikeshed::Colours::Blue ) == "Blue" for: "Blue" == "Blue"
# Epsilon only applies to Approx's value
ok {test-number} - 101.01 != Approx(100).epsilon(0.01) for: 101.01000000000000512 != Approx( 100.0 )
# Equality checks that should fail
not ok {test-number} - data.int_seven == 6 for: 7 == 6
# Equality checks that should fail
not ok {test-number} - data.int_seven == 8 for: 7 == 8
# Equality checks that should fail
not ok {test-number} - data.int_seven == 0 for: 7 == 0
# Equality checks that should fail
not ok {test-number} - data.float_nine_point_one == Approx( 9.11f ) for: 9.100000381f == Approx( 9.10999965667724609 )
# Equality checks that should fail
not ok {test-number} - data.float_nine_point_one == Approx( 9.0f ) for: 9.100000381f == Approx( 9.0 )
# Equality checks that should fail
not ok {test-number} - data.float_nine_point_one == Approx( 1 ) for: 9.100000381f == Approx( 1.0 )
# Equality checks that should fail
not ok {test-number} - data.float_nine_point_one == Approx( 0 ) for: 9.100000381f == Approx( 0.0 )
# Equality checks that should fail
not ok {test-number} - data.double_pi == Approx( 3.1415 ) for: 3.14159265350000005 == Approx( 3.14150000000000018 )
# Equality checks that should fail
not ok {test-number} - data.str_hello == "goodbye" for: "hello" == "goodbye"
# Equality checks that should fail
not ok {test-number} - data.str_hello == "hell" for: "hello" == "hell"
# Equality checks that should fail
not ok {test-number} - data.str_hello == "hello1" for: "hello" == "hello1"
# Equality checks that should fail
not ok {test-number} - data.str_hello.size() == 6 for: 5 == 6
# Equality checks that should fail
not ok {test-number} - x == Approx( 1.301 ) for: 1.30000000000000027 == Approx( 1.30099999999999993 )
# Equality checks that should succeed
ok {test-number} - data.int_seven == 7 for: 7 == 7
# Equality checks that should succeed
ok {test-number} - data.float_nine_point_one == Approx( 9.1f ) for: 9.100000381f == Approx( 9.10000038146972656 )
# Equality checks that should succeed
ok {test-number} - data.double_pi == Approx( 3.1415926535 ) for: 3.14159265350000005 == Approx( 3.14159265350000005 )
# Equality checks that should succeed
ok {test-number} - data.str_hello == "hello" for: "hello" == "hello"
# Equality checks that should succeed
ok {test-number} - "hello" == data.str_hello for: "hello" == "hello"
# Equality checks that should succeed
ok {test-number} - data.str_hello.size() == 5 for: 5 == 5
# Equality checks that should succeed
ok {test-number} - x == Approx( 1.3 ) for: 1.30000000000000027 == Approx( 1.30000000000000004 )
# Equals
ok {test-number} - testStringForMatching(), Equals( "this string contains 'abc' as a substring" ) for: "this string contains 'abc' as a substring" equals: "this string contains 'abc' as a substring"
# Equals
ok {test-number} - testStringForMatching(), Equals( "this string contains 'ABC' as a substring", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" equals: "this string contains 'abc' as a substring" (case insensitive)
# Equals string matcher
not ok {test-number} - testStringForMatching(), Equals( "this string contains 'ABC' as a substring" ) for: "this string contains 'abc' as a substring" equals: "this string contains 'ABC' as a substring"
# Equals string matcher
not ok {test-number} - testStringForMatching(), Equals( "something else", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" equals: "something else" (case insensitive)
# Exception as a value (e.g. in REQUIRE_THROWS_MATCHES) can be stringified
ok {test-number} - ::Catch::Detail::stringify(WhatException{}) == "This exception has overridden what() method" for: "This exception has overridden what() method" == "This exception has overridden what() method"
# Exception as a value (e.g. in REQUIRE_THROWS_MATCHES) can be stringified
ok {test-number} - ::Catch::Detail::stringify(OperatorException{}) == "OperatorException" for: "OperatorException" == "OperatorException"
# Exception as a value (e.g. in REQUIRE_THROWS_MATCHES) can be stringified
ok {test-number} - ::Catch::Detail::stringify(StringMakerException{}) == "StringMakerException" for: "StringMakerException" == "StringMakerException"
# Exception matchers that fail
not ok {test-number} - expected exception, got none; expression was: doesNotThrow(), SpecialException, ExceptionMatcher{ 1 }
# Exception matchers that fail
not ok {test-number} - expected exception, got none; expression was: doesNotThrow(), SpecialException, ExceptionMatcher{ 1 }
# Exception matchers that fail
not ok {test-number} - unexpected exception with message: 'Unknown exception'; expression was: throwsAsInt( 1 ), SpecialException, ExceptionMatcher{ 1 }
# Exception matchers that fail
not ok {test-number} - unexpected exception with message: 'Unknown exception'; expression was: throwsAsInt( 1 ), SpecialException, ExceptionMatcher{ 1 }
# Exception matchers that fail
not ok {test-number} - throwsSpecialException( 3 ), SpecialException, ExceptionMatcher{ 1 } for: SpecialException::what special exception has value of 1
# Exception matchers that fail
not ok {test-number} - throwsSpecialException( 4 ), SpecialException, ExceptionMatcher{ 1 } for: SpecialException::what special exception has value of 1
# Exception matchers that succeed
ok {test-number} - throwsSpecialException( 1 ), SpecialException, ExceptionMatcher{ 1 } for: SpecialException::what special exception has value of 1
# Exception matchers that succeed
ok {test-number} - throwsSpecialException( 2 ), SpecialException, ExceptionMatcher{ 2 } for: SpecialException::what special exception has value of 2
# Exception message can be matched
ok {test-number} - throwsDerivedException(), DerivedException, MessageMatches( StartsWith( "Derived" ) ) for: DerivedException::what matches "starts with: "Derived""
# Exception message can be matched
ok {test-number} - throwsDerivedException(), DerivedException, MessageMatches( EndsWith( "::what" ) ) for: DerivedException::what matches "ends with: "::what""
# Exception message can be matched
ok {test-number} - throwsDerivedException(), DerivedException, MessageMatches( !StartsWith( "::what" ) ) for: DerivedException::what matches "not starts with: "::what""
# Exception message can be matched
ok {test-number} - throwsSpecialException( 2 ), SpecialException, MessageMatches( StartsWith( "Special" ) ) for: SpecialException::what matches "starts with: "Special""
# Exception messages can be tested for
ok {test-number} - thisThrows(), "expected exception" for: "expected exception" equals: "expected exception"
# Exception messages can be tested for
ok {test-number} - thisThrows(), Equals( "expecteD Exception", Catch::CaseSensitive::No ) for: "expected exception" equals: "expected exception" (case insensitive)
# Exception messages can be tested for
ok {test-number} - thisThrows(), StartsWith( "expected" ) for: "expected exception" starts with: "expected"
# Exception messages can be tested for
ok {test-number} - thisThrows(), EndsWith( "exception" ) for: "expected exception" ends with: "exception"
# Exception messages can be tested for
ok {test-number} - thisThrows(), ContainsSubstring( "except" ) for: "expected exception" contains: "except"
# Exception messages can be tested for
ok {test-number} - thisThrows(), ContainsSubstring( "exCept", Catch::CaseSensitive::No ) for: "expected exception" contains: "except" (case insensitive)
# Exceptions matchers
ok {test-number} - throwsDerivedException(), DerivedException, Message( "DerivedException::what" ) for: DerivedException::what exception message matches "DerivedException::what"
# Exceptions matchers
ok {test-number} - throwsDerivedException(), DerivedException, !Message( "derivedexception::what" ) for: DerivedException::what not exception message matches "derivedexception::what"
# Exceptions matchers
ok {test-number} - throwsSpecialException( 2 ), SpecialException, !Message( "DerivedException::what" ) for: SpecialException::what not exception message matches "DerivedException::what"
# Exceptions matchers
ok {test-number} - throwsSpecialException( 2 ), SpecialException, Message( "SpecialException::what" ) for: SpecialException::what exception message matches "SpecialException::what"
# Expected exceptions that don't throw or unexpected exceptions fail the test
not ok {test-number} - unexpected exception with message: 'expected exception'; expression was: thisThrows(), std::string
# Expected exceptions that don't throw or unexpected exceptions fail the test
not ok {test-number} - expected exception, got none; expression was: thisDoesntThrow(), std::domain_error
# Expected exceptions that don't throw or unexpected exceptions fail the test
not ok {test-number} - unexpected exception with message: 'expected exception'; expression was: thisThrows()
# FAIL aborts the test
not ok {test-number} - explicitly with 1 message: 'This is a failure'
# FAIL does not require an argument
not ok {test-number} - explicitly
# FAIL_CHECK does not abort the test
not ok {test-number} - explicitly with 1 message: 'This is a failure'
# FAIL_CHECK does not abort the test
warning {test-number} - 'This message appears in the output'
# Factorials are computed
ok {test-number} - Factorial(0) == 1 for: 1 == 1
# Factorials are computed
ok {test-number} - Factorial(1) == 1 for: 1 == 1
# Factorials are computed
ok {test-number} - Factorial(2) == 2 for: 2 == 2
# Factorials are computed
ok {test-number} - Factorial(3) == 6 for: 6 == 6
# Factorials are computed
ok {test-number} - Factorial(10) == 3628800 for: 3628800 (0x<hex digits>) == 3628800 (0x<hex digits>)
# Filter generator throws exception for empty generator
ok {test-number} - filter( []( int ) { return false; }, value( 3 ) ), Catch::GeneratorException
# Floating point matchers: double
ok {test-number} - 10., WithinRel( 11.1, 0.1 ) for: 10.0 and 11.09999999999999964 are within 10% of each other
# Floating point matchers: double
ok {test-number} - 10., !WithinRel( 11.2, 0.1 ) for: 10.0 not and 11.19999999999999929 are within 10% of each other
# Floating point matchers: double
ok {test-number} - 1., !WithinRel( 0., 0.99 ) for: 1.0 not and 0.0 are within 99% of each other
# Floating point matchers: double
ok {test-number} - -0., WithinRel( 0. ) for: -0.0 and 0.0 are within 2.22045e-12% of each other
# Floating point matchers: double
ok {test-number} - v1, WithinRel( v2 ) for: 0.0 and 0.0 are within 2.22045e-12% of each other
# Floating point matchers: double
ok {test-number} - 1., WithinAbs( 1., 0 ) for: 1.0 is within 0.0 of 1.0
# Floating point matchers: double
ok {test-number} - 0., WithinAbs( 1., 1 ) for: 0.0 is within 1.0 of 1.0
# Floating point matchers: double
ok {test-number} - 0., !WithinAbs( 1., 0.99 ) for: 0.0 not is within 0.98999999999999999 of 1.0
# Floating point matchers: double
ok {test-number} - 0., !WithinAbs( 1., 0.99 ) for: 0.0 not is within 0.98999999999999999 of 1.0
# Floating point matchers: double
ok {test-number} - 11., !WithinAbs( 10., 0.5 ) for: 11.0 not is within 0.5 of 10.0
# Floating point matchers: double
ok {test-number} - 10., !WithinAbs( 11., 0.5 ) for: 10.0 not is within 0.5 of 11.0
# Floating point matchers: double
ok {test-number} - -10., WithinAbs( -10., 0.5 ) for: -10.0 is within 0.5 of -10.0
# Floating point matchers: double
ok {test-number} - -10., WithinAbs( -9.6, 0.5 ) for: -10.0 is within 0.5 of -9.59999999999999964
# Floating point matchers: double
ok {test-number} - 1., WithinULP( 1., 0 ) for: 1.0 is within 0 ULPs of 1.0000000000000000e+00 ([1.0000000000000000e+00, 1.0000000000000000e+00])
# Floating point matchers: double
ok {test-number} - nextafter( 1., 2. ), WithinULP( 1., 1 ) for: 1.00000000000000022 is within 1 ULPs of 1.0000000000000000e+00 ([9.9999999999999989e-01, 1.0000000000000002e+00])
# Floating point matchers: double
ok {test-number} - 0., WithinULP( nextafter( 0., 1. ), 1 ) for: 0.0 is within 1 ULPs of 4.9406564584124654e-324 ([0.0000000000000000e+00, 9.8813129168249309e-324])
# Floating point matchers: double
ok {test-number} - 1., WithinULP( nextafter( 1., 0. ), 1 ) for: 1.0 is within 1 ULPs of 9.9999999999999989e-01 ([9.9999999999999978e-01, 1.0000000000000000e+00])
# Floating point matchers: double
ok {test-number} - 1., !WithinULP( nextafter( 1., 2. ), 0 ) for: 1.0 not is within 0 ULPs of 1.0000000000000002e+00 ([1.0000000000000002e+00, 1.0000000000000002e+00])
# Floating point matchers: double
ok {test-number} - 1., WithinULP( 1., 0 ) for: 1.0 is within 0 ULPs of 1.0000000000000000e+00 ([1.0000000000000000e+00, 1.0000000000000000e+00])
# Floating point matchers: double
ok {test-number} - -0., WithinULP( 0., 0 ) for: -0.0 is within 0 ULPs of 0.0000000000000000e+00 ([0.0000000000000000e+00, 0.0000000000000000e+00])
# Floating point matchers: double
ok {test-number} - 1., WithinAbs( 1., 0.5 ) || WithinULP( 2., 1 ) for: 1.0 ( is within 0.5 of 1.0 or is within 1 ULPs of 2.0000000000000000e+00 ([1.9999999999999998e+00, 2.0000000000000004e+00]) )
# Floating point matchers: double
ok {test-number} - 1., WithinAbs( 2., 0.5 ) || WithinULP( 1., 0 ) for: 1.0 ( is within 0.5 of 2.0 or is within 0 ULPs of 1.0000000000000000e+00 ([1.0000000000000000e+00, 1.0000000000000000e+00]) )
# Floating point matchers: double
ok {test-number} - 0.0001, WithinAbs( 0., 0.001 ) || WithinRel( 0., 0.1 ) for: 0.0001 ( is within 0.001 of 0.0 or and 0.0 are within 10% of each other )
# Floating point matchers: double
ok {test-number} - WithinAbs( 1., 0. )
# Floating point matchers: double
ok {test-number} - WithinAbs( 1., -1. ), std::domain_error
# Floating point matchers: double
ok {test-number} - WithinULP( 1., 0 )
# Floating point matchers: double
ok {test-number} - WithinRel( 1., 0. )
# Floating point matchers: double
ok {test-number} - WithinRel( 1., -0.2 ), std::domain_error
# Floating point matchers: double
ok {test-number} - WithinRel( 1., 1. ), std::domain_error
# Floating point matchers: double
ok {test-number} - 1., !IsNaN() for: 1.0 not is NaN
# Floating point matchers: float
ok {test-number} - 10.f, WithinRel( 11.1f, 0.1f ) for: 10.0f and 11.10000038146972656 are within 10% of each other
# Floating point matchers: float
ok {test-number} - 10.f, !WithinRel( 11.2f, 0.1f ) for: 10.0f not and 11.19999980926513672 are within 10% of each other
# Floating point matchers: float
ok {test-number} - 1.f, !WithinRel( 0.f, 0.99f ) for: 1.0f not and 0.0 are within 99% of each other
# Floating point matchers: float
ok {test-number} - -0.f, WithinRel( 0.f ) for: -0.0f and 0.0 are within 0.00119209% of each other
# Floating point matchers: float
ok {test-number} - v1, WithinRel( v2 ) for: 0.0f and 0.0 are within 0.00119209% of each other
# Floating point matchers: float
ok {test-number} - 1.f, WithinAbs( 1.f, 0 ) for: 1.0f is within 0.0 of 1.0
# Floating point matchers: float
ok {test-number} - 0.f, WithinAbs( 1.f, 1 ) for: 0.0f is within 1.0 of 1.0
# Floating point matchers: float
ok {test-number} - 0.f, !WithinAbs( 1.f, 0.99f ) for: 0.0f not is within 0.99000000953674316 of 1.0
# Floating point matchers: float
ok {test-number} - 0.f, !WithinAbs( 1.f, 0.99f ) for: 0.0f not is within 0.99000000953674316 of 1.0
# Floating point matchers: float
ok {test-number} - 0.f, WithinAbs( -0.f, 0 ) for: 0.0f is within 0.0 of -0.0
# Floating point matchers: float
ok {test-number} - 11.f, !WithinAbs( 10.f, 0.5f ) for: 11.0f not is within 0.5 of 10.0
# Floating point matchers: float
ok {test-number} - 10.f, !WithinAbs( 11.f, 0.5f ) for: 10.0f not is within 0.5 of 11.0
# Floating point matchers: float
ok {test-number} - -10.f, WithinAbs( -10.f, 0.5f ) for: -10.0f is within 0.5 of -10.0
# Floating point matchers: float
ok {test-number} - -10.f, WithinAbs( -9.6f, 0.5f ) for: -10.0f is within 0.5 of -9.60000038146972656
# Floating point matchers: float
ok {test-number} - 1.f, WithinULP( 1.f, 0 ) for: 1.0f is within 0 ULPs of 1.00000000e+00f ([1.00000000e+00, 1.00000000e+00])
# Floating point matchers: float
ok {test-number} - -1.f, WithinULP( -1.f, 0 ) for: -1.0f is within 0 ULPs of -1.00000000e+00f ([-1.00000000e+00, -1.00000000e+00])
# Floating point matchers: float
ok {test-number} - nextafter( 1.f, 2.f ), WithinULP( 1.f, 1 ) for: 1.000000119f is within 1 ULPs of 1.00000000e+00f ([9.99999940e-01, 1.00000012e+00])
# Floating point matchers: float
ok {test-number} - 0.f, WithinULP( nextafter( 0.f, 1.f ), 1 ) for: 0.0f is within 1 ULPs of 1.40129846e-45f ([0.00000000e+00, 2.80259693e-45])
# Floating point matchers: float
ok {test-number} - 1.f, WithinULP( nextafter( 1.f, 0.f ), 1 ) for: 1.0f is within 1 ULPs of 9.99999940e-01f ([9.99999881e-01, 1.00000000e+00])
# Floating point matchers: float
ok {test-number} - 1.f, !WithinULP( nextafter( 1.f, 2.f ), 0 ) for: 1.0f not is within 0 ULPs of 1.00000012e+00f ([1.00000012e+00, 1.00000012e+00])
# Floating point matchers: float
ok {test-number} - 1.f, WithinULP( 1.f, 0 ) for: 1.0f is within 0 ULPs of 1.00000000e+00f ([1.00000000e+00, 1.00000000e+00])
# Floating point matchers: float
ok {test-number} - -0.f, WithinULP( 0.f, 0 ) for: -0.0f is within 0 ULPs of 0.00000000e+00f ([0.00000000e+00, 0.00000000e+00])
# Floating point matchers: float
ok {test-number} - 1.f, WithinAbs( 1.f, 0.5 ) || WithinULP( 1.f, 1 ) for: 1.0f ( is within 0.5 of 1.0 or is within 1 ULPs of 1.00000000e+00f ([9.99999940e-01, 1.00000012e+00]) )
# Floating point matchers: float
ok {test-number} - 1.f, WithinAbs( 2.f, 0.5 ) || WithinULP( 1.f, 0 ) for: 1.0f ( is within 0.5 of 2.0 or is within 0 ULPs of 1.00000000e+00f ([1.00000000e+00, 1.00000000e+00]) )
# Floating point matchers: float
ok {test-number} - 0.0001f, WithinAbs( 0.f, 0.001f ) || WithinRel( 0.f, 0.1f ) for: 0.0001f ( is within 0.00100000004749745 of 0.0 or and 0.0 are within 10% of each other )
# Floating point matchers: float
ok {test-number} - WithinAbs( 1.f, 0.f )
# Floating point matchers: float
ok {test-number} - WithinAbs( 1.f, -1.f ), std::domain_error
# Floating point matchers: float
ok {test-number} - WithinULP( 1.f, 0 )
# Floating point matchers: float
ok {test-number} - WithinULP( 1.f, static_cast<uint64_t>( -1 ) ), std::domain_error
# Floating point matchers: float
ok {test-number} - WithinRel( 1.f, 0.f )
# Floating point matchers: float
ok {test-number} - WithinRel( 1.f, -0.2f ), std::domain_error
# Floating point matchers: float
ok {test-number} - WithinRel( 1.f, 1.f ), std::domain_error
# Floating point matchers: float
ok {test-number} - 1., !IsNaN() for: 1.0 not is NaN
# GENERATE can combine literals and generators
ok {test-number} - i % 2 == 0 for: 0 == 0
# GENERATE can combine literals and generators
ok {test-number} - i % 2 == 0 for: 0 == 0
# GENERATE can combine literals and generators
ok {test-number} - i % 2 == 0 for: 0 == 0
# GENERATE can combine literals and generators
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - filter([] (int) {return false; }, value(1)), Catch::GeneratorException
# Generators -- adapters
ok {test-number} - i < 4 for: 1 < 4
# Generators -- adapters
ok {test-number} - i < 4 for: 2 < 4
# Generators -- adapters
ok {test-number} - i < 4 for: 3 < 4
# Generators -- adapters
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - i % 2 == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - i.size() == 1 for: 1 == 1
# Generators -- adapters
ok {test-number} - i.size() == 1 for: 1 == 1
# Generators -- adapters
ok {test-number} - i.size() == 1 for: 1 == 1
# Generators -- adapters
ok {test-number} - i.size() == 1 for: 1 == 1
# Generators -- adapters
ok {test-number} - i.size() == 1 for: 1 == 1
# Generators -- adapters
ok {test-number} - i.size() == 1 for: 1 == 1
# Generators -- adapters
ok {test-number} - j > 0 for: 1 > 0
# Generators -- adapters
ok {test-number} - j > 0 for: 2 > 0
# Generators -- adapters
ok {test-number} - j > 0 for: 3 > 0
# Generators -- adapters
ok {test-number} - j > 0 for: 1 > 0
# Generators -- adapters
ok {test-number} - j > 0 for: 2 > 0
# Generators -- adapters
ok {test-number} - j > 0 for: 3 > 0
# Generators -- adapters
ok {test-number} - chunk2.size() == 2 for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.front() == chunk2.back() for: 1 == 1
# Generators -- adapters
ok {test-number} - chunk2.size() == 2 for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.front() == chunk2.back() for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.size() == 2 for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.front() == chunk2.back() for: 3 == 3
# Generators -- adapters
ok {test-number} - chunk2.size() == 2 for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.front() == chunk2.back() for: 1 == 1
# Generators -- adapters
ok {test-number} - chunk2.front() < 3 for: 1 < 3
# Generators -- adapters
ok {test-number} - chunk2.size() == 2 for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.front() == chunk2.back() for: 2 == 2
# Generators -- adapters
ok {test-number} - chunk2.front() < 3 for: 2 < 3
# Generators -- adapters
ok {test-number} - chunk2.size() == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - chunk2.size() == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - chunk2.size() == 0 for: 0 == 0
# Generators -- adapters
ok {test-number} - chunk(2, value(1)), Catch::GeneratorException
