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Diffstat (limited to 'third_party/googletest/googlemock/test/gmock-matchers_test.cc')
| -rw-r--r-- | third_party/googletest/googlemock/test/gmock-matchers_test.cc | 6767 |
1 files changed, 0 insertions, 6767 deletions
diff --git a/third_party/googletest/googlemock/test/gmock-matchers_test.cc b/third_party/googletest/googlemock/test/gmock-matchers_test.cc deleted file mode 100644 index 87b2ad5..0000000 --- a/third_party/googletest/googlemock/test/gmock-matchers_test.cc +++ /dev/null @@ -1,6767 +0,0 @@ -// Copyright 2007, Google Inc. -// All rights reserved. -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are -// met: -// -// * Redistributions of source code must retain the above copyright -// notice, this list of conditions and the following disclaimer. -// * Redistributions in binary form must reproduce the above -// copyright notice, this list of conditions and the following disclaimer -// in the documentation and/or other materials provided with the -// distribution. -// * Neither the name of Google Inc. nor the names of its -// contributors may be used to endorse or promote products derived from -// this software without specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -// -// Author: wan@google.com (Zhanyong Wan) - -// Google Mock - a framework for writing C++ mock classes. -// -// This file tests some commonly used argument matchers. - -#include "gmock/gmock-matchers.h" -#include "gmock/gmock-more-matchers.h" - -#include <string.h> -#include <time.h> -#include <deque> -#include <functional> -#include <iostream> -#include <iterator> -#include <limits> -#include <list> -#include <map> -#include <memory> -#include <set> -#include <sstream> -#include <string> -#include <utility> -#include <vector> -#include "gmock/gmock.h" -#include "gtest/gtest.h" -#include "gtest/gtest-spi.h" - -#if GTEST_HAS_STD_FORWARD_LIST_ -# include <forward_list> // NOLINT -#endif - -#if GTEST_LANG_CXX11 -# include <type_traits> -#endif - -namespace testing { -namespace gmock_matchers_test { - -using std::greater; -using std::less; -using std::list; -using std::make_pair; -using std::map; -using std::multimap; -using std::multiset; -using std::ostream; -using std::pair; -using std::set; -using std::stringstream; -using std::vector; -using testing::A; -using testing::AllArgs; -using testing::AllOf; -using testing::An; -using testing::AnyOf; -using testing::ByRef; -using testing::ContainsRegex; -using testing::DoubleEq; -using testing::DoubleNear; -using testing::EndsWith; -using testing::Eq; -using testing::ExplainMatchResult; -using testing::Field; -using testing::FloatEq; -using testing::FloatNear; -using testing::Ge; -using testing::Gt; -using testing::HasSubstr; -using testing::IsEmpty; -using testing::IsNull; -using testing::Key; -using testing::Le; -using testing::Lt; -using testing::MakeMatcher; -using testing::MakePolymorphicMatcher; -using testing::MatchResultListener; -using testing::Matcher; -using testing::MatcherCast; -using testing::MatcherInterface; -using testing::Matches; -using testing::MatchesRegex; -using testing::NanSensitiveDoubleEq; -using testing::NanSensitiveDoubleNear; -using testing::NanSensitiveFloatEq; -using testing::NanSensitiveFloatNear; -using testing::Ne; -using testing::Not; -using testing::NotNull; -using testing::Pair; -using testing::Pointee; -using testing::Pointwise; -using testing::PolymorphicMatcher; -using testing::Property; -using testing::Ref; -using testing::ResultOf; -using testing::SizeIs; -using testing::StartsWith; -using testing::StrCaseEq; -using testing::StrCaseNe; -using testing::StrEq; -using testing::StrNe; -using testing::StringMatchResultListener; -using testing::Truly; -using testing::TypedEq; -using testing::UnorderedPointwise; -using testing::Value; -using testing::WhenSorted; -using testing::WhenSortedBy; -using testing::_; -using testing::get; -using testing::internal::DummyMatchResultListener; -using testing::internal::ElementMatcherPair; -using testing::internal::ElementMatcherPairs; -using testing::internal::ExplainMatchFailureTupleTo; -using testing::internal::FloatingEqMatcher; -using testing::internal::FormatMatcherDescription; -using testing::internal::IsReadableTypeName; -using testing::internal::linked_ptr; -using testing::internal::MatchMatrix; -using testing::internal::RE; -using testing::internal::scoped_ptr; -using testing::internal::StreamMatchResultListener; -using testing::internal::Strings; -using testing::internal::linked_ptr; -using testing::internal::scoped_ptr; -using testing::internal::string; -using testing::make_tuple; -using testing::tuple; - -// For testing ExplainMatchResultTo(). -class GreaterThanMatcher : public MatcherInterface<int> { - public: - explicit GreaterThanMatcher(int rhs) : rhs_(rhs) {} - - virtual void DescribeTo(ostream* os) const { - *os << "is > " << rhs_; - } - - virtual bool MatchAndExplain(int lhs, - MatchResultListener* listener) const { - const int diff = lhs - rhs_; - if (diff > 0) { - *listener << "which is " << diff << " more than " << rhs_; - } else if (diff == 0) { - *listener << "which is the same as " << rhs_; - } else { - *listener << "which is " << -diff << " less than " << rhs_; - } - - return lhs > rhs_; - } - - private: - int rhs_; -}; - -Matcher<int> GreaterThan(int n) { - return MakeMatcher(new GreaterThanMatcher(n)); -} - -std::string OfType(const std::string& type_name) { -#if GTEST_HAS_RTTI - return " (of type " + type_name + ")"; -#else - return ""; -#endif -} - -// Returns the description of the given matcher. -template <typename T> -std::string Describe(const Matcher<T>& m) { - return DescribeMatcher<T>(m); -} - -// Returns the description of the negation of the given matcher. -template <typename T> -std::string DescribeNegation(const Matcher<T>& m) { - return DescribeMatcher<T>(m, true); -} - -// Returns the reason why x matches, or doesn't match, m. -template <typename MatcherType, typename Value> -std::string Explain(const MatcherType& m, const Value& x) { - StringMatchResultListener listener; - ExplainMatchResult(m, x, &listener); - return listener.str(); -} - -TEST(MonotonicMatcherTest, IsPrintable) { - stringstream ss; - ss << GreaterThan(5); - EXPECT_EQ("is > 5", ss.str()); -} - -TEST(MatchResultListenerTest, StreamingWorks) { - StringMatchResultListener listener; - listener << "hi" << 5; - EXPECT_EQ("hi5", listener.str()); - - listener.Clear(); - EXPECT_EQ("", listener.str()); - - listener << 42; - EXPECT_EQ("42", listener.str()); - - // Streaming shouldn't crash when the underlying ostream is NULL. - DummyMatchResultListener dummy; - dummy << "hi" << 5; -} - -TEST(MatchResultListenerTest, CanAccessUnderlyingStream) { - EXPECT_TRUE(DummyMatchResultListener().stream() == NULL); - EXPECT_TRUE(StreamMatchResultListener(NULL).stream() == NULL); - - EXPECT_EQ(&std::cout, StreamMatchResultListener(&std::cout).stream()); -} - -TEST(MatchResultListenerTest, IsInterestedWorks) { - EXPECT_TRUE(StringMatchResultListener().IsInterested()); - EXPECT_TRUE(StreamMatchResultListener(&std::cout).IsInterested()); - - EXPECT_FALSE(DummyMatchResultListener().IsInterested()); - EXPECT_FALSE(StreamMatchResultListener(NULL).IsInterested()); -} - -// Makes sure that the MatcherInterface<T> interface doesn't -// change. -class EvenMatcherImpl : public MatcherInterface<int> { - public: - virtual bool MatchAndExplain(int x, - MatchResultListener* /* listener */) const { - return x % 2 == 0; - } - - virtual void DescribeTo(ostream* os) const { - *os << "is an even number"; - } - - // We deliberately don't define DescribeNegationTo() and - // ExplainMatchResultTo() here, to make sure the definition of these - // two methods is optional. -}; - -// Makes sure that the MatcherInterface API doesn't change. -TEST(MatcherInterfaceTest, CanBeImplementedUsingPublishedAPI) { - EvenMatcherImpl m; -} - -// Tests implementing a monomorphic matcher using MatchAndExplain(). - -class NewEvenMatcherImpl : public MatcherInterface<int> { - public: - virtual bool MatchAndExplain(int x, MatchResultListener* listener) const { - const bool match = x % 2 == 0; - // Verifies that we can stream to a listener directly. - *listener << "value % " << 2; - if (listener->stream() != NULL) { - // Verifies that we can stream to a listener's underlying stream - // too. - *listener->stream() << " == " << (x % 2); - } - return match; - } - - virtual void DescribeTo(ostream* os) const { - *os << "is an even number"; - } -}; - -TEST(MatcherInterfaceTest, CanBeImplementedUsingNewAPI) { - Matcher<int> m = MakeMatcher(new NewEvenMatcherImpl); - EXPECT_TRUE(m.Matches(2)); - EXPECT_FALSE(m.Matches(3)); - EXPECT_EQ("value % 2 == 0", Explain(m, 2)); - EXPECT_EQ("value % 2 == 1", Explain(m, 3)); -} - -// Tests default-constructing a matcher. -TEST(MatcherTest, CanBeDefaultConstructed) { - Matcher<double> m; -} - -// Tests that Matcher<T> can be constructed from a MatcherInterface<T>*. -TEST(MatcherTest, CanBeConstructedFromMatcherInterface) { - const MatcherInterface<int>* impl = new EvenMatcherImpl; - Matcher<int> m(impl); - EXPECT_TRUE(m.Matches(4)); - EXPECT_FALSE(m.Matches(5)); -} - -// Tests that value can be used in place of Eq(value). -TEST(MatcherTest, CanBeImplicitlyConstructedFromValue) { - Matcher<int> m1 = 5; - EXPECT_TRUE(m1.Matches(5)); - EXPECT_FALSE(m1.Matches(6)); -} - -// Tests that NULL can be used in place of Eq(NULL). -TEST(MatcherTest, CanBeImplicitlyConstructedFromNULL) { - Matcher<int*> m1 = NULL; - EXPECT_TRUE(m1.Matches(NULL)); - int n = 0; - EXPECT_FALSE(m1.Matches(&n)); -} - -// Tests that matchers can be constructed from a variable that is not properly -// defined. This should be illegal, but many users rely on this accidentally. -struct Undefined { - virtual ~Undefined() = 0; - static const int kInt = 1; -}; - -TEST(MatcherTest, CanBeConstructedFromUndefinedVariable) { - Matcher<int> m1 = Undefined::kInt; - EXPECT_TRUE(m1.Matches(1)); - EXPECT_FALSE(m1.Matches(2)); -} - -// Test that a matcher parameterized with an abstract class compiles. -TEST(MatcherTest, CanAcceptAbstractClass) { Matcher<const Undefined&> m = _; } - -// Tests that matchers are copyable. -TEST(MatcherTest, IsCopyable) { - // Tests the copy constructor. - Matcher<bool> m1 = Eq(false); - EXPECT_TRUE(m1.Matches(false)); - EXPECT_FALSE(m1.Matches(true)); - - // Tests the assignment operator. - m1 = Eq(true); - EXPECT_TRUE(m1.Matches(true)); - EXPECT_FALSE(m1.Matches(false)); -} - -// Tests that Matcher<T>::DescribeTo() calls -// MatcherInterface<T>::DescribeTo(). -TEST(MatcherTest, CanDescribeItself) { - EXPECT_EQ("is an even number", - Describe(Matcher<int>(new EvenMatcherImpl))); -} - -// Tests Matcher<T>::MatchAndExplain(). -TEST(MatcherTest, MatchAndExplain) { - Matcher<int> m = GreaterThan(0); - StringMatchResultListener listener1; - EXPECT_TRUE(m.MatchAndExplain(42, &listener1)); - EXPECT_EQ("which is 42 more than 0", listener1.str()); - - StringMatchResultListener listener2; - EXPECT_FALSE(m.MatchAndExplain(-9, &listener2)); - EXPECT_EQ("which is 9 less than 0", listener2.str()); -} - -// Tests that a C-string literal can be implicitly converted to a -// Matcher<std::string> or Matcher<const std::string&>. -TEST(StringMatcherTest, CanBeImplicitlyConstructedFromCStringLiteral) { - Matcher<std::string> m1 = "hi"; - EXPECT_TRUE(m1.Matches("hi")); - EXPECT_FALSE(m1.Matches("hello")); - - Matcher<const std::string&> m2 = "hi"; - EXPECT_TRUE(m2.Matches("hi")); - EXPECT_FALSE(m2.Matches("hello")); -} - -// Tests that a string object can be implicitly converted to a -// Matcher<std::string> or Matcher<const std::string&>. -TEST(StringMatcherTest, CanBeImplicitlyConstructedFromString) { - Matcher<std::string> m1 = std::string("hi"); - EXPECT_TRUE(m1.Matches("hi")); - EXPECT_FALSE(m1.Matches("hello")); - - Matcher<const std::string&> m2 = std::string("hi"); - EXPECT_TRUE(m2.Matches("hi")); - EXPECT_FALSE(m2.Matches("hello")); -} - -#if GTEST_HAS_GLOBAL_STRING -// Tests that a ::string object can be implicitly converted to a -// Matcher<std::string> or Matcher<const std::string&>. -TEST(StringMatcherTest, CanBeImplicitlyConstructedFromGlobalString) { - Matcher<std::string> m1 = ::string("hi"); - EXPECT_TRUE(m1.Matches("hi")); - EXPECT_FALSE(m1.Matches("hello")); - - Matcher<const std::string&> m2 = ::string("hi"); - EXPECT_TRUE(m2.Matches("hi")); - EXPECT_FALSE(m2.Matches("hello")); -} -#endif // GTEST_HAS_GLOBAL_STRING - -#if GTEST_HAS_GLOBAL_STRING -// Tests that a C-string literal can be implicitly converted to a -// Matcher<::string> or Matcher<const ::string&>. -TEST(GlobalStringMatcherTest, CanBeImplicitlyConstructedFromCStringLiteral) { - Matcher< ::string> m1 = "hi"; - EXPECT_TRUE(m1.Matches("hi")); - EXPECT_FALSE(m1.Matches("hello")); - - Matcher<const ::string&> m2 = "hi"; - EXPECT_TRUE(m2.Matches("hi")); - EXPECT_FALSE(m2.Matches("hello")); -} - -// Tests that a std::string object can be implicitly converted to a -// Matcher<::string> or Matcher<const ::string&>. -TEST(GlobalStringMatcherTest, CanBeImplicitlyConstructedFromString) { - Matcher< ::string> m1 = std::string("hi"); - EXPECT_TRUE(m1.Matches("hi")); - EXPECT_FALSE(m1.Matches("hello")); - - Matcher<const ::string&> m2 = std::string("hi"); - EXPECT_TRUE(m2.Matches("hi")); - EXPECT_FALSE(m2.Matches("hello")); -} - -// Tests that a ::string object can be implicitly converted to a -// Matcher<::string> or Matcher<const ::string&>. -TEST(GlobalStringMatcherTest, CanBeImplicitlyConstructedFromGlobalString) { - Matcher< ::string> m1 = ::string("hi"); - EXPECT_TRUE(m1.Matches("hi")); - EXPECT_FALSE(m1.Matches("hello")); - - Matcher<const ::string&> m2 = ::string("hi"); - EXPECT_TRUE(m2.Matches("hi")); - EXPECT_FALSE(m2.Matches("hello")); -} -#endif // GTEST_HAS_GLOBAL_STRING - -#if GTEST_HAS_ABSL -// Tests that a C-string literal can be implicitly converted to a -// Matcher<absl::string_view> or Matcher<const absl::string_view&>. -TEST(StringViewMatcherTest, CanBeImplicitlyConstructedFromCStringLiteral) { - Matcher<absl::string_view> m1 = "cats"; - EXPECT_TRUE(m1.Matches("cats")); - EXPECT_FALSE(m1.Matches("dogs")); - - Matcher<const absl::string_view&> m2 = "cats"; - EXPECT_TRUE(m2.Matches("cats")); - EXPECT_FALSE(m2.Matches("dogs")); -} - -// Tests that a std::string object can be implicitly converted to a -// Matcher<absl::string_view> or Matcher<const absl::string_view&>. -TEST(StringViewMatcherTest, CanBeImplicitlyConstructedFromString) { - Matcher<absl::string_view> m1 = std::string("cats"); - EXPECT_TRUE(m1.Matches("cats")); - EXPECT_FALSE(m1.Matches("dogs")); - - Matcher<const absl::string_view&> m2 = std::string("cats"); - EXPECT_TRUE(m2.Matches("cats")); - EXPECT_FALSE(m2.Matches("dogs")); -} - -#if GTEST_HAS_GLOBAL_STRING -// Tests that a ::string object can be implicitly converted to a -// Matcher<absl::string_view> or Matcher<const absl::string_view&>. -TEST(StringViewMatcherTest, CanBeImplicitlyConstructedFromGlobalString) { - Matcher<absl::string_view> m1 = ::string("cats"); - EXPECT_TRUE(m1.Matches("cats")); - EXPECT_FALSE(m1.Matches("dogs")); - - Matcher<const absl::string_view&> m2 = ::string("cats"); - EXPECT_TRUE(m2.Matches("cats")); - EXPECT_FALSE(m2.Matches("dogs")); -} -#endif // GTEST_HAS_GLOBAL_STRING - -// Tests that a absl::string_view object can be implicitly converted to a -// Matcher<absl::string_view> or Matcher<const absl::string_view&>. -TEST(StringViewMatcherTest, CanBeImplicitlyConstructedFromStringView) { - Matcher<absl::string_view> m1 = absl::string_view("cats"); - EXPECT_TRUE(m1.Matches("cats")); - EXPECT_FALSE(m1.Matches("dogs")); - - Matcher<const absl::string_view&> m2 = absl::string_view("cats"); - EXPECT_TRUE(m2.Matches("cats")); - EXPECT_FALSE(m2.Matches("dogs")); -} -#endif // GTEST_HAS_ABSL - -// Tests that MakeMatcher() constructs a Matcher<T> from a -// MatcherInterface* without requiring the user to explicitly -// write the type. -TEST(MakeMatcherTest, ConstructsMatcherFromMatcherInterface) { - const MatcherInterface<int>* dummy_impl = NULL; - Matcher<int> m = MakeMatcher(dummy_impl); -} - -// Tests that MakePolymorphicMatcher() can construct a polymorphic -// matcher from its implementation using the old API. -const int g_bar = 1; -class ReferencesBarOrIsZeroImpl { - public: - template <typename T> - bool MatchAndExplain(const T& x, - MatchResultListener* /* listener */) const { - const void* p = &x; - return p == &g_bar || x == 0; - } - - void DescribeTo(ostream* os) const { *os << "g_bar or zero"; } - - void DescribeNegationTo(ostream* os) const { - *os << "doesn't reference g_bar and is not zero"; - } -}; - -// This function verifies that MakePolymorphicMatcher() returns a -// PolymorphicMatcher<T> where T is the argument's type. -PolymorphicMatcher<ReferencesBarOrIsZeroImpl> ReferencesBarOrIsZero() { - return MakePolymorphicMatcher(ReferencesBarOrIsZeroImpl()); -} - -TEST(MakePolymorphicMatcherTest, ConstructsMatcherUsingOldAPI) { - // Using a polymorphic matcher to match a reference type. - Matcher<const int&> m1 = ReferencesBarOrIsZero(); - EXPECT_TRUE(m1.Matches(0)); - // Verifies that the identity of a by-reference argument