/* * Created by Phil on 21/02/2017. * Copyright 2017 Two Blue Cubes Ltd. All rights reserved. * * Distributed under the Boost Software License, Version 1.0. (See accompanying * file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) */ #include "catch.hpp" #include #include #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wweak-vtables" #pragma clang diagnostic ignored "-Wpadded" #endif namespace { namespace MatchersTests { #ifndef CATCH_CONFIG_DISABLE_MATCHERS #ifndef MATCHERS_TEST_HELPERS_INCLUDED // Don't compile this more than once per TU #define MATCHERS_TEST_HELPERS_INCLUDED inline const char *testStringForMatching() { return "this string contains 'abc' as a substring"; } inline const char *testStringForMatching2() { return "some completely different text that contains one common word"; } inline bool alwaysTrue(int) { return true; } inline bool alwaysFalse(int) { return false; } #ifdef _MSC_VER #pragma warning(disable:4702) // Unreachable code -- MSVC 19 (VS 2015) sees right through the indirection #endif #include struct SpecialException : std::exception { SpecialException(int i_) : i(i_) {} char const* what() const noexcept override { return "SpecialException::what"; } int i; }; void doesNotThrow() {} [[noreturn]] void throws(int i) { throw SpecialException{i}; } [[noreturn]] void throwsAsInt(int i) { throw i; } class ExceptionMatcher : public Catch::MatcherBase { int m_expected; public: ExceptionMatcher(int i) : m_expected(i) {} bool match(SpecialException const &se) const override { return se.i == m_expected; } std::string describe() const override { std::ostringstream ss; ss << "special exception has value of " << m_expected; return ss.str(); } }; #endif using namespace Catch::Matchers; #ifdef __DJGPP__ float nextafter(float from, float to) { return ::nextafterf(from, to); } double nextafter(double from, double to) { return ::nextafter(from, to); } #else using std::nextafter; #endif TEST_CASE("String matchers", "[matchers]") { REQUIRE_THAT(testStringForMatching(), Contains("string")); REQUIRE_THAT(testStringForMatching(), Contains("string", Catch::CaseSensitive::No)); CHECK_THAT(testStringForMatching(), Contains("abc")); CHECK_THAT(testStringForMatching(), Contains("aBC", Catch::CaseSensitive::No)); CHECK_THAT(testStringForMatching(), StartsWith("this")); CHECK_THAT(testStringForMatching(), StartsWith("THIS", Catch::CaseSensitive::No)); CHECK_THAT(testStringForMatching(), EndsWith("substring")); CHECK_THAT(testStringForMatching(), EndsWith(" SuBsTrInG", Catch::CaseSensitive::No)); } TEST_CASE("Contains string matcher", "[.][failing][matchers]") { CHECK_THAT(testStringForMatching(), Contains("not there", Catch::CaseSensitive::No)); CHECK_THAT(testStringForMatching(), Contains("STRING")); } TEST_CASE("StartsWith string matcher", "[.][failing][matchers]") { CHECK_THAT(testStringForMatching(), StartsWith("This String")); CHECK_THAT(testStringForMatching(), StartsWith("string", Catch::CaseSensitive::No)); } TEST_CASE("EndsWith string matcher", "[.][failing][matchers]") { CHECK_THAT(testStringForMatching(), EndsWith("Substring")); CHECK_THAT(testStringForMatching(), EndsWith("this", Catch::CaseSensitive::No)); } TEST_CASE("Equals string matcher", "[.][failing][matchers]") { CHECK_THAT(testStringForMatching(), Equals("this