# Generators -- simple
ok {test-number} - j < i for: -3 < 1
# Generators -- simple
ok {test-number} - j < i for: -2 < 1
# Generators -- simple
ok {test-number} - j < i for: -1 < 1
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 4 > 1
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 4 > 2
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 4 > 3
# Generators -- simple
ok {test-number} - j < i for: -3 < 2
# Generators -- simple
ok {test-number} - j < i for: -2 < 2
# Generators -- simple
ok {test-number} - j < i for: -1 < 2
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 8 > 1
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 8 > 2
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 8 > 3
# Generators -- simple
ok {test-number} - j < i for: -3 < 3
# Generators -- simple
ok {test-number} - j < i for: -2 < 3
# Generators -- simple
ok {test-number} - j < i for: -1 < 3
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 12 > 1
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 12 > 2
# Generators -- simple
ok {test-number} - 4u * i > str.size() for: 12 > 3
# Generators internals
ok {test-number} - gen.get() == 123 for: 123 == 123
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 3 for: 3 == 3
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 5 for: 5 == 5
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 5 for: 5 == 5
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 4 for: 4 == 4
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 0 for: 0 == 0
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get().size() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.get() == "aa" for: "aa" == "aa"
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == "bb" for: "bb" == "bb"
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == "cc" for: "cc" == "cc"
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 3 for: 3 == 3
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 3 for: 3 == 3
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - filter([](int) { return false; }, value(1)), Catch::GeneratorException
# Generators internals
ok {test-number} - filter([](int) { return false; }, values({ 1, 2, 3 })), Catch::GeneratorException
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 2.0 for: 2.0 == 2.0
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 4.0 for: 4.0 == 4.0
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 6.0 for: 6.0 == 6.0
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 2.0 for: 2.0 == 2.0
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 4.0 for: 4.0 == 4.0
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 6.0 for: 6.0 == 6.0
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 3 for: 3 == 3
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 3 for: 3 == 3
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 3 for: 3 == 3
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == -2 for: -2 == -2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 0 for: 0 == 0
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 1 for: 1 == 1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 0 for: 0 == 0
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == -7 for: -7 == -7
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -4 for: -4 == -4
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == -7 for: -7 == -7
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -4 for: -4 == -4
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == -7 for: -7 == -7
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -4 for: -4 == -4
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 5 for: 5 == 5
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -1.0 == Approx( -1.0 ) with 1 message: 'Current expected value is -1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.90000000000000002 == Approx( -0.90000000000000002 ) with 1 message: 'Current expected value is -0.9'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.9'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.80000000000000004 == Approx( -0.80000000000000004 ) with 1 message: 'Current expected value is -0.8'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.8'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.70000000000000007 == Approx( -0.70000000000000007 ) with 1 message: 'Current expected value is -0.7'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.7'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.60000000000000009 == Approx( -0.60000000000000009 ) with 1 message: 'Current expected value is -0.6'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.6'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.50000000000000011 == Approx( -0.50000000000000011 ) with 1 message: 'Current expected value is -0.5'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.5'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.40000000000000013 == Approx( -0.40000000000000013 ) with 1 message: 'Current expected value is -0.4'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.4'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.30000000000000016 == Approx( -0.30000000000000016 ) with 1 message: 'Current expected value is -0.3'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.3'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.20000000000000015 == Approx( -0.20000000000000015 ) with 1 message: 'Current expected value is -0.2'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.2'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.10000000000000014 == Approx( -0.10000000000000014 ) with 1 message: 'Current expected value is -0.1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.00000000000000014 == Approx( -0.00000000000000014 ) with 1 message: 'Current expected value is -1.38778e-16'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -1.38778e-16'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.09999999999999987 == Approx( 0.09999999999999987 ) with 1 message: 'Current expected value is 0.1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.19999999999999987 == Approx( 0.19999999999999987 ) with 1 message: 'Current expected value is 0.2'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.2'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.29999999999999988 == Approx( 0.29999999999999988 ) with 1 message: 'Current expected value is 0.3'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.3'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.39999999999999991 == Approx( 0.39999999999999991 ) with 1 message: 'Current expected value is 0.4'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.4'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.49999999999999989 == Approx( 0.49999999999999989 ) with 1 message: 'Current expected value is 0.5'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.5'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.59999999999999987 == Approx( 0.59999999999999987 ) with 1 message: 'Current expected value is 0.6'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.6'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.69999999999999984 == Approx( 0.69999999999999984 ) with 1 message: 'Current expected value is 0.7'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.7'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.79999999999999982 == Approx( 0.79999999999999982 ) with 1 message: 'Current expected value is 0.8'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.8'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.8999999999999998 == Approx( 0.8999999999999998 ) with 1 message: 'Current expected value is 0.9'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.9'
# Generators internals
ok {test-number} - gen.get() == Approx( rangeEnd ) for: 0.99999999999999978 == Approx( 1.0 )
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -1.0 == Approx( -1.0 ) with 1 message: 'Current expected value is -1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.69999999999999996 == Approx( -0.69999999999999996 ) with 1 message: 'Current expected value is -0.7'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.7'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.39999999999999997 == Approx( -0.39999999999999997 ) with 1 message: 'Current expected value is -0.4'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.4'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.09999999999999998 == Approx( -0.09999999999999998 ) with 1 message: 'Current expected value is -0.1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.20000000000000001 == Approx( 0.20000000000000001 ) with 1 message: 'Current expected value is 0.2'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.2'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.5 == Approx( 0.5 ) with 1 message: 'Current expected value is 0.5'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.5'
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -1.0 == Approx( -1.0 ) with 1 message: 'Current expected value is -1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.69999999999999996 == Approx( -0.69999999999999996 ) with 1 message: 'Current expected value is -0.7'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.7'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.39999999999999997 == Approx( -0.39999999999999997 ) with 1 message: 'Current expected value is -0.4'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.4'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: -0.09999999999999998 == Approx( -0.09999999999999998 ) with 1 message: 'Current expected value is -0.1'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is -0.1'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.20000000000000001 == Approx( 0.20000000000000001 ) with 1 message: 'Current expected value is 0.2'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.2'
# Generators internals
ok {test-number} - gen.get() == Approx(expected) for: 0.5 == Approx( 0.5 ) with 1 message: 'Current expected value is 0.5'
# Generators internals
ok {test-number} - gen.next() for: true with 1 message: 'Current expected value is 0.5'
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 5 for: 5 == 5
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -4 for: -4 == -4
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 5 for: 5 == 5
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -4 for: -4 == -4
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Generators internals
ok {test-number} - gen.get() == 5 for: 5 == 5
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == 2 for: 2 == 2
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -1 for: -1 == -1
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -4 for: -4 == -4
# Generators internals
ok {test-number} - gen.next() for: true
# Generators internals
ok {test-number} - gen.get() == -7 for: -7 == -7
# Generators internals
ok {test-number} - !(gen.next()) for: !false
# Greater-than inequalities with different epsilons
ok {test-number} - d >= Approx( 1.22 ) for: 1.22999999999999998 >= Approx( 1.21999999999999997 )
# Greater-than inequalities with different epsilons
ok {test-number} - d >= Approx( 1.23 ) for: 1.22999999999999998 >= Approx( 1.22999999999999998 )
# Greater-than inequalities with different epsilons
ok {test-number} - !(d >= Approx( 1.24 )) for: !(1.22999999999999998 >= Approx( 1.23999999999999999 ))
# Greater-than inequalities with different epsilons
ok {test-number} - d >= Approx( 1.24 ).epsilon(0.1) for: 1.22999999999999998 >= Approx( 1.23999999999999999 )
# Hashers with different seed produce different hash with same test case
ok {test-number} - h1( dummy ) != h2( dummy ) for: 3422778688 (0x<hex digits>) != 130711275 (0x<hex digits>)
# Hashers with same seed produce same hash
ok {test-number} - h1( dummy ) == h2( dummy ) for: 3422778688 (0x<hex digits>) == 3422778688 (0x<hex digits>)
# Hashing different test cases produces different result
ok {test-number} - h( dummy1 ) != h( dummy2 ) for: 2903002874 (0x<hex digits>) != 2668622104 (0x<hex digits>)
# Hashing different test cases produces different result
ok {test-number} - h( dummy1 ) != h( dummy2 ) for: 2673152918 (0x<hex digits>) != 3916075712 (0x<hex digits>)
# Hashing different test cases produces different result
ok {test-number} - h( dummy1 ) != h( dummy2 ) for: 2074929312 (0x<hex digits>) != 3429949824 (0x<hex digits>)
# Hashing test case produces same hash across multiple calls
ok {test-number} - h( dummy ) == h( dummy ) for: 3422778688 (0x<hex digits>) == 3422778688 (0x<hex digits>)
# INFO and UNSCOPED_INFO can stream multiple arguments
not ok {test-number} - explicitly with 3 messages: 'This info has multiple parts.' and 'This unscoped info has multiple parts.' and 'Show infos!'
# INFO and WARN do not abort tests
warning {test-number} - 'this is a message' with 1 message: 'this is a warning'
# INFO gets logged on failure
not ok {test-number} - a == 1 for: 2 == 1 with 2 messages: 'this message should be logged' and 'so should this'
# INFO gets logged on failure, even if captured before successful assertions
ok {test-number} - a == 2 for: 2 == 2 with 1 message: 'this message may be logged later'
# INFO gets logged on failure, even if captured before successful assertions
not ok {test-number} - a == 1 for: 2 == 1 with 2 messages: 'this message may be logged later' and 'this message should be logged'
# INFO gets logged on failure, even if captured before successful assertions
not ok {test-number} - a == 0 for: 2 == 0 with 3 messages: 'this message may be logged later' and 'this message should be logged' and 'and this, but later'
# INFO gets logged on failure, even if captured before successful assertions
ok {test-number} - a == 2 for: 2 == 2 with 4 messages: 'this message may be logged later' and 'this message should be logged' and 'and this, but later' and 'but not this'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 0 < 10 with 2 messages: 'current counter 0' and 'i := 0'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 1 < 10 with 2 messages: 'current counter 1' and 'i := 1'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 2 < 10 with 2 messages: 'current counter 2' and 'i := 2'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 3 < 10 with 2 messages: 'current counter 3' and 'i := 3'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 4 < 10 with 2 messages: 'current counter 4' and 'i := 4'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 5 < 10 with 2 messages: 'current counter 5' and 'i := 5'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 6 < 10 with 2 messages: 'current counter 6' and 'i := 6'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 7 < 10 with 2 messages: 'current counter 7' and 'i := 7'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 8 < 10 with 2 messages: 'current counter 8' and 'i := 8'
# INFO is reset for each loop
ok {test-number} - i < 10 for: 9 < 10 with 2 messages: 'current counter 9' and 'i := 9'
# INFO is reset for each loop
not ok {test-number} - i < 10 for: 10 < 10 with 2 messages: 'current counter 10' and 'i := 10'
# Incomplete AssertionHandler
not ok {test-number} - unexpected exception with message: 'Exception translation was disabled by CATCH_CONFIG_FAST_COMPILE'; expression was: Dummy
# Inequality checks that should fail
not ok {test-number} - data.int_seven != 7 for: 7 != 7
# Inequality checks that should fail
not ok {test-number} - data.float_nine_point_one != Approx( 9.1f ) for: 9.100000381f != Approx( 9.10000038146972656 )
# Inequality checks that should fail
not ok {test-number} - data.double_pi != Approx( 3.1415926535 ) for: 3.14159265350000005 != Approx( 3.14159265350000005 )
# Inequality checks that should fail
not ok {test-number} - data.str_hello != "hello" for: "hello" != "hello"
# Inequality checks that should fail
not ok {test-number} - data.str_hello.size() != 5 for: 5 != 5
# Inequality checks that should succeed
ok {test-number} - data.int_seven != 6 for: 7 != 6
# Inequality checks that should succeed
ok {test-number} - data.int_seven != 8 for: 7 != 8
# Inequality checks that should succeed
ok {test-number} - data.float_nine_point_one != Approx( 9.11f ) for: 9.100000381f != Approx( 9.10999965667724609 )
# Inequality checks that should succeed
ok {test-number} - data.float_nine_point_one != Approx( 9.0f ) for: 9.100000381f != Approx( 9.0 )
# Inequality checks that should succeed
ok {test-number} - data.float_nine_point_one != Approx( 1 ) for: 9.100000381f != Approx( 1.0 )
# Inequality checks that should succeed
ok {test-number} - data.float_nine_point_one != Approx( 0 ) for: 9.100000381f != Approx( 0.0 )
# Inequality checks that should succeed
ok {test-number} - data.double_pi != Approx( 3.1415 ) for: 3.14159265350000005 != Approx( 3.14150000000000018 )
# Inequality checks that should succeed
ok {test-number} - data.str_hello != "goodbye" for: "hello" != "goodbye"
# Inequality checks that should succeed
ok {test-number} - data.str_hello != "hell" for: "hello" != "hell"
# Inequality checks that should succeed
ok {test-number} - data.str_hello != "hello1" for: "hello" != "hello1"
# Inequality checks that should succeed
ok {test-number} - data.str_hello.size() != 6 for: 5 != 6
# JsonWriter
ok {test-number} - stream.str() == "" for: "" == ""
# JsonWriter
ok {test-number} - stream.str() == "{\n}" for: "{ }" == "{ }"
# JsonWriter
ok {test-number} - stream.str(), ContainsSubstring( "\"int\": 1," ) && ContainsSubstring( "\"double\": 1.5," ) && ContainsSubstring( "\"true\": true," ) && ContainsSubstring( "\"false\": false," ) && ContainsSubstring( "\"string\": \"this is a string\"," ) && ContainsSubstring( "\"array\": [\n 1,\n 2\n ]\n}" ) for: "{ "int": 1, "double": 1.5, "true": true, "false": false, "string": "this is a string", "array": [ 1, 2 ] }" ( contains: ""int": 1," and contains: ""double": 1.5," and contains: ""true": true," and contains: ""false": false," and contains: ""string": "this is a string"," and contains: ""array": [ 1, 2 ] }" )
# JsonWriter
ok {test-number} - stream.str(), ContainsSubstring( "\"empty_object\": {\n }," ) && ContainsSubstring( "\"fully_object\": {\n \"key\": 1\n }" ) for: "{ "empty_object": { }, "fully_object": { "key": 1 } }" ( contains: ""empty_object": { }," and contains: ""fully_object": { "key": 1 }" )
# JsonWriter
ok {test-number} - stream.str() == "[\n]" for: "[ ]" == "[ ]"
# JsonWriter
ok {test-number} - stream.str() == "[\n 1,\n 1.5,\n true,\n false,\n \"this is a string\",\n {\n \"object\": 42\n },\n [\n \"array\",\n 42.5\n ]\n]" for: "[ 1, 1.5, true, false, "this is a string", { "object": 42 }, [ "array", 42.5 ] ]" == "[ 1, 1.5, true, false, "this is a string", { "object": 42 }, [ "array", 42.5 ] ]"
# JsonWriter
ok {test-number} - stream.str() == "{\n}" for: "{ }" == "{ }"
# JsonWriter
ok {test-number} - stream.str() == "[\n]" for: "[ ]" == "[ ]"
# JsonWriter
ok {test-number} - stream.str() == "\"custom\"" for: ""custom"" == ""custom""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\\"\"" for: ""\""" == ""\"""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\\\\"" for: ""\\"" == ""\\""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"/\"" for: ""/"" == ""/""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\b\"" for: ""\b"" == ""\b""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\f\"" for: ""\f"" == ""\f""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\n\"" for: ""\n"" == ""\n""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\r\"" for: ""\r"" == ""\r""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\t\"" for: ""\t"" == ""\t""
# JsonWriter escapes charaters in strings properly
ok {test-number} - sstream.str() == "\"\\\\/\\t\\r\\n\"" for: ""\\/\t\r\n"" == ""\\/\t\r\n""
# Lambdas in assertions
ok {test-number} - []() { return true; }() for: true
# Less-than inequalities with different epsilons
ok {test-number} - d <= Approx( 1.24 ) for: 1.22999999999999998 <= Approx( 1.23999999999999999 )
# Less-than inequalities with different epsilons
ok {test-number} - d <= Approx( 1.23 ) for: 1.22999999999999998 <= Approx( 1.22999999999999998 )
# Less-than inequalities with different epsilons
ok {test-number} - !(d <= Approx( 1.22 )) for: !(1.22999999999999998 <= Approx( 1.21999999999999997 ))
# Less-than inequalities with different epsilons
ok {test-number} - d <= Approx( 1.22 ).epsilon(0.1) for: 1.22999999999999998 <= Approx( 1.21999999999999997 )
# ManuallyRegistered
ok {test-number} - with 1 message: 'was called'
# Matchers can be (AllOf) composed with the && operator
ok {test-number} - testStringForMatching(), ContainsSubstring( "string" ) && ContainsSubstring( "abc" ) && ContainsSubstring( "substring" ) && ContainsSubstring( "contains" ) for: "this string contains 'abc' as a substring" ( contains: "string" and contains: "abc" and contains: "substring" and contains: "contains" )
# Matchers can be (AnyOf) composed with the || operator
ok {test-number} - testStringForMatching(), ContainsSubstring( "string" ) || ContainsSubstring( "different" ) || ContainsSubstring( "random" ) for: "this string contains 'abc' as a substring" ( contains: "string" or contains: "different" or contains: "random" )