is preserved. - EXPECT_TRUE(m1.Matches(g_bar)); - EXPECT_FALSE(m1.Matches(1)); - EXPECT_EQ("g_bar or zero", Describe(m1)); - - // Using a polymorphic matcher to match a value type. - Matcher<double> m2 = ReferencesBarOrIsZero(); - EXPECT_TRUE(m2.Matches(0.0)); - EXPECT_FALSE(m2.Matches(0.1)); - EXPECT_EQ("g_bar or zero", Describe(m2)); -} - -// Tests implementing a polymorphic matcher using MatchAndExplain(). - -class PolymorphicIsEvenImpl { - public: - void DescribeTo(ostream* os) const { *os << "is even"; } - - void DescribeNegationTo(ostream* os) const { - *os << "is odd"; - } - - template <typename T> - bool MatchAndExplain(const T& x, MatchResultListener* listener) const { - // Verifies that we can stream to the listener directly. - *listener << "% " << 2; - if (listener->stream() != NULL) { - // Verifies that we can stream to the listener's underlying stream - // too. - *listener->stream() << " == " << (x % 2); - } - return (x % 2) == 0; - } -}; - -PolymorphicMatcher<PolymorphicIsEvenImpl> PolymorphicIsEven() { - return MakePolymorphicMatcher(PolymorphicIsEvenImpl()); -} - -TEST(MakePolymorphicMatcherTest, ConstructsMatcherUsingNewAPI) { - // Using PolymorphicIsEven() as a Matcher<int>. - const Matcher<int> m1 = PolymorphicIsEven(); - EXPECT_TRUE(m1.Matches(42)); - EXPECT_FALSE(m1.Matches(43)); - EXPECT_EQ("is even", Describe(m1)); - - const Matcher<int> not_m1 = Not(m1); - EXPECT_EQ("is odd", Describe(not_m1)); - - EXPECT_EQ("% 2 == 0", Explain(m1, 42)); - - // Using PolymorphicIsEven() as a Matcher<char>. - const Matcher<char> m2 = PolymorphicIsEven(); - EXPECT_TRUE(m2.Matches('\x42')); - EXPECT_FALSE(m2.Matches('\x43')); - EXPECT_EQ("is even", Describe(m2)); - - const Matcher<char> not_m2 = Not(m2); - EXPECT_EQ("is odd", Describe(not_m2)); - - EXPECT_EQ("% 2 == 0", Explain(m2, '\x42')); -} - -// Tests that MatcherCast<T>(m) works when m is a polymorphic matcher. -TEST(MatcherCastTest, FromPolymorphicMatcher) { - Matcher<int> m = MatcherCast<int>(Eq(5)); - EXPECT_TRUE(m.Matches(5)); - EXPECT_FALSE(m.Matches(6)); -} - -// For testing casting matchers between compatible types. -class IntValue { - public: - // An int can be statically (although not implicitly) cast to a - // IntValue. - explicit IntValue(int a_value) : value_(a_value) {} - - int value() const { return value_; } - private: - int value_; -}; - -// For testing casting matchers between compatible types. -bool IsPositiveIntValue(const IntValue& foo) { - return foo.value() > 0; -} - -// Tests that MatcherCast<T>(m) works when m is a Matcher<U> where T -// can be statically converted to U. -TEST(MatcherCastTest, FromCompatibleType) { - Matcher<double> m1 = Eq(2.0); - Matcher<int> m2 = MatcherCast<int>(m1); - EXPECT_TRUE(m2.Matches(2)); - EXPECT_FALSE(m2.Matches(3)); - - Matcher<IntValue> m3 = Truly(IsPositiveIntValue); - Matcher<int> m4 = MatcherCast<int>(m3); - // In the following, the arguments 1 and 0 are statically converted - // to IntValue objects, and then tested by the IsPositiveIntValue() - // predicate. - EXPECT_TRUE(m4.Matches(1)); - EXPECT_FALSE(m4.Matches(0)); -} - -// Tests that MatcherCast<T>(m) works when m is a Matcher<const T&>. -TEST(MatcherCastTest, FromConstReferenceToNonReference) { - Matcher<const int&> m1 = Eq(0); - Matcher<int> m2 = MatcherCast<int>(m1); - EXPECT_TRUE(m2.Matches(0)); - EXPECT_FALSE(m2.Matches(1)); -} - -// Tests that MatcherCast<T>(m) works when m is a Matcher<T&>. -TEST(MatcherCastTest, FromReferenceToNonReference) { - Matcher<int&> m1 = Eq(0); - Matcher<int> m2 = MatcherCast<int>(m1); - EXPECT_TRUE(m2.Matches(0)); - EXPECT_FALSE(m2.Matches(1)); -} - -// Tests that MatcherCast<const T&>(m) works when m is a Matcher<T>. -TEST(MatcherCastTest, FromNonReferenceToConstReference) { - Matcher<int> m1 = Eq(0); - Matcher<const int&> m2 = MatcherCast<const int&>(m1); - EXPECT_TRUE(m2.Matches(0)); - EXPECT_FALSE(m2.Matches(1)); -} - -// Tests that MatcherCast<T&>(m) works when m is a Matcher<T>. -TEST(MatcherCastTest, FromNonReferenceToReference) { - Matcher<int> m1 = Eq(0); - Matcher<int&> m2 = MatcherCast<int&>(m1); - int n = 0; - EXPECT_TRUE(m2.Matches(n)); - n = 1; - EXPECT_FALSE(m2.Matches(n)); -} - -// Tests that MatcherCast<T>(m) works when m is a Matcher<T>. -TEST(MatcherCastTest, FromSameType) { - Matcher<int> m1 = Eq(0); - Matcher<int> m2 = MatcherCast<int>(m1); - EXPECT_TRUE(m2.Matches(0)); - EXPECT_FALSE(m2.Matches(1)); -} - -// Tests that MatcherCast<T>(m) works when m is a value of the same type as the -// value type of the Matcher. -TEST(MatcherCastTest, FromAValue) { - Matcher<int> m = MatcherCast<int>(42); - EXPECT_TRUE(m.Matches(42)); - EXPECT_FALSE(m.Matches(239)); -} - -// Tests that MatcherCast<T>(m) works when m is a value of the type implicitly -// convertible to the value type of the Matcher. -TEST(MatcherCastTest, FromAnImplicitlyConvertibleValue) { - const int kExpected = 'c'; - Matcher<int> m = MatcherCast<int>('c'); - EXPECT_TRUE(m.Matches(kExpected)); - EXPECT_FALSE(m.Matches(kExpected + 1)); -} - -struct NonImplicitlyConstructibleTypeWithOperatorEq { - friend bool operator==( - const NonImplicitlyConstructibleTypeWithOperatorEq& /* ignored */, - int rhs) { - return 42 == rhs; - } - friend bool operator==( - int lhs, - const NonImplicitlyConstructibleTypeWithOperatorEq& /* ignored */) { - return lhs == 42; - } -}; - -// Tests that MatcherCast<T>(m) works when m is a neither a matcher nor -// implicitly convertible to the value type of the Matcher, but the value type -// of the matcher has operator==() overload accepting m. -TEST(MatcherCastTest, NonImplicitlyConstructibleTypeWithOperatorEq) { - Matcher<NonImplicitlyConstructibleTypeWithOperatorEq> m1 = - MatcherCast<NonImplicitlyConstructibleTypeWithOperatorEq>(42); - EXPECT_TRUE(m1.Matches(NonImplicitlyConstructibleTypeWithOperatorEq())); - - Matcher<NonImplicitlyConstructibleTypeWithOperatorEq> m2 = - MatcherCast<NonImplicitlyConstructibleTypeWithOperatorEq>(239); - EXPECT_FALSE(m2.Matches(NonImplicitlyConstructibleTypeWithOperatorEq())); - - // When updating the following lines please also change the comment to - // namespace convertible_from_any. - Matcher<int> m3 = - MatcherCast<int>(NonImplicitlyConstructibleTypeWithOperatorEq()); - EXPECT_TRUE(m3.Matches(42)); - EXPECT_FALSE(m3.Matches(239)); -} - -// ConvertibleFromAny does not work with MSVC. resulting in -// error C2440: 'initializing': cannot convert from 'Eq' to 'M' -// No constructor could take the source type, or constructor overload -// resolution was ambiguous - -#if !defined _MSC_VER - -// The below ConvertibleFromAny struct is implicitly constructible from anything -// and when in the same namespace can interact with other tests. In particular, -// if it is in the same namespace as other tests and one removes -// NonImplicitlyConstructibleTypeWithOperatorEq::operator==(int lhs, ...); -// then the corresponding test still compiles (and it should not!) by implicitly -// converting NonImplicitlyConstructibleTypeWithOperatorEq to ConvertibleFromAny -// in m3.Matcher(). -namespace convertible_from_any { -// Implicitly convertible from any type. -struct ConvertibleFromAny { - ConvertibleFromAny(int a_value) : value(a_value) {} - template <typename T> - ConvertibleFromAny(const T& /*a_value*/) : value(-1) { - ADD_FAILURE() << "Conversion constructor called"; - } - int value; -}; - -bool operator==(const ConvertibleFromAny& a, const ConvertibleFromAny& b) { - return a.value == b.value; -} - -ostream& operator<<(ostream& os, const ConvertibleFromAny& a) { - return os << a.value; -} - -TEST(MatcherCastTest, ConversionConstructorIsUsed) { - Matcher<ConvertibleFromAny> m = MatcherCast<ConvertibleFromAny>(1); - EXPECT_TRUE(m.Matches(ConvertibleFromAny(1))); - EXPECT_FALSE(m.Matches(ConvertibleFromAny(2))); -} - -TEST(MatcherCastTest, FromConvertibleFromAny) { - Matcher<ConvertibleFromAny> m = - MatcherCast<ConvertibleFromAny>(Eq(ConvertibleFromAny(1))); - EXPECT_TRUE(m.Matches(ConvertibleFromAny(1))); - EXPECT_FALSE(m.Matches(ConvertibleFromAny(2))); -} -} // namespace convertible_from_any - -#endif // !defined _MSC_VER - -struct IntReferenceWrapper { - IntReferenceWrapper(const int& a_value) : value(&a_value) {} - const int* value; -}; - -bool operator==(const IntReferenceWrapper& a, const IntReferenceWrapper& b) { - return a.value == b.value; -} - -TEST(MatcherCastTest, ValueIsNotCopied) { - int n = 42; - Matcher<IntReferenceWrapper> m = MatcherCast<IntReferenceWrapper>(n); - // Verify that the matcher holds a reference to n, not to its temporary copy. - EXPECT_TRUE(m.Matches(n)); -} - -class Base { - public: - virtual ~Base() {} - Base() {} - private: - GTEST_DISALLOW_COPY_AND_ASSIGN_(Base); -}; - -class Derived : public Base { - public: - Derived() : Base() {} - int i; -}; - -class OtherDerived : public Base {}; - -// Tests that SafeMatcherCast<T>(m) works when m is a polymorphic matcher. -TEST(SafeMatcherCastTest, FromPolymorphicMatcher) { - Matcher<char> m2 = SafeMatcherCast<char>(Eq(32)); - EXPECT_TRUE(m2.Matches(' ')); - EXPECT_FALSE(m2.Matches('\n')); -} - -// Tests that SafeMatcherCast<T>(m) works when m is a Matcher<U> where -// T and U are arithmetic types and T can be losslessly converted to -// U. -TEST(SafeMatcherCastTest, FromLosslesslyConvertibleArithmeticType) { - Matcher<double> m1 = DoubleEq(1.0); - Matcher<float> m2 = SafeMatcherCast<float>(m1); - EXPECT_TRUE(m2.Matches(1.0f)); - EXPECT_FALSE(m2.Matches(2.0f)); - - Matcher<char> m3 = SafeMatcherCast<char>(TypedEq<int>('a')); - EXPECT_TRUE(m3.Matches('a')); - EXPECT_FALSE(m3.Matches('b')); -} - -// Tests that SafeMatcherCast<T>(m) works when m is a Matcher<U> where T and U -// are pointers or references to a derived and a base class, correspondingly. -TEST(SafeMatcherCastTest, FromBaseClass) { - Derived d, d2; - Matcher<Base*> m1 = Eq(&d); - Matcher<Derived*> m2 = SafeMatcherCast<Derived*>(m1); - EXPECT_TRUE(m2.Matches(&d)); - EXPECT_FALSE(m2.Matches(&d2)); - - Matcher<Base&> m3 = Ref(d); - Matcher<Derived&> m4 = SafeMatcherCast<Derived&>(m3); - EXPECT_TRUE(m4.Matches(d)); - EXPECT_FALSE(m4.Matches(d2)); -} - -// Tests that SafeMatcherCast<T&>(m) works when m is a Matcher<const T&>. -TEST(SafeMatcherCastTest, FromConstReferenceToReference) { - int n = 0; - Matcher<const int&> m1 = Ref(n); - Matcher<int&> m2 = SafeMatcherCast<int&>(m1); - int n1 = 0; - EXPECT_TRUE(m2.Matches(n)); - EXPECT_FALSE(m2.Matches(n1)); -} - -// Tests that MatcherCast<const T&>(m) works when m is a Matcher<T>. -TEST(SafeMatcherCastTest, FromNonReferenceToConstReference) { - Matcher<int> m1 = Eq(0); - Matcher<const int&> m2 = SafeMatcherCast<const int&>(m1); - EXPECT_TRUE(m2.Matches(0)); - EXPECT_FALSE(m2.Matches(1)); -} - -// Tests that SafeMatcherCast<T&>(m) works when m is a Matcher<T>. -TEST(SafeMatcherCastTest, FromNonReferenceToReference) { - Matcher<int> m1 = Eq(0); - Matcher<int&> m2 = SafeMatcherCast<int&>(m1); - int n = 0; - EXPECT_TRUE(m2.Matches(n)); - n = 1; - EXPECT_FALSE(m2.Matches(n)); -} - -// Tests that SafeMatcherCast<T>(m) works when m is a Matcher<T>. -TEST(SafeMatcherCastTest, FromSameType) { - Matcher<int> m1 = Eq(0); - Matcher<int> m2 = SafeMatcherCast<int>(m1); - EXPECT_TRUE(m2.Matches(0)); - EXPECT_FALSE(m2.Matches(1)); -} - -#if !defined _MSC_VER - -namespace convertible_from_any { -TEST(SafeMatcherCastTest, ConversionConstructorIsUsed) { - Matcher<ConvertibleFromAny> m = SafeMatcherCast<ConvertibleFromAny>(1); - EXPECT_TRUE(m.Matches(ConvertibleFromAny(1))); - EXPECT_FALSE(m.Matches(ConvertibleFromAny(2))); -} - -TEST(SafeMatcherCastTest, FromConvertibleFromAny) { - Matcher<ConvertibleFromAny> m = - SafeMatcherCast<ConvertibleFromAny>(Eq(ConvertibleFromAny(1))); - EXPECT_TRUE(m.Matches(ConvertibleFromAny(1))); - EXPECT_FALSE(m.Matches(ConvertibleFromAny(2))); -} -} // namespace convertible_from_any - -#endif // !defined _MSC_VER - -TEST(SafeMatcherCastTest, ValueIsNotCopied) { - int n = 42; - Matcher<IntReferenceWrapper> m = SafeMatcherCast<IntReferenceWrapper>(n); - // Verify that the matcher holds a reference to n, not to its temporary copy. - EXPECT_TRUE(m.Matches(n)); -} - -TEST(ExpectThat, TakesLiterals) { - EXPECT_THAT(1, 1); - EXPECT_THAT(1.0, 1.0); - EXPECT_THAT(std::string(), ""); -} - -TEST(ExpectThat, TakesFunctions) { - struct Helper { - static void Func() {} - }; - void (*func)() = Helper::Func; - EXPECT_THAT(func, Helper::Func); - EXPECT_THAT(func, &Helper::Func); -} - -// Tests that A<T>() matches any value of type T. -TEST(ATest, MatchesAnyValue) { - // Tests a matcher for a value type. - Matcher<double> m1 = A<double>(); - EXPECT_TRUE(m1.Matches(91.43)); - EXPECT_TRUE(m1.Matches(-15.32)); - - // Tests a matcher for a reference type. - int a = 2; - int b = -6; - Matcher<int&> m2 = A<int&>(); - EXPECT_TRUE(m2.Matches(a)); - EXPECT_TRUE(m2.Matches(b)); -} - -TEST(ATest, WorksForDerivedClass) { - Base base; - Derived derived; - EXPECT_THAT(&base, A<Base*>()); - // This shouldn't compile: EXPECT_THAT(&base, A<Derived*>()); - EXPECT_THAT(&derived, A<Base*>()); - EXPECT_THAT(&derived, A<Derived*>()); -} - -// Tests that A<T>() describes itself properly. -TEST(ATest, CanDescribeSelf) { - EXPECT_EQ("is anything", Describe(A<bool>())); -} - -// Tests that An<T>() matches any value of type T. -TEST(AnTest, MatchesAnyValue) { - // Tests a matcher for a value type. - Matcher<int> m1 = An<int>(); - EXPECT_TRUE(m1.Matches(9143)); - EXPECT_TRUE(m1.Matches(-1532)); - - // Tests a matcher for a reference type. - int a = 2; - int b = -6; - Matcher<int&> m2 = An<int&>(); - EXPECT_TRUE(m2.Matches(a)); - EXPECT_TRUE(m2.Matches(b)); -} - -// Tests that An<T>() describes itself properly. -TEST(AnTest, CanDescribeSelf) { - EXPECT_EQ("is anything", Describe(An<int>())); -} - -// Tests that _ can be used as a matcher for any type and matches any -// value of that type. -TEST(UnderscoreTest, MatchesAnyValue) { - // Uses _ as a matcher for a value type. - Matcher<int> m1 = _; - EXPECT_TRUE(m1.Matches(123)); - EXPECT_TRUE(m1.Matches(-242)); - - // Uses _ as a matcher for a reference type. - bool a = false; - const bool b = true; - Matcher<const bool&> m2 = _; - EXPECT_TRUE(m2.Matches(a)); - EXPECT_TRUE(m2.Matches(b)); -} - -// Tests that _ describes itself properly. -TEST(UnderscoreTest, CanDescribeSelf) { - Matcher<int> m = _; - EXPECT_EQ("is anything", Describe(m)); -} - -// Tests that Eq(x) matches any value equal to x. -TEST(EqTest, MatchesEqualValue) { - // 2 C-strings with same content but different addresses. - const char a1[] = "hi"; - const char a2[] = "hi"; - - Matcher<const char*> m1 = Eq(a1); - EXPECT_TRUE(m1.Matches(a1)); - EXPECT_FALSE(m1.Matches(a2)); -} - -// Tests that Eq(v) describes itself properly. - -class Unprintable { - public: - Unprintable() : c_('a') {} - - bool operator==(const Unprintable& /* rhs */) const { return true; } - private: - char c_; -}; - -TEST(EqTest, CanDescribeSelf) { - Matcher<Unprintable> m = Eq(Unprintable()); - EXPECT_EQ("is equal to 1-byte object <61>", Describe(m)); -} - -// Tests that Eq(v) can be used to match any type that supports -// comparing with type T, where T is v's type. -TEST(EqTest, IsPolymorphic) { - Matcher<int> m1 = Eq(1); - EXPECT_TRUE(m1.Matches(1)); - EXPECT_FALSE(m1.Matches(2)); - - Matcher<char> m2 = Eq(1); - EXPECT_TRUE(m2.Matches('\1')); - EXPECT_FALSE(m2.Matches('a')); -} - -// Tests that TypedEq<T>(v) matches values of type T that's equal to v. -TEST(TypedEqTest, ChecksEqualityForGivenType) { - Matcher<char> m1 = TypedEq<char>('a'); - EXPECT_TRUE(m1.Matches('a')); - EXPECT_FALSE(m1.Matches('b')); - - Matcher<int> m2 = TypedEq<int>(6); - EXPECT_TRUE(m2.Matches(6)); - EXPECT_FALSE(m2.Matches(7)); -} - -// Tests that TypedEq(v) describes itself properly. -TEST(TypedEqTest, CanDescribeSelf) { - EXPECT_EQ("is equal to 2", Describe(TypedEq<int>(2))); -} - -// Tests that TypedEq<T>(v) has type Matcher<T>. - -// Type<T>::IsTypeOf(v) compiles iff the type of value v is T, where T -// is a "bare" type (i.e. not in the form of const U or U&). If v's -// type is not T, the compiler will generate a message about -// "undefined reference". -template <typename T> -struct Type { - static bool IsTypeOf(const T& /* v */) { return true; } - - template <typename T2> - static void IsTypeOf(T2 v); -}; - -TEST(TypedEqTest, HasSpecifiedType) { - // Verfies that the type of TypedEq<T>(v) is Matcher<T>. - Type<Matcher<int> >::IsTypeOf(TypedEq<int>(5)); - Type<Matcher<double> >::IsTypeOf(TypedEq<double>(5)); -} - -// Tests that Ge(v) matches anything >= v. -TEST(GeTest, ImplementsGreaterThanOrEqual) { - Matcher<int> m1 = Ge(0); - EXPECT_TRUE(m1.Matches(1)); - EXPECT_TRUE(m1.Matches(0)); - EXPECT_FALSE(m1.Matches(-1)); -} - -// Tests that Ge(v) describes itself properly. -TEST(GeTest, CanDescribeSelf) { - Matcher<int> m = Ge(5); - EXPECT_EQ("is >= 5", Describe(m)); -} - -// Tests that Gt(v) matches anything > v. -TEST(GtTest, ImplementsGreaterThan) { - Matcher<double> m1 = Gt(0); - EXPECT_TRUE(m1.Matches(1.0)); - EXPECT_FALSE(m1.Matches(0.0)); - EXPECT_FALSE(m1.Matches(-1.0)); -} - -// Tests that Gt(v) describes itself properly. -TEST(GtTest, CanDescribeSelf) { - Matcher<int> m = Gt(5); - EXPECT_EQ("is > 