string contains 'ABC' as a substring")); CHECK_THAT(testStringForMatching(), Equals("something else", Catch::CaseSensitive::No)); } TEST_CASE("Equals", "[matchers]") { CHECK_THAT(testStringForMatching(), Equals("this string contains 'abc' as a substring")); CHECK_THAT(testStringForMatching(), Equals("this string contains 'ABC' as a substring", Catch::CaseSensitive::No)); } // does not work in libstdc++ 4.8, so we have to enable these tests only when they // are expected to pass and cannot have them in baselines TEST_CASE("Regex string matcher -- libstdc++-4.8 workaround", "[matchers][approvals]") { // This is fiiiine // Taken from an answer at // https://stackoverflow.com/questions/12530406/is-gcc-4-8-or-earlier-buggy-about-regular-expressions #if (!defined(__GNUC__)) || \ (__cplusplus >= 201103L && \ (!defined(__GLIBCXX__) || (__cplusplus >= 201402L) || \ (defined(_GLIBCXX_REGEX_DFS_QUANTIFIERS_LIMIT) || \ defined(_GLIBCXX_REGEX_STATE_LIMIT) || \ (defined(_GLIBCXX_RELEASE) && \ _GLIBCXX_RELEASE > 4)))) // DJGPP meets the above condition but does not work properly anyway #ifndef __DJGPP__ REQUIRE_THAT(testStringForMatching(), Matches("this string contains 'abc' as a substring")); REQUIRE_THAT(testStringForMatching(), Matches("this string CONTAINS 'abc' as a substring", Catch::CaseSensitive::No)); REQUIRE_THAT(testStringForMatching(), Matches("^this string contains 'abc' as a substring$")); REQUIRE_THAT(testStringForMatching(), Matches("^.* 'abc' .*$")); REQUIRE_THAT(testStringForMatching(), Matches("^.* 'ABC' .*$", Catch::CaseSensitive::No)); #endif #endif REQUIRE_THAT(testStringForMatching2(), !Matches("this string contains 'abc' as a substring")); } TEST_CASE("Regex string matcher", "[matchers][.failing]") { CHECK_THAT(testStringForMatching(), Matches("this STRING contains 'abc' as a substring")); CHECK_THAT(testStringForMatching(), Matches("contains 'abc' as a substring")); CHECK_THAT(testStringForMatching(), Matches("this string contains 'abc' as a")); } TEST_CASE("Matchers can be (AllOf) composed with the && operator", "[matchers][operators][operator&&]") { CHECK_THAT(testStringForMatching(), Contains("string") && Contains("abc") && Contains("substring") && Contains("contains")); } TEST_CASE("Matchers can be (AnyOf) composed with the || operator", "[matchers][operators][operator||]") { CHECK_THAT(testStringForMatching(), Contains("string") || Contains("different") || Contains("random")); CHECK_THAT(testStringForMatching2(), Contains("string") || Contains("different") || Contains("random")); } TEST_CASE("Matchers can be composed with both && and ||", "[matchers][operators][operator||][operator&&]") { CHECK_THAT(testStringForMatching(), (Contains("string") || Contains("different")) && Contains("substring")); } TEST_CASE("Matchers can be composed with both && and || - failing", "[matchers][operators][operator||][operator&&][.failing]") { CHECK_THAT(testStringForMatching(), (Contains("string") || Contains("different")) && Contains("random")); } TEST_CASE("Matchers can be negated (Not) with the ! operator", "[matchers][operators][not]") { CHECK_THAT(testStringForMatching(), !Contains("different")); } TEST_CASE("Matchers can be negated (Not) with the ! operator - failing", "[matchers][operators][not][.failing]") { CHECK_THAT(testStringForMatching(), !Contains("substring")); } TEST_CASE("Vector matchers", "[matchers][vector]") { std::vector v; v.push_back(1); v.push_back(2); v.push_back(3); std::vector v2; v2.push_back(1); v2.push_back(2); std::vector empty; SECTION("Contains (element)") { CHECK_THAT(v, VectorContains(1)); CHECK_THAT(v, VectorContains(2)); } SECTION("Contains (vector)") { CHECK_THAT(v, Contains(v2)); v2.push_back(3); // now exactly matches CHECK_THAT(v, Contains(v2)); CHECK_THAT(v, Contains(empty)); CHECK_THAT(empty, Contains(empty)); } SECTION("Contains (element), composed") { CHECK_THAT(v, VectorContains(1) && VectorContains(2)); } SECTION("Equals") { // Same vector CHECK_THAT(v, Equals(v)); CHECK_THAT(empty, Equals(empty)); // Different vector with same elements v2.push_back(3); CHECK_THAT(v, Equals(v2)); } SECTION("UnorderedEquals") { CHECK_THAT(v, UnorderedEquals(v)); CHECK_THAT(empty, UnorderedEquals(empty)); auto permuted = v; std::next_permutation(begin(permuted), end(permuted)); REQUIRE_THAT(permuted, UnorderedEquals(v)); std::reverse(begin(permuted), end(permuted)); REQUIRE_THAT(permuted, UnorderedEquals(v)); } } TEST_CASE("Vector matchers that fail", "[matchers][vector][.][failing]") { std::vector v; v.push_back(1); v.push_back(2); v.push_back(3); std::vector v2; v2.push_back(1); v2.push_back(2); std::vector empty; SECTION("Contains (element)") { CHECK_THAT(v, VectorContains(-1)); CHECK_THAT(empty, VectorContains(1)); } SECTION("Contains (vector)") { CHECK_THAT(empty, Contains(v)); v2.push_back(4); CHECK_THAT(v, Contains(v2)); } SECTION("Equals") { CHECK_THAT(v, Equals(v2)); CHECK_THAT(v2, Equals(v)); CHECK_THAT(empty, Equals(v)); CHECK_THAT(v, Equals(empty)); } SECTION("UnorderedEquals") { CHECK_THAT(v, UnorderedEquals(empty)); CHECK_THAT(empty, UnorderedEquals(v)); auto permuted = v; std::next_permutation(begin(permuted), end(permuted)); permuted.pop_back(); CHECK_THAT(permuted, UnorderedEquals(v)); std::reverse(begin(permuted), end(permuted)); CHECK_THAT(permuted, UnorderedEquals(v)); } } TEST_CASE("Exception matchers that succeed", "[matchers][exceptions][!throws]") { CHECK_THROWS_MATCHES(throws(1), SpecialException, ExceptionMatcher{1}); REQUIRE_THROWS_MATCHES(throws(2), SpecialException, ExceptionMatcher{2}); } TEST_CASE("Exception matchers that fail", "[matchers][exceptions][!throws][.failing]") { SECTION("No exception") { CHECK_THROWS_MATCHES(doesNotThrow(), SpecialException, ExceptionMatcher{1}); REQUIRE_THROWS_MATCHES(doesNotThrow(), SpecialException, ExceptionMatcher{1}); } SECTION("Type mismatch") { CHECK_THROWS_MATCHES(throwsAsInt(1), SpecialException, ExceptionMatcher{1}); REQUIRE_THROWS_MATCHES(throwsAsInt(1), SpecialException, ExceptionMatcher{1}); } SECTION("Contents are wrong") { CHECK_THROWS_MATCHES(throws(3), SpecialException, ExceptionMatcher{1}); REQUIRE_THROWS_MATCHES(throws(4), SpecialException, ExceptionMatcher{1}); } } TEST_CASE("Floating point matchers: float", "[matchers][floating-point]") { SECTION("Margin") { REQUIRE_THAT(1.f, WithinAbs(1.f, 0)); REQUIRE_THAT(0.f, WithinAbs(1.f, 1)); REQUIRE_THAT(0.f, !WithinAbs(1.f, 0.99f)); REQUIRE_THAT(0.f, !WithinAbs(1.f, 0.99f)); REQUIRE_THAT(0.f, WithinAbs(-0.f, 0)); REQUIRE_THAT(NAN, !WithinAbs(NAN, 