# Matchers can be (AnyOf) composed with the || operator
ok {test-number} - testStringForMatching2(), ContainsSubstring( "string" ) || ContainsSubstring( "different" ) || ContainsSubstring( "random" ) for: "some completely different text that contains one common word" ( contains: "string" or contains: "different" or contains: "random" )
# Matchers can be composed with both && and ||
ok {test-number} - testStringForMatching(), ( ContainsSubstring( "string" ) || ContainsSubstring( "different" ) ) && ContainsSubstring( "substring" ) for: "this string contains 'abc' as a substring" ( ( contains: "string" or contains: "different" ) and contains: "substring" )
# Matchers can be composed with both && and || - failing
not ok {test-number} - testStringForMatching(), ( ContainsSubstring( "string" ) || ContainsSubstring( "different" ) ) && ContainsSubstring( "random" ) for: "this string contains 'abc' as a substring" ( ( contains: "string" or contains: "different" ) and contains: "random" )
# Matchers can be negated (Not) with the ! operator
ok {test-number} - testStringForMatching(), !ContainsSubstring( "different" ) for: "this string contains 'abc' as a substring" not contains: "different"
# Matchers can be negated (Not) with the ! operator - failing
not ok {test-number} - testStringForMatching(), !ContainsSubstring( "substring" ) for: "this string contains 'abc' as a substring" not contains: "substring"
# Mayfail test case with nested sections
not ok {test-number} - explicitly
# Mayfail test case with nested sections
not ok {test-number} - explicitly
# Mayfail test case with nested sections
not ok {test-number} - explicitly
# Mayfail test case with nested sections
not ok {test-number} - explicitly
# Mismatching exception messages failing the test
ok {test-number} - thisThrows(), "expected exception" for: "expected exception" equals: "expected exception"
# Mismatching exception messages failing the test
not ok {test-number} - thisThrows(), "should fail" for: "expected exception" equals: "should fail"
# Multireporter calls reporters and listeners in correct order
ok {test-number} - records == expected for: { "Hello", "world", "Goodbye", "world" } == { "Hello", "world", "Goodbye", "world" }
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == false for: false == false
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == false for: false == false
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == false for: false == false
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == false for: false == false
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == false for: false == false
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == false for: false == false
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldRedirectStdOut == true for: true == true
# Multireporter updates ReporterPreferences properly
ok {test-number} - multiReporter.getPreferences().shouldReportAllAssertions == true for: true == true
# Nested generators and captured variables
ok {test-number} - values > -6 for: 3 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 4 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 5 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 6 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: -5 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: -4 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 90 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 91 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 92 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 93 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 94 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 95 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 96 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 97 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 98 > -6
# Nested generators and captured variables
ok {test-number} - values > -6 for: 99 > -6
# Nice descriptive name
warning {test-number} - 'This one ran'
# Non-std exceptions can be translated
not ok {test-number} - unexpected exception with message: 'custom exception'
# Objects that evaluated in boolean contexts can be checked
ok {test-number} - True for: {?}
# Objects that evaluated in boolean contexts can be checked
ok {test-number} - !False for: true
# Objects that evaluated in boolean contexts can be checked
ok {test-number} - !(False) for: !{?}
# Optionally static assertions
ok {test-number} - with 1 message: 'std::is_void<void>::value'
# Optionally static assertions
ok {test-number} - with 1 message: '!(std::is_void<int>::value)'
# Optionally static assertions
ok {test-number} - with 1 message: 'std::is_void<void>::value'
# Optionally static assertions
ok {test-number} - with 1 message: '!(std::is_void<int>::value)'
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven > 7 for: 7 > 7
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven < 7 for: 7 < 7
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven > 8 for: 7 > 8
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven < 6 for: 7 < 6
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven < 0 for: 7 < 0
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven < -1 for: 7 < -1
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven >= 8 for: 7 >= 8
# Ordering comparison checks that should fail
not ok {test-number} - data.int_seven <= 6 for: 7 <= 6
# Ordering comparison checks that should fail
not ok {test-number} - data.float_nine_point_one < 9 for: 9.100000381f < 9
# Ordering comparison checks that should fail
not ok {test-number} - data.float_nine_point_one > 10 for: 9.100000381f > 10
# Ordering comparison checks that should fail
not ok {test-number} - data.float_nine_point_one > 9.2 for: 9.100000381f > 9.19999999999999929
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello > "hello" for: "hello" > "hello"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello < "hello" for: "hello" < "hello"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello > "hellp" for: "hello" > "hellp"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello > "z" for: "hello" > "z"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello < "hellm" for: "hello" < "hellm"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello < "a" for: "hello" < "a"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello >= "z" for: "hello" >= "z"
# Ordering comparison checks that should fail
not ok {test-number} - data.str_hello <= "a" for: "hello" <= "a"
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven < 8 for: 7 < 8
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven > 6 for: 7 > 6
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven > 0 for: 7 > 0
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven > -1 for: 7 > -1
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven >= 7 for: 7 >= 7
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven >= 6 for: 7 >= 6
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven <= 7 for: 7 <= 7
# Ordering comparison checks that should succeed
ok {test-number} - data.int_seven <= 8 for: 7 <= 8
# Ordering comparison checks that should succeed
ok {test-number} - data.float_nine_point_one > 9 for: 9.100000381f > 9
# Ordering comparison checks that should succeed
ok {test-number} - data.float_nine_point_one < 10 for: 9.100000381f < 10
# Ordering comparison checks that should succeed
ok {test-number} - data.float_nine_point_one < 9.2 for: 9.100000381f < 9.19999999999999929
# Ordering comparison checks that should succeed
ok {test-number} - data.str_hello <= "hello" for: "hello" <= "hello"
# Ordering comparison checks that should succeed
ok {test-number} - data.str_hello >= "hello" for: "hello" >= "hello"
# Ordering comparison checks that should succeed
ok {test-number} - data.str_hello < "hellp" for: "hello" < "hellp"
# Ordering comparison checks that should succeed
ok {test-number} - data.str_hello < "zebra" for: "hello" < "zebra"
# Ordering comparison checks that should succeed
ok {test-number} - data.str_hello > "hellm" for: "hello" > "hellm"
# Ordering comparison checks that should succeed
ok {test-number} - data.str_hello > "a" for: "hello" > "a"
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 4242248763 (0x<hex digits>) == 4242248763 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 1867888929 (0x<hex digits>) == 1867888929 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 1276619030 (0x<hex digits>) == 1276619030 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 1911218783 (0x<hex digits>) == 1911218783 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 1827115164 (0x<hex digits>) == 1827115164 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 1472234645 (0x<hex digits>) == 1472234645 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 868832940 (0x<hex digits>) == 868832940 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 570883446 (0x<hex digits>) == 570883446 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 889299803 (0x<hex digits>) == 889299803 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 4261393167 (0x<hex digits>) == 4261393167 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 1472234645 (0x<hex digits>) == 1472234645 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 868832940 (0x<hex digits>) == 868832940 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 570883446 (0x<hex digits>) == 570883446 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 889299803 (0x<hex digits>) == 889299803 (0x<hex digits>)
# Our PCG implementation provides expected results for known seeds
ok {test-number} - rng() == 0x<hex digits> for: 4261393167 (0x<hex digits>) == 4261393167 (0x<hex digits>)
# Output from all sections is reported
not ok {test-number} - explicitly with 1 message: 'Message from section one'
# Output from all sections is reported
not ok {test-number} - explicitly with 1 message: 'Message from section two'
# Overloaded comma or address-of operators are not used
ok {test-number} - ( EvilMatcher(), EvilMatcher() ), EvilCommaOperatorUsed
# Overloaded comma or address-of operators are not used
ok {test-number} - &EvilMatcher(), EvilAddressOfOperatorUsed
# Overloaded comma or address-of operators are not used
ok {test-number} - EvilMatcher() || ( EvilMatcher() && !EvilMatcher() )
# Overloaded comma or address-of operators are not used
ok {test-number} - ( EvilMatcher() && EvilMatcher() ) || !EvilMatcher()
# Parse uints
ok {test-number} - parseUInt( "0" ) == Optional<unsigned int>{ 0 } for: {?} == {?}
# Parse uints
ok {test-number} - parseUInt( "100" ) == Optional<unsigned int>{ 100 } for: {?} == {?}
# Parse uints
ok {test-number} - parseUInt( "4294967295" ) == Optional<unsigned int>{ 4294967295 } for: {?} == {?}
# Parse uints
ok {test-number} - parseUInt( "0x<hex digits>", 16 ) == Optional<unsigned int>{ 255 } for: {?} == {?}
# Parse uints
ok {test-number} - !(parseUInt( "" )) for: !{?}
# Parse uints
ok {test-number} - !(parseUInt( "!!KJHF*#" )) for: !{?}
# Parse uints
ok {test-number} - !(parseUInt( "-1" )) for: !{?}
# Parse uints
ok {test-number} - !(parseUInt( "4294967296" )) for: !{?}
# Parse uints
ok {test-number} - !(parseUInt( "42949672964294967296429496729642949672964294967296" )) for: !{?}
# Parse uints
ok {test-number} - !(parseUInt( "2 4" )) for: !{?}
# Parse uints
ok {test-number} - !(parseUInt( "0x<hex digits>", 10 )) for: !{?}
# Parsed tags are matched case insensitive
ok {test-number} - spec.hasFilters() for: true
# Parsed tags are matched case insensitive
ok {test-number} - spec.getInvalidSpecs().empty() for: true
# Parsed tags are matched case insensitive
ok {test-number} - spec.matches( testCase ) for: true
# Parsing sharding-related cli flags
ok {test-number} - cli.parse({ "test", "--shard-count=8" }) for: {?}
# Parsing sharding-related cli flags
ok {test-number} - config.shardCount == 8 for: 8 == 8
# Parsing sharding-related cli flags
ok {test-number} - !(result) for: !{?}
# Parsing sharding-related cli flags
ok {test-number} - result.errorMessage(), ContainsSubstring( "Could not parse '-1' as shard count" ) for: "Could not parse '-1' as shard count" contains: "Could not parse '-1' as shard count"
# Parsing sharding-related cli flags
ok {test-number} - !(result) for: !{?}
# Parsing sharding-related cli flags
ok {test-number} - result.errorMessage(), ContainsSubstring( "Shard count must be positive" ) for: "Shard count must be positive" contains: "Shard count must be positive"
# Parsing sharding-related cli flags
ok {test-number} - cli.parse({ "test", "--shard-index=2" }) for: {?}
# Parsing sharding-related cli flags
ok {test-number} - config.shardIndex == 2 for: 2 == 2
# Parsing sharding-related cli flags
ok {test-number} - !(result) for: !{?}
# Parsing sharding-related cli flags
ok {test-number} - result.errorMessage(), ContainsSubstring( "Could not parse '-12' as shard index" ) for: "Could not parse '-12' as shard index" contains: "Could not parse '-12' as shard index"
# Parsing sharding-related cli flags
ok {test-number} - cli.parse({ "test", "--shard-index=0" }) for: {?}
# Parsing sharding-related cli flags
ok {test-number} - config.shardIndex == 0 for: 0 == 0
# Parsing tags with non-alphabetical characters is pass-through
ok {test-number} - spec.hasFilters() for: true with 1 message: 'tagString := "[tag with spaces]"'
# Parsing tags with non-alphabetical characters is pass-through
ok {test-number} - spec.getInvalidSpecs().empty() for: true with 1 message: 'tagString := "[tag with spaces]"'
# Parsing tags with non-alphabetical characters is pass-through
ok {test-number} - spec.matches( testCase ) for: true with 1 message: 'tagString := "[tag with spaces]"'
# Parsing tags with non-alphabetical characters is pass-through
ok {test-number} - spec.hasFilters() for: true with 1 message: 'tagString := "[I said "good day" sir!]"'
# Parsing tags with non-alphabetical characters is pass-through
ok {test-number} - spec.getInvalidSpecs().empty() for: true with 1 message: 'tagString := "[I said "good day" sir!]"'
# Parsing tags with non-alphabetical characters is pass-through
ok {test-number} - spec.matches( testCase ) for: true with 1 message: 'tagString := "[I said "good day" sir!]"'
# Parsing warnings
ok {test-number} - cli.parse( { "test", "-w", "NoAssertions" } ) for: {?}
# Parsing warnings
ok {test-number} - config.warnings == WarnAbout::NoAssertions for: 1 == 1
# Parsing warnings
ok {test-number} - !(cli.parse( { "test", "-w", "NoTests" } )) for: !{?}
# Parsing warnings
ok {test-number} - cli.parse( { "test", "--warn", "NoAssertions", "--warn", "UnmatchedTestSpec" } ) for: {?}
# Parsing warnings
ok {test-number} - config.warnings == ( WarnAbout::NoAssertions | WarnAbout::UnmatchedTestSpec ) for: 3 == 3
# Pointers can be compared to null
ok {test-number} - p == 0 for: 0 == 0
# Pointers can be compared to null
ok {test-number} - p == pNULL for: 0 == 0
# Pointers can be compared to null
ok {test-number} - p != 0 for: 0x<hex digits> != 0
# Pointers can be compared to null
ok {test-number} - cp != 0 for: 0x<hex digits> != 0
# Pointers can be compared to null
ok {test-number} - cpc != 0 for: 0x<hex digits> != 0
# Pointers can be compared to null
ok {test-number} - returnsNull() == 0 for: {null string} == 0
# Pointers can be compared to null
ok {test-number} - returnsConstNull() == 0 for: {null string} == 0
# Pointers can be compared to null
ok {test-number} - 0 != p for: 0 != 0x<hex digits>
# Precision of floating point stringification can be set
ok {test-number} - str1.size() == 3 + 5 for: 8 == 8
# Precision of floating point stringification can be set
ok {test-number} - str2.size() == 3 + 10 for: 13 == 13
# Precision of floating point stringification can be set
ok {test-number} - str1.size() == 2 + 5 for: 7 == 7
# Precision of floating point stringification can be set
ok {test-number} - str2.size() == 2 + 15 for: 17 == 17
# Predicate matcher can accept const char*
ok {test-number} - "foo", Predicate<const char*>( []( const char* const& ) { return true; } ) for: "foo" matches undescribed predicate
# Process can be configured on command line
ok {test-number} - result for: {?}
# Process can be configured on command line
ok {test-number} - config.processName == "" for: "" == ""
# Process can be configured on command line
ok {test-number} - result for: {?}
# Process can be configured on command line
ok {test-number} - config.processName == "test" for: "test" == "test"
# Process can be configured on command line
ok {test-number} - config.shouldDebugBreak == false for: false == false
# Process can be configured on command line
ok {test-number} - config.abortAfter == -1 for: -1 == -1
# Process can be configured on command line
ok {test-number} - config.noThrow == false for: false == false
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications.empty() for: true
# Process can be configured on command line
ok {test-number} - !(cfg.hasTestFilters()) for: !false
# Process can be configured on command line
ok {test-number} - cfg.getReporterSpecs().size() == 1 for: 1 == 1
# Process can be configured on command line
ok {test-number} - cfg.getReporterSpecs()[0] == Catch::ReporterSpec{ expectedReporter, {}, {}, {} } for: {?} == {?}
# Process can be configured on command line
ok {test-number} - cfg.getProcessedReporterSpecs().size() == 1 for: 1 == 1
# Process can be configured on command line
ok {test-number} - cfg.getProcessedReporterSpecs()[0] == Catch::ProcessedReporterSpec{ expectedReporter, std::string{}, Catch::ColourMode::PlatformDefault, {} } for: {?} == {?}
# Process can be configured on command line
ok {test-number} - result for: {?}
# Process can be configured on command line
ok {test-number} - cfg.hasTestFilters() for: true
# Process can be configured on command line
ok {test-number} - cfg.testSpec().matches(*fakeTestCase("notIncluded")) == false for: false == false
# Process can be configured on command line
ok {test-number} - cfg.testSpec().matches(*fakeTestCase("test1")) for: true
# Process can be configured on command line
ok {test-number} - result for: {?}
# Process can be configured on command line
ok {test-number} - cfg.hasTestFilters() for: true
# Process can be configured on command line
ok {test-number} - cfg.testSpec().matches(*fakeTestCase("test1")) == false for: false == false
# Process can be configured on command line
ok {test-number} - cfg.testSpec().matches(*fakeTestCase("alwaysIncluded")) for: true
# Process can be configured on command line
ok {test-number} - result for: {?}
# Process can be configured on command line
ok {test-number} - cfg.hasTestFilters() for: true
# Process can be configured on command line
ok {test-number} - cfg.testSpec().matches(*fakeTestCase("test1")) == false for: false == false
# Process can be configured on command line
ok {test-number} - cfg.testSpec().matches(*fakeTestCase("alwaysIncluded")) for: true
# Process can be configured on command line
ok {test-number} - result for: {?} with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "console", {}, {}, {} } } for: { {?} } == { {?} } with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - result for: {?} with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "xml", {}, {}, {} } } for: { {?} } == { {?} } with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - result for: {?} with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "junit", {}, {}, {} } } for: { {?} } == { {?} } with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - !result for: true
# Process can be configured on command line
ok {test-number} - result.errorMessage(), ContainsSubstring("Unrecognized reporter") for: "Unrecognized reporter, 'unsupported'. Check available with --list-reporters" contains: "Unrecognized reporter"
# Process can be configured on command line
ok {test-number} - result for: {?} with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "console", "out.txt"s, {}, {} } } for: { {?} } == { {?} } with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - result for: {?} with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "console", "C:\\Temp\\out.txt"s, {}, {} } } for: { {?} } == { {?} } with 1 message: 'result.errorMessage() := ""'
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "-r", "xml::out=output.xml", "-r", "junit::out=output-junit.xml" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "xml", "output.xml"s, {}, {} }, { "junit", "output-junit.xml"s, {}, {} } } for: { {?}, {?} } == { {?}, {?} }
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "-r", "xml::out=output.xml", "-r", "console" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.reporterSpecifications == vec_Specs{ { "xml", "output.xml"s, {}, {} }, { "console", {}, {}, {} } } for: { {?}, {?} } == { {?}, {?} }
# Process can be configured on command line
ok {test-number} - !result for: true
# Process can be configured on command line
ok {test-number} - result.errorMessage(), ContainsSubstring("Only one reporter may have unspecified output file.") for: "Only one reporter may have unspecified output file." contains: "Only one reporter may have unspecified output file."