5", Describe(m)); -} - -// Tests that Le(v) matches anything <= v. -TEST(LeTest, ImplementsLessThanOrEqual) { - Matcher<char> m1 = Le('b'); - EXPECT_TRUE(m1.Matches('a')); - EXPECT_TRUE(m1.Matches('b')); - EXPECT_FALSE(m1.Matches('c')); -} - -// Tests that Le(v) describes itself properly. -TEST(LeTest, CanDescribeSelf) { - Matcher<int> m = Le(5); - EXPECT_EQ("is <= 5", Describe(m)); -} - -// Tests that Lt(v) matches anything < v. -TEST(LtTest, ImplementsLessThan) { - Matcher<const std::string&> m1 = Lt("Hello"); - EXPECT_TRUE(m1.Matches("Abc")); - EXPECT_FALSE(m1.Matches("Hello")); - EXPECT_FALSE(m1.Matches("Hello, world!")); -} - -// Tests that Lt(v) describes itself properly. -TEST(LtTest, CanDescribeSelf) { - Matcher<int> m = Lt(5); - EXPECT_EQ("is < 5", Describe(m)); -} - -// Tests that Ne(v) matches anything != v. -TEST(NeTest, ImplementsNotEqual) { - Matcher<int> m1 = Ne(0); - EXPECT_TRUE(m1.Matches(1)); - EXPECT_TRUE(m1.Matches(-1)); - EXPECT_FALSE(m1.Matches(0)); -} - -// Tests that Ne(v) describes itself properly. -TEST(NeTest, CanDescribeSelf) { - Matcher<int> m = Ne(5); - EXPECT_EQ("isn't equal to 5", Describe(m)); -} - -// Tests that IsNull() matches any NULL pointer of any type. -TEST(IsNullTest, MatchesNullPointer) { - Matcher<int*> m1 = IsNull(); - int* p1 = NULL; - int n = 0; - EXPECT_TRUE(m1.Matches(p1)); - EXPECT_FALSE(m1.Matches(&n)); - - Matcher<const char*> m2 = IsNull(); - const char* p2 = NULL; - EXPECT_TRUE(m2.Matches(p2)); - EXPECT_FALSE(m2.Matches("hi")); - -#if !GTEST_OS_SYMBIAN - // Nokia's Symbian compiler generates: - // gmock-matchers.h: ambiguous access to overloaded function - // gmock-matchers.h: 'testing::Matcher<void *>::Matcher(void *)' - // gmock-matchers.h: 'testing::Matcher<void *>::Matcher(const testing:: - // MatcherInterface<void *> *)' - // gmock-matchers.h: (point of instantiation: 'testing:: - // gmock_matchers_test::IsNullTest_MatchesNullPointer_Test::TestBody()') - // gmock-matchers.h: (instantiating: 'testing::PolymorphicMatc - Matcher<void*> m3 = IsNull(); - void* p3 = NULL; - EXPECT_TRUE(m3.Matches(p3)); - EXPECT_FALSE(m3.Matches(reinterpret_cast<void*>(0xbeef))); -#endif -} - -TEST(IsNullTest, LinkedPtr) { - const Matcher<linked_ptr<int> > m = IsNull(); - const linked_ptr<int> null_p; - const linked_ptr<int> non_null_p(new int); - - EXPECT_TRUE(m.Matches(null_p)); - EXPECT_FALSE(m.Matches(non_null_p)); -} - -TEST(IsNullTest, ReferenceToConstLinkedPtr) { - const Matcher<const linked_ptr<double>&> m = IsNull(); - const linked_ptr<double> null_p; - const linked_ptr<double> non_null_p(new double); - - EXPECT_TRUE(m.Matches(null_p)); - EXPECT_FALSE(m.Matches(non_null_p)); -} - -#if GTEST_LANG_CXX11 -TEST(IsNullTest, StdFunction) { - const Matcher<std::function<void()>> m = IsNull(); - - EXPECT_TRUE(m.Matches(std::function<void()>())); - EXPECT_FALSE(m.Matches([]{})); -} -#endif // GTEST_LANG_CXX11 - -// Tests that IsNull() describes itself properly. -TEST(IsNullTest, CanDescribeSelf) { - Matcher<int*> m = IsNull(); - EXPECT_EQ("is NULL", Describe(m)); - EXPECT_EQ("isn't NULL", DescribeNegation(m)); -} - -// Tests that NotNull() matches any non-NULL pointer of any type. -TEST(NotNullTest, MatchesNonNullPointer) { - Matcher<int*> m1 = NotNull(); - int* p1 = NULL; - int n = 0; - EXPECT_FALSE(m1.Matches(p1)); - EXPECT_TRUE(m1.Matches(&n)); - - Matcher<const char*> m2 = NotNull(); - const char* p2 = NULL; - EXPECT_FALSE(m2.Matches(p2)); - EXPECT_TRUE(m2.Matches("hi")); -} - -TEST(NotNullTest, LinkedPtr) { - const Matcher<linked_ptr<int> > m = NotNull(); - const linked_ptr<int> null_p; - const linked_ptr<int> non_null_p(new int); - - EXPECT_FALSE(m.Matches(null_p)); - EXPECT_TRUE(m.Matches(non_null_p)); -} - -TEST(NotNullTest, ReferenceToConstLinkedPtr) { - const Matcher<const linked_ptr<double>&> m = NotNull(); - const linked_ptr<double> null_p; - const linked_ptr<double> non_null_p(new double); - - EXPECT_FALSE(m.Matches(null_p)); - EXPECT_TRUE(m.Matches(non_null_p)); -} - -#if GTEST_LANG_CXX11 -TEST(NotNullTest, StdFunction) { - const Matcher<std::function<void()>> m = NotNull(); - - EXPECT_TRUE(m.Matches([]{})); - EXPECT_FALSE(m.Matches(std::function<void()>())); -} -#endif // GTEST_LANG_CXX11 - -// Tests that NotNull() describes itself properly. -TEST(NotNullTest, CanDescribeSelf) { - Matcher<int*> m = NotNull(); - EXPECT_EQ("isn't NULL", Describe(m)); -} - -// Tests that Ref(variable) matches an argument that references -// 'variable'. -TEST(RefTest, MatchesSameVariable) { - int a = 0; - int b = 0; - Matcher<int&> m = Ref(a); - EXPECT_TRUE(m.Matches(a)); - EXPECT_FALSE(m.Matches(b)); -} - -// Tests that Ref(variable) describes itself properly. -TEST(RefTest, CanDescribeSelf) { - int n = 5; - Matcher<int&> m = Ref(n); - stringstream ss; - ss << "references the variable @" << &n << " 5"; - EXPECT_EQ(ss.str(), Describe(m)); -} - -// Test that Ref(non_const_varialbe) can be used as a matcher for a -// const reference. -TEST(RefTest, CanBeUsedAsMatcherForConstReference) { - int a = 0; - int b = 0; - Matcher<const int&> m = Ref(a); - EXPECT_TRUE(m.Matches(a)); - EXPECT_FALSE(m.Matches(b)); -} - -// Tests that Ref(variable) is covariant, i.e. Ref(derived) can be -// used wherever Ref(base) can be used (Ref(derived) is a sub-type -// of Ref(base), but not vice versa. - -TEST(RefTest, IsCovariant) { - Base base, base2; - Derived derived; - Matcher<const Base&> m1 = Ref(base); - EXPECT_TRUE(m1.Matches(base)); - EXPECT_FALSE(m1.Matches(base2)); - EXPECT_FALSE(m1.Matches(derived)); - - m1 = Ref(derived); - EXPECT_TRUE(m1.Matches(derived)); - EXPECT_FALSE(m1.Matches(base)); - EXPECT_FALSE(m1.Matches(base2)); -} - -TEST(RefTest, ExplainsResult) { - int n = 0; - EXPECT_THAT(Explain(Matcher<const int&>(Ref(n)), n), - StartsWith("which is located @")); - - int m = 0; - EXPECT_THAT(Explain(Matcher<const int&>(Ref(n)), m), - StartsWith("which is located @")); -} - -// Tests string comparison matchers. - -TEST(StrEqTest, MatchesEqualString) { - Matcher<const char*> m = StrEq(std::string("Hello")); - EXPECT_TRUE(m.Matches("Hello")); - EXPECT_FALSE(m.Matches("hello")); - EXPECT_FALSE(m.Matches(NULL)); - - Matcher<const std::string&> m2 = StrEq("Hello"); - EXPECT_TRUE(m2.Matches("Hello")); - EXPECT_FALSE(m2.Matches("Hi")); - -#if GTEST_HAS_ABSL - Matcher<const absl::string_view&> m3 = StrEq("Hello"); - EXPECT_TRUE(m3.Matches(absl::string_view("Hello"))); - EXPECT_FALSE(m3.Matches(absl::string_view("hello"))); - EXPECT_FALSE(m3.Matches(absl::string_view())); -#endif // GTEST_HAS_ABSL -} - -TEST(StrEqTest, CanDescribeSelf) { - Matcher<std::string> m = StrEq("Hi-\'\"?\\\a\b\f\n\r\t\v\xD3"); - EXPECT_EQ("is equal to \"Hi-\'\\\"?\\\\\\a\\b\\f\\n\\r\\t\\v\\xD3\"", - Describe(m)); - - std::string str("01204500800"); - str[3] = '\0'; - Matcher<std::string> m2 = StrEq(str); - EXPECT_EQ("is equal to \"012\\04500800\"", Describe(m2)); - str[0] = str[6] = str[7] = str[9] = str[10] = '\0'; - Matcher<std::string> m3 = StrEq(str); - EXPECT_EQ("is equal to \"\\012\\045\\0\\08\\0\\0\"", Describe(m3)); -} - -TEST(StrNeTest, MatchesUnequalString) { - Matcher<const char*> m = StrNe("Hello"); - EXPECT_TRUE(m.Matches("")); - EXPECT_TRUE(m.Matches(NULL)); - EXPECT_FALSE(m.Matches("Hello")); - - Matcher<std::string> m2 = StrNe(std::string("Hello")); - EXPECT_TRUE(m2.Matches("hello")); - EXPECT_FALSE(m2.Matches("Hello")); - -#if GTEST_HAS_ABSL - Matcher<const absl::string_view> m3 = StrNe("Hello"); - EXPECT_TRUE(m3.Matches(absl::string_view(""))); - EXPECT_TRUE(m3.Matches(absl::string_view())); - EXPECT_FALSE(m3.Matches(absl::string_view("Hello"))); -#endif // GTEST_HAS_ABSL -} - -TEST(StrNeTest, CanDescribeSelf) { - Matcher<const char*> m = StrNe("Hi"); - EXPECT_EQ("isn't equal to \"Hi\"", Describe(m)); -} - -TEST(StrCaseEqTest, MatchesEqualStringIgnoringCase) { - Matcher<const char*> m = StrCaseEq(std::string("Hello")); - EXPECT_TRUE(m.Matches("Hello")); - EXPECT_TRUE(m.Matches("hello")); - EXPECT_FALSE(m.Matches("Hi")); - EXPECT_FALSE(m.Matches(NULL)); - - Matcher<const std::string&> m2 = StrCaseEq("Hello"); - EXPECT_TRUE(m2.Matches("hello")); - EXPECT_FALSE(m2.Matches("Hi")); - -#if GTEST_HAS_ABSL - Matcher<const absl::string_view&> m3 = StrCaseEq(std::string("Hello")); - EXPECT_TRUE(m3.Matches(absl::string_view("Hello"))); - EXPECT_TRUE(m3.Matches(absl::string_view("hello"))); - EXPECT_FALSE(m3.Matches(absl::string_view("Hi"))); - EXPECT_FALSE(m3.Matches(absl::string_view())); -#endif // GTEST_HAS_ABSL -} - -TEST(StrCaseEqTest, MatchesEqualStringWith0IgnoringCase) { - std::string str1("oabocdooeoo"); - std::string str2("OABOCDOOEOO"); - Matcher<const std::string&> m0 = StrCaseEq(str1); - EXPECT_FALSE(m0.Matches(str2 + std::string(1, '\0'))); - - str1[3] = str2[3] = '\0'; - Matcher<const std::string&> m1 = StrCaseEq(str1); - EXPECT_TRUE(m1.Matches(str2)); - - str1[0] = str1[6] = str1[7] = str1[10] = '\0'; - str2[0] = str2[6] = str2[7] = str2[10] = '\0'; - Matcher<const std::string&> m2 = StrCaseEq(str1); - str1[9] = str2[9] = '\0'; - EXPECT_FALSE(m2.Matches(str2)); - - Matcher<const std::string&> m3 = StrCaseEq(str1); - EXPECT_TRUE(m3.Matches(str2)); - - EXPECT_FALSE(m3.Matches(str2 + "x")); - str2.append(1, '\0'); - EXPECT_FALSE(m3.Matches(str2)); - EXPECT_FALSE(m3.Matches(std::string(str2, 0, 9))); -} - -TEST(StrCaseEqTest, CanDescribeSelf) { - Matcher<std::string> m = StrCaseEq("Hi"); - EXPECT_EQ("is equal to (ignoring case) \"Hi\"", Describe(m)); -} - -TEST(StrCaseNeTest, MatchesUnequalStringIgnoringCase) { - Matcher<const char*> m = StrCaseNe("Hello"); - EXPECT_TRUE(m.Matches("Hi")); - EXPECT_TRUE(m.Matches(NULL)); - EXPECT_FALSE(m.Matches("Hello")); - EXPECT_FALSE(m.Matches("hello")); - - Matcher<std::string> m2 = StrCaseNe(std::string("Hello")); - EXPECT_TRUE(m2.Matches("")); - EXPECT_FALSE(m2.Matches("Hello")); - -#if GTEST_HAS_ABSL - Matcher<const absl::string_view> m3 = StrCaseNe("Hello"); - EXPECT_TRUE(m3.Matches(absl::string_view("Hi"))); - EXPECT_TRUE(m3.Matches(absl::string_view())); - EXPECT_FALSE(m3.Matches(absl::string_view("Hello"))); - EXPECT_FALSE(m3.Matches(absl::string_view("hello"))); -#endif // GTEST_HAS_ABSL -} - -TEST(StrCaseNeTest, CanDescribeSelf) { - Matcher<const char*> m = StrCaseNe("Hi"); - EXPECT_EQ("isn't equal to (ignoring case) \"Hi\"", Describe(m)); -} - -// Tests that HasSubstr() works for matching string-typed values. -TEST(HasSubstrTest, WorksForStringClasses) { - const Matcher<std::string> m1 = HasSubstr("foo"); - EXPECT_TRUE(m1.Matches(std::string("I love food."))); - EXPECT_FALSE(m1.Matches(std::string("tofo"))); - - const Matcher<const std::string&> m2 = HasSubstr("foo"); - EXPECT_TRUE(m2.Matches(std::string("I love food."))); - EXPECT_FALSE(m2.Matches(std::string("tofo"))); -} - -// Tests that HasSubstr() works for matching C-string-typed values. -TEST(HasSubstrTest, WorksForCStrings) { - const Matcher<char*> m1 = HasSubstr("foo"); - EXPECT_TRUE(m1.Matches(const_cast<char*>("I love food."))); - EXPECT_FALSE(m1.Matches(const_cast<char*>("tofo"))); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const char*> m2 = HasSubstr("foo"); - EXPECT_TRUE(m2.Matches("I love food.")); - EXPECT_FALSE(m2.Matches("tofo")); - EXPECT_FALSE(m2.Matches(NULL)); -} - -#if GTEST_HAS_ABSL -// Tests that HasSubstr() works for matching absl::string_view-typed values. -TEST(HasSubstrTest, WorksForStringViewClasses) { - const Matcher<absl::string_view> m1 = HasSubstr("foo"); - EXPECT_TRUE(m1.Matches(absl::string_view("I love food."))); - EXPECT_FALSE(m1.Matches(absl::string_view("tofo"))); - EXPECT_FALSE(m1.Matches(absl::string_view())); - - const Matcher<const absl::string_view&> m2 = HasSubstr("foo"); - EXPECT_TRUE(m2.Matches(absl::string_view("I love food."))); - EXPECT_FALSE(m2.Matches(absl::string_view("tofo"))); - EXPECT_FALSE(m2.Matches(absl::string_view())); - - const Matcher<const absl::string_view&> m3 = HasSubstr(""); - EXPECT_TRUE(m3.Matches(absl::string_view("foo"))); - EXPECT_FALSE(m3.Matches(absl::string_view())); -} -#endif // GTEST_HAS_ABSL - -// Tests that HasSubstr(s) describes itself properly. -TEST(HasSubstrTest, CanDescribeSelf) { - Matcher<std::string> m = HasSubstr("foo\n\""); - EXPECT_EQ("has substring \"foo\\n\\\"\"", Describe(m)); -} - -TEST(KeyTest, CanDescribeSelf) { - Matcher<const pair<std::string, int>&> m = Key("foo"); - EXPECT_EQ("has a key that is equal to \"foo\"", Describe(m)); - EXPECT_EQ("doesn't have a key that is equal to \"foo\"", DescribeNegation(m)); -} - -TEST(KeyTest, ExplainsResult) { - Matcher<pair<int, bool> > m = Key(GreaterThan(10)); - EXPECT_EQ("whose first field is a value which is 5 less than 10", - Explain(m, make_pair(5, true))); - EXPECT_EQ("whose first field is a value which is 5 more than 10", - Explain(m, make_pair(15, true))); -} - -TEST(KeyTest, MatchesCorrectly) { - pair<int, std::string> p(25, "foo"); - EXPECT_THAT(p, Key(25)); - EXPECT_THAT(p, Not(Key(42))); - EXPECT_THAT(p, Key(Ge(20))); - EXPECT_THAT(p, Not(Key(Lt(25)))); -} - -#if GTEST_LANG_CXX11 -template <size_t I> -struct Tag {}; - -struct PairWithGet { - int member_1; - string member_2; - using first_type = int; - using second_type = string; - - const int& GetImpl(Tag<0>) const { return member_1; } - const string& GetImpl(Tag<1>) const { return member_2; } -}; -template <size_t I> -auto get(const PairWithGet& value) -> decltype(value.GetImpl(Tag<I>())) { - return value.GetImpl(Tag<I>()); -} -TEST(PairTest, MatchesPairWithGetCorrectly) { - PairWithGet p{25, "foo"}; - EXPECT_THAT(p, Key(25)); - EXPECT_THAT(p, Not(Key(42))); - EXPECT_THAT(p, Key(Ge(20))); - EXPECT_THAT(p, Not(Key(Lt(25)))); - - std::vector<PairWithGet> v = {{11, "Foo"}, {29, "gMockIsBestMock"}}; - EXPECT_THAT(v, Contains(Key(29))); -} -#endif // GTEST_LANG_CXX11 - -TEST(KeyTest, SafelyCastsInnerMatcher) { - Matcher<int> is_positive = Gt(0); - Matcher<int> is_negative = Lt(0); - pair<char, bool> p('a', true); - EXPECT_THAT(p, Key(is_positive)); - EXPECT_THAT(p, Not(Key(is_negative))); -} - -TEST(KeyTest, InsideContainsUsingMap) { - map<int, char> container; - container.insert(make_pair(1, 'a')); - container.insert(make_pair(2, 'b')); - container.insert(make_pair(4, 'c')); - EXPECT_THAT(container, Contains(Key(1))); - EXPECT_THAT(container, Not(Contains(Key(3)))); -} - -TEST(KeyTest, InsideContainsUsingMultimap) { - multimap<int, char> container; - container.insert(make_pair(1, 'a')); - container.insert(make_pair(2, 'b')); - container.insert(make_pair(4, 'c')); - - EXPECT_THAT(container, Not(Contains(Key(25)))); - container.insert(make_pair(25, 'd')); - EXPECT_THAT(container, Contains(Key(25))); - container.insert(make_pair(25, 'e')); - EXPECT_THAT(container, Contains(Key(25))); - - EXPECT_THAT(container, Contains(Key(1))); - EXPECT_THAT(container, Not(Contains(Key(3)))); -} - -TEST(PairTest, Typing) { - // Test verifies the following type conversions can be compiled. - Matcher<const pair<const char*, int>&> m1 = Pair("foo", 42); - Matcher<const pair<const char*, int> > m2 = Pair("foo", 42); - Matcher<pair<const char*, int> > m3 = Pair("foo", 42); - - Matcher<pair<int, const std::string> > m4 = Pair(25, "42"); - Matcher<pair<const std::string, int> > m5 = Pair("25", 42); -} - -TEST(PairTest, CanDescribeSelf) { - Matcher<const pair<std::string, int>&> m1 = Pair("foo", 42); - EXPECT_EQ("has a first field that is equal to \"foo\"" - ", and has a second field that is equal to 42", - Describe(m1)); - EXPECT_EQ("has a first field that isn't equal to \"foo\"" - ", or has a second field that isn't equal to 42", - DescribeNegation(m1)); - // Double and triple negation (1 or 2 times not and description of negation). - Matcher<const pair<int, int>&> m2 = Not(Pair(Not(13), 42)); - EXPECT_EQ("has a first field that isn't equal to 13" - ", and has a second field that is equal to 42", - DescribeNegation(m2)); -} - -TEST(PairTest, CanExplainMatchResultTo) { - // If neither field matches, Pair() should explain about the first - // field. - const Matcher<pair<int, int> > m = Pair(GreaterThan(0), GreaterThan(0)); - EXPECT_EQ("whose first field does not match, which is 1 less than 0", - Explain(m, make_pair(-1, -2))); - - // If the first field matches but the second doesn't, Pair() should - // explain about the second field. - EXPECT_EQ("whose second field does not match, which is 2 less than 0", - Explain(m, make_pair(1, -2))); - - // If the first field doesn't match but the second does, Pair() - // should explain about the first field. - EXPECT_EQ("whose first field does not match, which is 1 less than 0", - Explain(m, make_pair(-1, 2))); - - // If both fields match, Pair() should explain about them both. - EXPECT_EQ("whose both fields match, where the first field is a value " - "which is 1 more than 0, and the second field is a value " - "which is 2 more than 0", - Explain(m, make_pair(1, 2))); - - // If only the first match has an explanation, only this explanation should - // be printed. - const Matcher<pair<int, int> > explain_first = Pair(GreaterThan(0), 0); - EXPECT_EQ("whose both fields match, where the first field is a value " - "which is 1 more than 0", - Explain(explain_first, make_pair(1, 0))); - - // If only the second match has an explanation, only