0)); REQUIRE_THAT(11.f, !WithinAbs(10.f, 0.5f)); REQUIRE_THAT(10.f, !WithinAbs(11.f, 0.5f)); REQUIRE_THAT(-10.f, WithinAbs(-10.f, 0.5f)); REQUIRE_THAT(-10.f, WithinAbs(-9.6f, 0.5f)); } SECTION("ULPs") { REQUIRE_THAT(1.f, WithinULP(1.f, 0)); REQUIRE_THAT(nextafter(1.f, 2.f), WithinULP(1.f, 1)); REQUIRE_THAT(nextafter(1.f, 0.f), WithinULP(1.f, 1)); REQUIRE_THAT(nextafter(1.f, 2.f), !WithinULP(1.f, 0)); REQUIRE_THAT(1.f, WithinULP(1.f, 0)); REQUIRE_THAT(-0.f, WithinULP(0.f, 0)); REQUIRE_THAT(NAN, !WithinULP(NAN, 123)); } SECTION("Composed") { REQUIRE_THAT(1.f, WithinAbs(1.f, 0.5) || WithinULP(1.f, 1)); REQUIRE_THAT(1.f, WithinAbs(2.f, 0.5) || WithinULP(1.f, 0)); REQUIRE_THAT(NAN, !(WithinAbs(NAN, 100) || WithinULP(NAN, 123))); } SECTION("Constructor validation") { REQUIRE_NOTHROW(WithinAbs(1.f, 0.f)); REQUIRE_THROWS_AS(WithinAbs(1.f, -1.f), std::domain_error); REQUIRE_NOTHROW(WithinULP(1.f, 0)); REQUIRE_THROWS_AS(WithinULP(1.f, -1), std::domain_error); } } TEST_CASE("Floating point matchers: double", "[matchers][floating-point]") { SECTION("Margin") { REQUIRE_THAT(1., WithinAbs(1., 0)); REQUIRE_THAT(0., WithinAbs(1., 1)); REQUIRE_THAT(0., !WithinAbs(1., 0.99)); REQUIRE_THAT(0., !WithinAbs(1., 0.99)); REQUIRE_THAT(NAN, !WithinAbs(NAN, 0)); REQUIRE_THAT(11., !WithinAbs(10., 0.5)); REQUIRE_THAT(10., !WithinAbs(11., 0.5)); REQUIRE_THAT(-10., WithinAbs(-10., 0.5)); REQUIRE_THAT(-10., WithinAbs(-9.6, 0.5)); } SECTION("ULPs") { REQUIRE_THAT(1., WithinULP(1., 0)); REQUIRE_THAT(nextafter(1., 2.), WithinULP(1., 1)); REQUIRE_THAT(nextafter(1., 0.), WithinULP(1., 1)); REQUIRE_THAT(nextafter(1., 2.), !WithinULP(1., 0)); REQUIRE_THAT(1., WithinULP(1., 0)); REQUIRE_THAT(-0., WithinULP(0., 0)); REQUIRE_THAT(NAN, !WithinULP(NAN, 123)); } SECTION("Composed") { REQUIRE_THAT(1., WithinAbs(1., 0.5) || WithinULP(2., 1)); REQUIRE_THAT(1., WithinAbs(2., 0.5) || WithinULP(1., 0)); REQUIRE_THAT(NAN, !(WithinAbs(NAN, 100) || WithinULP(NAN, 123))); } SECTION("Constructor validation") { REQUIRE_NOTHROW(WithinAbs(1., 0.)); REQUIRE_THROWS_AS(WithinAbs(1., -1.), std::domain_error); REQUIRE_NOTHROW(WithinULP(1., 0)); REQUIRE_THROWS_AS(WithinULP(1., -1), std::domain_error); } } TEST_CASE("Arbitrary predicate matcher", "[matchers][generic]") { SECTION("Function pointer") { REQUIRE_THAT(1, Predicate(alwaysTrue, "always true")); REQUIRE_THAT(1, !Predicate(alwaysFalse, "always false")); } SECTION("Lambdas + different type") { REQUIRE_THAT("Hello olleH", Predicate( [] (std::string const& str) -> bool { return str.front() == str.back(); }, "First and last character should be equal") ); REQUIRE_THAT("This wouldn't pass", !Predicate( [] (std::string const& str) -> bool { return str.front() == str.back(); } ) ); } } TEST_CASE("Regression test #1", "[matchers][vector]") { // At some point, UnorderedEqualsMatcher skipped // mismatched prefixed before doing the comparison itself std::vector actual = { 'a', 'b' }; std::vector expected = { 'c', 'b' }; CHECK_THAT(actual, !UnorderedEquals(expected)); } TEST_CASE("Predicate matcher can accept const char*", "[matchers][compilation]") { REQUIRE_THAT("foo", Predicate([] (const char* const&) { return true; })); } } } // namespace MatchersTests #endif // CATCH_CONFIG_DISABLE_MATCHERS #ifdef __clang__ #pragma clang diagnostic pop #endif