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "-b"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.shouldDebugBreak == true for: true == true
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--break"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.shouldDebugBreak for: true
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "-a"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.abortAfter == 1 for: 1 == 1
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "-x", "2"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.abortAfter == 2 for: 2 == 2
# Process can be configured on command line
ok {test-number} - !result for: true
# Process can be configured on command line
ok {test-number} - result.errorMessage(), ContainsSubstring("convert") && ContainsSubstring("oops") for: "Unable to convert 'oops' to destination type" ( contains: "convert" and contains: "oops" )
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--wait-for-keypress", std::get<0>(input)}) for: {?}
# Process can be configured on command line
ok {test-number} - config.waitForKeypress == std::get<1>(input) for: 0 == 0
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--wait-for-keypress", std::get<0>(input)}) for: {?}
# Process can be configured on command line
ok {test-number} - config.waitForKeypress == std::get<1>(input) for: 1 == 1
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--wait-for-keypress", std::get<0>(input)}) for: {?}
# Process can be configured on command line
ok {test-number} - config.waitForKeypress == std::get<1>(input) for: 2 == 2
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--wait-for-keypress", std::get<0>(input)}) for: {?}
# Process can be configured on command line
ok {test-number} - config.waitForKeypress == std::get<1>(input) for: 3 == 3
# Process can be configured on command line
ok {test-number} - !result for: true
# Process can be configured on command line
ok {test-number} - result.errorMessage(), ContainsSubstring("never") && ContainsSubstring("both") for: "keypress argument must be one of: never, start, exit or both. 'sometimes' not recognised" ( contains: "never" and contains: "both" )
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "-e"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.noThrow for: true
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--nothrow"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.noThrow for: true
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "-o", "filename.ext"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.defaultOutputFilename == "filename.ext" for: "filename.ext" == "filename.ext"
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--out", "filename.ext"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.defaultOutputFilename == "filename.ext" for: "filename.ext" == "filename.ext"
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "-abe"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.abortAfter == 1 for: 1 == 1
# Process can be configured on command line
ok {test-number} - config.shouldDebugBreak for: true
# Process can be configured on command line
ok {test-number} - config.noThrow == true for: true == true
# Process can be configured on command line
ok {test-number} - cli.parse({"test"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.defaultColourMode == ColourMode::PlatformDefault for: 0 == 0
# Process can be configured on command line
ok {test-number} - cli.parse( { "test", "--colour-mode", "default" } ) for: {?}
# Process can be configured on command line
ok {test-number} - config.defaultColourMode == ColourMode::PlatformDefault for: 0 == 0
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--colour-mode", "ansi"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.defaultColourMode == ColourMode::ANSI for: 1 == 1
# Process can be configured on command line
ok {test-number} - cli.parse({"test", "--colour-mode", "none"}) for: {?}
# Process can be configured on command line
ok {test-number} - config.defaultColourMode == ColourMode::None for: 3 == 3
# Process can be configured on command line
ok {test-number} - !result for: true
# Process can be configured on command line
ok {test-number} - result.errorMessage(), ContainsSubstring( "colour mode must be one of" ) for: "colour mode must be one of: default, ansi, win32, or none. 'wrong' is not recognised" contains: "colour mode must be one of"
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "--benchmark-samples=200" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.benchmarkSamples == 200 for: 200 == 200
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "--benchmark-resamples=20000" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.benchmarkResamples == 20000 for: 20000 (0x<hex digits>) == 20000 (0x<hex digits>)
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "--benchmark-confidence-interval=0.99" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.benchmarkConfidenceInterval == Catch::Approx(0.99) for: 0.98999999999999999 == Approx( 0.98999999999999999 )
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "--benchmark-no-analysis" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.benchmarkNoAnalysis for: true
# Process can be configured on command line
ok {test-number} - cli.parse({ "test", "--benchmark-warmup-time=10" }) for: {?}
# Process can be configured on command line
ok {test-number} - config.benchmarkWarmupTime == 10 for: 10 == 10
# Product with differing arities - std::tuple<int, double, float>
ok {test-number} - std::tuple_size<TestType>::value >= 1 for: 3 >= 1
# Product with differing arities - std::tuple<int, double>
ok {test-number} - std::tuple_size<TestType>::value >= 1 for: 2 >= 1
# Product with differing arities - std::tuple<int>
ok {test-number} - std::tuple_size<TestType>::value >= 1 for: 1 >= 1
# Random seed generation accepts known methods
ok {test-number} - Catch::generateRandomSeed(method)
# Random seed generation accepts known methods
ok {test-number} - Catch::generateRandomSeed(method)
# Random seed generation accepts known methods
ok {test-number} - Catch::generateRandomSeed(method)
# Random seed generation reports unknown methods
ok {test-number} - Catch::generateRandomSeed(static_cast<Catch::GenerateFrom>(77))
# Range type with sentinel
ok {test-number} - Catch::Detail::stringify(UsesSentinel{}) == "{ }" for: "{ }" == "{ }"
# Reconstruction should be based on stringification: #914
not ok {test-number} - truthy(false) for: Hey, its truthy!
# Regex string matcher
not ok {test-number} - testStringForMatching(), Matches( "this STRING contains 'abc' as a substring" ) for: "this string contains 'abc' as a substring" matches "this STRING contains 'abc' as a substring" case sensitively
# Regex string matcher
not ok {test-number} - testStringForMatching(), Matches( "contains 'abc' as a substring" ) for: "this string contains 'abc' as a substring" matches "contains 'abc' as a substring" case sensitively
# Regex string matcher
not ok {test-number} - testStringForMatching(), Matches( "this string contains 'abc' as a" ) for: "this string contains 'abc' as a substring" matches "this string contains 'abc' as a" case sensitively
# Registering reporter with '::' in name fails
ok {test-number} - registry.registerReporter( "with::doublecolons", Catch::Detail::make_unique<TestReporterFactory>() ), "'::' is not allowed in reporter name: 'with::doublecolons'" for: "'::' is not allowed in reporter name: 'with::doublecolons'" equals: "'::' is not allowed in reporter name: 'with::doublecolons'"
# Regression test #1
ok {test-number} - actual, !UnorderedEquals( expected ) for: { 'a', 'b' } not UnorderedEquals: { 'c', 'b' }
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: Automake'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: Automake'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: Automake'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: compact'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: compact'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: compact'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: console'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: console'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: console'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "{ "version": 1, "metadata": { "name": "", "rng-seed": 1234, "catch2-version": "<version>" }, "listings": { "tags": [ { "aliases": [ "fakeTag" ], "count": 1 } ]" contains: "fakeTag" with 1 message: 'Tested reporter: JSON'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "{ "version": 1, "metadata": { "name": "", "rng-seed": 1234, "catch2-version": "<version>" }, "listings": { "reporters": [ { "name": "fake reporter", "description": "fake description" } ]" contains: "fake reporter" with 1 message: 'Tested reporter: JSON'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "{ "version": 1, "metadata": { "name": "", "rng-seed": 1234, "catch2-version": "<version>" }, "listings": { "tests": [ { "name": "fake test name", "class-name": "", "tags": [ "fakeTestTag" ], "source-location": { "filename": "fake-file.cpp", "line": 123456789 } } ]" ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: JSON'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "<?xml version="1.0" encoding="UTF-8"?> All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: JUnit'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "<?xml version="1.0" encoding="UTF-8"?> Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: JUnit'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "<?xml version="1.0" encoding="UTF-8"?> All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: JUnit'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "<?xml version="1.0" encoding="UTF-8"?> All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: SonarQube'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "<?xml version="1.0" encoding="UTF-8"?> Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: SonarQube'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "<?xml version="1.0" encoding="UTF-8"?> All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: SonarQube'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: TAP'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: TAP'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: TAP'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "All available tags: 1 [fakeTag] 1 tag " contains: "fakeTag" with 1 message: 'Tested reporter: TeamCity'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "Available reporters: fake reporter: fake description " contains: "fake reporter" with 1 message: 'Tested reporter: TeamCity'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: TeamCity'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fakeTag"s) for: "<?xml version="1.0" encoding="UTF-8"?> <TagsFromMatchingTests> <Tag> <Count>1</Count> <Aliases> <Alias>fakeTag</Alias> </Aliases> </Tag> </TagsFromMatchingTests>" contains: "fakeTag" with 1 message: 'Tested reporter: XML'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring("fake reporter"s) for: "<?xml version="1.0" encoding="UTF-8"?> <AvailableReporters> <Reporter> <Name>fake reporter</Name> <Description>fake description</Description> </Reporter> </AvailableReporters>" contains: "fake reporter" with 1 message: 'Tested reporter: XML'
# Reporter's write listings to provided stream
ok {test-number} - !(factories.empty()) for: !false
# Reporter's write listings to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "<?xml version="1.0" encoding="UTF-8"?> <MatchingTests> <TestCase> <Name>fake test name</Name> <ClassName/> <Tags>[fakeTestTag]</Tags> <SourceInfo> <File>fake-file.cpp</File> <Line>123456789</Line> </SourceInfo> </TestCase> </MatchingTests>" ( contains: "fake test name" and contains: "fakeTestTag" ) with 1 message: 'Tested reporter: XML'
# Reproducer for #2309 - a very long description past 80 chars (default console width) with a late colon : blablabla
ok {test-number} -
# SUCCEED counts as a test pass
ok {test-number} - with 1 message: 'this is a success'
# SUCCEED does not require an argument
ok {test-number} -
# Scenario: BDD tests requiring Fixtures to provide commonly-accessed data or methods
ok {test-number} - before == 0 for: 0 == 0
# Scenario: BDD tests requiring Fixtures to provide commonly-accessed data or methods
ok {test-number} - after > before for: 1 > 0
# Scenario: Do that thing with the thing
ok {test-number} - itDoesThis() for: true
# Scenario: Do that thing with the thing
ok {test-number} - itDoesThat() for: true
# Scenario: This is a really long scenario name to see how the list command deals with wrapping
ok {test-number} - with 1 message: 'boo!'
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.size() == 0 for: 0 == 0
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.size() == 10 for: 10 == 10
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.size() == 5 for: 5 == 5
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.size() == 0 for: 0 == 0
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# Scenario: Vector resizing affects size and capacity
ok {test-number} - v.size() == 0 for: 0 == 0
# Some simple comparisons between doubles
ok {test-number} - d == Approx( 1.23 ) for: 1.22999999999999998 == Approx( 1.22999999999999998 )
# Some simple comparisons between doubles
ok {test-number} - d != Approx( 1.22 ) for: 1.22999999999999998 != Approx( 1.21999999999999997 )
# Some simple comparisons between doubles
ok {test-number} - d != Approx( 1.24 ) for: 1.22999999999999998 != Approx( 1.23999999999999999 )
# Some simple comparisons between doubles
ok {test-number} - d == 1.23_a for: 1.22999999999999998 == Approx( 1.22999999999999998 )
# Some simple comparisons between doubles
ok {test-number} - d != 1.22_a for: 1.22999999999999998 != Approx( 1.21999999999999997 )
# Some simple comparisons between doubles
ok {test-number} - Approx( d ) == 1.23 for: Approx( 1.22999999999999998 ) == 1.22999999999999998
# Some simple comparisons between doubles
ok {test-number} - Approx( d ) != 1.22 for: Approx( 1.22999999999999998 ) != 1.21999999999999997
# Some simple comparisons between doubles
ok {test-number} - Approx( d ) != 1.24 for: Approx( 1.22999999999999998 ) != 1.23999999999999999
# StartsWith string matcher
not ok {test-number} - testStringForMatching(), StartsWith( "This String" ) for: "this string contains 'abc' as a substring" starts with: "This String"
# StartsWith string matcher
not ok {test-number} - testStringForMatching(), StartsWith( "string", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" starts with: "string" (case insensitive)
# Static arrays are convertible to string
ok {test-number} - Catch::Detail::stringify(singular) == "{ 1 }" for: "{ 1 }" == "{ 1 }"
# Static arrays are convertible to string
ok {test-number} - Catch::Detail::stringify(arr) == "{ 3, 2, 1 }" for: "{ 3, 2, 1 }" == "{ 3, 2, 1 }"
# Static arrays are convertible to string
ok {test-number} - Catch::Detail::stringify(arr) == R"({ { "1:1", "1:2", "1:3" }, { "2:1", "2:2" } })" for: "{ { "1:1", "1:2", "1:3" }, { "2:1", "2:2" } }" == "{ { "1:1", "1:2", "1:3" }, { "2:1", "2:2" } }"
# String matchers
ok {test-number} - testStringForMatching(), ContainsSubstring( "string" ) for: "this string contains 'abc' as a substring" contains: "string"
# String matchers
ok {test-number} - testStringForMatching(), ContainsSubstring( "string", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" contains: "string" (case insensitive)
# String matchers
ok {test-number} - testStringForMatching(), ContainsSubstring( "abc" ) for: "this string contains 'abc' as a substring" contains: "abc"
# String matchers
ok {test-number} - testStringForMatching(), ContainsSubstring( "aBC", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" contains: "abc" (case insensitive)
# String matchers
ok {test-number} - testStringForMatching(), StartsWith( "this" ) for: "this string contains 'abc' as a substring" starts with: "this"
# String matchers
ok {test-number} - testStringForMatching(), StartsWith( "THIS", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" starts with: "this" (case insensitive)
# String matchers
ok {test-number} - testStringForMatching(), EndsWith( "substring" ) for: "this string contains 'abc' as a substring" ends with: "substring"
# String matchers
ok {test-number} - testStringForMatching(), EndsWith( " SuBsTrInG", Catch::CaseSensitive::No ) for: "this string contains 'abc' as a substring" ends with: " substring" (case insensitive)
# StringRef
ok {test-number} - empty.empty() for: true
# StringRef
ok {test-number} - empty.size() == 0 for: 0 == 0
# StringRef
ok {test-number} - std::strcmp( empty.data(), "" ) == 0 for: 0 == 0
# StringRef
ok {test-number} - s.empty() == false for: false == false
# StringRef
ok {test-number} - s.size() == 5 for: 5 == 5
# StringRef
ok {test-number} - std::strcmp( rawChars, "hello" ) == 0 for: 0 == 0
# StringRef
ok {test-number} - s.data() == rawChars for: "hello" == "hello"
# StringRef
ok {test-number} - original == "original"
# StringRef
ok {test-number} - original.data()
# StringRef
ok {test-number} - original.begin() == copy.begin() for: "original string" == "original string"
# StringRef
ok {test-number} - original.begin() == copy.begin() for: "original string" == "original string"
# StringRef
ok {test-number} - ss.empty() == false for: false == false
# StringRef
ok {test-number} - ss.size() == 5 for: 5 == 5
# StringRef
ok {test-number} - std::strncmp( ss.data(), "hello", 5 ) == 0 for: 0 == 0
# StringRef
ok {test-number} - ss == "hello" for: hello == "hello"
# StringRef
ok {test-number} - ss.size() == 6 for: 6 == 6
# StringRef
ok {test-number} - std::strcmp( ss.data(), "world!" ) == 0 for: 0 == 0
# StringRef
ok {test-number} - s.data() == s2.data() for: "hello world!" == "hello world!"
# StringRef
ok {test-number} - s.data() == ss.data() for: "hello world!" == "hello world!"
# StringRef
ok {test-number} - s.substr(s.size() + 1, 123).empty() for: true
# StringRef
ok {test-number} - std::strcmp(ss.data(), "world!") == 0 for: 0 == 0
# StringRef
ok {test-number} - s.substr(1'000'000, 1).empty() for: true
# StringRef
ok {test-number} - reinterpret_cast<char*>(buffer1) != reinterpret_cast<char*>(buffer2) for: "Hello" != "Hello"
# StringRef
ok {test-number} - left == right for: Hello == Hello
# StringRef
ok {test-number} - left != left.substr(0, 3) for: Hello != Hel
# StringRef
ok {test-number} - sr == "a standard string" for: a standard string == "a standard string"
# StringRef
ok {test-number} - sr.size() == stdStr.size() for: 17 == 17
# StringRef
ok {test-number} - sr == "a standard string" for: a standard string == "a standard string"
# StringRef
ok {test-number} - sr.size() == stdStr.size() for: 17 == 17
# StringRef
ok {test-number} - sr == "a standard string" for: a standard string == "a standard string"
# StringRef
ok {test-number} - sr.size() == stdStr.size() for: 17 == 17
# StringRef
ok {test-number} - stdStr == "a stringref" for: "a stringref" == "a stringref"
# StringRef
ok {test-number} - stdStr.size() == sr.size() for: 11 == 11
# StringRef
ok {test-number} - stdStr == "a stringref" for: "a stringref" == "a stringref"
# StringRef
ok {test-number} - stdStr.size() == sr.size() for: 11 == 11
# StringRef
ok {test-number} - lhs == "some string += the stringref contents" for: "some string += the stringref contents" == "some string += the stringref contents"
# StringRef
ok {test-number} - together == "abrakadabra" for: "abrakadabra" == "abrakadabra"
# StringRef at compilation time
ok {test-number} - with 1 message: 'empty.size() == 0'
# StringRef at compilation time
ok {test-number} - with 1 message: 'empty.begin() == empty.end()'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref.size() == 3'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref.data() == abc'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref.begin() == abc'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref.begin() != stringref.end()'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref.substr(10, 0).empty()'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref.substr(2, 1).data() == abc + 2'
# StringRef at compilation time
ok {test-number} - with 1 message: 'stringref[1] == 'b''
# StringRef at compilation time
ok {test-number} - with 1 message: 'shortened.size() == 2'
# StringRef at compilation time
ok {test-number} - with 1 message: 'shortened.data() == abc'
# StringRef at compilation time
ok {test-number} - with 1 message: 'shortened.begin() != shortened.end()'
# StringRef at compilation time
ok {test-number} - with 1 message: '!(sr1.empty())'