this explanation should - // be printed. - const Matcher<pair<int, int> > explain_second = Pair(0, GreaterThan(0)); - EXPECT_EQ("whose both fields match, where the second field is a value " - "which is 1 more than 0", - Explain(explain_second, make_pair(0, 1))); -} - -TEST(PairTest, MatchesCorrectly) { - pair<int, std::string> p(25, "foo"); - - // Both fields match. - EXPECT_THAT(p, Pair(25, "foo")); - EXPECT_THAT(p, Pair(Ge(20), HasSubstr("o"))); - - // 'first' doesnt' match, but 'second' matches. - EXPECT_THAT(p, Not(Pair(42, "foo"))); - EXPECT_THAT(p, Not(Pair(Lt(25), "foo"))); - - // 'first' matches, but 'second' doesn't match. - EXPECT_THAT(p, Not(Pair(25, "bar"))); - EXPECT_THAT(p, Not(Pair(25, Not("foo")))); - - // Neither field matches. - EXPECT_THAT(p, Not(Pair(13, "bar"))); - EXPECT_THAT(p, Not(Pair(Lt(13), HasSubstr("a")))); -} - -TEST(PairTest, SafelyCastsInnerMatchers) { - Matcher<int> is_positive = Gt(0); - Matcher<int> is_negative = Lt(0); - pair<char, bool> p('a', true); - EXPECT_THAT(p, Pair(is_positive, _)); - EXPECT_THAT(p, Not(Pair(is_negative, _))); - EXPECT_THAT(p, Pair(_, is_positive)); - EXPECT_THAT(p, Not(Pair(_, is_negative))); -} - -TEST(PairTest, InsideContainsUsingMap) { - map<int, char> container; - container.insert(make_pair(1, 'a')); - container.insert(make_pair(2, 'b')); - container.insert(make_pair(4, 'c')); - EXPECT_THAT(container, Contains(Pair(1, 'a'))); - EXPECT_THAT(container, Contains(Pair(1, _))); - EXPECT_THAT(container, Contains(Pair(_, 'a'))); - EXPECT_THAT(container, Not(Contains(Pair(3, _)))); -} - -#if GTEST_LANG_CXX11 -TEST(PairTest, UseGetInsteadOfMembers) { - PairWithGet pair{7, "ABC"}; - EXPECT_THAT(pair, Pair(7, "ABC")); - EXPECT_THAT(pair, Pair(Ge(7), HasSubstr("AB"))); - EXPECT_THAT(pair, Not(Pair(Lt(7), "ABC"))); - - std::vector<PairWithGet> v = {{11, "Foo"}, {29, "gMockIsBestMock"}}; - EXPECT_THAT(v, ElementsAre(Pair(11, string("Foo")), Pair(Ge(10), Not("")))); -} -#endif // GTEST_LANG_CXX11 - -// Tests StartsWith(s). - -TEST(StartsWithTest, MatchesStringWithGivenPrefix) { - const Matcher<const char*> m1 = StartsWith(std::string("")); - EXPECT_TRUE(m1.Matches("Hi")); - EXPECT_TRUE(m1.Matches("")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const std::string&> m2 = StartsWith("Hi"); - EXPECT_TRUE(m2.Matches("Hi")); - EXPECT_TRUE(m2.Matches("Hi Hi!")); - EXPECT_TRUE(m2.Matches("High")); - EXPECT_FALSE(m2.Matches("H")); - EXPECT_FALSE(m2.Matches(" Hi")); -} - -TEST(StartsWithTest, CanDescribeSelf) { - Matcher<const std::string> m = StartsWith("Hi"); - EXPECT_EQ("starts with \"Hi\"", Describe(m)); -} - -// Tests EndsWith(s). - -TEST(EndsWithTest, MatchesStringWithGivenSuffix) { - const Matcher<const char*> m1 = EndsWith(""); - EXPECT_TRUE(m1.Matches("Hi")); - EXPECT_TRUE(m1.Matches("")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const std::string&> m2 = EndsWith(std::string("Hi")); - EXPECT_TRUE(m2.Matches("Hi")); - EXPECT_TRUE(m2.Matches("Wow Hi Hi")); - EXPECT_TRUE(m2.Matches("Super Hi")); - EXPECT_FALSE(m2.Matches("i")); - EXPECT_FALSE(m2.Matches("Hi ")); - -#if GTEST_HAS_GLOBAL_STRING - const Matcher<const ::string&> m3 = EndsWith(::string("Hi")); - EXPECT_TRUE(m3.Matches("Hi")); - EXPECT_TRUE(m3.Matches("Wow Hi Hi")); - EXPECT_TRUE(m3.Matches("Super Hi")); - EXPECT_FALSE(m3.Matches("i")); - EXPECT_FALSE(m3.Matches("Hi ")); -#endif // GTEST_HAS_GLOBAL_STRING - -#if GTEST_HAS_ABSL - const Matcher<const absl::string_view&> m4 = EndsWith(""); - EXPECT_TRUE(m4.Matches("Hi")); - EXPECT_TRUE(m4.Matches("")); - // Default-constructed absl::string_view should not match anything, in order - // to distinguish it from an empty string. - EXPECT_FALSE(m4.Matches(absl::string_view())); -#endif // GTEST_HAS_ABSL -} - -TEST(EndsWithTest, CanDescribeSelf) { - Matcher<const std::string> m = EndsWith("Hi"); - EXPECT_EQ("ends with \"Hi\"", Describe(m)); -} - -// Tests MatchesRegex(). - -TEST(MatchesRegexTest, MatchesStringMatchingGivenRegex) { - const Matcher<const char*> m1 = MatchesRegex("a.*z"); - EXPECT_TRUE(m1.Matches("az")); - EXPECT_TRUE(m1.Matches("abcz")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const std::string&> m2 = MatchesRegex(new RE("a.*z")); - EXPECT_TRUE(m2.Matches("azbz")); - EXPECT_FALSE(m2.Matches("az1")); - EXPECT_FALSE(m2.Matches("1az")); - -#if GTEST_HAS_ABSL - const Matcher<const absl::string_view&> m3 = MatchesRegex("a.*z"); - EXPECT_TRUE(m3.Matches(absl::string_view("az"))); - EXPECT_TRUE(m3.Matches(absl::string_view("abcz"))); - EXPECT_FALSE(m3.Matches(absl::string_view("1az"))); - // Default-constructed absl::string_view should not match anything, in order - // to distinguish it from an empty string. - EXPECT_FALSE(m3.Matches(absl::string_view())); - const Matcher<const absl::string_view&> m4 = MatchesRegex(""); - EXPECT_FALSE(m4.Matches(absl::string_view())); -#endif // GTEST_HAS_ABSL -} - -TEST(MatchesRegexTest, CanDescribeSelf) { - Matcher<const std::string> m1 = MatchesRegex(std::string("Hi.*")); - EXPECT_EQ("matches regular expression \"Hi.*\"", Describe(m1)); - - Matcher<const char*> m2 = MatchesRegex(new RE("a.*")); - EXPECT_EQ("matches regular expression \"a.*\"", Describe(m2)); - -#if GTEST_HAS_ABSL - Matcher<const absl::string_view> m3 = MatchesRegex(new RE("0.*")); - EXPECT_EQ("matches regular expression \"0.*\"", Describe(m3)); -#endif // GTEST_HAS_ABSL -} - -// Tests ContainsRegex(). - -TEST(ContainsRegexTest, MatchesStringContainingGivenRegex) { - const Matcher<const char*> m1 = ContainsRegex(std::string("a.*z")); - EXPECT_TRUE(m1.Matches("az")); - EXPECT_TRUE(m1.Matches("0abcz1")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const std::string&> m2 = ContainsRegex(new RE("a.*z")); - EXPECT_TRUE(m2.Matches("azbz")); - EXPECT_TRUE(m2.Matches("az1")); - EXPECT_FALSE(m2.Matches("1a")); - -#if GTEST_HAS_ABSL - const Matcher<const absl::string_view&> m3 = ContainsRegex(new RE("a.*z")); - EXPECT_TRUE(m3.Matches(absl::string_view("azbz"))); - EXPECT_TRUE(m3.Matches(absl::string_view("az1"))); - EXPECT_FALSE(m3.Matches(absl::string_view("1a"))); - // Default-constructed absl::string_view should not match anything, in order - // to distinguish it from an empty string. - EXPECT_FALSE(m3.Matches(absl::string_view())); - const Matcher<const absl::string_view&> m4 = ContainsRegex(""); - EXPECT_FALSE(m4.Matches(absl::string_view())); -#endif // GTEST_HAS_ABSL -} - -TEST(ContainsRegexTest, CanDescribeSelf) { - Matcher<const std::string> m1 = ContainsRegex("Hi.*"); - EXPECT_EQ("contains regular expression \"Hi.*\"", Describe(m1)); - - Matcher<const char*> m2 = ContainsRegex(new RE("a.*")); - EXPECT_EQ("contains regular expression \"a.*\"", Describe(m2)); - -#if GTEST_HAS_ABSL - Matcher<const absl::string_view> m3 = ContainsRegex(new RE("0.*")); - EXPECT_EQ("contains regular expression \"0.*\"", Describe(m3)); -#endif // GTEST_HAS_ABSL -} - -// Tests for wide strings. -#if GTEST_HAS_STD_WSTRING -TEST(StdWideStrEqTest, MatchesEqual) { - Matcher<const wchar_t*> m = StrEq(::std::wstring(L"Hello")); - EXPECT_TRUE(m.Matches(L"Hello")); - EXPECT_FALSE(m.Matches(L"hello")); - EXPECT_FALSE(m.Matches(NULL)); - - Matcher<const ::std::wstring&> m2 = StrEq(L"Hello"); - EXPECT_TRUE(m2.Matches(L"Hello")); - EXPECT_FALSE(m2.Matches(L"Hi")); - - Matcher<const ::std::wstring&> m3 = StrEq(L"\xD3\x576\x8D3\xC74D"); - EXPECT_TRUE(m3.Matches(L"\xD3\x576\x8D3\xC74D")); - EXPECT_FALSE(m3.Matches(L"\xD3\x576\x8D3\xC74E")); - - ::std::wstring str(L"01204500800"); - str[3] = L'\0'; - Matcher<const ::std::wstring&> m4 = StrEq(str); - EXPECT_TRUE(m4.Matches(str)); - str[0] = str[6] = str[7] = str[9] = str[10] = L'\0'; - Matcher<const ::std::wstring&> m5 = StrEq(str); - EXPECT_TRUE(m5.Matches(str)); -} - -TEST(StdWideStrEqTest, CanDescribeSelf) { - Matcher< ::std::wstring> m = StrEq(L"Hi-\'\"?\\\a\b\f\n\r\t\v"); - EXPECT_EQ("is equal to L\"Hi-\'\\\"?\\\\\\a\\b\\f\\n\\r\\t\\v\"", - Describe(m)); - - Matcher< ::std::wstring> m2 = StrEq(L"\xD3\x576\x8D3\xC74D"); - EXPECT_EQ("is equal to L\"\\xD3\\x576\\x8D3\\xC74D\"", - Describe(m2)); - - ::std::wstring str(L"01204500800"); - str[3] = L'\0'; - Matcher<const ::std::wstring&> m4 = StrEq(str); - EXPECT_EQ("is equal to L\"012\\04500800\"", Describe(m4)); - str[0] = str[6] = str[7] = str[9] = str[10] = L'\0'; - Matcher<const ::std::wstring&> m5 = StrEq(str); - EXPECT_EQ("is equal to L\"\\012\\045\\0\\08\\0\\0\"", Describe(m5)); -} - -TEST(StdWideStrNeTest, MatchesUnequalString) { - Matcher<const wchar_t*> m = StrNe(L"Hello"); - EXPECT_TRUE(m.Matches(L"")); - EXPECT_TRUE(m.Matches(NULL)); - EXPECT_FALSE(m.Matches(L"Hello")); - - Matcher< ::std::wstring> m2 = StrNe(::std::wstring(L"Hello")); - EXPECT_TRUE(m2.Matches(L"hello")); - EXPECT_FALSE(m2.Matches(L"Hello")); -} - -TEST(StdWideStrNeTest, CanDescribeSelf) { - Matcher<const wchar_t*> m = StrNe(L"Hi"); - EXPECT_EQ("isn't equal to L\"Hi\"", Describe(m)); -} - -TEST(StdWideStrCaseEqTest, MatchesEqualStringIgnoringCase) { - Matcher<const wchar_t*> m = StrCaseEq(::std::wstring(L"Hello")); - EXPECT_TRUE(m.Matches(L"Hello")); - EXPECT_TRUE(m.Matches(L"hello")); - EXPECT_FALSE(m.Matches(L"Hi")); - EXPECT_FALSE(m.Matches(NULL)); - - Matcher<const ::std::wstring&> m2 = StrCaseEq(L"Hello"); - EXPECT_TRUE(m2.Matches(L"hello")); - EXPECT_FALSE(m2.Matches(L"Hi")); -} - -TEST(StdWideStrCaseEqTest, MatchesEqualStringWith0IgnoringCase) { - ::std::wstring str1(L"oabocdooeoo"); - ::std::wstring str2(L"OABOCDOOEOO"); - Matcher<const ::std::wstring&> m0 = StrCaseEq(str1); - EXPECT_FALSE(m0.Matches(str2 + ::std::wstring(1, L'\0'))); - - str1[3] = str2[3] = L'\0'; - Matcher<const ::std::wstring&> m1 = StrCaseEq(str1); - EXPECT_TRUE(m1.Matches(str2)); - - str1[0] = str1[6] = str1[7] = str1[10] = L'\0'; - str2[0] = str2[6] = str2[7] = str2[10] = L'\0'; - Matcher<const ::std::wstring&> m2 = StrCaseEq(str1); - str1[9] = str2[9] = L'\0'; - EXPECT_FALSE(m2.Matches(str2)); - - Matcher<const ::std::wstring&> m3 = StrCaseEq(str1); - EXPECT_TRUE(m3.Matches(str2)); - - EXPECT_FALSE(m3.Matches(str2 + L"x")); - str2.append(1, L'\0'); - EXPECT_FALSE(m3.Matches(str2)); - EXPECT_FALSE(m3.Matches(::std::wstring(str2, 0, 9))); -} - -TEST(StdWideStrCaseEqTest, CanDescribeSelf) { - Matcher< ::std::wstring> m = StrCaseEq(L"Hi"); - EXPECT_EQ("is equal to (ignoring case) L\"Hi\"", Describe(m)); -} - -TEST(StdWideStrCaseNeTest, MatchesUnequalStringIgnoringCase) { - Matcher<const wchar_t*> m = StrCaseNe(L"Hello"); - EXPECT_TRUE(m.Matches(L"Hi")); - EXPECT_TRUE(m.Matches(NULL)); - EXPECT_FALSE(m.Matches(L"Hello")); - EXPECT_FALSE(m.Matches(L"hello")); - - Matcher< ::std::wstring> m2 = StrCaseNe(::std::wstring(L"Hello")); - EXPECT_TRUE(m2.Matches(L"")); - EXPECT_FALSE(m2.Matches(L"Hello")); -} - -TEST(StdWideStrCaseNeTest, CanDescribeSelf) { - Matcher<const wchar_t*> m = StrCaseNe(L"Hi"); - EXPECT_EQ("isn't equal to (ignoring case) L\"Hi\"", Describe(m)); -} - -// Tests that HasSubstr() works for matching wstring-typed values. -TEST(StdWideHasSubstrTest, WorksForStringClasses) { - const Matcher< ::std::wstring> m1 = HasSubstr(L"foo"); - EXPECT_TRUE(m1.Matches(::std::wstring(L"I love food."))); - EXPECT_FALSE(m1.Matches(::std::wstring(L"tofo"))); - - const Matcher<const ::std::wstring&> m2 = HasSubstr(L"foo"); - EXPECT_TRUE(m2.Matches(::std::wstring(L"I love food."))); - EXPECT_FALSE(m2.Matches(::std::wstring(L"tofo"))); -} - -// Tests that HasSubstr() works for matching C-wide-string-typed values. -TEST(StdWideHasSubstrTest, WorksForCStrings) { - const Matcher<wchar_t*> m1 = HasSubstr(L"foo"); - EXPECT_TRUE(m1.Matches(const_cast<wchar_t*>(L"I love food."))); - EXPECT_FALSE(m1.Matches(const_cast<wchar_t*>(L"tofo"))); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const wchar_t*> m2 = HasSubstr(L"foo"); - EXPECT_TRUE(m2.Matches(L"I love food.")); - EXPECT_FALSE(m2.Matches(L"tofo")); - EXPECT_FALSE(m2.Matches(NULL)); -} - -// Tests that HasSubstr(s) describes itself properly. -TEST(StdWideHasSubstrTest, CanDescribeSelf) { - Matcher< ::std::wstring> m = HasSubstr(L"foo\n\""); - EXPECT_EQ("has substring L\"foo\\n\\\"\"", Describe(m)); -} - -// Tests StartsWith(s). - -TEST(StdWideStartsWithTest, MatchesStringWithGivenPrefix) { - const Matcher<const wchar_t*> m1 = StartsWith(::std::wstring(L"")); - EXPECT_TRUE(m1.Matches(L"Hi")); - EXPECT_TRUE(m1.Matches(L"")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const ::std::wstring&> m2 = StartsWith(L"Hi"); - EXPECT_TRUE(m2.Matches(L"Hi")); - EXPECT_TRUE(m2.Matches(L"Hi Hi!")); - EXPECT_TRUE(m2.Matches(L"High")); - EXPECT_FALSE(m2.Matches(L"H")); - EXPECT_FALSE(m2.Matches(L" Hi")); -} - -TEST(StdWideStartsWithTest, CanDescribeSelf) { - Matcher<const ::std::wstring> m = StartsWith(L"Hi"); - EXPECT_EQ("starts with L\"Hi\"", Describe(m)); -} - -// Tests EndsWith(s). - -TEST(StdWideEndsWithTest, MatchesStringWithGivenSuffix) { - const Matcher<const wchar_t*> m1 = EndsWith(L""); - EXPECT_TRUE(m1.Matches(L"Hi")); - EXPECT_TRUE(m1.Matches(L"")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const ::std::wstring&> m2 = EndsWith(::std::wstring(L"Hi")); - EXPECT_TRUE(m2.Matches(L"Hi")); - EXPECT_TRUE(m2.Matches(L"Wow Hi Hi")); - EXPECT_TRUE(m2.Matches(L"Super Hi")); - EXPECT_FALSE(m2.Matches(L"i")); - EXPECT_FALSE(m2.Matches(L"Hi ")); -} - -TEST(StdWideEndsWithTest, CanDescribeSelf) { - Matcher<const ::std::wstring> m = EndsWith(L"Hi"); - EXPECT_EQ("ends with L\"Hi\"", Describe(m)); -} - -#endif // GTEST_HAS_STD_WSTRING - -#if GTEST_HAS_GLOBAL_WSTRING -TEST(GlobalWideStrEqTest, MatchesEqual) { - Matcher<const wchar_t*> m = StrEq(::wstring(L"Hello")); - EXPECT_TRUE(m.Matches(L"Hello")); - EXPECT_FALSE(m.Matches(L"hello")); - EXPECT_FALSE(m.Matches(NULL)); - - Matcher<const ::wstring&> m2 = StrEq(L"Hello"); - EXPECT_TRUE(m2.Matches(L"Hello")); - EXPECT_FALSE(m2.Matches(L"Hi")); - - Matcher<const ::wstring&> m3 = StrEq(L"\xD3\x576\x8D3\xC74D"); - EXPECT_TRUE(m3.Matches(L"\xD3\x576\x8D3\xC74D")); - EXPECT_FALSE(m3.Matches(L"\xD3\x576\x8D3\xC74E")); - - ::wstring str(L"01204500800"); - str[3] = L'\0'; - Matcher<const ::wstring&> m4 = StrEq(str); - EXPECT_TRUE(m4.Matches(str)); - str[0] = str[6] = str[7] = str[9] = str[10] = L'\0'; - Matcher<const ::wstring&> m5 = StrEq(str); - EXPECT_TRUE(m5.Matches(str)); -} - -TEST(GlobalWideStrEqTest, CanDescribeSelf) { - Matcher< ::wstring> m = StrEq(L"Hi-\'\"?\\\a\b\f\n\r\t\v"); - EXPECT_EQ("is equal to L\"Hi-\'\\\"?\\\\\\a\\b\\f\\n\\r\\t\\v\"", - Describe(m)); - - Matcher< ::wstring> m2 = StrEq(L"\xD3\x576\x8D3\xC74D"); - EXPECT_EQ("is equal to L\"\\xD3\\x576\\x8D3\\xC74D\"", - Describe(m2)); - - ::wstring str(L"01204500800"); - str[3] = L'\0'; - Matcher<const ::wstring&> m4 = StrEq(str); - EXPECT_EQ("is equal to L\"012\\04500800\"", Describe(m4)); - str[0] = str[6] = str[7] = str[9] = str[10] = L'\0'; - Matcher<const ::wstring&> m5 = StrEq(str); - EXPECT_EQ("is equal to L\"\\012\\045\\0\\08\\0\\0\"", Describe(m5)); -} - -TEST(GlobalWideStrNeTest, MatchesUnequalString) { - Matcher<const wchar_t*> m = StrNe(L"Hello"); - EXPECT_TRUE(m.Matches(L"")); - EXPECT_TRUE(m.Matches(NULL)); - EXPECT_FALSE(m.Matches(L"Hello")); - - Matcher< ::wstring> m2 = StrNe(::wstring(L"Hello")); - EXPECT_TRUE(m2.Matches(L"hello")); - EXPECT_FALSE(m2.Matches(L"Hello")); -} - -TEST(GlobalWideStrNeTest, CanDescribeSelf) { - Matcher<const wchar_t*> m = StrNe(L"Hi"); - EXPECT_EQ("isn't equal to L\"Hi\"", Describe(m)); -} - -TEST(GlobalWideStrCaseEqTest, MatchesEqualStringIgnoringCase) { - Matcher<const wchar_t*> m = StrCaseEq(::wstring(L"Hello")); - EXPECT_TRUE(m.Matches(L"Hello")); - EXPECT_TRUE(m.Matches(L"hello")); - EXPECT_FALSE(m.Matches(L"Hi")); - EXPECT_FALSE(m.Matches(NULL)); - - Matcher<const ::wstring&> m2 = StrCaseEq(L"Hello"); - EXPECT_TRUE(m2.Matches(L"hello")); - EXPECT_FALSE(m2.Matches(L"Hi")); -} - -TEST(GlobalWideStrCaseEqTest, MatchesEqualStringWith0IgnoringCase) { - ::wstring str1(L"oabocdooeoo"); - ::wstring str2(L"OABOCDOOEOO"); - Matcher<const ::wstring&> m0 = StrCaseEq(str1); - EXPECT_FALSE(m0.Matches(str2 + ::wstring(1, L'\0'))); - - str1[3] = str2[3] = L'\0'; - Matcher<const ::wstring&> m1 = StrCaseEq(str1); - EXPECT_TRUE(m1.Matches(str2)); - - str1[0] = str1[6] = str1[7] = str1[10] = L'\0'; - str2[0] = str2[6] = str2[7] = str2[10] = L'\0'; - Matcher<const ::wstring&> m2 = StrCaseEq(str1); - str1[9] = str2[9] = L'\0'; - EXPECT_FALSE(m2.Matches(str2)); - - Matcher<const ::wstring&> m3 = StrCaseEq(str1); - EXPECT_TRUE(m3.Matches(str2)); - - EXPECT_FALSE(m3.Matches(str2 + L"x")); - str2.append(1, L'\0'); - EXPECT_FALSE(m3.Matches(str2)); - EXPECT_FALSE(m3.Matches(::wstring(str2, 0, 9))); -} - -TEST(GlobalWideStrCaseEqTest, CanDescribeSelf) { - Matcher< ::wstring> m = StrCaseEq(L"Hi"); - EXPECT_EQ("is equal to (ignoring case) L\"Hi\"", Describe(m)); -} - -TEST(GlobalWideStrCaseNeTest, MatchesUnequalStringIgnoringCase) { - Matcher<const wchar_t*> m = StrCaseNe(L"Hello"); - EXPECT_TRUE(m.Matches(L"Hi")); - EXPECT_TRUE(m.Matches(NULL)); - EXPECT_FALSE(m.Matches(L"Hello")); - EXPECT_FALSE(m.Matches(L"hello")); - - Matcher< ::wstring> m2 = StrCaseNe(::wstring(L"Hello")); - EXPECT_TRUE(m2.Matches(L"")); - EXPECT_FALSE(m2.Matches(L"Hello")); -} - -TEST(GlobalWideStrCaseNeTest, CanDescribeSelf) { - Matcher<const