# StringRef at compilation time
ok {test-number} - with 1 message: 'sr1.size() == 3'
# StringRef at compilation time
ok {test-number} - with 1 message: 'sr2.empty()'
# StringRef at compilation time
ok {test-number} - with 1 message: 'sr2.size() == 0'
# Stringifying char arrays with statically known sizes - char
ok {test-number} - ::Catch::Detail::stringify( with_null_terminator ) == R"("abc")"s for: ""abc"" == ""abc""
# Stringifying char arrays with statically known sizes - char
ok {test-number} - ::Catch::Detail::stringify( no_null_terminator ) == R"("abc")"s for: ""abc"" == ""abc""
# Stringifying char arrays with statically known sizes - signed char
ok {test-number} - ::Catch::Detail::stringify( with_null_terminator ) == R"("abc")"s for: ""abc"" == ""abc""
# Stringifying char arrays with statically known sizes - signed char
ok {test-number} - ::Catch::Detail::stringify( no_null_terminator ) == R"("abc")"s for: ""abc"" == ""abc""
# Stringifying char arrays with statically known sizes - unsigned char
ok {test-number} - ::Catch::Detail::stringify( with_null_terminator ) == R"("abc")"s for: ""abc"" == ""abc""
# Stringifying char arrays with statically known sizes - unsigned char
ok {test-number} - ::Catch::Detail::stringify( no_null_terminator ) == R"("abc")"s for: ""abc"" == ""abc""
# Stringifying std::chrono::duration helpers
ok {test-number} - minute == seconds for: 1 m == 60 s
# Stringifying std::chrono::duration helpers
ok {test-number} - hour != seconds for: 1 h != 60 s
# Stringifying std::chrono::duration helpers
ok {test-number} - micro != milli for: 1 us != 1 ms
# Stringifying std::chrono::duration helpers
ok {test-number} - nano != micro for: 1 ns != 1 us
# Stringifying std::chrono::duration with weird ratios
ok {test-number} - half_minute != femto_second for: 1 [30/1]s != 1 fs
# Stringifying std::chrono::duration with weird ratios
ok {test-number} - pico_second != atto_second for: 1 ps != 1 as
# Stringifying std::chrono::time_point<system_clock>
ok {test-number} - now != later for: {iso8601-timestamp} != {iso8601-timestamp}
# Tabs and newlines show in output
not ok {test-number} - s1 == s2 for: "if ($b == 10) { $a = 20; }" == "if ($b == 10) { $a = 20; } "
# Tag alias can be registered against tag patterns
ok {test-number} - what, ContainsSubstring( "[@zzz]" ) for: "error: tag alias, '[@zzz]' already registered. First seen at: file:2 Redefined at: file:10" contains: "[@zzz]"
# Tag alias can be registered against tag patterns
ok {test-number} - what, ContainsSubstring( "file" ) for: "error: tag alias, '[@zzz]' already registered. First seen at: file:2 Redefined at: file:10" contains: "file"
# Tag alias can be registered against tag patterns
ok {test-number} - what, ContainsSubstring( "2" ) for: "error: tag alias, '[@zzz]' already registered. First seen at: file:2 Redefined at: file:10" contains: "2"
# Tag alias can be registered against tag patterns
ok {test-number} - what, ContainsSubstring( "10" ) for: "error: tag alias, '[@zzz]' already registered. First seen at: file:2 Redefined at: file:10" contains: "10"
# Tag alias can be registered against tag patterns
ok {test-number} - registry.add( "[no ampersat]", "", Catch::SourceLineInfo( "file", 3 ) )
# Tag alias can be registered against tag patterns
ok {test-number} - registry.add( "[the @ is not at the start]", "", Catch::SourceLineInfo( "file", 3 ) )
# Tag alias can be registered against tag patterns
ok {test-number} - registry.add( "@no square bracket at start]", "", Catch::SourceLineInfo( "file", 3 ) )
# Tag alias can be registered against tag patterns
ok {test-number} - registry.add( "[@no square bracket at end", "", Catch::SourceLineInfo( "file", 3 ) )
# Tags with spaces and non-alphanumerical characters are accepted
ok {test-number} - testCase.tags.size() == 2 for: 2 == 2
# Tags with spaces and non-alphanumerical characters are accepted
ok {test-number} - testCase.tags, VectorContains( Tag( "tag with spaces" ) ) && VectorContains( Tag( "I said \"good day\" sir!"_catch_sr ) ) for: { {?}, {?} } ( Contains: {?} and Contains: {?} )
# Template test case method with test types specified inside std::tuple - MyTypes - 0
ok {test-number} - Template_Fixture<TestType>::m_a == 1 for: 1 == 1
# Template test case method with test types specified inside std::tuple - MyTypes - 1
ok {test-number} - Template_Fixture<TestType>::m_a == 1 for: 1 == 1
# Template test case method with test types specified inside std::tuple - MyTypes - 2
ok {test-number} - Template_Fixture<TestType>::m_a == 1 for: 1.0 == 1
# Template test case with test types specified inside non-copyable and non-movable std::tuple - NonCopyableAndNonMovableTypes - 0
ok {test-number} - std::is_default_constructible<TestType>::value for: true
# Template test case with test types specified inside non-copyable and non-movable std::tuple - NonCopyableAndNonMovableTypes - 1
ok {test-number} - std::is_default_constructible<TestType>::value for: true
# Template test case with test types specified inside non-default-constructible std::tuple - MyNonDefaultConstructibleTypes - 0
ok {test-number} - std::is_trivially_copyable<TestType>::value for: true
# Template test case with test types specified inside non-default-constructible std::tuple - MyNonDefaultConstructibleTypes - 1
ok {test-number} - std::is_trivially_copyable<TestType>::value for: true
# Template test case with test types specified inside std::tuple - MyTypes - 0
ok {test-number} - std::is_arithmetic<TestType>::value for: true
# Template test case with test types specified inside std::tuple - MyTypes - 1
ok {test-number} - std::is_arithmetic<TestType>::value for: true
# Template test case with test types specified inside std::tuple - MyTypes - 2
ok {test-number} - std::is_arithmetic<TestType>::value for: true
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 10 for: 10 == 10
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - float
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 10 for: 10 == 10
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - int
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 10 for: 10 == 10
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::string
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 10 for: 10 == 10
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.size() == 5 for: 5 == 5
# TemplateTest: vectors can be sized and resized - std::tuple<int,float>
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == V for: 6 == 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= V for: 6 >= 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == 2 * V for: 12 == 12
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= 2 * V for: 12 >= 12
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == V for: 6 == 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= V for: 6 >= 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= V for: 6 >= 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == V for: 6 == 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= V for: 6 >= 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == V for: 6 == 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= 2 * V for: 12 >= 12
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == V for: 6 == 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= V for: 6 >= 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.size() == V for: 6 == 6
# TemplateTestSig: vectors can be sized and resized - (std::tuple<int, float>), 6
ok {test-number} - v.capacity() >= V for: 6 >= 6
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == V for: 4 == 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= V for: 4 >= 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == 2 * V for: 8 == 8
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= 2 * V for: 8 >= 8
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == V for: 4 == 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= V for: 4 >= 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= V for: 4 >= 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == V for: 4 == 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= V for: 4 >= 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == V for: 4 == 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= 2 * V for: 8 >= 8
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == V for: 4 == 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= V for: 4 >= 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.size() == V for: 4 == 4
# TemplateTestSig: vectors can be sized and resized - float,4
ok {test-number} - v.capacity() >= V for: 4 >= 4
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == V for: 5 == 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= V for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == 2 * V for: 10 == 10
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= 2 * V for: 10 >= 10
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == V for: 5 == 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= V for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= V for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == V for: 5 == 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= V for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == V for: 5 == 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= 2 * V for: 10 >= 10
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == V for: 5 == 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= V for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.size() == V for: 5 == 5
# TemplateTestSig: vectors can be sized and resized - int,5
ok {test-number} - v.capacity() >= V for: 5 >= 5
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == V for: 15 == 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= V for: 15 >= 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == 2 * V for: 30 == 30
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= 2 * V for: 30 >= 30
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == V for: 15 == 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= V for: 15 >= 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= V for: 15 >= 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() == 0 for: 0 == 0
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == V for: 15 == 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= V for: 15 >= 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == V for: 15 == 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= 2 * V for: 30 >= 30
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == V for: 15 == 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= V for: 15 >= 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.size() == V for: 15 == 15
# TemplateTestSig: vectors can be sized and resized - std::string,15
ok {test-number} - v.capacity() >= V for: 15 >= 15
# Test case with identical tags keeps just one
ok {test-number} - testCase.tags.size() == 1 for: 1 == 1
# Test case with identical tags keeps just one
ok {test-number} - testCase.tags[0] == Tag( "tag1" ) for: {?} == {?}
# Test case with one argument
ok {test-number} - with 1 message: 'no assertions'
# Test enum bit values
ok {test-number} - 0x<hex digits> == bit30and31 for: 3221225472 (0x<hex digits>) == 3221225472
# Test with special, characters "in name
ok {test-number} -
# Testing checked-if
ok {test-number} - true
# Testing checked-if
ok {test-number} -
# Testing checked-if
ok {test-number} - false # TODO
# Testing checked-if
ok {test-number} - true
# Testing checked-if
ok {test-number} - false # TODO
# Testing checked-if
ok {test-number} -
# Testing checked-if 2
ok {test-number} - true
# Testing checked-if 2
not ok {test-number} - explicitly
# Testing checked-if 3
ok {test-number} - false # TODO
# Testing checked-if 3
not ok {test-number} - explicitly
# Testing checked-if 4
ok {test-number} - true
# Testing checked-if 4
not ok {test-number} - unexpected exception with message: 'Uncaught exception should fail!'; expression was: {Unknown expression after the reported line}
# Testing checked-if 5
ok {test-number} - false # TODO
# Testing checked-if 5
not ok {test-number} - unexpected exception with message: 'Uncaught exception should fail!'; expression was: {Unknown expression after the reported line}
# The NO_FAIL macro reports a failure but does not fail the test
ok {test-number} - 1 == 2 # TODO
# The default listing implementation write to provided stream
ok {test-number} - listingString, ContainsSubstring("[fakeTag]"s) for: "All available tags: 1 [fakeTag] 1 tag " contains: "[fakeTag]"
# The default listing implementation write to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake reporter"s ) && ContainsSubstring( "fake description"s ) for: "Available reporters: fake reporter: fake description " ( contains: "fake reporter" and contains: "fake description" )
# The default listing implementation write to provided stream
ok {test-number} - listingString, ContainsSubstring( "fake test name"s ) && ContainsSubstring( "fakeTestTag"s ) for: "All available test cases: fake test name [fakeTestTag] 1 test case " ( contains: "fake test name" and contains: "fakeTestTag" )
# The default listing implementation write to provided stream
ok {test-number} - listingString, ContainsSubstring( "fakeListener"s ) && ContainsSubstring( "fake description"s ) for: "Registered listeners: fakeListener: fake description " ( contains: "fakeListener" and contains: "fake description" )
# This test 'should' fail but doesn't
ok {test-number} - with 1 message: 'oops!'
# Thrown string literals are translated
not ok {test-number} - unexpected exception with message: 'For some reason someone is throwing a string literal!'
# Tracker
ok {test-number} - testCase.isOpen() for: true
# Tracker
ok {test-number} - s1.isOpen() for: true
# Tracker
ok {test-number} - s1.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase.isComplete() == false for: false == false
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - testCase.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase.isOpen() for: true
# Tracker
ok {test-number} - s1.isOpen() for: true
# Tracker
ok {test-number} - s1.isComplete() for: true
# Tracker
ok {test-number} - s1.isSuccessfullyCompleted() == false for: false == false
# Tracker
ok {test-number} - testCase.isComplete() == false for: false == false
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - testCase.isSuccessfullyCompleted() == false for: false == false
# Tracker
ok {test-number} - testCase2.isOpen() for: true
# Tracker
ok {test-number} - s1b.isOpen() == false for: false == false
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - testCase.isComplete() for: true
# Tracker
ok {test-number} - testCase.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase.isOpen() for: true
# Tracker
ok {test-number} - s1.isOpen() for: true
# Tracker
ok {test-number} - s1.isComplete() for: true
# Tracker
ok {test-number} - s1.isSuccessfullyCompleted() == false for: false == false
# Tracker
ok {test-number} - testCase.isComplete() == false for: false == false
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - testCase.isSuccessfullyCompleted() == false for: false == false
# Tracker
ok {test-number} - testCase2.isOpen() for: true
# Tracker
ok {test-number} - s1b.isOpen() == false for: false == false
# Tracker
ok {test-number} - s2.isOpen() for: true
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - testCase.isComplete() for: true
# Tracker
ok {test-number} - testCase.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase.isOpen() for: true
# Tracker
ok {test-number} - s1.isOpen() for: true
# Tracker
ok {test-number} - s2.isOpen() == false for: false == false
# Tracker
ok {test-number} - testCase.isComplete() == false for: false == false
# Tracker
ok {test-number} - testCase2.isOpen() for: true
# Tracker
ok {test-number} - s1b.isOpen() == false for: false == false
# Tracker
ok {test-number} - s2b.isOpen() for: true
# Tracker
ok {test-number} - ctx.completedCycle() == false for: false == false
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - s2b.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase2.isComplete() == false for: false == false
# Tracker
ok {test-number} - testCase2.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase.isOpen() for: true
# Tracker
ok {test-number} - s1.isOpen() for: true
# Tracker
ok {test-number} - s2.isOpen() == false for: false == false
# Tracker
ok {test-number} - testCase.isComplete() == false for: false == false
# Tracker
ok {test-number} - testCase2.isOpen() for: true
# Tracker
ok {test-number} - s1b.isOpen() == false for: false == false
# Tracker
ok {test-number} - s2b.isOpen() for: true
# Tracker
ok {test-number} - ctx.completedCycle() == false for: false == false
# Tracker
ok {test-number} - ctx.completedCycle() for: true
# Tracker
ok {test-number} - s2b.isComplete() for: true
# Tracker
ok {test-number} - s2b.isSuccessfullyCompleted() == false for: false == false
# Tracker
ok {test-number} - testCase2.isSuccessfullyCompleted() == false for: false == false
# Tracker
ok {test-number} - testCase3.isOpen() for: true
# Tracker
ok {test-number} - s1c.isOpen() == false for: false == false
# Tracker
ok {test-number} - s2c.isOpen() == false for: false == false
# Tracker
ok {test-number} - testCase3.isSuccessfullyCompleted() for: true
# Tracker
ok {test-number} - testCase.isOpen() for: true
# Tracker
ok {test-number} - s1.isOpen() for: true
# Tracker
ok {test-number} - s2.isOpen() for: true
# Tracker
ok {test-number} - s2.isComplete() for: true
# Tracker
ok {test-number} - s1.isComplete() == false for: false == false
# Tracker
ok {test-number} - s1.isComplete() for: true
# Tracker
ok {test-number} - testCase.isComplete() == false for: false == false
# Tracker
ok {test-number} - testCase.isComplete() for: true
# Trim strings
ok {test-number} - trim(std::string(no_whitespace)) == no_whitespace for: "There is no extra whitespace here" == "There is no extra whitespace here"
# Trim strings
ok {test-number} - trim(std::string(leading_whitespace)) == no_whitespace for: "There is no extra whitespace here" == "There is no extra whitespace here"
# Trim strings
ok {test-number} - trim(std::string(trailing_whitespace)) == no_whitespace for: "There is no extra whitespace here" == "There is no extra whitespace here"
# Trim strings
ok {test-number} - trim(std::string(whitespace_at_both_ends)) == no_whitespace for: "There is no extra whitespace here" == "There is no extra whitespace here"
# Trim strings
ok {test-number} - trim(StringRef(no_whitespace)) == StringRef(no_whitespace) for: There is no extra whitespace here == There is no extra whitespace here
# Trim strings
ok {test-number} - trim(StringRef(leading_whitespace)) == StringRef(no_whitespace) for: There is no extra whitespace here == There is no extra whitespace here
# Trim strings
ok {test-number} - trim(StringRef(trailing_whitespace)) == StringRef(no_whitespace) for: There is no extra whitespace here == There is no extra whitespace here
# Trim strings
ok {test-number} - trim(StringRef(whitespace_at_both_ends)) == StringRef(no_whitespace) for: There is no extra whitespace here == There is no extra whitespace here
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_a, RangeEquals( c_array ) for: { 1, 2, 3 } elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_a, UnorderedRangeEquals( c_array ) for: { 1, 2, 3 } unordered elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_3, !RangeEquals( array_int_4 ) for: { 1, 2, 3 } not elements are { 1, 2, 3, 4 }
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_3, !UnorderedRangeEquals( array_int_4 ) for: { 1, 2, 3 } not unordered elements are { 1, 2, 3, 4 }
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_a, RangeEquals( vector_char_a ) for: { 1, 2, 3 } elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_a, UnorderedRangeEquals( vector_char_a ) for: { 1, 2, 3 } unordered elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - with 1 message: 'ContainerIsRandomAccess( array_int_a ) != ContainerIsRandomAccess( list_char_a )'
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_a, RangeEquals( list_char_a ) for: { 1, 2, 3 } elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - array_int_a, UnorderedRangeEquals( list_char_a ) for: { 1, 2, 3 } unordered elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - vector_int_a, RangeEquals( vector_char_a ) for: { 1, 2, 3 } elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - vector_int_a, UnorderedRangeEquals( vector_char_a ) for: { 1, 2, 3 } unordered elements are { 1, 2, 3 }
# Type conversions of RangeEquals and similar
ok {test-number} - vector_int_a, !RangeEquals( vector_char_b ) for: { 1, 2, 3 } not elements are { 1, 2, 2 }
# Type conversions of RangeEquals and similar
ok {test-number} - vector_int_a, !UnorderedRangeEquals( vector_char_b ) for: { 1, 2, 3 } not unordered elements are { 1, 2, 2 }
# Type conversions of RangeEquals and similar
ok {test-number} - a, !RangeEquals( b ) for: { 1, 2, 3 } not elements are { 3, 2, 1 }
# Type conversions of RangeEquals and similar
ok {test-number} - a, UnorderedRangeEquals( b ) for: { 1, 2, 3 } unordered elements are { 3, 2, 1 }
# Type conversions of RangeEquals and similar
ok {test-number} - vector_a, RangeEquals( array_a_plus_1, close_enough ) for: { 1, 2, 3 } elements are { 2, 3, 4 }
# Type conversions of RangeEquals and similar
ok {test-number} - vector_a, UnorderedRangeEquals( array_a_plus_1, close_enough ) for: { 1, 2, 3 } unordered elements are { 2, 3, 4 }
# Unexpected exceptions can be translated
not ok {test-number} - unexpected exception with message: '3.14000000000000012'
# Upcasting special member functions
ok {test-number} - bptr->i == 3 for: 3 == 3
# Upcasting special member functions
ok {test-number} - bptr->i == 3 for: 3 == 3
# Usage of AllMatch range matcher
ok {test-number} - data, AllMatch(SizeIs(5)) for: { { 0, 1, 2, 3, 5 }, { 4, -3, -2, 5, 0 }, { 0, 0, 0, 5, 0 }, { 0, -5, 0, 5, 0 }, { 1, 0, 0, -1, 5 } } all match has size == 5
# Usage of AllMatch range matcher
ok {test-number} - data, !AllMatch(Contains(0) && Contains(1)) for: { { 0, 1, 2, 3, 5 }, { 4, -3, -2, 5, 0 }, { 0, 0, 0, 5, 0 }, { 0, -5, 0, 5, 0 }, { 1, 0, 0, -1, 5 } } not all match ( contains element 0 and contains element 1 )
# Usage of AllMatch range matcher
ok {test-number} - needs_adl, AllMatch( Predicate<int>( []( int elem ) { return elem < 6; } ) ) for: { 1, 2, 3, 4, 5 } all match matches undescribed predicate
# Usage of AllMatch range matcher
ok {test-number} - mocked, allMatch for: { 1, 2, 3, 4, 5 } all match matches undescribed predicate
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[3] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[4] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked, !allMatch for: { 1, 2, 3, 4, 5 } not all match matches undescribed predicate
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AllMatch range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AllMatch range matcher
ok {test-number} - !(mocked.m_derefed[3]) for: !false
# Usage of AllMatch range matcher
ok {test-number} - !(mocked.m_derefed[4]) for: !false
# Usage of AllTrue range matcher
ok {test-number} - data, AllTrue() for: { true, true, true, true, true } contains only true
# Usage of AllTrue range matcher
ok {test-number} - data, AllTrue() for: { } contains only true
# Usage of AllTrue range matcher
ok {test-number} - data, !AllTrue() for: { true, true, false, true, true } not contains only true
# Usage of AllTrue range matcher
ok {test-number} - data, !AllTrue() for: { false, false, false, false, false } not contains only true
# Usage of AllTrue range matcher
ok {test-number} - data, AllTrue() for: { true, true, true, true, true } contains only true
# Usage of AllTrue range matcher
ok {test-number} - data, !AllTrue() for: { true, true, false, true, true } not contains only true
# Usage of AllTrue range matcher
ok {test-number} - data, !AllTrue() for: { false, false, false, false, false } not contains only true
# Usage of AllTrue range matcher
ok {test-number} - mocked, AllTrue() for: { true, true, true, true, true } contains only true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[3] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[4] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked, !AllTrue() for: { true, true, false, true, true } not contains only true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AllTrue range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AllTrue range matcher
ok {test-number} - !(mocked.m_derefed[3]) for: !false
# Usage of AllTrue range matcher
ok {test-number} - !(mocked.m_derefed[4]) for: !false
# Usage of AnyMatch range matcher
ok {test-number} - data, AnyMatch(SizeIs(5)) for: { { 0, 1, 2, 3, 5 }, { 4, -3, -2, 5, 0 }, { 0, 0, 0, 5, 0 }, { 0, -5, 0, 5, 0 }, { 1, 0, 0, -1, 5 } } any match has size == 5
# Usage of AnyMatch range matcher
ok {test-number} - data, !AnyMatch(Contains(0) && Contains(10)) for: { { 0, 1, 2, 3, 5 }, { 4, -3, -2, 5, 0 }, { 0, 0, 0, 5, 0 }, { 0, -5, 0, 5, 0 }, { 1, 0, 0, -1, 5 } } not any match ( contains element 0 and contains element 10 )
# Usage of AnyMatch range matcher
ok {test-number} - needs_adl, AnyMatch( Predicate<int>( []( int elem ) { return elem < 3; } ) ) for: { 1, 2, 3, 4, 5 } any match matches undescribed predicate
# Usage of AnyMatch range matcher
ok {test-number} - mocked, !anyMatch for: { 1, 2, 3, 4, 5 } not any match matches undescribed predicate
# Usage of AnyMatch range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AnyMatch range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AnyMatch range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AnyMatch range matcher
ok {test-number} - mocked.m_derefed[3] for: true
# Usage of AnyMatch range matcher
ok {test-number} - mocked.m_derefed[4] for: true
# Usage of AnyMatch range matcher
ok {test-number} - mocked, anyMatch for: { 1, 2, 3, 4, 5 } any match matches undescribed predicate
# Usage of AnyMatch range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AnyMatch range matcher
ok {test-number} - !(mocked.m_derefed[1]) for: !false
# Usage of AnyMatch range matcher
ok {test-number} - !(mocked.m_derefed[2]) for: !false
# Usage of AnyMatch range matcher
ok {test-number} - !(mocked.m_derefed[3]) for: !false
# Usage of AnyMatch range matcher
ok {test-number} - !(mocked.m_derefed[4]) for: !false
# Usage of AnyTrue range matcher
ok {test-number} - data, AnyTrue() for: { true, true, true, true, true } contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - data, !AnyTrue() for: { } not contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - data, AnyTrue() for: { false, false, true, false, false } contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - data, !AnyTrue() for: { false, false, false, false, false } not contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - data, AnyTrue() for: { true, true, true, true, true } contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - data, AnyTrue() for: { false, false, true, false, false } contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - data, !AnyTrue() for: { false, false, false, false, false } not contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - mocked, AnyTrue() for: { false, false, false, false, true } contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[3] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[4] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked, AnyTrue() for: { false, false, true, true, true } contains at least one true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of AnyTrue range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of AnyTrue range matcher
ok {test-number} - !(mocked.m_derefed[3]) for: !false
# Usage of AnyTrue range matcher
ok {test-number} - !(mocked.m_derefed[4]) for: !false
# Usage of NoneMatch range matcher
ok {test-number} - data, NoneMatch(SizeIs(6)) for: { { 0, 1, 2, 3, 5 }, { 4, -3, -2, 5, 0 }, { 0, 0, 0, 5, 0 }, { 0, -5, 0, 5, 0 }, { 1, 0, 0, -1, 5 } } none match has size == 6
# Usage of NoneMatch range matcher
ok {test-number} - data, !NoneMatch(Contains(0) && Contains(1)) for: { { 0, 1, 2, 3, 5 }, { 4, -3, -2, 5, 0 }, { 0, 0, 0, 5, 0 }, { 0, -5, 0, 5, 0 }, { 1, 0, 0, -1, 5 } } not none match ( contains element 0 and contains element 1 )
# Usage of NoneMatch range matcher
ok {test-number} - needs_adl, NoneMatch( Predicate<int>( []( int elem ) { return elem > 6; } ) ) for: { 1, 2, 3, 4, 5 } none match matches undescribed predicate
# Usage of NoneMatch range matcher
ok {test-number} - mocked, noneMatch for: { 1, 2, 3, 4, 5 } none match matches undescribed predicate
# Usage of NoneMatch range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of NoneMatch range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of NoneMatch range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of NoneMatch range matcher
ok {test-number} - mocked.m_derefed[3] for: true
# Usage of NoneMatch range matcher
ok {test-number} - mocked.m_derefed[4] for: true
# Usage of NoneMatch range matcher
ok {test-number} - mocked, !noneMatch for: { 1, 2, 3, 4, 5 } not none match matches undescribed predicate
# Usage of NoneMatch range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of NoneMatch range matcher
ok {test-number} - !(mocked.m_derefed[1]) for: !false
# Usage of NoneMatch range matcher
ok {test-number} - !(mocked.m_derefed[2]) for: !false
# Usage of NoneMatch range matcher
ok {test-number} - !(mocked.m_derefed[3]) for: !false
# Usage of NoneMatch range matcher
ok {test-number} - !(mocked.m_derefed[4]) for: !false
# Usage of NoneTrue range matcher
ok {test-number} - data, !NoneTrue() for: { true, true, true, true, true } not contains no true
# Usage of NoneTrue range matcher
ok {test-number} - data, NoneTrue() for: { } contains no true
# Usage of NoneTrue range matcher
ok {test-number} - data, !NoneTrue() for: { false, false, true, false, false } not contains no true
# Usage of NoneTrue range matcher
ok {test-number} - data, NoneTrue() for: { false, false, false, false, false } contains no true
# Usage of NoneTrue range matcher
ok {test-number} - data, !NoneTrue() for: { true, true, true, true, true } not contains no true
# Usage of NoneTrue range matcher
ok {test-number} - data, !NoneTrue() for: { false, false, true, false, false } not contains no true
# Usage of NoneTrue range matcher
ok {test-number} - data, NoneTrue() for: { false, false, false, false, false } contains no true
# Usage of NoneTrue range matcher
ok {test-number} - mocked, NoneTrue() for: { false, false, false, false, false } contains no true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[3] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[4] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked, !NoneTrue() for: { false, false, true, true, true } not contains no true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[0] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[1] for: true
# Usage of NoneTrue range matcher
ok {test-number} - mocked.m_derefed[2] for: true
# Usage of NoneTrue range matcher
ok {test-number} - !(mocked.m_derefed[3]) for: !false
# Usage of NoneTrue range matcher
ok {test-number} - !(mocked.m_derefed[4]) for: !false
# Usage of RangeEquals range matcher
ok {test-number} - empty_vector, RangeEquals( empty_vector ) for: { } elements are { }
# Usage of RangeEquals range matcher
ok {test-number} - empty_vector, !RangeEquals( non_empty_vector ) for: { } not elements are { 1 }
# Usage of RangeEquals range matcher
ok {test-number} - non_empty_vector, !RangeEquals( empty_vector ) for: { 1 } not elements are { }
# Usage of RangeEquals range matcher
ok {test-number} - non_empty_array, RangeEquals( non_empty_array ) for: { 1 } elements are { 1 }
# Usage of RangeEquals range matcher
ok {test-number} - array_a, RangeEquals( array_a ) for: { 1, 2, 3 } elements are { 1, 2, 3 }
# Usage of RangeEquals range matcher
ok {test-number} - array_a, !RangeEquals( array_b ) for: { 1, 2, 3 } not elements are { 2, 2, 3 }
# Usage of RangeEquals range matcher
ok {test-number} - array_a, !RangeEquals( array_c ) for: { 1, 2, 3 } not elements are { 1, 2, 2 }
# Usage of RangeEquals range matcher
ok {test-number} - vector_a, !RangeEquals( vector_b ) for: { 1, 2, 3 } not elements are { 1, 2, 3, 4 }
# Usage of RangeEquals range matcher
ok {test-number} - vector_a, RangeEquals( vector_a_plus_1, close_enough ) for: { 1, 2, 3 } elements are { 2, 3, 4 }
# Usage of RangeEquals range matcher
ok {test-number} - vector_a, !RangeEquals( vector_b, close_enough ) for: { 1, 2, 3 } not elements are { 3, 3, 4 }
# Usage of RangeEquals range matcher
ok {test-number} - needs_adl1, RangeEquals( needs_adl2 ) for: { 1, 2, 3, 4, 5 } elements are { 1, 2, 3, 4, 5 }
# Usage of RangeEquals range matcher
ok {test-number} - needs_adl1, RangeEquals( needs_adl3, []( int l, int r ) { return l + 1 == r; } ) for: { 1, 2, 3, 4, 5 } elements are { 2, 3, 4, 5, 6 }
# Usage of RangeEquals range matcher
ok {test-number} - array_a, RangeEquals( { 1, 2, 3 } ) for: { 1, 2, 3 } elements are { 1, 2, 3 }
# Usage of RangeEquals range matcher
ok {test-number} - array_a, RangeEquals( { 2, 4, 6 }, []( int l, int r ) { return l * 2 == r; } ) for: { 1, 2, 3 } elements are { 2, 4, 6 }
# Usage of RangeEquals range matcher
ok {test-number} - mocked1, !RangeEquals( arr ) for: { 1, 2, 3, 4 } not elements are { 1, 2, 4, 4 }
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[0] for: true
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[1] for: true
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[2] for: true
# Usage of RangeEquals range matcher
ok {test-number} - !(mocked1.m_derefed[3]) for: !false
# Usage of RangeEquals range matcher
ok {test-number} - mocked1, RangeEquals( arr ) for: { 1, 2, 3, 4 } elements are { 1, 2, 3, 4 }
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[0] for: true
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[1] for: true
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[2] for: true
# Usage of RangeEquals range matcher
ok {test-number} - mocked1.m_derefed[3] for: true
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - empty_vector, UnorderedRangeEquals( empty_vector ) for: { } unordered elements are { }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - empty_vector, !UnorderedRangeEquals( non_empty_vector ) for: { } not unordered elements are { 1 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - non_empty_vector, !UnorderedRangeEquals( empty_vector ) for: { 1 } not unordered elements are { }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - non_empty_array, UnorderedRangeEquals( non_empty_array ) for: { 1 } unordered elements are { 1 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - array_a, UnorderedRangeEquals( array_a ) for: { 1, 2, 3 } unordered elements are { 1, 2, 3 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - array_a, !UnorderedRangeEquals( array_b ) for: { 1, 2, 3 } not unordered elements are { 2, 2, 3 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - vector_a, !UnorderedRangeEquals( vector_b ) for: { 1, 2, 3 } not unordered elements are { 1, 2, 3, 4 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - vector_a, UnorderedRangeEquals( vector_a_plus_1, close_enough ) for: { 1, 10, 20 } unordered elements are { 11, 21, 2 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - vector_a, !UnorderedRangeEquals( vector_b, close_enough ) for: { 1, 10, 21 } not unordered elements are { 11, 21, 3 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - needs_adl1, UnorderedRangeEquals( needs_adl2 ) for: { 1, 2, 3, 4, 5 } unordered elements are { 1, 2, 3, 4, 5 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - array_a, UnorderedRangeEquals( { 10, 20, 1 } ) for: { 1, 10, 20 } unordered elements are { 10, 20, 1 }
# Usage of UnorderedRangeEquals range matcher
ok {test-number} - array_a, UnorderedRangeEquals( { 11, 21, 2 }, []( int l, int r ) { return std::abs( l - r ) <= 1; } ) for: { 1, 10, 20 } unordered elements are { 11, 21, 2 }
# Usage of the SizeIs range matcher
ok {test-number} - empty_vec, SizeIs(0) for: { } has size == 0
# Usage of the SizeIs range matcher
ok {test-number} - empty_vec, !SizeIs(2) for: { } not has size == 2
# Usage of the SizeIs range matcher
ok {test-number} - empty_vec, SizeIs(Lt(2)) for: { } size matches is less than 2
# Usage of the SizeIs range matcher
ok {test-number} - arr, SizeIs(2) for: { 0, 0 } has size == 2
# Usage of the SizeIs range matcher
ok {test-number} - arr, SizeIs( Lt(3)) for: { 0, 0 } size matches is less than 3
# Usage of the SizeIs range matcher
ok {test-number} - arr, !SizeIs(!Lt(3)) for: { 0, 0 } not size matches not is less than 3
# Usage of the SizeIs range matcher
ok {test-number} - map, SizeIs(3) for: { {?}, {?}, {?} } has size == 3
# Usage of the SizeIs range matcher
ok {test-number} - unrelated::ADL_size{}, SizeIs(12) for: {?} has size == 12
# Usage of the SizeIs range matcher
ok {test-number} - has_size{}, SizeIs(13) for: {?} has size == 13
# Use a custom approx
ok {test-number} - d == approx( 1.23 ) for: 1.22999999999999998 == Approx( 1.22999999999999998 )
# Use a custom approx
ok {test-number} - d == approx( 1.22 ) for: 1.22999999999999998 == Approx( 1.21999999999999997 )
# Use a custom approx
ok {test-number} - d == approx( 1.24 ) for: 1.22999999999999998 == Approx( 1.23999999999999999 )
# Use a custom approx
ok {test-number} - d != approx( 1.25 ) for: 1.22999999999999998 != Approx( 1.25 )
# Use a custom approx
ok {test-number} - approx( d ) == 1.23 for: Approx( 1.22999999999999998 ) == 1.22999999999999998
# Use a custom approx
ok {test-number} - approx( d ) == 1.22 for: Approx( 1.22999999999999998 ) == 1.21999999999999997
# Use a custom approx
ok {test-number} - approx( d ) == 1.24 for: Approx( 1.22999999999999998 ) == 1.23999999999999999
# Use a custom approx
ok {test-number} - approx( d ) != 1.25 for: Approx( 1.22999999999999998 ) != 1.25
# Variadic macros
ok {test-number} - with 1 message: 'no assertions'
# Vector Approx matcher
ok {test-number} - empty, Approx( empty ) for: { } is approx: { }
# Vector Approx matcher
ok {test-number} - v1, Approx( v1 ) for: { 1.0, 2.0, 3.0 } is approx: { 1.0, 2.0, 3.0 }
# Vector Approx matcher
ok {test-number} - v1, Approx<double>( { 1., 2., 3. } ) for: { 1.0, 2.0, 3.0 } is approx: { 1.0, 2.0, 3.0 }
# Vector Approx matcher
ok {test-number} - v1, !Approx( temp ) for: { 1.0, 2.0, 3.0 } not is approx: { 1.0, 2.0, 3.0, 4.0 }
# Vector Approx matcher
ok {test-number} - v1, !Approx( v2 ) for: { 1.0, 2.0, 3.0 } not is approx: { 1.5, 2.5, 3.5 }
# Vector Approx matcher
ok {test-number} - v1, Approx( v2 ).margin( 0.5 ) for: { 1.0, 2.0, 3.0 } is approx: { 1.5, 2.5, 3.5 }
# Vector Approx matcher
ok {test-number} - v1, Approx( v2 ).epsilon( 0.5 ) for: { 1.0, 2.0, 3.0 } is approx: { 1.5, 2.5, 3.5 }
# Vector Approx matcher
ok {test-number} - v1, Approx( v2 ).epsilon( 0.1 ).scale( 500 ) for: { 1.0, 2.0, 3.0 } is approx: { 1.5, 2.5, 3.5 }
# Vector Approx matcher -- failing
not ok {test-number} - empty, Approx( t1 ) for: { } is approx: { 1.0, 2.0 }
# Vector Approx matcher -- failing
not ok {test-number} - v1, Approx( v2 ) for: { 2.0, 4.0, 6.0 } is approx: { 1.0, 3.0, 5.0 }
# Vector matchers
ok {test-number} - v, VectorContains( 1 ) for: { 1, 2, 3 } Contains: 1
# Vector matchers
ok {test-number} - v, VectorContains( 2 ) for: { 1, 2, 3 } Contains: 2
# Vector matchers
ok {test-number} - v5, ( VectorContains<int, CustomAllocator<int>>( 2 ) ) for: { 1, 2, 3 } Contains: 2
# Vector matchers
ok {test-number} - v, Contains( v2 ) for: { 1, 2, 3 } Contains: { 1, 2 }
# Vector matchers
ok {test-number} - v, Contains<int>( { 1, 2 } ) for: { 1, 2, 3 } Contains: { 1, 2 }
# Vector matchers
ok {test-number} - v5, ( Contains<int, std::allocator<int>, CustomAllocator<int>>( v2 ) ) for: { 1, 2, 3 } Contains: { 1, 2 }
# Vector matchers
ok {test-number} - v, Contains( v2 ) for: { 1, 2, 3 } Contains: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v, Contains( empty ) for: { 1, 2, 3 } Contains: { }
# Vector matchers
ok {test-number} - empty, Contains( empty ) for: { } Contains: { }
# Vector matchers
ok {test-number} - v5, ( Contains<int, std::allocator<int>, CustomAllocator<int>>( v2 ) ) for: { 1, 2, 3 } Contains: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v5, Contains( v6 ) for: { 1, 2, 3 } Contains: { 1, 2 }
# Vector matchers
ok {test-number} - v, VectorContains( 1 ) && VectorContains( 2 ) for: { 1, 2, 3 } ( Contains: 1 and Contains: 2 )
# Vector matchers
ok {test-number} - v, Equals( v ) for: { 1, 2, 3 } Equals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - empty, Equals( empty ) for: { } Equals: { }
# Vector matchers
ok {test-number} - v, Equals<int>( { 1, 2, 3 } ) for: { 1, 2, 3 } Equals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v, Equals( v2 ) for: { 1, 2, 3 } Equals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v5, ( Equals<int, std::allocator<int>, CustomAllocator<int>>( v2 ) ) for: { 1, 2, 3 } Equals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v5, Equals( v6 ) for: { 1, 2, 3 } Equals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v, UnorderedEquals( v ) for: { 1, 2, 3 } UnorderedEquals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v, UnorderedEquals<int>( { 3, 2, 1 } ) for: { 1, 2, 3 } UnorderedEquals: { 3, 2, 1 }