wchar_t*> m = StrCaseNe(L"Hi"); - EXPECT_EQ("isn't equal to (ignoring case) L\"Hi\"", Describe(m)); -} - -// Tests that HasSubstr() works for matching wstring-typed values. -TEST(GlobalWideHasSubstrTest, WorksForStringClasses) { - const Matcher< ::wstring> m1 = HasSubstr(L"foo"); - EXPECT_TRUE(m1.Matches(::wstring(L"I love food."))); - EXPECT_FALSE(m1.Matches(::wstring(L"tofo"))); - - const Matcher<const ::wstring&> m2 = HasSubstr(L"foo"); - EXPECT_TRUE(m2.Matches(::wstring(L"I love food."))); - EXPECT_FALSE(m2.Matches(::wstring(L"tofo"))); -} - -// Tests that HasSubstr() works for matching C-wide-string-typed values. -TEST(GlobalWideHasSubstrTest, WorksForCStrings) { - const Matcher<wchar_t*> m1 = HasSubstr(L"foo"); - EXPECT_TRUE(m1.Matches(const_cast<wchar_t*>(L"I love food."))); - EXPECT_FALSE(m1.Matches(const_cast<wchar_t*>(L"tofo"))); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const wchar_t*> m2 = HasSubstr(L"foo"); - EXPECT_TRUE(m2.Matches(L"I love food.")); - EXPECT_FALSE(m2.Matches(L"tofo")); - EXPECT_FALSE(m2.Matches(NULL)); -} - -// Tests that HasSubstr(s) describes itself properly. -TEST(GlobalWideHasSubstrTest, CanDescribeSelf) { - Matcher< ::wstring> m = HasSubstr(L"foo\n\""); - EXPECT_EQ("has substring L\"foo\\n\\\"\"", Describe(m)); -} - -// Tests StartsWith(s). - -TEST(GlobalWideStartsWithTest, MatchesStringWithGivenPrefix) { - const Matcher<const wchar_t*> m1 = StartsWith(::wstring(L"")); - EXPECT_TRUE(m1.Matches(L"Hi")); - EXPECT_TRUE(m1.Matches(L"")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const ::wstring&> m2 = StartsWith(L"Hi"); - EXPECT_TRUE(m2.Matches(L"Hi")); - EXPECT_TRUE(m2.Matches(L"Hi Hi!")); - EXPECT_TRUE(m2.Matches(L"High")); - EXPECT_FALSE(m2.Matches(L"H")); - EXPECT_FALSE(m2.Matches(L" Hi")); -} - -TEST(GlobalWideStartsWithTest, CanDescribeSelf) { - Matcher<const ::wstring> m = StartsWith(L"Hi"); - EXPECT_EQ("starts with L\"Hi\"", Describe(m)); -} - -// Tests EndsWith(s). - -TEST(GlobalWideEndsWithTest, MatchesStringWithGivenSuffix) { - const Matcher<const wchar_t*> m1 = EndsWith(L""); - EXPECT_TRUE(m1.Matches(L"Hi")); - EXPECT_TRUE(m1.Matches(L"")); - EXPECT_FALSE(m1.Matches(NULL)); - - const Matcher<const ::wstring&> m2 = EndsWith(::wstring(L"Hi")); - EXPECT_TRUE(m2.Matches(L"Hi")); - EXPECT_TRUE(m2.Matches(L"Wow Hi Hi")); - EXPECT_TRUE(m2.Matches(L"Super Hi")); - EXPECT_FALSE(m2.Matches(L"i")); - EXPECT_FALSE(m2.Matches(L"Hi ")); -} - -TEST(GlobalWideEndsWithTest, CanDescribeSelf) { - Matcher<const ::wstring> m = EndsWith(L"Hi"); - EXPECT_EQ("ends with L\"Hi\"", Describe(m)); -} - -#endif // GTEST_HAS_GLOBAL_WSTRING - - -typedef ::testing::tuple<long, int> Tuple2; // NOLINT - -// Tests that Eq() matches a 2-tuple where the first field == the -// second field. -TEST(Eq2Test, MatchesEqualArguments) { - Matcher<const Tuple2&> m = Eq(); - EXPECT_TRUE(m.Matches(Tuple2(5L, 5))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 6))); -} - -// Tests that Eq() describes itself properly. -TEST(Eq2Test, CanDescribeSelf) { - Matcher<const Tuple2&> m = Eq(); - EXPECT_EQ("are an equal pair", Describe(m)); -} - -// Tests that Ge() matches a 2-tuple where the first field >= the -// second field. -TEST(Ge2Test, MatchesGreaterThanOrEqualArguments) { - Matcher<const Tuple2&> m = Ge(); - EXPECT_TRUE(m.Matches(Tuple2(5L, 4))); - EXPECT_TRUE(m.Matches(Tuple2(5L, 5))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 6))); -} - -// Tests that Ge() describes itself properly. -TEST(Ge2Test, CanDescribeSelf) { - Matcher<const Tuple2&> m = Ge(); - EXPECT_EQ("are a pair where the first >= the second", Describe(m)); -} - -// Tests that Gt() matches a 2-tuple where the first field > the -// second field. -TEST(Gt2Test, MatchesGreaterThanArguments) { - Matcher<const Tuple2&> m = Gt(); - EXPECT_TRUE(m.Matches(Tuple2(5L, 4))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 5))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 6))); -} - -// Tests that Gt() describes itself properly. -TEST(Gt2Test, CanDescribeSelf) { - Matcher<const Tuple2&> m = Gt(); - EXPECT_EQ("are a pair where the first > the second", Describe(m)); -} - -// Tests that Le() matches a 2-tuple where the first field <= the -// second field. -TEST(Le2Test, MatchesLessThanOrEqualArguments) { - Matcher<const Tuple2&> m = Le(); - EXPECT_TRUE(m.Matches(Tuple2(5L, 6))); - EXPECT_TRUE(m.Matches(Tuple2(5L, 5))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 4))); -} - -// Tests that Le() describes itself properly. -TEST(Le2Test, CanDescribeSelf) { - Matcher<const Tuple2&> m = Le(); - EXPECT_EQ("are a pair where the first <= the second", Describe(m)); -} - -// Tests that Lt() matches a 2-tuple where the first field < the -// second field. -TEST(Lt2Test, MatchesLessThanArguments) { - Matcher<const Tuple2&> m = Lt(); - EXPECT_TRUE(m.Matches(Tuple2(5L, 6))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 5))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 4))); -} - -// Tests that Lt() describes itself properly. -TEST(Lt2Test, CanDescribeSelf) { - Matcher<const Tuple2&> m = Lt(); - EXPECT_EQ("are a pair where the first < the second", Describe(m)); -} - -// Tests that Ne() matches a 2-tuple where the first field != the -// second field. -TEST(Ne2Test, MatchesUnequalArguments) { - Matcher<const Tuple2&> m = Ne(); - EXPECT_TRUE(m.Matches(Tuple2(5L, 6))); - EXPECT_TRUE(m.Matches(Tuple2(5L, 4))); - EXPECT_FALSE(m.Matches(Tuple2(5L, 5))); -} - -// Tests that Ne() describes itself properly. -TEST(Ne2Test, CanDescribeSelf) { - Matcher<const Tuple2&> m = Ne(); - EXPECT_EQ("are an unequal pair", Describe(m)); -} - -// Tests that FloatEq() matches a 2-tuple where -// FloatEq(first field) matches the second field. -TEST(FloatEq2Test, MatchesEqualArguments) { - typedef ::testing::tuple<float, float> Tpl; - Matcher<const Tpl&> m = FloatEq(); - EXPECT_TRUE(m.Matches(Tpl(1.0f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(0.3f, 0.1f + 0.1f + 0.1f))); - EXPECT_FALSE(m.Matches(Tpl(1.1f, 1.0f))); -} - -// Tests that FloatEq() describes itself properly. -TEST(FloatEq2Test, CanDescribeSelf) { - Matcher<const ::testing::tuple<float, float>&> m = FloatEq(); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that NanSensitiveFloatEq() matches a 2-tuple where -// NanSensitiveFloatEq(first field) matches the second field. -TEST(NanSensitiveFloatEqTest, MatchesEqualArgumentsWithNaN) { - typedef ::testing::tuple<float, float> Tpl; - Matcher<const Tpl&> m = NanSensitiveFloatEq(); - EXPECT_TRUE(m.Matches(Tpl(1.0f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(std::numeric_limits<float>::quiet_NaN(), - std::numeric_limits<float>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(1.1f, 1.0f))); - EXPECT_FALSE(m.Matches(Tpl(1.0f, std::numeric_limits<float>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(std::numeric_limits<float>::quiet_NaN(), 1.0f))); -} - -// Tests that NanSensitiveFloatEq() describes itself properly. -TEST(NanSensitiveFloatEqTest, CanDescribeSelfWithNaNs) { - Matcher<const ::testing::tuple<float, float>&> m = NanSensitiveFloatEq(); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that DoubleEq() matches a 2-tuple where -// DoubleEq(first field) matches the second field. -TEST(DoubleEq2Test, MatchesEqualArguments) { - typedef ::testing::tuple<double, double> Tpl; - Matcher<const Tpl&> m = DoubleEq(); - EXPECT_TRUE(m.Matches(Tpl(1.0, 1.0))); - EXPECT_TRUE(m.Matches(Tpl(0.3, 0.1 + 0.1 + 0.1))); - EXPECT_FALSE(m.Matches(Tpl(1.1, 1.0))); -} - -// Tests that DoubleEq() describes itself properly. -TEST(DoubleEq2Test, CanDescribeSelf) { - Matcher<const ::testing::tuple<double, double>&> m = DoubleEq(); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that NanSensitiveDoubleEq() matches a 2-tuple where -// NanSensitiveDoubleEq(first field) matches the second field. -TEST(NanSensitiveDoubleEqTest, MatchesEqualArgumentsWithNaN) { - typedef ::testing::tuple<double, double> Tpl; - Matcher<const Tpl&> m = NanSensitiveDoubleEq(); - EXPECT_TRUE(m.Matches(Tpl(1.0f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(std::numeric_limits<double>::quiet_NaN(), - std::numeric_limits<double>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(1.1f, 1.0f))); - EXPECT_FALSE(m.Matches(Tpl(1.0f, std::numeric_limits<double>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(std::numeric_limits<double>::quiet_NaN(), 1.0f))); -} - -// Tests that DoubleEq() describes itself properly. -TEST(NanSensitiveDoubleEqTest, CanDescribeSelfWithNaNs) { - Matcher<const ::testing::tuple<double, double>&> m = NanSensitiveDoubleEq(); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that FloatEq() matches a 2-tuple where -// FloatNear(first field, max_abs_error) matches the second field. -TEST(FloatNear2Test, MatchesEqualArguments) { - typedef ::testing::tuple<float, float> Tpl; - Matcher<const Tpl&> m = FloatNear(0.5f); - EXPECT_TRUE(m.Matches(Tpl(1.0f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(1.3f, 1.0f))); - EXPECT_FALSE(m.Matches(Tpl(1.8f, 1.0f))); -} - -// Tests that FloatNear() describes itself properly. -TEST(FloatNear2Test, CanDescribeSelf) { - Matcher<const ::testing::tuple<float, float>&> m = FloatNear(0.5f); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that NanSensitiveFloatNear() matches a 2-tuple where -// NanSensitiveFloatNear(first field) matches the second field. -TEST(NanSensitiveFloatNearTest, MatchesNearbyArgumentsWithNaN) { - typedef ::testing::tuple<float, float> Tpl; - Matcher<const Tpl&> m = NanSensitiveFloatNear(0.5f); - EXPECT_TRUE(m.Matches(Tpl(1.0f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(1.1f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(std::numeric_limits<float>::quiet_NaN(), - std::numeric_limits<float>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(1.6f, 1.0f))); - EXPECT_FALSE(m.Matches(Tpl(1.0f, std::numeric_limits<float>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(std::numeric_limits<float>::quiet_NaN(), 1.0f))); -} - -// Tests that NanSensitiveFloatNear() describes itself properly. -TEST(NanSensitiveFloatNearTest, CanDescribeSelfWithNaNs) { - Matcher<const ::testing::tuple<float, float>&> m = - NanSensitiveFloatNear(0.5f); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that FloatEq() matches a 2-tuple where -// DoubleNear(first field, max_abs_error) matches the second field. -TEST(DoubleNear2Test, MatchesEqualArguments) { - typedef ::testing::tuple<double, double> Tpl; - Matcher<const Tpl&> m = DoubleNear(0.5); - EXPECT_TRUE(m.Matches(Tpl(1.0, 1.0))); - EXPECT_TRUE(m.Matches(Tpl(1.3, 1.0))); - EXPECT_FALSE(m.Matches(Tpl(1.8, 1.0))); -} - -// Tests that DoubleNear() describes itself properly. -TEST(DoubleNear2Test, CanDescribeSelf) { - Matcher<const ::testing::tuple<double, double>&> m = DoubleNear(0.5); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that NanSensitiveDoubleNear() matches a 2-tuple where -// NanSensitiveDoubleNear(first field) matches the second field. -TEST(NanSensitiveDoubleNearTest, MatchesNearbyArgumentsWithNaN) { - typedef ::testing::tuple<double, double> Tpl; - Matcher<const Tpl&> m = NanSensitiveDoubleNear(0.5f); - EXPECT_TRUE(m.Matches(Tpl(1.0f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(1.1f, 1.0f))); - EXPECT_TRUE(m.Matches(Tpl(std::numeric_limits<double>::quiet_NaN(), - std::numeric_limits<double>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(1.6f, 1.0f))); - EXPECT_FALSE(m.Matches(Tpl(1.0f, std::numeric_limits<double>::quiet_NaN()))); - EXPECT_FALSE(m.Matches(Tpl(std::numeric_limits<double>::quiet_NaN(), 1.0f))); -} - -// Tests that NanSensitiveDoubleNear() describes itself properly. -TEST(NanSensitiveDoubleNearTest, CanDescribeSelfWithNaNs) { - Matcher<const ::testing::tuple<double, double>&> m = - NanSensitiveDoubleNear(0.5f); - EXPECT_EQ("are an almost-equal pair", Describe(m)); -} - -// Tests that Not(m) matches any value that doesn't match m. -TEST(NotTest, NegatesMatcher) { - Matcher<int> m; - m = Not(Eq(2)); - EXPECT_TRUE(m.Matches(3)); - EXPECT_FALSE(m.Matches(2)); -} - -// Tests that Not(m) describes itself properly. -TEST(NotTest, CanDescribeSelf) { - Matcher<int> m = Not(Eq(5)); - EXPECT_EQ("isn't equal to 5", Describe(m)); -} - -// Tests that monomorphic matchers are safely cast by the Not matcher. -TEST(NotTest, NotMatcherSafelyCastsMonomorphicMatchers) { - // greater_than_5 is a monomorphic matcher. - Matcher<int> greater_than_5 = Gt(5); - - Matcher<const int&> m = Not(greater_than_5); - Matcher<int&> m2 = Not(greater_than_5); - Matcher<int&> m3 = Not(m); -} - -// Helper to allow easy testing of AllOf matchers with num parameters. -void AllOfMatches(int num, const Matcher<int>& m) { - SCOPED_TRACE(Describe(m)); - EXPECT_TRUE(m.Matches(0)); - for (int i = 1; i <= num; ++i) { - EXPECT_FALSE(m.Matches(i)); - } - EXPECT_TRUE(m.Matches(num + 1)); -} - -// Tests that AllOf(m1, ..., mn) matches any value that matches all of -// the given matchers. -TEST(AllOfTest, MatchesWhenAllMatch) { - Matcher<int> m; - m = AllOf(Le(2), Ge(1)); - EXPECT_TRUE(m.Matches(1)); - EXPECT_TRUE(m.Matches(2)); - EXPECT_FALSE(m.Matches(0)); - EXPECT_FALSE(m.Matches(3)); - - m = AllOf(Gt(0), Ne(1), Ne(2)); - EXPECT_TRUE(m.Matches(3)); - EXPECT_FALSE(m.Matches(2)); - EXPECT_FALSE(m.Matches(1)); - EXPECT_FALSE(m.Matches(0)); - - m = AllOf(Gt(0), Ne(1), Ne(2), Ne(3)); - EXPECT_TRUE(m.Matches(4)); - EXPECT_FALSE(m.Matches(3)); - EXPECT_FALSE(m.Matches(2)); - EXPECT_FALSE(m.Matches(1)); - EXPECT_FALSE(m.Matches(0)); - - m = AllOf(Ge(0), Lt(10), Ne(3), Ne(5), Ne(7)); - EXPECT_TRUE(m.Matches(0)); - EXPECT_TRUE(m.Matches(1)); - EXPECT_FALSE(m.Matches(3)); - - // The following tests for varying number of sub-matchers. Due to the way - // the sub-matchers are handled it is enough to test every sub-matcher once - // with sub-matchers using the same matcher type. Varying matcher types are - // checked for above. - AllOfMatches(2, AllOf(Ne(1), Ne(2))); - AllOfMatches(3, AllOf(Ne(1), Ne(2), Ne(3))); - AllOfMatches(4, AllOf(Ne(1), Ne(2), Ne(3), Ne(4))); - AllOfMatches(5, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5))); - AllOfMatches(6, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6))); - AllOfMatches(7, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6), Ne(7))); - AllOfMatches(8, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6), Ne(7), - Ne(8))); - AllOfMatches(9, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6), Ne(7), - Ne(8), Ne(9))); - AllOfMatches(10, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6), Ne(7), Ne(8), - Ne(9), Ne(10))); -} - -#if GTEST_LANG_CXX11 -// Tests the variadic version of the AllOfMatcher. -TEST(AllOfTest, VariadicMatchesWhenAllMatch) { - // Make sure AllOf is defined in the right namespace and does not depend on - // ADL. - ::testing::AllOf(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11); - Matcher<int> m = AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6), Ne(7), Ne(8), - Ne(9), Ne(10), Ne(11)); - EXPECT_THAT(Describe(m), EndsWith("and (isn't equal to 11)")); - AllOfMatches(11, m); - AllOfMatches(50, AllOf(Ne(1), Ne(2), Ne(3), Ne(4), Ne(5), Ne(6), Ne(7), Ne(8), - Ne(9), Ne(10), Ne(11), Ne(12), Ne(13), Ne(14), Ne(15), - Ne(16), Ne(17), Ne(18), Ne(19), Ne(20), Ne(21), Ne(22), - Ne(23), Ne(24), Ne(25), Ne(26), Ne(27), Ne(28), Ne(29), - Ne(30), Ne(31), Ne(32), Ne(33), Ne(34), Ne(35), Ne(36), - Ne(37), Ne(38), Ne(39), Ne(40), Ne(41), Ne(42), Ne(43), - Ne(44), Ne(45), Ne(46), Ne(47), Ne(48), Ne(49), - Ne(50))); -} - -#endif // GTEST_LANG_CXX11 - -// Tests that AllOf(m1, ..., mn) describes itself properly. -TEST(AllOfTest, CanDescribeSelf) { - Matcher<int> m; - m = AllOf(Le(2), Ge(1)); - EXPECT_EQ("(is <= 2) and (is >= 1)", Describe(m)); - - m = AllOf(Gt(0), Ne(1), Ne(2)); - EXPECT_EQ("(is > 0) and " - "((isn't equal to 1) and " - "(isn't equal to 2))", - Describe(m)); - - - m = AllOf(Gt(0), Ne(1), Ne(2), Ne(3)); - EXPECT_EQ("((is > 0) and " - "(isn't equal to 1)) and " - "((isn't equal to 2) and " - "(isn't equal to 3))", - Describe(m)); - - - m = AllOf(Ge(0), Lt(10), Ne(3), Ne(5), Ne(7)); - EXPECT_EQ("((is >= 0) and " - "(is < 10)) and " - "((isn't equal to 3) and " - "((isn't equal to 5) and " - "(isn't equal to 7)))", - Describe(m)); -} - -// Tests that AllOf(m1, ..., mn) describes its negation properly. -TEST(AllOfTest, CanDescribeNegation) { - Matcher<int> m; - m = AllOf(Le(2), Ge(1)); - EXPECT_EQ("(isn't <= 2) or " - "(isn't >= 1)", - DescribeNegation(m)); - - m = AllOf(Gt(0), Ne(1), Ne(2)); - EXPECT_EQ("(isn't > 0) or " - "((is equal to 1) or " - "(is equal to 2))", - DescribeNegation(m)); - - - m = AllOf(Gt(0), Ne(1), Ne(2), Ne(3)); - EXPECT_EQ("((isn't > 0) or " - "(is equal to 1)) or " - "((is equal to 2) or " - "(is equal to 3))", - DescribeNegation(m)); - - - m = AllOf(Ge(0), Lt(10), Ne(3), Ne(5), Ne(7)); - EXPECT_EQ("((isn't >= 0) or " - "(isn't < 10)) or " - "((is equal to 3) or " - "((is equal to 5) or " - "(is equal to 7)))", - DescribeNegation(m)); -} - -// Tests that monomorphic matchers are safely cast by the AllOf matcher. -TEST(AllOfTest, AllOfMatcherSafelyCastsMonomorphicMatchers) { - // greater_than_5 and less_than_10 are monomorphic matchers. - Matcher<int> greater_than_5 = Gt(5); - Matcher<int> less_than_10 = Lt(10); - - Matcher<const int&> m = AllOf(greater_than_5, less_than_10); - Matcher<int&> m2 = AllOf(greater_than_5, less_than_10); - Matcher<int&> m3 = AllOf(greater_than_5, m2); - - // Tests that BothOf works when composing itself. - Matcher<const int&> m4 = AllOf(greater_than_5, less_than_10, less_than_10); - Matcher<int&> m5 = AllOf(greater_than_5, less_than_10, less_than_10); -} - -TEST(AllOfTest, ExplainsResult) { - Matcher<int> m; - - // Successful match. Both matchers need to explain. The second - // matcher doesn't give an explanation, so only the first matcher's - // explanation is printed. - m = AllOf(GreaterThan(10), Lt(30)); - EXPECT_EQ("which is 15 more than 10", Explain(m, 25)); - - // Successful match. Both matchers need to explain. - m = AllOf(GreaterThan(10), GreaterThan(20)); - EXPECT_EQ("which is 20 more than 10, and which is 10 more than 20", - Explain(m, 30)); - - // Successful match. All matchers need to explain. The second - // matcher doesn't given an explanation. - m = AllOf(GreaterThan(10), Lt(30), GreaterThan(20)); - EXPECT_EQ("which is 15 more than 10, and which is 5 more than 20", - Explain(m, 25)); - - // Successful match. All matchers need to explain. - m = AllOf(GreaterThan(10), GreaterThan(20), GreaterThan(30)); - EXPECT_EQ("which is 30 more than 10, and which is 20 more than 20, " - "and which is 10 more than 30", - Explain(m, 40)); - - // Failed match. The first matcher, which failed, needs to - // explain. - m = AllOf(GreaterThan(10), GreaterThan(20)); - EXPECT_EQ("which is 5 less than 10", Explain(m, 5)); - - // Failed match. The second matcher, which failed, needs to - // explain. Since it doesn't given an explanation, nothing is - // printed. - m = AllOf(GreaterThan(10), Lt(30)); - EXPECT_EQ("", Explain(m, 40)); - - // Failed match. The second matcher, which failed, needs to - // explain. - m = AllOf(GreaterThan(10), GreaterThan(20)); - EXPECT_EQ("which is 5 less than 20", Explain(m, 15)); -} - -// Helper to allow easy testing of AnyOf matchers with num parameters. -void AnyOfMatches(int num, const Matcher<int>& m) { - SCOPED_TRACE(Describe(m)); - EXPECT_FALSE(m.Matches(0)); - for (int i = 1; i <= num; ++i) { - EXPECT_TRUE(m.Matches(i)); - } - EXPECT_FALSE(m.Matches(num + 1)); -} - -// Tests that AnyOf(m1, ..., mn) matches any value that matches at -// least one of the given matchers. -TEST(AnyOfTest, MatchesWhenAnyMatches) { - Matcher<int> m; - m = AnyOf(Le(1), Ge(3)); - EXPECT_TRUE(m.Matches(1)); - EXPECT_TRUE(m.Matches(4)); - EXPECT_FALSE(m.Matches(2)); - - m = AnyOf(Lt(0), Eq(1), Eq(2)); - EXPECT_TRUE(m.Matches(-1)); - EXPECT_TRUE(m.Matches(1)); - EXPECT_TRUE(m.Matches(2)); - EXPECT_FALSE(m.Matches(0)); - - m = AnyOf(Lt(0), Eq(1), Eq(2), Eq(3)); - EXPECT_TRUE(m.Matches(-1)); - EXPECT_TRUE(m.Matches(1)); - EXPECT_TRUE(m.Matches(2)); - EXPECT_TRUE(m.Matches(3)); - EXPECT_FALSE(m.Matches(0)); - - m = AnyOf(Le(0), Gt(10), 3, 5, 7); - EXPECT_TRUE(m.Matches(0)); - EXPECT_TRUE(m.Matches(11)); - EXPECT_TRUE(m.Matches(3)); - EXPECT_FALSE(m.Matches(2)); - - // The following tests for varying number of sub-matchers. Due to the way - // the sub-matchers are handled it is enough to test every sub-matcher once - // with sub-matchers using the same matcher type. Varying matcher types are - // checked for above. - AnyOfMatches(2, AnyOf(1, 2)); - AnyOfMatches(3, AnyOf(1, 2, 3)); - AnyOfMatches(4, AnyOf(1, 2, 3, 4)); - AnyOfMatches(5, AnyOf(1, 2, 3, 4, 5)); - AnyOfMatches(6, AnyOf(1, 2, 3, 4, 5, 6)); - AnyOfMatches(7, AnyOf(1, 2, 3, 4, 5, 6, 7)); - AnyOfMatches(8, AnyOf(1, 2, 3, 4, 5, 6, 7, 8)); - AnyOfMatches(9, AnyOf(1, 2, 3, 4, 5, 6, 7, 8, 9)); - AnyOfMatches(10, AnyOf(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)); -} - -#if GTEST_LANG_CXX11 -// Tests the variadic version of the AnyOfMatcher. -TEST(AnyOfTest, VariadicMatchesWhenAnyMatches) { - // Also make sure AnyOf is defined in the right namespace and does not depend - // on ADL. - Matcher<int> m = ::testing::AnyOf(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11); - - EXPECT_THAT(Describe(m), EndsWith("or (is equal to 11)")); - AnyOfMatches(11, m); - AnyOfMatches(50, AnyOf(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, - 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, - 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, - 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, - 41, 42, 43, 44, 45, 46, 47, 48, 49, 50)); -} - -// Tests the variadic version of the ElementsAreMatcher -TEST(ElementsAreTest, HugeMatcher) { - vector<int> test_vector{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12}; - - EXPECT_THAT(test_vector, - ElementsAre(Eq(1), Eq(2), Lt(13), Eq(4), Eq(5), Eq(6), Eq(7), - Eq(8), Eq(9), Eq(10), Gt(1), Eq(12))); -} - -// Tests the variadic version of the UnorderedElementsAreMatcher -TEST(ElementsAreTest, HugeMatcherStr) { - vector<string> test_vector{ - "literal_string", "", "", "", "", "", "", "", "", "", "", ""}; - - EXPECT_THAT(test_vector, UnorderedElementsAre("literal_string", _, _, _, _, _, - _, _, _, _, _, _)); -} - -// Tests the variadic version of the UnorderedElementsAreMatcher -TEST(ElementsAreTest, HugeMatcherUnordered) { - vector<int> test_vector{2, 1, 8, 5, 4, 6, 7, 3, 9, 12, 11, 10}; - - EXPECT_THAT(test_vector, UnorderedElementsAre( - Eq(2), Eq(1), Gt(7), Eq(5), Eq(4), Eq(6), Eq(7), - Eq(3), Eq(9), Eq(12), Eq(11), Ne(122))); -} - -#endif // GTEST_LANG_CXX11 - -// Tests that AnyOf(m1, ..., mn) describes itself properly. -TEST(AnyOfTest, CanDescribeSelf) { - Matcher<int> m; - m = AnyOf(Le(1), Ge(3)); - EXPECT_EQ("(is <= 1) or (is >= 3)", - Describe(m)); - - m = AnyOf(Lt(0), Eq(1), Eq(2)); - EXPECT_EQ("(is < 0) or " - "((is equal to 1) or (is equal to 2))", - Describe(m)); - - m = AnyOf(Lt(0), Eq(1), Eq(2), Eq(3)); - EXPECT_EQ("((is < 0) or " - "(is equal to 1)) or " - "((is equal to 2) or " - "(is equal to 3))", - Describe(m)); - - m = AnyOf(Le(0), Gt(10), 3, 5, 7); - EXPECT_EQ("((is <= 0) or " - "(is > 10)) or " - "((is equal to 3) or " - "((is equal to 5) or " - "(is equal to 7)))", - Describe(m)); -} - -// Tests that AnyOf(m1, ..., mn) describes its negation properly. -TEST(AnyOfTest, CanDescribeNegation) { - Matcher<int> m; - m = AnyOf(Le(1), Ge(3)); - EXPECT_EQ("(isn't <= 1) and (isn't >= 3)", - DescribeNegation(m)); - - m = AnyOf(Lt(0), Eq(1), Eq(2)); - EXPECT_EQ("(isn't < 0) and " - "((isn't equal to 1) and (isn't equal to 2))", - DescribeNegation(m)); - - m = AnyOf(Lt(0), Eq(1), Eq(2), Eq(3)); - EXPECT_EQ("((isn't < 0) and " - "(isn't equal to 1)) and " - "((isn't equal to 2) and " - "(isn't equal to 3))", - DescribeNegation(m)); - - m = AnyOf(Le(0), Gt(10), 3, 5, 7); - EXPECT_EQ("((isn't <= 0) and " - "(isn't > 10)) and " - "((isn't equal to 3) and " - "((isn't equal to 5) and " - "(isn't equal to 7)))", - DescribeNegation(m)); -} - -// Tests that monomorphic matchers are safely cast by the AnyOf matcher. -TEST(AnyOfTest, AnyOfMatcherSafelyCastsMonomorphicMatchers) { - // greater_than_5 and less_than_10 are monomorphic matchers. - Matcher<int> greater_than_5 = Gt(5); - Matcher<int> less_than_10 = Lt(10); - - Matcher<const int&> m = AnyOf(greater_than_5, less_than_10); - Matcher<int&> m2 = AnyOf(greater_than_5, less_than_10); - Matcher<int&> m3 = AnyOf(greater_than_5, m2); - - // Tests that EitherOf works when composing itself. - Matcher<const int&> m4 = AnyOf(greater_than_5, less_than_10, less_than_10); - Matcher<int&> m5 = AnyOf(greater_than_5, less_than_10, less_than_10); -} - -TEST(AnyOfTest, ExplainsResult) { - Matcher<int> m; - - // Failed match. Both matchers need to explain. The second - // matcher doesn't give an explanation, so only the first matcher's - // explanation is printed. - m = AnyOf(GreaterThan(10), Lt(0)); - EXPECT_EQ("which is 5 less than 10", Explain(m, 5)); - - // Failed match. Both matchers need to explain. - m = AnyOf(GreaterThan(10), GreaterThan(20)); - EXPECT_EQ("which is 5 less than 10, and which is 15 less than 20", - Explain(m, 5)); - - // Failed match. All matchers need to explain. The second - // matcher doesn't given an explanation. - m = AnyOf(GreaterThan(10), Gt(20), GreaterThan(30)); - EXPECT_EQ("which is 5 less than 10, and which is 25 less than 30", - Explain(m, 5)); - - // Failed match. All matchers need to explain. - m = AnyOf(GreaterThan(10), GreaterThan(20), GreaterThan(30)); - EXPECT_EQ("which is 5 less than 10, and which is 15 less than 20, " - "and which is 25 less than 30", - Explain(m, 5)); - - // Successful match. The first matcher, which succeeded, needs to - // explain. - m = AnyOf(GreaterThan(10), GreaterThan(20)); - EXPECT_EQ("which is 5 more than 10", Explain(m, 15)); - - // Successful match. The second matcher, which succeeded, needs to - // explain. Since it doesn't given an explanation, nothing is - // printed. - m = AnyOf(GreaterThan(10), Lt(30)); - EXPECT_EQ("", Explain(m, 0)); - - // Successful match. The second matcher, which succeeded, needs to - // explain. - m = AnyOf(GreaterThan(30), GreaterThan(20)); - EXPECT_EQ("which is 5 more than 20", Explain(m, 25)); -} - -// The following predicate function and predicate functor are for -// testing the Truly(predicate) matcher. - -// Returns non-zero if the input is positive. Note that the return -// type of this function is not bool. It's OK as Truly() accepts any -// unary function or functor whose return type can be implicitly -// converted to bool. -int IsPositive(double x) { - return x > 0 ? 1 : 0; -} - -// This functor returns true if the input is greater than the given -// number. -class IsGreaterThan { - public: - explicit IsGreaterThan(int threshold) : threshold_(threshold) {} - - bool operator()(int n) const { return n > threshold_; } - - private: - int threshold_; -}; - -// For testing Truly(). -const int foo = 0; - -// This predicate returns true iff the argument references foo and has -// a zero value. -bool ReferencesFooAndIsZero(const int& n) { - return (&n == &foo) && (n == 0); -} - -// Tests that Truly(predicate) matches what satisfies the given -// predicate. -TEST(TrulyTest, MatchesWhatSatisfiesThePredicate) { - Matcher<double> m = Truly(IsPositive); - EXPECT_TRUE(m.Matches(2.0)); - EXPECT_FALSE(m.Matches(-1.5)); -} - -// Tests that Truly(predicate_functor) works too. -TEST(TrulyTest, CanBeUsedWithFunctor) { - Matcher<int> m = Truly(IsGreaterThan(5)); - EXPECT_TRUE(m.Matches(6)); - EXPECT_FALSE(m.Matches(4)); -} - -// A class that can be implicitly converted to bool. -class ConvertibleToBool { - public: - explicit ConvertibleToBool(int number) : number_(number) {} - operator bool() const { return number_ != 0; } - - private: - int number_; -}; - -ConvertibleToBool IsNotZero(int number) { - return ConvertibleToBool(number); -} - -// Tests that the predicate used in Truly() may return a class that's -// implicitly convertible to bool, even when the class has no -// operator!(). -TEST(TrulyTest, PredicateCanReturnAClassConvertibleToBool) { - Matcher<int> m = Truly(IsNotZero); - EXPECT_TRUE(m.Matches(1)); - EXPECT_FALSE(m.Matches(0)); -} - -// Tests that Truly(predicate) can describe itself properly. -TEST(TrulyTest, CanDescribeSelf) { - Matcher<double> m = Truly(IsPositive); - EXPECT_EQ("satisfies the given predicate", - Describe(m)); -} - -// Tests that Truly(predicate) works when the matcher takes its -// argument by reference. -TEST(TrulyTest, WorksForByRefArguments) { - Matcher<const int&> m = Truly(ReferencesFooAndIsZero); - EXPECT_TRUE(m.Matches(foo)); - int n = 0; - EXPECT_FALSE(m.Matches(n)); -} - -// Tests that Matches(m) is a predicate satisfied by whatever that -// matches matcher m. -TEST(MatchesTest, IsSatisfiedByWhatMatchesTheMatcher) { - EXPECT_TRUE(Matches(Ge(0))(1)); - EXPECT_FALSE(Matches(Eq('a'))('b')); -} - -// Tests that Matches(m) works when the matcher takes its argument by -// reference. -TEST(MatchesTest, WorksOnByRefArguments) { - int m = 0, n = 0; - EXPECT_TRUE(Matches(AllOf(Ref(n), Eq(0)))(n)); - EXPECT_FALSE(Matches(Ref(m))(n)); -} - -// Tests that a Matcher on non-reference type can be used in -// Matches(). -TEST(MatchesTest, WorksWithMatcherOnNonRefType) { - Matcher<int> eq5 = Eq(5); - EXPECT_TRUE(Matches(eq5)(5)); - EXPECT_FALSE(Matches(eq5)(2)); -} - -// Tests Value(value, matcher). Since Value() is a simple wrapper for -// Matches(), which has been tested already, we don't spend a lot of -// effort on testing Value(). -TEST(ValueTest, WorksWithPolymorphicMatcher) { - EXPECT_TRUE(Value("hi", StartsWith("h"))); - EXPECT_FALSE(Value(5, Gt(10))); -} - -TEST(ValueTest, WorksWithMonomorphicMatcher) { - const Matcher<int> is_zero = Eq(0); - EXPECT_TRUE(Value(0, is_zero)); - EXPECT_FALSE(Value('a', is_zero)); - - int n = 0; - const Matcher<const int&> ref_n = Ref(n); - EXPECT_TRUE(Value(n, ref_n)); - EXPECT_FALSE(Value(1, ref_n)); -} - -TEST(ExplainMatchResultTest, WorksWithPolymorphicMatcher) { - StringMatchResultListener listener1; - EXPECT_TRUE(ExplainMatchResult(PolymorphicIsEven(), 42, &listener1)); - EXPECT_EQ("% 2 == 0", listener1.str()); - - StringMatchResultListener listener2; - EXPECT_FALSE(ExplainMatchResult(Ge(42), 1.5, &listener2)); - EXPECT_EQ("", listener2.str()); -} - -TEST(ExplainMatchResultTest, WorksWithMonomorphicMatcher) { - const Matcher<int> is_even = PolymorphicIsEven(); - StringMatchResultListener listener1; - EXPECT_TRUE(ExplainMatchResult(is_even, 42, &listener1)); - EXPECT_EQ("% 2 == 0", listener1.str()); - - const Matcher<const double&> is_zero = Eq(0); - StringMatchResultListener listener2; - EXPECT_FALSE(ExplainMatchResult(is_zero, 1.5, &listener2)); - EXPECT_EQ("", listener2.str()); -} - -MATCHER_P(Really, inner_matcher, "") { - return ExplainMatchResult(inner_matcher, arg, result_listener); -} - -TEST(ExplainMatchResultTest, WorksInsideMATCHER) { - EXPECT_THAT(0, Really(Eq(0))); -} - -TEST(DescribeMatcherTest, WorksWithValue) { - EXPECT_EQ("is equal to 42", DescribeMatcher<int>(42)); - EXPECT_EQ("isn't equal to 42", DescribeMatcher<int>(42, true)); -} - -TEST(DescribeMatcherTest, WorksWithMonomorphicMatcher) { - const Matcher<int> monomorphic = Le(0); - EXPECT_EQ("is <= 0", DescribeMatcher<int>(monomorphic)); - EXPECT_EQ("isn't <= 0", DescribeMatcher<int>(monomorphic, true)); -} - -TEST(DescribeMatcherTest, WorksWithPolymorphicMatcher) { - EXPECT_EQ("is even", DescribeMatcher<int>(PolymorphicIsEven())); - EXPECT_EQ("is odd", DescribeMatcher<int>(PolymorphicIsEven(), true)); -} - -TEST(AllArgsTest, WorksForTuple) { - EXPECT_THAT(make_tuple(1, 2L), AllArgs(Lt())); - EXPECT_THAT(make_tuple(2L, 1), Not(AllArgs(Lt()))); -} - -TEST(AllArgsTest, WorksForNonTuple) { - EXPECT_THAT(42, AllArgs(Gt(0))); - EXPECT_THAT('a', Not(AllArgs(Eq('b')))); -} - -class AllArgsHelper { - public: - AllArgsHelper() {} - - MOCK_METHOD2(Helper, int(char x, int y)); - - private: - GTEST_DISALLOW_COPY_AND_ASSIGN_(AllArgsHelper); -}; - -TEST(AllArgsTest, WorksInWithClause) { - AllArgsHelper helper; - ON_CALL(helper, Helper(_, _)) - .With(AllArgs(Lt())) - .WillByDefault(Return(1)); - EXPECT_CALL(helper, Helper(_, _)); - EXPECT_CALL(helper, Helper(_, _)) - .With(AllArgs(Gt())) - .WillOnce(Return(2)); - - EXPECT_EQ(1, helper.Helper('\1', 2)); - EXPECT_EQ(2, helper.Helper('a', 1)); -} - -class OptionalMatchersHelper { - public: - OptionalMatchersHelper() {} - - MOCK_METHOD0(NoArgs, int()); - - MOCK_METHOD1(OneArg, int(int y)); - - MOCK_METHOD2(TwoArgs, int(char x, int y)); - - MOCK_METHOD1(Overloaded, int(char x)); - MOCK_METHOD2(Overloaded, int(char x, int y)); - - private: - GTEST_DISALLOW_COPY_AND_ASSIGN_(OptionalMatchersHelper); -}; - -TEST(AllArgsTest, WorksWithoutMatchers) { - OptionalMatchersHelper helper; - - ON_CALL(helper, NoArgs).WillByDefault(Return(10)); - ON_CALL(helper, OneArg).WillByDefault(Return(20)); - ON_CALL(helper, TwoArgs).WillByDefault(Return(30)); - - EXPECT_EQ(10, helper.NoArgs()); - EXPECT_EQ(20, helper.OneArg(1)); - EXPECT_EQ(30, helper.TwoArgs('\1', 2)); - - EXPECT_CALL(helper, NoArgs).Times(1); - EXPECT_CALL(helper, OneArg).WillOnce(Return(100)); - EXPECT_CALL(helper, OneArg(17)).WillOnce(Return(200)); - EXPECT_CALL(helper, TwoArgs).Times(0); - - EXPECT_EQ(10, helper.NoArgs()); - EXPECT_EQ(100, helper.OneArg(1)); - EXPECT_EQ(200, helper.OneArg(17)); -} - -// Tests that ASSERT_THAT() and EXPECT_THAT() work when the value -// matches the matcher. -TEST(MatcherAssertionTest, WorksWhenMatcherIsSatisfied) { - ASSERT_THAT(5, Ge(2)) << "This should succeed."; - ASSERT_THAT("Foo", EndsWith("oo")); - EXPECT_THAT(2, AllOf(Le(7), Ge(0))) << "This should succeed too."; - EXPECT_THAT("Hello", StartsWith("Hell")); -} - -// Tests that ASSERT_THAT() and EXPECT_THAT() work when the value -// doesn't match the matcher. -TEST(MatcherAssertionTest, WorksWhenMatcherIsNotSatisfied) { - // 'n' must be static as it is used in an EXPECT_FATAL_FAILURE(), - // which cannot reference auto variables. - static unsigned short n; // NOLINT - n = 5; - - // VC++ prior to version 8.0 SP1 has a bug where it will not see any - // functions declared in the namespace scope from within nested classes. - // EXPECT/ASSERT_(NON)FATAL_FAILURE macros use