# Vector matchers
ok {test-number} - empty, UnorderedEquals( empty ) for: { } UnorderedEquals: { }
# Vector matchers
ok {test-number} - permuted, UnorderedEquals( v ) for: { 1, 3, 2 } UnorderedEquals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - permuted, UnorderedEquals( v ) for: { 2, 3, 1 } UnorderedEquals: { 1, 2, 3 }
# Vector matchers
ok {test-number} - v5, ( UnorderedEquals<int, std::allocator<int>, CustomAllocator<int>>( permuted ) ) for: { 1, 2, 3 } UnorderedEquals: { 2, 3, 1 }
# Vector matchers
ok {test-number} - v5_permuted, UnorderedEquals( v5 ) for: { 1, 3, 2 } UnorderedEquals: { 1, 2, 3 }
# Vector matchers that fail
not ok {test-number} - v, VectorContains( -1 ) for: { 1, 2, 3 } Contains: -1
# Vector matchers that fail
not ok {test-number} - empty, VectorContains( 1 ) for: { } Contains: 1
# Vector matchers that fail
not ok {test-number} - empty, Contains( v ) for: { } Contains: { 1, 2, 3 }
# Vector matchers that fail
not ok {test-number} - v, Contains( v2 ) for: { 1, 2, 3 } Contains: { 1, 2, 4 }
# Vector matchers that fail
not ok {test-number} - v, Equals( v2 ) for: { 1, 2, 3 } Equals: { 1, 2 }
# Vector matchers that fail
not ok {test-number} - v2, Equals( v ) for: { 1, 2 } Equals: { 1, 2, 3 }
# Vector matchers that fail
not ok {test-number} - empty, Equals( v ) for: { } Equals: { 1, 2, 3 }
# Vector matchers that fail
not ok {test-number} - v, Equals( empty ) for: { 1, 2, 3 } Equals: { }
# Vector matchers that fail
not ok {test-number} - v, UnorderedEquals( empty ) for: { 1, 2, 3 } UnorderedEquals: { }
# Vector matchers that fail
not ok {test-number} - empty, UnorderedEquals( v ) for: { } UnorderedEquals: { 1, 2, 3 }
# Vector matchers that fail
not ok {test-number} - permuted, UnorderedEquals( v ) for: { 1, 3 } UnorderedEquals: { 1, 2, 3 }
# Vector matchers that fail
not ok {test-number} - permuted, UnorderedEquals( v ) for: { 3, 1 } UnorderedEquals: { 1, 2, 3 }
# When checked exceptions are thrown they can be expected or unexpected
ok {test-number} - thisThrows(), std::domain_error
# When checked exceptions are thrown they can be expected or unexpected
ok {test-number} - thisDoesntThrow()
# When checked exceptions are thrown they can be expected or unexpected
ok {test-number} - thisThrows()
# When unchecked exceptions are thrown directly they are always failures
not ok {test-number} - unexpected exception with message: 'unexpected exception'
# When unchecked exceptions are thrown during a CHECK the test should continue
not ok {test-number} - unexpected exception with message: 'expected exception'; expression was: thisThrows() == 0
# When unchecked exceptions are thrown during a REQUIRE the test should abort fail
not ok {test-number} - unexpected exception with message: 'expected exception'; expression was: thisThrows() == 0
# When unchecked exceptions are thrown from functions they are always failures
not ok {test-number} - unexpected exception with message: 'expected exception'; expression was: thisThrows() == 0
# When unchecked exceptions are thrown from sections they are always failures
not ok {test-number} - unexpected exception with message: 'unexpected exception'
# X/level/0/a
ok {test-number} -
# X/level/0/b
ok {test-number} -
# X/level/1/a
ok {test-number} -
# X/level/1/b
ok {test-number} -
# XmlEncode
ok {test-number} - encode( "normal string" ) == "normal string" for: "normal string" == "normal string"
# XmlEncode
ok {test-number} - encode( "" ) == "" for: "" == ""
# XmlEncode
ok {test-number} - encode( "smith & jones" ) == "smith &amp; jones" for: "smith &amp; jones" == "smith &amp; jones"
# XmlEncode
ok {test-number} - encode( "smith < jones" ) == "smith &lt; jones" for: "smith &lt; jones" == "smith &lt; jones"
# XmlEncode
ok {test-number} - encode( "smith > jones" ) == "smith > jones" for: "smith > jones" == "smith > jones"
# XmlEncode
ok {test-number} - encode( "smith ]]> jones" ) == "smith ]]&gt; jones" for: "smith ]]&gt; jones" == "smith ]]&gt; jones"
# XmlEncode
ok {test-number} - encode( stringWithQuotes ) == stringWithQuotes for: "don't "quote" me on that" == "don't "quote" me on that"
# XmlEncode
ok {test-number} - encode( stringWithQuotes, Catch::XmlEncode::ForAttributes ) == "don't &quot;quote&quot; me on that" for: "don't &quot;quote&quot; me on that" == "don't &quot;quote&quot; me on that"
# XmlEncode
ok {test-number} - encode( "[\x01]" ) == "[\\x01]" for: "[\x01]" == "[\x01]"
# XmlEncode
ok {test-number} - encode( "[\x7F]" ) == "[\\x7F]" for: "[\x7F]" == "[\x7F]"
# XmlWriter writes boolean attributes as true/false
ok {test-number} - stream.str(), ContainsSubstring(R"(attr1="true")") && ContainsSubstring(R"(attr2="false")") for: "<?xml version="1.0" encoding="UTF-8"?> <Element1 attr1="true" attr2="false"/> " ( contains: "attr1="true"" and contains: "attr2="false"" )
# a succeeding test can still be skipped
ok {test-number} -
# a succeeding test can still be skipped
ok {test-number} - # SKIP
# analyse no analysis
ok {test-number} - analysis.mean.point.count() == 23 for: 23.0 == 23
# analyse no analysis
ok {test-number} - analysis.mean.lower_bound.count() == 23 for: 23.0 == 23
# analyse no analysis
ok {test-number} - analysis.mean.upper_bound.count() == 23 for: 23.0 == 23
# analyse no analysis
ok {test-number} - analysis.standard_deviation.point.count() == 0 for: 0.0 == 0
# analyse no analysis
ok {test-number} - analysis.standard_deviation.lower_bound.count() == 0 for: 0.0 == 0
# analyse no analysis
ok {test-number} - analysis.standard_deviation.upper_bound.count() == 0 for: 0.0 == 0
# analyse no analysis
ok {test-number} - analysis.outliers.total() == 0 for: 0 == 0
# analyse no analysis
ok {test-number} - analysis.outliers.low_mild == 0 for: 0 == 0
# analyse no analysis
ok {test-number} - analysis.outliers.low_severe == 0 for: 0 == 0
# analyse no analysis
ok {test-number} - analysis.outliers.high_mild == 0 for: 0 == 0
# analyse no analysis
ok {test-number} - analysis.outliers.high_severe == 0 for: 0 == 0
# analyse no analysis
ok {test-number} - analysis.outliers.samples_seen == 0 for: 0 == 0
# analyse no analysis
ok {test-number} - analysis.outlier_variance == 0 for: 0.0 == 0
# array<int, N> -> toString
ok {test-number} - Catch::Detail::stringify( empty ) == "{ }" for: "{ }" == "{ }"
# array<int, N> -> toString
ok {test-number} - Catch::Detail::stringify( oneValue ) == "{ 42 }" for: "{ 42 }" == "{ 42 }"
# array<int, N> -> toString
ok {test-number} - Catch::Detail::stringify( twoValues ) == "{ 42, 250 }" for: "{ 42, 250 }" == "{ 42, 250 }"
# benchmark function call
ok {test-number} - model.started == 1 for: 1 == 1
# benchmark function call
ok {test-number} - model.finished == 0 for: 0 == 0
# benchmark function call
ok {test-number} - model.started == 1 for: 1 == 1
# benchmark function call
ok {test-number} - model.finished == 1 for: 1 == 1
# benchmark function call
ok {test-number} - called == 1 for: 1 == 1
# benchmark function call
ok {test-number} - model.started == 0 for: 0 == 0
# benchmark function call
ok {test-number} - model.finished == 0 for: 0 == 0
# benchmark function call
ok {test-number} - model.started == 0 for: 0 == 0
# benchmark function call
ok {test-number} - model.finished == 0 for: 0 == 0
# benchmark function call
ok {test-number} - called == 1 for: 1 == 1
# boolean member
ok {test-number} - obj.prop != 0 for: 0x<hex digits> != 0
# checkedElse
ok {test-number} - flag for: true
# checkedElse
ok {test-number} - testCheckedElse( true ) for: true
# checkedElse, failing
ok {test-number} - flag for: false # TODO
# checkedElse, failing
not ok {test-number} - testCheckedElse( false ) for: false
# checkedIf
ok {test-number} - flag for: true
# checkedIf
ok {test-number} - testCheckedIf( true ) for: true
# checkedIf, failing
ok {test-number} - flag for: false # TODO
# checkedIf, failing
not ok {test-number} - testCheckedIf( false ) for: false
# classify_outliers
ok {test-number} - o.samples_seen == static_cast<int>(x.size()) for: 6 == 6
# classify_outliers
ok {test-number} - o.low_severe == los for: 0 == 0
# classify_outliers
ok {test-number} - o.low_mild == lom for: 0 == 0
# classify_outliers
ok {test-number} - o.high_mild == him for: 0 == 0
# classify_outliers
ok {test-number} - o.high_severe == his for: 0 == 0
# classify_outliers
ok {test-number} - o.total() == los + lom + him + his for: 0 == 0
# classify_outliers
ok {test-number} - o.samples_seen == static_cast<int>(x.size()) for: 6 == 6
# classify_outliers
ok {test-number} - o.low_severe == los for: 1 == 1
# classify_outliers
ok {test-number} - o.low_mild == lom for: 0 == 0
# classify_outliers
ok {test-number} - o.high_mild == him for: 0 == 0
# classify_outliers
ok {test-number} - o.high_severe == his for: 0 == 0
# classify_outliers
ok {test-number} - o.total() == los + lom + him + his for: 1 == 1
# classify_outliers
ok {test-number} - o.samples_seen == static_cast<int>(x.size()) for: 6 == 6
# classify_outliers
ok {test-number} - o.low_severe == los for: 0 == 0
# classify_outliers
ok {test-number} - o.low_mild == lom for: 1 == 1
# classify_outliers
ok {test-number} - o.high_mild == him for: 0 == 0
# classify_outliers
ok {test-number} - o.high_severe == his for: 0 == 0
# classify_outliers
ok {test-number} - o.total() == los + lom + him + his for: 1 == 1
# classify_outliers
ok {test-number} - o.samples_seen == static_cast<int>(x.size()) for: 6 == 6
# classify_outliers
ok {test-number} - o.low_severe == los for: 0 == 0
# classify_outliers
ok {test-number} - o.low_mild == lom for: 0 == 0
# classify_outliers
ok {test-number} - o.high_mild == him for: 1 == 1
# classify_outliers
ok {test-number} - o.high_severe == his for: 0 == 0
# classify_outliers
ok {test-number} - o.total() == los + lom + him + his for: 1 == 1
# classify_outliers
ok {test-number} - o.samples_seen == static_cast<int>(x.size()) for: 6 == 6
# classify_outliers
ok {test-number} - o.low_severe == los for: 0 == 0
# classify_outliers
ok {test-number} - o.low_mild == lom for: 0 == 0
# classify_outliers
ok {test-number} - o.high_mild == him for: 0 == 0
# classify_outliers
ok {test-number} - o.high_severe == his for: 1 == 1
# classify_outliers
ok {test-number} - o.total() == los + lom + him + his for: 1 == 1
# classify_outliers
ok {test-number} - o.samples_seen == static_cast<int>(x.size()) for: 6 == 6
# classify_outliers
ok {test-number} - o.low_severe == los for: 1 == 1
# classify_outliers
ok {test-number} - o.low_mild == lom for: 0 == 0
# classify_outliers
ok {test-number} - o.high_mild == him for: 1 == 1
# classify_outliers
ok {test-number} - o.high_severe == his for: 0 == 0
# classify_outliers
ok {test-number} - o.total() == los + lom + him + his for: 2 == 2
# comparisons between const int variables
ok {test-number} - unsigned_char_var == 1 for: 1 == 1
# comparisons between const int variables
ok {test-number} - unsigned_short_var == 1 for: 1 == 1
# comparisons between const int variables
ok {test-number} - unsigned_int_var == 1 for: 1 == 1
# comparisons between const int variables
ok {test-number} - unsigned_long_var == 1 for: 1 == 1
# comparisons between int variables
ok {test-number} - long_var == unsigned_char_var for: 1 == 1
# comparisons between int variables
ok {test-number} - long_var == unsigned_short_var for: 1 == 1
# comparisons between int variables
ok {test-number} - long_var == unsigned_int_var for: 1 == 1
# comparisons between int variables
ok {test-number} - long_var == unsigned_long_var for: 1 == 1
# convertToBits
ok {test-number} - convertToBits( 0.f ) == 0 for: 0 == 0
# convertToBits
ok {test-number} - convertToBits( -0.f ) == ( 1ULL << 31 ) for: 2147483648 (0x<hex digits>) == 2147483648 (0x<hex digits>)
# convertToBits
ok {test-number} - convertToBits( 0. ) == 0 for: 0 == 0
# convertToBits
ok {test-number} - convertToBits( -0. ) == ( 1ULL << 63 ) for: 9223372036854775808 (0x<hex digits>) == 9223372036854775808 (0x<hex digits>)
# convertToBits
ok {test-number} - convertToBits( std::numeric_limits<float>::denorm_min() ) == 1 for: 1 == 1
# convertToBits
ok {test-number} - convertToBits( std::numeric_limits<double>::denorm_min() ) == 1 for: 1 == 1
# dynamic skipping works with generators
ok {test-number} - # SKIP 'skipping because answer = 41'
# dynamic skipping works with generators
ok {test-number} -
# dynamic skipping works with generators
ok {test-number} - # SKIP 'skipping because answer = 43'
# empty tags are not allowed
ok {test-number} - Catch::TestCaseInfo("", { "test with an empty tag", "[]" }, dummySourceLineInfo)
# erfc_inv
ok {test-number} - erfc_inv(1.103560) == Approx(-0.09203687623843015) for: -0.09203687623843014 == Approx( -0.09203687623843015 )
# erfc_inv
ok {test-number} - erfc_inv(1.067400) == Approx(-0.05980291115763361) for: -0.05980291115763361 == Approx( -0.05980291115763361 )
# erfc_inv
ok {test-number} - erfc_inv(0.050000) == Approx(1.38590382434967796) for: 1.38590382434967774 == Approx( 1.38590382434967796 )
# estimate_clock_resolution
ok {test-number} - res.mean.count() == rate for: 2000.0 == 2000 (0x<hex digits>)
# estimate_clock_resolution
ok {test-number} - res.outliers.total() == 0 for: 0 == 0
# even more nested SECTION tests
ok {test-number} -
# even more nested SECTION tests
ok {test-number} -
# even more nested SECTION tests
ok {test-number} -
# failed assertions before SKIP cause test case to fail
not ok {test-number} - 3 == 4
# failed assertions before SKIP cause test case to fail
ok {test-number} - # SKIP
# failing for some generator values causes entire test case to fail
not ok {test-number} - explicitly
# failing for some generator values causes entire test case to fail
ok {test-number} - # SKIP
# failing for some generator values causes entire test case to fail
not ok {test-number} - explicitly
# failing for some generator values causes entire test case to fail
ok {test-number} - # SKIP
# failing in some unskipped sections causes entire test case to fail
ok {test-number} - # SKIP
# failing in some unskipped sections causes entire test case to fail
not ok {test-number} - explicitly
# is_unary_function
ok {test-number} - with 1 message: 'Catch::Clara::Detail::is_unary_function<decltype(unary1)>::value'
# is_unary_function
ok {test-number} - with 1 message: 'Catch::Clara::Detail::is_unary_function<decltype(unary2)>::value'
# is_unary_function
ok {test-number} - with 1 message: 'Catch::Clara::Detail::is_unary_function<decltype(unary3)>::value'
# is_unary_function
ok {test-number} - with 1 message: 'Catch::Clara::Detail::is_unary_function<decltype(unary4)>::value'
# is_unary_function
ok {test-number} - with 1 message: 'Catch::Clara::Detail::is_unary_function<decltype(unary5)>::value'
# is_unary_function
ok {test-number} - with 1 message: 'Catch::Clara::Detail::is_unary_function<decltype(unary6)>::value'
# is_unary_function
ok {test-number} - with 1 message: '!(Catch::Clara::Detail::is_unary_function<decltype(binary1)>::value)'
# is_unary_function
ok {test-number} - with 1 message: '!(Catch::Clara::Detail::is_unary_function<decltype(binary2)>::value)'
# is_unary_function
ok {test-number} - with 1 message: '!(Catch::Clara::Detail::is_unary_function<decltype(nullary1)>::value)'
# is_unary_function
ok {test-number} - with 1 message: '!(Catch::Clara::Detail::is_unary_function<decltype(nullary2)>::value)'
# is_unary_function
ok {test-number} - with 1 message: '!(Catch::Clara::Detail::is_unary_function<int>::value)'
# is_unary_function
ok {test-number} - with 1 message: '!(Catch::Clara::Detail::is_unary_function<std::string const&>::value)'
# just failure
not ok {test-number} - explicitly with 1 message: 'Previous info should not be seen'
# just failure after unscoped info
not ok {test-number} - explicitly with 1 message: 'previous unscoped info SHOULD not be seen'
# long long
ok {test-number} - l == std::numeric_limits<long long>::max() for: 9223372036854775807 (0x<hex digits>) == 9223372036854775807 (0x<hex digits>)
# looped SECTION tests
not ok {test-number} - b > a for: 0 > 1
# looped SECTION tests
not ok {test-number} - b > a for: 1 > 1
# looped SECTION tests
ok {test-number} - b > a for: 2 > 1
# looped SECTION tests
ok {test-number} - b > a for: 3 > 1
# looped SECTION tests
ok {test-number} - b > a for: 4 > 1
# looped SECTION tests
ok {test-number} - b > a for: 5 > 1
# looped SECTION tests
ok {test-number} - b > a for: 6 > 1
# looped SECTION tests
ok {test-number} - b > a for: 7 > 1
# looped SECTION tests
ok {test-number} - b > a for: 8 > 1
# looped SECTION tests
ok {test-number} - b > a for: 9 > 1
# looped tests
not ok {test-number} - ( fib[i] % 2 ) == 0 for: 1 == 0 with 1 message: 'Testing if fib[0] (1) is even'
# looped tests
not ok {test-number} - ( fib[i] % 2 ) == 0 for: 1 == 0 with 1 message: 'Testing if fib[1] (1) is even'
# looped tests
ok {test-number} - ( fib[i] % 2 ) == 0 for: 0 == 0 with 1 message: 'Testing if fib[2] (2) is even'
# looped tests
not ok {test-number} - ( fib[i] % 2 ) == 0 for: 1 == 0 with 1 message: 'Testing if fib[3] (3) is even'
# looped tests
not ok {test-number} - ( fib[i] % 2 ) == 0 for: 1 == 0 with 1 message: 'Testing if fib[4] (5) is even'
# looped tests
ok {test-number} - ( fib[i] % 2 ) == 0 for: 0 == 0 with 1 message: 'Testing if fib[5] (8) is even'
# looped tests
not ok {test-number} - ( fib[i] % 2 ) == 0 for: 1 == 0 with 1 message: 'Testing if fib[6] (13) is even'
# looped tests
not ok {test-number} - ( fib[i] % 2 ) == 0 for: 1 == 0 with 1 message: 'Testing if fib[7] (21) is even'
# makeStream recognizes %debug stream name
ok {test-number} - Catch::makeStream( "%debug" )
# make_unique reimplementation
ok {test-number} - !(lval.has_moved) for: !false
# make_unique reimplementation
ok {test-number} - rval.has_moved for: true
# make_unique reimplementation
ok {test-number} - *ptr == std::tuple<int, double, int>{1, 2., 3} for: {?} == {?}
# mean
ok {test-number} - m == 19. for: 19.0 == 19.0
# measure
ok {test-number} - x == 17 for: 17 == 17
# measure
ok {test-number} - x == 23 for: 23 == 23
# measure
ok {test-number} - r.elapsed.count() == 42 for: 42 == 42
# measure
ok {test-number} - r.result == 23 for: 23 == 23
# measure
ok {test-number} - r.iterations == 1 for: 1 == 1
# measure
ok {test-number} - s.elapsed.count() == 69 for: 69 == 69
# measure
ok {test-number} - s.result == 17 for: 17 == 17
# measure
ok {test-number} - s.iterations == 1 for: 1 == 1
# mix info, unscoped info and warning
warning {test-number} - 'info' with 2 messages: 'unscoped info' and 'and warn may mix'
# mix info, unscoped info and warning
warning {test-number} - 'info' with 2 messages: 'unscoped info' and 'they are not cleared after warnings'
# more nested SECTION tests
not ok {test-number} - a == b for: 1 == 2
# more nested SECTION tests
ok {test-number} - a != b for: 1 != 2
# more nested SECTION tests
ok {test-number} - a < b for: 1 < 2
# nested SECTION tests
ok {test-number} - a != b for: 1 != 2
# nested SECTION tests
ok {test-number} - b != a for: 2 != 1
# nested SECTION tests
ok {test-number} - a != b for: 1 != 2
# nested sections can be skipped dynamically at runtime
ok {test-number} - # SKIP
# non streamable - with conv. op
ok {test-number} - s == "7" for: "7" == "7"
# non-copyable objects
ok {test-number} - ti == typeid(int) for: {?} == {?}
# normal_quantile
ok {test-number} - normal_quantile(0.551780) == Approx(0.13015979861484198) for: 0.13015979861484195 == Approx( 0.13015979861484198 )
# normal_quantile
ok {test-number} - normal_quantile(0.533700) == Approx(0.08457408802851875) for: 0.08457408802851875 == Approx( 0.08457408802851875 )
# normal_quantile
ok {test-number} - normal_quantile(0.025000) == Approx(-1.95996398454005449) for: -1.95996398454005405 == Approx( -1.95996398454005449 )
# not allowed
ok {test-number} -
# not prints unscoped info from previous failures
ok {test-number} - true with 1 message: 'this MAY be seen only for the FIRST assertion IF info is printed for passing assertions'
# not prints unscoped info from previous failures
ok {test-number} - true with 1 message: 'this MAY be seen only for the SECOND assertion IF info is printed for passing assertions'
# not prints unscoped info from previous failures
not ok {test-number} - false with 1 message: 'this SHOULD be seen'
# null strings
ok {test-number} - makeString( false ) != static_cast<char*>(0) for: "valid string" != {null string}
# null strings
ok {test-number} - makeString( true ) == static_cast<char*>(0) for: {null string} == {null string}
# null_ptr
ok {test-number} - ptr.get() == 0 for: 0 == 0
# pair<pair<int,const char *,pair<std::string,int> > -> toString
ok {test-number} - ::Catch::Detail::stringify( pair ) == "{ { 42, \"Arthur\" }, { \"Ford\", 24 } }" for: "{ { 42, "Arthur" }, { "Ford", 24 } }" == "{ { 42, "Arthur" }, { "Ford", 24 } }"