nested classes so that all - // namespace-level functions invoked inside them need to be explicitly - // resolved. - EXPECT_FATAL_FAILURE(ASSERT_THAT(n, ::testing::Gt(10)), - "Value of: n\n" - "Expected: is > 10\n" - " Actual: 5" + OfType("unsigned short")); - n = 0; - EXPECT_NONFATAL_FAILURE( - EXPECT_THAT(n, ::testing::AllOf(::testing::Le(7), ::testing::Ge(5))), - "Value of: n\n" - "Expected: (is <= 7) and (is >= 5)\n" - " Actual: 0" + OfType("unsigned short")); -} - -// Tests that ASSERT_THAT() and EXPECT_THAT() work when the argument -// has a reference type. -TEST(MatcherAssertionTest, WorksForByRefArguments) { - // We use a static variable here as EXPECT_FATAL_FAILURE() cannot - // reference auto variables. - static int n; - n = 0; - EXPECT_THAT(n, AllOf(Le(7), Ref(n))); - EXPECT_FATAL_FAILURE(ASSERT_THAT(n, ::testing::Not(::testing::Ref(n))), - "Value of: n\n" - "Expected: does not reference the variable @"); - // Tests the "Actual" part. - EXPECT_FATAL_FAILURE(ASSERT_THAT(n, ::testing::Not(::testing::Ref(n))), - "Actual: 0" + OfType("int") + ", which is located @"); -} - -#if !GTEST_OS_SYMBIAN -// Tests that ASSERT_THAT() and EXPECT_THAT() work when the matcher is -// monomorphic. - -// ASSERT_THAT("hello", starts_with_he) fails to compile with Nokia's -// Symbian compiler: it tries to compile -// template<T, U> class MatcherCastImpl { ... -// virtual bool MatchAndExplain(T x, ...) const { -// return source_matcher_.MatchAndExplain(static_cast<U>(x), ...); -// with U == string and T == const char* -// With ASSERT_THAT("hello"...) changed to ASSERT_THAT(string("hello") ... ) -// the compiler silently crashes with no output. -// If MatcherCastImpl is changed to use U(x) instead of static_cast<U>(x) -// the code compiles but the converted string is bogus. -TEST(MatcherAssertionTest, WorksForMonomorphicMatcher) { - Matcher<const char*> starts_with_he = StartsWith("he"); - ASSERT_THAT("hello", starts_with_he); - - Matcher<const std::string&> ends_with_ok = EndsWith("ok"); - ASSERT_THAT("book", ends_with_ok); - const std::string bad = "bad"; - EXPECT_NONFATAL_FAILURE(EXPECT_THAT(bad, ends_with_ok), - "Value of: bad\n" - "Expected: ends with \"ok\"\n" - " Actual: \"bad\""); - Matcher<int> is_greater_than_5 = Gt(5); - EXPECT_NONFATAL_FAILURE(EXPECT_THAT(5, is_greater_than_5), - "Value of: 5\n" - "Expected: is > 5\n" - " Actual: 5" + OfType("int")); -} -#endif // !GTEST_OS_SYMBIAN - -// Tests floating-point matchers. -template <typename RawType> -class FloatingPointTest : public testing::Test { - protected: - typedef testing::internal::FloatingPoint<RawType> Floating; - typedef typename Floating::Bits Bits; - - FloatingPointTest() - : max_ulps_(Floating::kMaxUlps), - zero_bits_(Floating(0).bits()), - one_bits_(Floating(1).bits()), - infinity_bits_(Floating(Floating::Infinity()).bits()), - close_to_positive_zero_( - Floating::ReinterpretBits(zero_bits_ + max_ulps_/2)), - close_to_negative_zero_( - -Floating::ReinterpretBits(zero_bits_ + max_ulps_ - max_ulps_/2)), - further_from_negative_zero_(-Floating::ReinterpretBits( - zero_bits_ + max_ulps_ + 1 - max_ulps_/2)), - close_to_one_(Floating::ReinterpretBits(one_bits_ + max_ulps_)), - further_from_one_(Floating::ReinterpretBits(one_bits_ + max_ulps_ + 1)), - infinity_(Floating::Infinity()), - close_to_infinity_( - Floating::ReinterpretBits(infinity_bits_ - max_ulps_)), - further_from_infinity_( - Floating::ReinterpretBits(infinity_bits_ - max_ulps_ - 1)), - max_(Floating::Max()), - nan1_(Floating::ReinterpretBits(Floating::kExponentBitMask | 1)), - nan2_(Floating::ReinterpretBits(Floating::kExponentBitMask | 200)) { - } - - void TestSize() { - EXPECT_EQ(sizeof(RawType), sizeof(Bits)); - } - - // A battery of tests for FloatingEqMatcher::Matches. - // matcher_maker is a pointer to a function which creates a FloatingEqMatcher. - void TestMatches( - testing::internal::FloatingEqMatcher<RawType> (*matcher_maker)(RawType)) { - Matcher<RawType> m1 = matcher_maker(0.0); - EXPECT_TRUE(m1.Matches(-0.0)); - EXPECT_TRUE(m1.Matches(close_to_positive_zero_)); - EXPECT_TRUE(m1.Matches(close_to_negative_zero_)); - EXPECT_FALSE(m1.Matches(1.0)); - - Matcher<RawType> m2 = matcher_maker(close_to_positive_zero_); - EXPECT_FALSE(m2.Matches(further_from_negative_zero_)); - - Matcher<RawType> m3 = matcher_maker(1.0); - EXPECT_TRUE(m3.Matches(close_to_one_)); - EXPECT_FALSE(m3.Matches(further_from_one_)); - - // Test commutativity: matcher_maker(0.0).Matches(1.0) was tested above. - EXPECT_FALSE(m3.Matches(0.0)); - - Matcher<RawType> m4 = matcher_maker(-infinity_); - EXPECT_TRUE(m4.Matches(-close_to_infinity_)); - - Matcher<RawType> m5 = matcher_maker(infinity_); - EXPECT_TRUE(m5.Matches(close_to_infinity_)); - - // This is interesting as the representations of infinity_ and nan1_ - // are only 1 DLP apart. - EXPECT_FALSE(m5.Matches(nan1_)); - - // matcher_maker can produce a Matcher<const RawType&>, which is needed in - // some cases. - Matcher<const RawType&> m6 = matcher_maker(0.0); - EXPECT_TRUE(m6.Matches(-0.0)); - EXPECT_TRUE(m6.Matches(close_to_positive_zero_)); - EXPECT_FALSE(m6.Matches(1.0)); - - // matcher_maker can produce a Matcher<RawType&>, which is needed in some - // cases. - Matcher<RawType&> m7 = matcher_maker(0.0); - RawType x = 0.0; - EXPECT_TRUE(m7.Matches(x)); - x = 0.01f; - EXPECT_FALSE(m7.Matches(x)); - } - - // Pre-calculated numbers to be used by the tests. - - const Bits max_ulps_; - - const Bits zero_bits_; // The bits that represent 0.0. - const Bits one_bits_; // The bits that represent 1.0. - const Bits infinity_bits_; // The bits that represent +infinity. - - // Some numbers close to 0.0. - const RawType close_to_positive_zero_; - const RawType close_to_negative_zero_; - const RawType further_from_negative_zero_; - - // Some numbers close to 1.0. - const RawType close_to_one_; - const RawType further_from_one_; - - // Some numbers close to +infinity. - const RawType infinity_; - const RawType close_to_infinity_; - const RawType further_from_infinity_; - - // Maximum representable value that's not infinity. - const RawType max_; - - // Some NaNs. - const RawType nan1_; - const RawType nan2_; -}; - -// Tests floating-point matchers with fixed epsilons. -template <typename RawType> -class FloatingPointNearTest : public FloatingPointTest<RawType> { - protected: - typedef FloatingPointTest<RawType> ParentType; - - // A battery of tests for FloatingEqMatcher::Matches with a fixed epsilon. - // matcher_maker is a pointer to a function which creates a FloatingEqMatcher. - void TestNearMatches( - testing::internal::FloatingEqMatcher<RawType> - (*matcher_maker)(RawType, RawType)) { - Matcher<RawType> m1 = matcher_maker(0.0, 0.0); - EXPECT_TRUE(m1.Matches(0.0)); - EXPECT_TRUE(m1.Matches(-0.0)); - EXPECT_FALSE(m1.Matches(ParentType::close_to_positive_zero_)); - EXPECT_FALSE(m1.Matches(ParentType::close_to_negative_zero_)); - EXPECT_FALSE(m1.Matches(1.0)); - - Matcher<RawType> m2 = matcher_maker(0.0, 1.0); - EXPECT_TRUE(m2.Matches(0.0)); - EXPECT_TRUE(m2.Matches(-0.0)); - EXPECT_TRUE(m2.Matches(1.0)); - EXPECT_TRUE(m2.Matches(-1.0)); - EXPECT_FALSE(m2.Matches(ParentType::close_to_one_)); - EXPECT_FALSE(m2.Matches(-ParentType::close_to_one_)); - - // Check that inf matches inf, regardless of the of the specified max - // absolute error. - Matcher<RawType> m3 = matcher_maker(ParentType::infinity_, 0.0); - EXPECT_TRUE(m3.Matches(ParentType::infinity_)); - EXPECT_FALSE(m3.Matches(ParentType::close_to_infinity_)); - EXPECT_FALSE(m3.Matches(-ParentType::infinity_)); - - Matcher<RawType> m4 = matcher_maker(-ParentType::infinity_, 0.0); - EXPECT_TRUE(m4.Matches(-ParentType::infinity_)); - EXPECT_FALSE(m4.Matches(-ParentType::close_to_infinity_)); - EXPECT_FALSE(m4.Matches(ParentType::infinity_)); - - // Test various overflow scenarios. - Matcher<RawType> m5 = matcher_maker(ParentType::max_, ParentType::max_); - EXPECT_TRUE(m5.Matches(ParentType::max_)); - EXPECT_FALSE(m5.Matches(-ParentType::max_)); - - Matcher<RawType> m6 = matcher_maker(-ParentType::max_, ParentType::max_); - EXPECT_FALSE(m6.Matches(ParentType::max_)); - EXPECT_TRUE(m6.Matches(-ParentType::max_)); - - Matcher<RawType> m7 = matcher_maker(ParentType::max_, 0); - EXPECT_TRUE(m7.Matches(ParentType::max_)); - EXPECT_FALSE(m7.Matches(-ParentType::max_)); - - Matcher<RawType> m8 = matcher_maker(-ParentType::max_, 0); - EXPECT_FALSE(m8.Matches(ParentType::max_)); - EXPECT_TRUE(m8.Matches(-ParentType::max_)); - - // The difference between max() and -max() normally overflows to infinity, - // but it should still match if the max_abs_error is also infinity. - Matcher<RawType> m9 = matcher_maker( - ParentType::max_, ParentType::infinity_); - EXPECT_TRUE(m8.Matches(-ParentType::max_)); - - // matcher_maker can produce a Matcher<const RawType&>, which is needed in - // some cases. - Matcher<const RawType&> m10 = matcher_maker(0.0, 1.0); - EXPECT_TRUE(m10.Matches(-0.0)); - EXPECT_TRUE(m10.Matches(ParentType::close_to_positive_zero_)); - EXPECT_FALSE(m10.Matches(ParentType::close_to_one_)); - - // matcher_maker can produce a Matcher<RawType&>, which is needed in some - // cases. - Matcher<RawType&> m11 = matcher_maker(0.0, 1.0); - RawType x = 0.0; - EXPECT_TRUE(m11.Matches(x)); - x = 1.0f; - EXPECT_TRUE(m11.Matches(x)); - x = -1.0f; - EXPECT_TRUE(m11.Matches(x)); - x = 1.1f; - EXPECT_FALSE(m11.Matches(x)); - x = -1.1f; - EXPECT_FALSE(m11.Matches(x)); - } -}; - -// Instantiate FloatingPointTest for testing floats. -typedef FloatingPointTest<float> FloatTest; - -TEST_F(FloatTest, FloatEqApproximatelyMatchesFloats) { - TestMatches(&FloatEq); -} - -TEST_F(FloatTest, NanSensitiveFloatEqApproximatelyMatchesFloats) { - TestMatches(&NanSensitiveFloatEq); -} - -TEST_F(FloatTest, FloatEqCannotMatchNaN) { - // FloatEq never matches NaN. - Matcher<float> m = FloatEq(nan1_); - EXPECT_FALSE(m.Matches(nan1_)); - EXPECT_FALSE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST_F(FloatTest, NanSensitiveFloatEqCanMatchNaN) { - // NanSensitiveFloatEq will match NaN. - Matcher<float> m = NanSensitiveFloatEq(nan1_); - EXPECT_TRUE(m.Matches(nan1_)); - EXPECT_TRUE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST_F(FloatTest, FloatEqCanDescribeSelf) { - Matcher<float> m1 = FloatEq(2.0f); - EXPECT_EQ("is approximately 2", Describe(m1)); - EXPECT_EQ("isn't approximately 2", DescribeNegation(m1)); - - Matcher<float> m2 = FloatEq(0.5f); - EXPECT_EQ("is approximately 0.5", Describe(m2)); - EXPECT_EQ("isn't approximately 0.5", DescribeNegation(m2)); - - Matcher<float> m3 = FloatEq(nan1_); - EXPECT_EQ("never matches", Describe(m3)); - EXPECT_EQ("is anything", DescribeNegation(m3)); -} - -TEST_F(FloatTest, NanSensitiveFloatEqCanDescribeSelf) { - Matcher<float> m1 = NanSensitiveFloatEq(2.0f); - EXPECT_EQ("is approximately 2", Describe(m1)); - EXPECT_EQ("isn't approximately 2", DescribeNegation(m1)); - - Matcher<float> m2 = NanSensitiveFloatEq(0.5f); - EXPECT_EQ("is approximately 0.5", Describe(m2)); - EXPECT_EQ("isn't approximately 0.5", DescribeNegation(m2)); - - Matcher<float> m3 = NanSensitiveFloatEq(nan1_); - EXPECT_EQ("is NaN", Describe(m3)); - EXPECT_EQ("isn't NaN", DescribeNegation(m3)); -} - -// Instantiate FloatingPointTest for testing floats with a user-specified -// max absolute error. -typedef FloatingPointNearTest<float> FloatNearTest; - -TEST_F(FloatNearTest, FloatNearMatches) { - TestNearMatches(&FloatNear); -} - -TEST_F(FloatNearTest, NanSensitiveFloatNearApproximatelyMatchesFloats) { - TestNearMatches(&NanSensitiveFloatNear); -} - -TEST_F(FloatNearTest, FloatNearCanDescribeSelf) { - Matcher<float> m1 = FloatNear(2.0f, 0.5f); - EXPECT_EQ("is approximately 2 (absolute error <= 0.5)", Describe(m1)); - EXPECT_EQ( - "isn't approximately 2 (absolute error > 0.5)", DescribeNegation(m1)); - - Matcher<float> m2 = FloatNear(0.5f, 0.5f); - EXPECT_EQ("is approximately 0.5 (absolute error <= 0.5)", Describe(m2)); - EXPECT_EQ( - "isn't approximately 0.5 (absolute error > 0.5)", DescribeNegation(m2)); - - Matcher<float> m3 = FloatNear(nan1_, 0.0); - EXPECT_EQ("never matches", Describe(m3)); - EXPECT_EQ("is anything", DescribeNegation(m3)); -} - -TEST_F(FloatNearTest, NanSensitiveFloatNearCanDescribeSelf) { - Matcher<float> m1 = NanSensitiveFloatNear(2.0f, 0.5f); - EXPECT_EQ("is approximately 2 (absolute error <= 0.5)", Describe(m1)); - EXPECT_EQ( - "isn't approximately 2 (absolute error > 0.5)", DescribeNegation(m1)); - - Matcher<float> m2 = NanSensitiveFloatNear(0.5f, 0.5f); - EXPECT_EQ("is approximately 0.5 (absolute error <= 0.5)", Describe(m2)); - EXPECT_EQ( - "isn't approximately 0.5 (absolute error > 0.5)", DescribeNegation(m2)); - - Matcher<float> m3 = NanSensitiveFloatNear(nan1_, 0.1f); - EXPECT_EQ("is NaN", Describe(m3)); - EXPECT_EQ("isn't NaN", DescribeNegation(m3)); -} - -TEST_F(FloatNearTest, FloatNearCannotMatchNaN) { - // FloatNear never matches NaN. - Matcher<float> m = FloatNear(ParentType::nan1_, 0.1f); - EXPECT_FALSE(m.Matches(nan1_)); - EXPECT_FALSE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST_F(FloatNearTest, NanSensitiveFloatNearCanMatchNaN) { - // NanSensitiveFloatNear will match NaN. - Matcher<float> m = NanSensitiveFloatNear(nan1_, 0.1f); - EXPECT_TRUE(m.Matches(nan1_)); - EXPECT_TRUE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -// Instantiate FloatingPointTest for testing doubles. -typedef FloatingPointTest<double> DoubleTest; - -TEST_F(DoubleTest, DoubleEqApproximatelyMatchesDoubles) { - TestMatches(&DoubleEq); -} - -TEST_F(DoubleTest, NanSensitiveDoubleEqApproximatelyMatchesDoubles) { - TestMatches(&NanSensitiveDoubleEq); -} - -TEST_F(DoubleTest, DoubleEqCannotMatchNaN) { - // DoubleEq never matches NaN. - Matcher<double> m = DoubleEq(nan1_); - EXPECT_FALSE(m.Matches(nan1_)); - EXPECT_FALSE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST_F(DoubleTest, NanSensitiveDoubleEqCanMatchNaN) { - // NanSensitiveDoubleEq will match NaN. - Matcher<double> m = NanSensitiveDoubleEq(nan1_); - EXPECT_TRUE(m.Matches(nan1_)); - EXPECT_TRUE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST_F(DoubleTest, DoubleEqCanDescribeSelf) { - Matcher<double> m1 = DoubleEq(2.0); - EXPECT_EQ("is approximately 2", Describe(m1)); - EXPECT_EQ("isn't approximately 2", DescribeNegation(m1)); - - Matcher<double> m2 = DoubleEq(0.5); - EXPECT_EQ("is approximately 0.5", Describe(m2)); - EXPECT_EQ("isn't approximately 0.5", DescribeNegation(m2)); - - Matcher<double> m3 = DoubleEq(nan1_); - EXPECT_EQ("never matches", Describe(m3)); - EXPECT_EQ("is anything", DescribeNegation(m3)); -} - -TEST_F(DoubleTest, NanSensitiveDoubleEqCanDescribeSelf) { - Matcher<double> m1 = NanSensitiveDoubleEq(2.0); - EXPECT_EQ("is approximately 2", Describe(m1)); - EXPECT_EQ("isn't approximately 2", DescribeNegation(m1)); - - Matcher<double> m2 = NanSensitiveDoubleEq(0.5); - EXPECT_EQ("is approximately 0.5", Describe(m2)); - EXPECT_EQ("isn't approximately 0.5", DescribeNegation(m2)); - - Matcher<double> m3 = NanSensitiveDoubleEq(nan1_); - EXPECT_EQ("is NaN", Describe(m3)); - EXPECT_EQ("isn't NaN", DescribeNegation(m3)); -} - -// Instantiate FloatingPointTest for testing floats with a user-specified -// max absolute error. -typedef FloatingPointNearTest<double> DoubleNearTest; - -TEST_F(DoubleNearTest, DoubleNearMatches) { - TestNearMatches(&DoubleNear); -} - -TEST_F(DoubleNearTest, NanSensitiveDoubleNearApproximatelyMatchesDoubles) { - TestNearMatches(&NanSensitiveDoubleNear); -} - -TEST_F(DoubleNearTest, DoubleNearCanDescribeSelf) { - Matcher<double> m1 = DoubleNear(2.0, 0.5); - EXPECT_EQ("is approximately 2 (absolute error <= 0.5)", Describe(m1)); - EXPECT_EQ( - "isn't approximately 2 (absolute error > 0.5)", DescribeNegation(m1)); - - Matcher<double> m2 = DoubleNear(0.5, 0.5); - EXPECT_EQ("is approximately 0.5 (absolute error <= 0.5)", Describe(m2)); - EXPECT_EQ( - "isn't approximately 0.5 (absolute error > 0.5)", DescribeNegation(m2)); - - Matcher<double> m3 = DoubleNear(nan1_, 0.0); - EXPECT_EQ("never matches", Describe(m3)); - EXPECT_EQ("is anything", DescribeNegation(m3)); -} - -TEST_F(DoubleNearTest, ExplainsResultWhenMatchFails) { - EXPECT_EQ("", Explain(DoubleNear(2.0, 0.1), 2.05)); - EXPECT_EQ("which is 0.2 from 2", Explain(DoubleNear(2.0, 0.1), 2.2)); - EXPECT_EQ("which is -0.3 from 2", Explain(DoubleNear(2.0, 0.1), 1.7)); - - const std::string explanation = - Explain(DoubleNear(2.1, 1e-10), 2.1 + 1.2e-10); - // Different C++ implementations may print floating-point numbers - // slightly differently. - EXPECT_TRUE(explanation == "which is 1.2e-10 from 2.1" || // GCC - explanation == "which is 1.2e-010 from 2.1") // MSVC - << " where explanation is \"" << explanation << "\"."; -} - -TEST_F(DoubleNearTest, NanSensitiveDoubleNearCanDescribeSelf) { - Matcher<double> m1 = NanSensitiveDoubleNear(2.0, 0.5); - EXPECT_EQ("is approximately 2 (absolute error <= 0.5)", Describe(m1)); - EXPECT_EQ( - "isn't approximately 2 (absolute error > 0.5)", DescribeNegation(m1)); - - Matcher<double> m2 = NanSensitiveDoubleNear(0.5, 0.5); - EXPECT_EQ("is approximately 0.5 (absolute error <= 0.5)", Describe(m2)); - EXPECT_EQ( - "isn't approximately 0.5 (absolute error > 