# parseEnums
ok {test-number} - parseEnums( "" ), Equals( std::vector<Catch::StringRef>{} ) for: { } Equals: { }
# parseEnums
ok {test-number} - parseEnums( "ClassName::EnumName::Value1" ), Equals(std::vector<Catch::StringRef>{"Value1"} ) for: { Value1 } Equals: { Value1 }
# parseEnums
ok {test-number} - parseEnums( "Value1" ), Equals( std::vector<Catch::StringRef>{"Value1"} ) for: { Value1 } Equals: { Value1 }
# parseEnums
ok {test-number} - parseEnums( "EnumName::Value1" ), Equals(std::vector<Catch::StringRef>{"Value1"} ) for: { Value1 } Equals: { Value1 }
# parseEnums
ok {test-number} - parseEnums( "ClassName::EnumName::Value1, ClassName::EnumName::Value2" ), Equals( std::vector<Catch::StringRef>{"Value1", "Value2"} ) for: { Value1, Value2 } Equals: { Value1, Value2 }
# parseEnums
ok {test-number} - parseEnums( "ClassName::EnumName::Value1, ClassName::EnumName::Value2, ClassName::EnumName::Value3" ), Equals( std::vector<Catch::StringRef>{"Value1", "Value2", "Value3"} ) for: { Value1, Value2, Value3 } Equals: { Value1, Value2, Value3 }
# parseEnums
ok {test-number} - parseEnums( "ClassName::EnumName::Value1,ClassName::EnumName::Value2 , ClassName::EnumName::Value3" ), Equals( std::vector<Catch::StringRef>{"Value1", "Value2", "Value3"} ) for: { Value1, Value2, Value3 } Equals: { Value1, Value2, Value3 }
# pointer to class
ok {test-number} - p == 0 for: 0 == 0
# print unscoped info if passing unscoped info is printed
ok {test-number} - true with 1 message: 'this MAY be seen IF info is printed for passing assertions'
# prints unscoped info on failure
not ok {test-number} - false with 2 messages: 'this SHOULD be seen' and 'this SHOULD also be seen'
# prints unscoped info only for the first assertion
not ok {test-number} - false with 1 message: 'this SHOULD be seen only ONCE'
# prints unscoped info only for the first assertion
ok {test-number} - true
# prints unscoped info only for the first assertion
ok {test-number} - true with 1 message: 'this MAY also be seen only ONCE IF info is printed for passing assertions'
# prints unscoped info only for the first assertion
ok {test-number} - true
# random SECTION tests
ok {test-number} - a != b for: 1 != 2
# random SECTION tests
ok {test-number} - b != a for: 2 != 1
# random SECTION tests
ok {test-number} - a != b for: 1 != 2
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(letters, "b", "z") for: true
# replaceInPlace
ok {test-number} - letters == "azcdefcg" for: "azcdefcg" == "azcdefcg"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(letters, "c", "z") for: true
# replaceInPlace
ok {test-number} - letters == "abzdefzg" for: "abzdefzg" == "abzdefzg"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(letters, "a", "z") for: true
# replaceInPlace
ok {test-number} - letters == "zbcdefcg" for: "zbcdefcg" == "zbcdefcg"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(letters, "g", "z") for: true
# replaceInPlace
ok {test-number} - letters == "abcdefcz" for: "abcdefcz" == "abcdefcz"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(letters, letters, "replaced") for: true
# replaceInPlace
ok {test-number} - letters == "replaced" for: "replaced" == "replaced"
# replaceInPlace
ok {test-number} - !(Catch::replaceInPlace(letters, "x", "z")) for: !false
# replaceInPlace
ok {test-number} - letters == letters for: "abcdefcg" == "abcdefcg"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(letters, "c", "cc") for: true
# replaceInPlace
ok {test-number} - letters == "abccdefccg" for: "abccdefccg" == "abccdefccg"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(s, "--", "-") for: true
# replaceInPlace
ok {test-number} - s == "--" for: "--" == "--"
# replaceInPlace
ok {test-number} - Catch::replaceInPlace(s, "'", "|'") for: true
# replaceInPlace
ok {test-number} - s == "didn|'t" for: "didn|'t" == "didn|'t"
# request an unknown %-starting stream fails
ok {test-number} - Catch::makeStream( "%somestream" )
# resolution
ok {test-number} - res.size() == count for: 10 == 10
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# resolution
ok {test-number} - res[i] == rate for: 1000.0 == 1000 (0x<hex digits>)
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 1 >= 1
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 2 >= 1
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 4 >= 2
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 8 >= 4
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 16 >= 8
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 32 >= 16
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 64 >= 32
# run_for_at_least, chronometer
ok {test-number} - meter.runs() >= old_runs for: 128 >= 64
# run_for_at_least, chronometer
ok {test-number} - Timing.elapsed >= time for: 128 ns >= 100 ns
# run_for_at_least, chronometer
ok {test-number} - Timing.result == Timing.iterations + 17 for: 145 == 145
# run_for_at_least, chronometer
ok {test-number} - Timing.iterations >= time.count() for: 128 >= 100
# run_for_at_least, int
ok {test-number} - x >= old_x for: 1 >= 1
# run_for_at_least, int
ok {test-number} - x >= old_x for: 2 >= 1
# run_for_at_least, int
ok {test-number} - x >= old_x for: 4 >= 2
# run_for_at_least, int
ok {test-number} - x >= old_x for: 8 >= 4
# run_for_at_least, int
ok {test-number} - x >= old_x for: 16 >= 8
# run_for_at_least, int
ok {test-number} - x >= old_x for: 32 >= 16
# run_for_at_least, int
ok {test-number} - x >= old_x for: 64 >= 32
# run_for_at_least, int
ok {test-number} - x >= old_x for: 128 >= 64
# run_for_at_least, int
ok {test-number} - Timing.elapsed >= time for: 128 ns >= 100 ns
# run_for_at_least, int
ok {test-number} - Timing.result == Timing.iterations + 17 for: 145 == 145
# run_for_at_least, int
ok {test-number} - Timing.iterations >= time.count() for: 128 >= 100
# sections can be skipped dynamically at runtime
ok {test-number} -
# sections can be skipped dynamically at runtime
ok {test-number} - # SKIP
# sections can be skipped dynamically at runtime
ok {test-number} -
# send a single char to INFO
not ok {test-number} - false with 1 message: '3'
# sends information to INFO
not ok {test-number} - false with 2 messages: 'hi' and 'i := 7'
# shortened hide tags are split apart
ok {test-number} - testcase.tags, VectorContains( Tag( "magic-tag" ) ) && VectorContains( Tag( "."_catch_sr ) ) for: { {?}, {?} } ( Contains: {?} and Contains: {?} )
# skipped tests can optionally provide a reason
ok {test-number} - # SKIP 'skipping because answer = 43'
# splitString
ok {test-number} - splitStringRef("", ','), Equals(std::vector<StringRef>()) for: { } Equals: { }
# splitString
ok {test-number} - splitStringRef("abc", ','), Equals(std::vector<StringRef>{"abc"}) for: { abc } Equals: { abc }
# splitString
ok {test-number} - splitStringRef("abc,def", ','), Equals(std::vector<StringRef>{"abc", "def"}) for: { abc, def } Equals: { abc, def }
# stacks unscoped info in loops
not ok {test-number} - false with 4 messages: 'Count 1 to 3...' and '1' and '2' and '3'
# stacks unscoped info in loops
not ok {test-number} - false with 4 messages: 'Count 4 to 6...' and '4' and '5' and '6'
# startsWith
ok {test-number} - !(startsWith("", 'c')) for: !false
# startsWith
ok {test-number} - startsWith(std::string("abc"), 'a') for: true
# startsWith
ok {test-number} - startsWith("def"_catch_sr, 'd') for: true
# std::map is convertible string
ok {test-number} - Catch::Detail::stringify( emptyMap ) == "{ }" for: "{ }" == "{ }"
# std::map is convertible string
ok {test-number} - Catch::Detail::stringify( map ) == "{ { \"one\", 1 } }" for: "{ { "one", 1 } }" == "{ { "one", 1 } }"
# std::map is convertible string
ok {test-number} - Catch::Detail::stringify( map ) == "{ { \"abc\", 1 }, { \"def\", 2 }, { \"ghi\", 3 } }" for: "{ { "abc", 1 }, { "def", 2 }, { "ghi", 3 } }" == "{ { "abc", 1 }, { "def", 2 }, { "ghi", 3 } }"
# std::pair<int,const std::string> -> toString
ok {test-number} - ::Catch::Detail::stringify(value) == "{ 34, \"xyzzy\" }" for: "{ 34, "xyzzy" }" == "{ 34, "xyzzy" }"
# std::pair<int,std::string> -> toString
ok {test-number} - ::Catch::Detail::stringify( value ) == "{ 34, \"xyzzy\" }" for: "{ 34, "xyzzy" }" == "{ 34, "xyzzy" }"
# std::set is convertible string
ok {test-number} - Catch::Detail::stringify( emptySet ) == "{ }" for: "{ }" == "{ }"
# std::set is convertible string
ok {test-number} - Catch::Detail::stringify( set ) == "{ \"one\" }" for: "{ "one" }" == "{ "one" }"
# std::set is convertible string
ok {test-number} - Catch::Detail::stringify( set ) == "{ \"abc\", \"def\", \"ghi\" }" for: "{ "abc", "def", "ghi" }" == "{ "abc", "def", "ghi" }"
# std::vector<std::pair<std::string,int> > -> toString
ok {test-number} - ::Catch::Detail::stringify( pr ) == "{ { \"green\", 55 } }" for: "{ { "green", 55 } }" == "{ { "green", 55 } }"
# stdout and stderr streams have %-starting name
ok {test-number} - Catch::makeStream( "%stderr" )->isConsole() for: true
# stdout and stderr streams have %-starting name
ok {test-number} - Catch::makeStream( "%stdout" )->isConsole() for: true
# stringify ranges
ok {test-number} - ::Catch::Detail::stringify(streamable_range{}) == "op<<(streamable_range)" for: "op<<(streamable_range)" == "op<<(streamable_range)"
# stringify ranges
ok {test-number} - ::Catch::Detail::stringify(stringmaker_range{}) == "stringmaker(streamable_range)" for: "stringmaker(streamable_range)" == "stringmaker(streamable_range)"
# stringify ranges
ok {test-number} - ::Catch::Detail::stringify(just_range{}) == "{ 1, 2, 3, 4 }" for: "{ 1, 2, 3, 4 }" == "{ 1, 2, 3, 4 }"
# stringify ranges
ok {test-number} - ::Catch::Detail::stringify(disabled_range{}) == "{?}" for: "{?}" == "{?}"
# stringify( has_maker )
ok {test-number} - ::Catch::Detail::stringify( item ) == "StringMaker<has_maker>" for: "StringMaker<has_maker>" == "StringMaker<has_maker>"
# stringify( has_maker_and_operator )
ok {test-number} - ::Catch::Detail::stringify( item ) == "StringMaker<has_maker_and_operator>" for: "StringMaker<has_maker_and_operator>" == "StringMaker<has_maker_and_operator>"
# stringify( has_neither )
ok {test-number} - ::Catch::Detail::stringify(item) == "{?}" for: "{?}" == "{?}"
# stringify( has_operator )
ok {test-number} - ::Catch::Detail::stringify( item ) == "operator<<( has_operator )" for: "operator<<( has_operator )" == "operator<<( has_operator )"
# stringify( has_template_operator )
ok {test-number} - ::Catch::Detail::stringify( item ) == "operator<<( has_template_operator )" for: "operator<<( has_template_operator )" == "operator<<( has_template_operator )"
# stringify( vectors<has_maker> )
ok {test-number} - ::Catch::Detail::stringify( v ) == "{ StringMaker<has_maker> }" for: "{ StringMaker<has_maker> }" == "{ StringMaker<has_maker> }"
# stringify( vectors<has_maker_and_operator> )
ok {test-number} - ::Catch::Detail::stringify( v ) == "{ StringMaker<has_maker_and_operator> }" for: "{ StringMaker<has_maker_and_operator> }" == "{ StringMaker<has_maker_and_operator> }"
# stringify( vectors<has_operator> )
ok {test-number} - ::Catch::Detail::stringify( v ) == "{ operator<<( has_operator ) }" for: "{ operator<<( has_operator ) }" == "{ operator<<( has_operator ) }"
# strlen3
ok {test-number} - data.str.size() == data.len for: 3 == 3
# strlen3
ok {test-number} - data.str.size() == data.len for: 3 == 3
# strlen3
ok {test-number} - data.str.size() == data.len for: 5 == 5
# strlen3
ok {test-number} - data.str.size() == data.len for: 4 == 4
# tables
ok {test-number} - strlen(std::get<0>(data)) == static_cast<size_t>(std::get<1>(data)) for: 5 == 5
# tables
ok {test-number} - strlen(std::get<0>(data)) == static_cast<size_t>(std::get<1>(data)) for: 6 == 6
# tables
ok {test-number} - strlen(std::get<0>(data)) == static_cast<size_t>(std::get<1>(data)) for: 5 == 5
# tables
ok {test-number} - strlen(std::get<0>(data)) == static_cast<size_t>(std::get<1>(data)) for: 6 == 6
# tags with dots in later positions are not parsed as hidden
ok {test-number} - testcase.tags.size() == 1 for: 1 == 1
# tags with dots in later positions are not parsed as hidden
ok {test-number} - testcase.tags[0].original == "magic.tag"_catch_sr for: magic.tag == magic.tag
# tests can be skipped dynamically at runtime
ok {test-number} - # SKIP
# thrown std::strings are translated
not ok {test-number} - unexpected exception with message: 'Why would you throw a std::string?'
# toString on const wchar_t const pointer returns the string contents
ok {test-number} - result == "\"wide load\"" for: ""wide load"" == ""wide load""
# toString on const wchar_t pointer returns the string contents
ok {test-number} - result == "\"wide load\"" for: ""wide load"" == ""wide load""
# toString on wchar_t const pointer returns the string contents
ok {test-number} - result == "\"wide load\"" for: ""wide load"" == ""wide load""
# toString on wchar_t returns the string contents
ok {test-number} - result == "\"wide load\"" for: ""wide load"" == ""wide load""
# toString(enum class w/operator<<)
ok {test-number} - ::Catch::Detail::stringify(e0) == "E2/V0" for: "E2/V0" == "E2/V0"
# toString(enum class w/operator<<)
ok {test-number} - ::Catch::Detail::stringify(e1) == "E2/V1" for: "E2/V1" == "E2/V1"
# toString(enum class w/operator<<)
ok {test-number} - ::Catch::Detail::stringify(e3) == "Unknown enum value 10" for: "Unknown enum value 10" == "Unknown enum value 10"
# toString(enum class)
ok {test-number} - ::Catch::Detail::stringify(e0) == "0" for: "0" == "0"
# toString(enum class)
ok {test-number} - ::Catch::Detail::stringify(e1) == "1" for: "1" == "1"
# toString(enum w/operator<<)
ok {test-number} - ::Catch::Detail::stringify(e0) == "E2{0}" for: "E2{0}" == "E2{0}"
# toString(enum w/operator<<)
ok {test-number} - ::Catch::Detail::stringify(e1) == "E2{1}" for: "E2{1}" == "E2{1}"
# toString(enum)
ok {test-number} - ::Catch::Detail::stringify(e0) == "0" for: "0" == "0"
# toString(enum)
ok {test-number} - ::Catch::Detail::stringify(e1) == "1" for: "1" == "1"
# tuple<>
ok {test-number} - "{ }" == ::Catch::Detail::stringify(type{}) for: "{ }" == "{ }"
# tuple<>
ok {test-number} - "{ }" == ::Catch::Detail::stringify(value) for: "{ }" == "{ }"
# tuple<float,int>
ok {test-number} - "1.5f" == ::Catch::Detail::stringify(float(1.5)) for: "1.5f" == "1.5f"
# tuple<float,int>
ok {test-number} - "{ 1.5f, 0 }" == ::Catch::Detail::stringify(type{1.5f,0}) for: "{ 1.5f, 0 }" == "{ 1.5f, 0 }"
# tuple<int>
ok {test-number} - "{ 0 }" == ::Catch::Detail::stringify(type{0}) for: "{ 0 }" == "{ 0 }"
# tuple<string,string>
ok {test-number} - "{ \"hello\", \"world\" }" == ::Catch::Detail::stringify(type{"hello","world"}) for: "{ "hello", "world" }" == "{ "hello", "world" }"
# tuple<tuple<int>,tuple<>,float>
ok {test-number} - "{ { 42 }, { }, 1.5f }" == ::Catch::Detail::stringify(value) for: "{ { 42 }, { }, 1.5f }" == "{ { 42 }, { }, 1.5f }"
# uniform samples
ok {test-number} - e.point == 23 for: 23.0 == 23
# uniform samples
ok {test-number} - e.upper_bound == 23 for: 23.0 == 23
# uniform samples
ok {test-number} - e.lower_bound == 23 for: 23.0 == 23
# uniform samples
ok {test-number} - e.confidence_interval == 0.95 for: 0.94999999999999996 == 0.94999999999999996
# uniform_integer_distribution can return the bounds
ok {test-number} - dist.a() == -10 for: -10 == -10
# uniform_integer_distribution can return the bounds
ok {test-number} - dist.b() == 10 for: 10 == 10
# unique_ptr reimplementation: basic functionality
ok {test-number} - !(ptr) for: !{?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr.get() == 0 for: 0 == 0
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr for: {?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr == 0 for: 0 == 0
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr.get() == naked_ptr for: 0x<hex digits> == 0x<hex digits>
# unique_ptr reimplementation: basic functionality
ok {test-number} - !(ptr) for: !{?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr.get() == 0 for: 0 == 0
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr for: {?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr == 0 for: 0 == 0
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr.get() == naked_ptr for: 0x<hex digits> == 0x<hex digits>
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr for: {?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr.get() != 0 for: 0x<hex digits> != 0
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr == 2 for: 2 == 2
# unique_ptr reimplementation: basic functionality
ok {test-number} - !(ptr) for: !{?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr.get() == 0 for: 0 == 0
# unique_ptr reimplementation: basic functionality
ok {test-number} - !(ptr1) for: !{?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr2 for: {?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr2 == 1 for: 1 == 1
# unique_ptr reimplementation: basic functionality
ok {test-number} - !(ptr2) for: !{?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - ptr1 for: {?}
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr1 == 2 for: 2 == 2
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr1 == 2 for: 2 == 2
# unique_ptr reimplementation: basic functionality
ok {test-number} - *ptr2 == 1 for: 1 == 1
# vec<vec<string,alloc>> -> toString
ok {test-number} - ::Catch::Detail::stringify(v) == "{ }" for: "{ }" == "{ }"
# vec<vec<string,alloc>> -> toString
ok {test-number} - ::Catch::Detail::stringify(v) == "{ { \"hello\" }, { \"world\" } }" for: "{ { "hello" }, { "world" } }" == "{ { "hello" }, { "world" } }"
# vector<bool> -> toString
ok {test-number} - ::Catch::Detail::stringify(bools) == "{ }" for: "{ }" == "{ }"
# vector<bool> -> toString
ok {test-number} - ::Catch::Detail::stringify(bools) == "{ true }" for: "{ true }" == "{ true }"
# vector<bool> -> toString
ok {test-number} - ::Catch::Detail::stringify(bools) == "{ true, false }" for: "{ true, false }" == "{ true, false }"
# vector<int,allocator> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ }" for: "{ }" == "{ }"
# vector<int,allocator> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ 42 }" for: "{ 42 }" == "{ 42 }"
# vector<int,allocator> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ 42, 250 }" for: "{ 42, 250 }" == "{ 42, 250 }"
# vector<int> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ }" for: "{ }" == "{ }"
# vector<int> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ 42 }" for: "{ 42 }" == "{ 42 }"
# vector<int> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ 42, 250 }" for: "{ 42, 250 }" == "{ 42, 250 }"
# vector<string> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ }" for: "{ }" == "{ }"
# vector<string> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ \"hello\" }" for: "{ "hello" }" == "{ "hello" }"
# vector<string> -> toString
ok {test-number} - ::Catch::Detail::stringify(vv) == "{ \"hello\", \"world\" }" for: "{ "hello", "world" }" == "{ "hello", "world" }"
# vectors can be sized and resized
ok {test-number} - v.size() == 5 for: 5 == 5
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# vectors can be sized and resized
ok {test-number} - v.size() == 10 for: 10 == 10
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# vectors can be sized and resized
ok {test-number} - v.size() == 5 for: 5 == 5
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# vectors can be sized and resized
ok {test-number} - v.size() == 0 for: 0 == 0
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# vectors can be sized and resized
ok {test-number} - v.capacity() == 0 for: 0 == 0
# vectors can be sized and resized
ok {test-number} - v.size() == 5 for: 5 == 5
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# vectors can be sized and resized
ok {test-number} - v.size() == 5 for: 5 == 5
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 10 for: 10 >= 10
# vectors can be sized and resized
ok {test-number} - v.size() == 5 for: 5 == 5
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# vectors can be sized and resized
ok {test-number} - v.size() == 5 for: 5 == 5
# vectors can be sized and resized
ok {test-number} - v.capacity() >= 5 for: 5 >= 5
# warmup
ok {test-number} - (iterations * rate) > Catch::Benchmark::Detail::warmup_time.count() for: 160000000 (0x<hex digits>) > 100
# warmup
ok {test-number} - (end - start) > Catch::Benchmark::Detail::warmup_time for: 310016000 ns > 100 ms
# weighted_average_quantile
ok {test-number} - q1 == 14.5 for: 14.5 == 14.5
# weighted_average_quantile
ok {test-number} - med == 18. for: 18.0 == 18.0
# weighted_average_quantile
ok {test-number} - q3 == 23. for: 23.0 == 23.0
# xmlentitycheck
ok {test-number} -
# xmlentitycheck
ok {test-number} -
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