0.5)", DescribeNegation(m2)); - - Matcher<double> m3 = NanSensitiveDoubleNear(nan1_, 0.1); - EXPECT_EQ("is NaN", Describe(m3)); - EXPECT_EQ("isn't NaN", DescribeNegation(m3)); -} - -TEST_F(DoubleNearTest, DoubleNearCannotMatchNaN) { - // DoubleNear never matches NaN. - Matcher<double> m = DoubleNear(ParentType::nan1_, 0.1); - EXPECT_FALSE(m.Matches(nan1_)); - EXPECT_FALSE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST_F(DoubleNearTest, NanSensitiveDoubleNearCanMatchNaN) { - // NanSensitiveDoubleNear will match NaN. - Matcher<double> m = NanSensitiveDoubleNear(nan1_, 0.1); - EXPECT_TRUE(m.Matches(nan1_)); - EXPECT_TRUE(m.Matches(nan2_)); - EXPECT_FALSE(m.Matches(1.0)); -} - -TEST(PointeeTest, RawPointer) { - const Matcher<int*> m = Pointee(Ge(0)); - - int n = 1; - EXPECT_TRUE(m.Matches(&n)); - n = -1; - EXPECT_FALSE(m.Matches(&n)); - EXPECT_FALSE(m.Matches(NULL)); -} - -TEST(PointeeTest, RawPointerToConst) { - const Matcher<const double*> m = Pointee(Ge(0)); - - double x = 1; - EXPECT_TRUE(m.Matches(&x)); - x = -1; - EXPECT_FALSE(m.Matches(&x)); - EXPECT_FALSE(m.Matches(NULL)); -} - -TEST(PointeeTest, ReferenceToConstRawPointer) { - const Matcher<int* const &> m = Pointee(Ge(0)); - - int n = 1; - EXPECT_TRUE(m.Matches(&n)); - n = -1; - EXPECT_FALSE(m.Matches(&n)); - EXPECT_FALSE(m.Matches(NULL)); -} - -TEST(PointeeTest, ReferenceToNonConstRawPointer) { - const Matcher<double* &> m = Pointee(Ge(0)); - - double x = 1.0; - double* p = &x; - EXPECT_TRUE(m.Matches(p)); - x = -1; - EXPECT_FALSE(m.Matches(p)); - p = NULL; - EXPECT_FALSE(m.Matches(p)); -} - -MATCHER_P(FieldIIs, inner_matcher, "") { - return ExplainMatchResult(inner_matcher, arg.i, result_listener); -} - -#if GTEST_HAS_RTTI -TEST(WhenDynamicCastToTest, SameType) { - Derived derived; - derived.i = 4; - - // Right type. A pointer is passed down. - Base* as_base_ptr = &derived; - EXPECT_THAT(as_base_ptr, WhenDynamicCastTo<Derived*>(Not(IsNull()))); - EXPECT_THAT(as_base_ptr, WhenDynamicCastTo<Derived*>(Pointee(FieldIIs(4)))); - EXPECT_THAT(as_base_ptr, - Not(WhenDynamicCastTo<Derived*>(Pointee(FieldIIs(5))))); -} - -TEST(WhenDynamicCastToTest, WrongTypes) { - Base base; - Derived derived; - OtherDerived other_derived; - - // Wrong types. NULL is passed. - EXPECT_THAT(&base, Not(WhenDynamicCastTo<Derived*>(Pointee(_)))); - EXPECT_THAT(&base, WhenDynamicCastTo<Derived*>(IsNull())); - Base* as_base_ptr = &derived; - EXPECT_THAT(as_base_ptr, Not(WhenDynamicCastTo<OtherDerived*>(Pointee(_)))); - EXPECT_THAT(as_base_ptr, WhenDynamicCastTo<OtherDerived*>(IsNull())); - as_base_ptr = &other_derived; - EXPECT_THAT(as_base_ptr, Not(WhenDynamicCastTo<Derived*>(Pointee(_)))); - EXPECT_THAT(as_base_ptr, WhenDynamicCastTo<Derived*>(IsNull())); -} - -TEST(WhenDynamicCastToTest, AlreadyNull) { - // Already NULL. - Base* as_base_ptr = NULL; - EXPECT_THAT(as_base_ptr, WhenDynamicCastTo<Derived*>(IsNull())); -} - -struct AmbiguousCastTypes { - class VirtualDerived : public virtual Base {}; - class DerivedSub1 : public VirtualDerived {}; - class DerivedSub2 : public VirtualDerived {}; - class ManyDerivedInHierarchy : public DerivedSub1, public DerivedSub2 {}; -}; - -TEST(WhenDynamicCastToTest, AmbiguousCast) { - AmbiguousCastTypes::DerivedSub1 sub1; - AmbiguousCastTypes::ManyDerivedInHierarchy many_derived; - // Multiply derived from Base. dynamic_cast<> returns NULL. - Base* as_base_ptr = - static_cast<AmbiguousCastTypes::DerivedSub1*>(&many_derived); - EXPECT_THAT(as_base_ptr, - WhenDynamicCastTo<AmbiguousCastTypes::VirtualDerived*>(IsNull())); - as_base_ptr = &sub1; - EXPECT_THAT( - as_base_ptr, - WhenDynamicCastTo<AmbiguousCastTypes::VirtualDerived*>(Not(IsNull()))); -} - -TEST(WhenDynamicCastToTest, Describe) { - Matcher<Base*> matcher = WhenDynamicCastTo<Derived*>(Pointee(_)); - const std::string prefix = - "when dynamic_cast to " + internal::GetTypeName<Derived*>() + ", "; - EXPECT_EQ(prefix + "points to a value that is anything", Describe(matcher)); - EXPECT_EQ(prefix + "does not point to a value that is anything", - DescribeNegation(matcher)); -} - -TEST(WhenDynamicCastToTest, Explain) { - Matcher<Base*> matcher = WhenDynamicCastTo<Derived*>(Pointee(_)); - Base* null = NULL; - EXPECT_THAT(Explain(matcher, null), HasSubstr("NULL")); - Derived derived; - EXPECT_TRUE(matcher.Matches(&derived)); - EXPECT_THAT(Explain(matcher, &derived), HasSubstr("which points to ")); - - // With references, the matcher itself can fail. Test for that one. - Matcher<const Base&> ref_matcher = WhenDynamicCastTo<const OtherDerived&>(_); - EXPECT_THAT(Explain(ref_matcher, derived), - HasSubstr("which cannot be dynamic_cast")); -} - -TEST(WhenDynamicCastToTest, GoodReference) { - Derived derived; - derived.i = 4; - Base& as_base_ref = derived; - EXPECT_THAT(as_base_ref, WhenDynamicCastTo<const Derived&>(FieldIIs(4))); - EXPECT_THAT(as_base_ref, WhenDynamicCastTo<const Derived&>(Not(FieldIIs(5)))); -} - -TEST(WhenDynamicCastToTest, BadReference) { - Derived derived; - Base& as_base_ref = derived; - EXPECT_THAT(as_base_ref, Not(WhenDynamicCastTo<const OtherDerived&>(_))); -} -#endif // GTEST_HAS_RTTI - -// Minimal const-propagating pointer. -template <typename T> -class ConstPropagatingPtr { - public: - typedef T element_type; - - ConstPropagatingPtr() : val_() {} - explicit ConstPropagatingPtr(T* t) : val_(t) {} - ConstPropagatingPtr(const ConstPropagatingPtr& other) : val_(other.val_) {} - - T* get() { return val_; } - T& operator*() { return *val_; } - // Most smart pointers return non-const T* and T& from the next methods. - const T* get() const { return val_; } - const T& operator*() const { return *val_; } - - private: - T* val_; -}; - -TEST(PointeeTest, WorksWithConstPropagatingPointers) { - const Matcher< ConstPropagatingPtr<int> > m = Pointee(Lt(5)); - int three = 3; - const ConstPropagatingPtr<int> co(&three); - ConstPropagatingPtr<int> o(&three); - EXPECT_TRUE(m.Matches(o)); - EXPECT_TRUE(m.Matches(co)); - *o = 6; - EXPECT_FALSE(m.Matches(o)); - EXPECT_FALSE(m.Matches(ConstPropagatingPtr<int>())); -} - -TEST(PointeeTest, NeverMatchesNull) { - const Matcher<const char*> m = Pointee(_); - EXPECT_FALSE(m.Matches(NULL)); -} - -// Tests that we can write Pointee(value) instead of Pointee(Eq(value)). -TEST(PointeeTest, MatchesAgainstAValue) { - const Matcher<int*> m = Pointee(5); - - int n = 5; - EXPECT_TRUE(m.Matches(&n)); - n = -1; - EXPECT_FALSE(m.Matches(&n)); - EXPECT_FALSE(m.Matches(NULL)); -} - -TEST(PointeeTest, CanDescribeSelf) { - const Matcher<int*> m = Pointee(Gt(3)); - EXPECT_EQ("points to a value that is > 3", Describe(m)); - EXPECT_EQ("does not point to a value that is > 3", - DescribeNegation(m)); -} - -TEST(PointeeTest, CanExplainMatchResult) { - const Matcher<const std::string*> m = Pointee(StartsWith("Hi")); - - EXPECT_EQ("", Explain(m, static_cast<const std::string*>(NULL))); - - const Matcher<long*> m2 = Pointee(GreaterThan(1)); // NOLINT - long n = 3; // NOLINT - EXPECT_EQ("which points to 3" + OfType("long") + ", which is 2 more than 1", - Explain(m2, &n)); -} - -TEST(PointeeTest, AlwaysExplainsPointee) { - const Matcher<int*> m = Pointee(0); - int n = 42; - EXPECT_EQ("which points to 42" + OfType("int"), Explain(m, &n)); -} - -// An uncopyable class. -class Uncopyable { - public: - Uncopyable() : value_(-1) {} - explicit Uncopyable(int a_value) : value_(a_value) {} - - int value() const { return value_; } - void set_value(int i) { value_ = i; } - - private: - int value_; - GTEST_DISALLOW_COPY_AND_ASSIGN_(Uncopyable); -}; - -// Returns true iff x.value() is positive. -bool ValueIsPositive(const Uncopyable& x) { return x.value() > 0; } - -MATCHER_P(UncopyableIs, inner_matcher, "") { - return ExplainMatchResult(inner_matcher, arg.value(), result_listener); -} - -// A user-defined struct for testing Field(). -struct AStruct { - AStruct() : x(0), y(1.0), z(5), p(NULL) {} - AStruct(const AStruct& rhs) - : x(rhs.x), y(rhs.y), z(rhs.z.value()), p(rhs.p) {} - - int x; // A non-const field. - const double y; // A const field. - Uncopyable z; // An uncopyable field. - const char* p; // A pointer field. - - private: - GTEST_DISALLOW_ASSIGN_(AStruct); -}; - -// A derived struct for testing Field(). -struct DerivedStruct : public AStruct { - char ch; - - private: - GTEST_DISALLOW_ASSIGN_(DerivedStruct); -}; - -// Tests that Field(&Foo::field, ...) works when field is non-const. -TEST(FieldTest, WorksForNonConstField) { - Matcher<AStruct> m = Field(&AStruct::x, Ge(0)); - Matcher<AStruct> m_with_name = Field("x", &AStruct::x, Ge(0)); - - AStruct a; - EXPECT_TRUE(m.Matches(a)); - EXPECT_TRUE(m_with_name.Matches(a)); - a.x = -1; - EXPECT_FALSE(m.Matches(a)); - EXPECT_FALSE(m_with_name.Matches(a)); -} - -// Tests that Field(&Foo::field, ...) works when field is const. -TEST(FieldTest, WorksForConstField) { - AStruct a; - - Matcher<AStruct> m = Field(&AStruct::y, Ge(0.0)); - Matcher<AStruct> m_with_name = Field("y", &AStruct::y, Ge(0.0)); - EXPECT_TRUE(m.Matches(a)); - EXPECT_TRUE(m_with_name.Matches(a)); - m = Field(&AStruct::y, Le(0.0)); - m_with_name = Field("y", &AStruct::y, Le(0.0)); - EXPECT_FALSE(m.Matches(a)); - EXPECT_FALSE(m_with_name.Matches(a)); -} - -// Tests that Field(&Foo::field, ...) works when field is not copyable. -TEST(FieldTest, WorksForUncopyableField) { - AStruct a; - - Matcher<AStruct> m = Field(&AStruct::z, Truly(ValueIsPositive)); - EXPECT_TRUE(m.Matches(a)); - m = Field(&AStruct::z, Not(Truly(ValueIsPositive))); - EXPECT_FALSE(m.Matches(a)); -} - -// Tests that Field(&Foo::field, ...) works when field is a pointer. -TEST(FieldTest, WorksForPointerField) { - // Matching against NULL. - Matcher<AStruct> m = Field(&AStruct::p, static_cast<const char*>(NULL)); - AStruct a; - EXPECT_TRUE(m.Matches(a)); - a.p = "hi"; - EXPECT_FALSE(m.Matches(a)); - - // Matching a pointer that is not NULL. - m = Field(&AStruct::p, StartsWith("hi")); - a.p = "hill"; - EXPECT_TRUE(m.Matches(a)); - a.p = "hole"; - EXPECT_FALSE(m.Matches(a)); -} - -// Tests that Field() works when the object is passed by reference. -TEST(FieldTest, WorksForByRefArgument) { - Matcher<const AStruct&> m = Field(&AStruct::x, Ge(0)); - - AStruct a; - EXPECT_TRUE(m.Matches(a)); - a.x = -1; - EXPECT_FALSE(m.Matches(a)); -} - -// Tests that Field(&Foo::field, ...) works when the argument's type -// is a sub-type of Foo. -TEST(FieldTest, WorksForArgumentOfSubType) { - // Note that the matcher expects DerivedStruct but we say AStruct - // inside Field(). - Matcher<const DerivedStruct&> m = Field(&AStruct::x, Ge(0)); - - DerivedStruct d; - EXPECT_TRUE(m.Matches(d)); - d.x = -1; - EXPECT_FALSE(m.Matches(d)); -} - -// Tests that Field(&Foo::field, m) works when field's type and m's -// argument type are compatible but not the same. -TEST(FieldTest, WorksForCompatibleMatcherType) { - // The field is an int, but the inner matcher expects a signed char. - Matcher<const AStruct&> m = Field(&AStruct::x, - Matcher<signed char>(Ge(0))); - - AStruct a; - EXPECT_TRUE(m.Matches(a)); - a.x = -1; - EXPECT_FALSE(m.Matches(a)); -} - -// Tests that Field() can describe itself. -TEST(FieldTest, CanDescribeSelf) { - Matcher<const AStruct&> m = Field(&AStruct::x, Ge(0)); - - EXPECT_EQ("is an object whose given field is >= 0", Describe(m)); - EXPECT_EQ("is an object whose given field isn't >= 0", DescribeNegation(m)); -} - -TEST(FieldTest, CanDescribeSelfWithFieldName) { - Matcher<const AStruct&> m = Field("field_name", &AStruct::x, Ge(0)); - - EXPECT_EQ("is an object whose field `field_name` is >= 0", Describe(m)); - EXPECT_EQ("is an object whose field `field_name` isn't >= 0", - DescribeNegation(m)); -} - -// Tests that Field() can explain the match result. -TEST(FieldTest, CanExplainMatchResult) { - Matcher<const AStruct&> m = Field(&AStruct::x, Ge(0)); - - AStruct a; - a.x = 1; - EXPECT_EQ("whose given field is 1" + OfType("int"), Explain(m, a)); - - m = Field(&AStruct::x, GreaterThan(0)); - EXPECT_EQ( - "whose given field is 1" + OfType("int") + ", which is 1 more than 0", - Explain(m, a)); -} - -TEST(FieldTest, CanExplainMatchResultWithFieldName) { - Matcher<const AStruct&> m = Field("field_name", &AStruct::x, Ge(0)); - - AStruct a; - a.x = 1; - EXPECT_EQ("whose field `field_name` is 1" + OfType("int"), Explain(m, a)); - - m = Field("field_name", &AStruct::x, GreaterThan(0)); - EXPECT_EQ("whose field `field_name` is 1" + OfType("int") + - ", which is 1 more than 0", - Explain(m, a)); -} - -// Tests that Field() works when the argument is a pointer to const. -TEST(FieldForPointerTest, WorksForPointerToConst) { - Matcher<const AStruct*> m = Field(&AStruct::x, Ge(0)); - - AStruct a; - EXPECT_TRUE(m.Matches(&a)); - a.x = -1; - EXPECT_FALSE(m.Matches(&a)); -} - -// Tests that Field() works when the argument is a pointer to non-const. -TEST(FieldForPointerTest, WorksForPointerToNonConst) { - Matcher<AStruct*> m = Field(&AStruct::x, Ge(0)); - - AStruct a; - EXPECT_TRUE(m.Matches(&a)); - a.x = -1; - EXPECT_FALSE(m.Matches(&a)); -} - -// Tests that Field() works when the argument is a reference to a const pointer. -TEST(FieldForPointerTest, WorksForReferenceToConstPointer) { - Matcher<AStruct* const&> m = Field(&AStruct::x, Ge(0)); - - AStruct a; - EXPECT_TRUE(m.Matches(&a)); - a.x = -1; - EXPECT_FALSE(m.Matches(&a)); -} - -// Tests that Field() does not match the NULL pointer. -TEST(FieldForPointerTest, DoesNotMatchNull) { - Matcher<const AStruct*> m = Field(&AStruct::x, _); - EXPECT_FALSE(m.Matches(NULL)); -} - -// Tests that Field(&Foo::field, ...) works when the argument's type -// is a sub-type of const Foo*. -TEST(FieldForPointerTest, WorksForArgumentOfSubType) { - // Note that the matcher expects DerivedStruct but we say AStruct - // inside Field(). - Matcher<DerivedStruct*> m = Field(&AStruct::x, Ge(0)); - - DerivedStruct d; - EXPECT_TRUE(m.Matches(&d)); - d.x = -1; - EXPECT_FALSE(m.Matches(&d)); -} - -// Tests that Field() can describe itself when used to match a pointer. -TEST(FieldForPointerTest, CanDescribeSelf) { - Matcher<const AStruct*> m = Field(&AStruct::x, Ge(0)); - - EXPECT_EQ("is an object whose given field is >= 0", Describe(m)); - EXPECT_EQ("is an object whose given field isn't >= 0", DescribeNegation(m)); -} - -TEST(FieldForPointerTest, CanDescribeSelfWithFieldName) { - Matcher<const AStruct*> m = Field("field_name", &AStruct::x, Ge(0)); - - EXPECT_EQ("is an object whose field `field_name` is >= 0", Describe(m)); - EXPECT_EQ("is an object whose field `field_name` isn't >= 0", - DescribeNegation(m)); -} - -// Tests that Field() can explain the result of matching a pointer. -TEST(FieldForPointerTest, CanExplainMatchResult) { - Matcher<const AStruct*> m = Field(&AStruct::x, Ge(0)); - - AStruct a; - a.x = 1; - EXPECT_EQ("", Explain(m, static_cast<const AStruct*>(NULL))); - EXPECT_EQ("which points to an object whose given field is 1" + OfType("int"), - Explain(m, &a)); - - m = Field(&AStruct::x, GreaterThan(0)); - EXPECT_EQ("which points to an object whose given field is 1" + OfType("int") + - ", which is 1 more than 0", Explain(m, &a)); -} - -TEST(FieldForPointerTest, CanExplainMatchResultWithFieldName) { - Matcher<const AStruct*> m = Field("field_name", &AStruct::x, Ge(0)); - - AStruct a; - a.x = 1; - EXPECT_EQ("", Explain(m, static_cast<const AStruct*>(NULL))); - EXPECT_EQ( - "which points to an object whose field `field_name` is 1" + OfType("int"), - Explain(m, &a)); - - m = Field("field_name", &AStruct::x, GreaterThan(0)); - EXPECT_EQ("which points to an object whose field `field_name` is 1" + - OfType("int") + ", which is 1 more than 0", - Explain(m, &a)); -} - -// A user-defined class for testing Property(). -class AClass { - public: - AClass() : n_(0) {} - - // A getter that returns a non-reference. - int n() const { return n_; } - - void set_n(int new_n) { n_ = new_n; } - - // A getter that returns a reference to const. - const std::string& s() const { return s_; } - -#if GTEST_LANG_CXX11 - const std::string& s_ref() const & { return s_; } -#endif - - void set_s(const std::string& new_s) { s_ = new_s; } - - // A getter that returns a reference to non-const. - double& x() const { return x_; } - - private: - int n_; - std::string s_; - - static double x_; -}; - -double AClass::x_ = 0.0; - -// A derived class for testing Property(). -class DerivedClass : public AClass { - public: - int k() const { return k_; } - private: - int k_; -}; - -// Tests that Property(&Foo::property, ...) works when property() -// returns a non-reference. -TEST(PropertyTest, WorksForNonReferenceProperty) { - Matcher<const AClass&> m = Property(&AClass::n, Ge(0)); - Matcher<const AClass&> m_with_name = Property("n", &AClass::n, Ge(0)); - - AClass a; - a.set_n(1); - EXPECT_TRUE(m.Matches(a)); - EXPECT_TRUE(m_with_name.Matches(a)); - - a.set_n(-1); - EXPECT_FALSE(m.Matches(a)); - EXPECT_FALSE(m_with_name.Matches(a)); -} - -// Tests that Property(&Foo::property, ...) works when property() -// returns a reference to const. -TEST(PropertyTest, WorksForReferenceToConstProperty) { - Matcher<const AClass&> m = Property(&AClass::s, StartsWith("hi")); - Matcher<const AClass&> m_with_name = - Property("s", &AClass::s, StartsWith("hi")); - - AClass a; - a.set_s("hill"); - EXPECT_TRUE(m.Matches(a)); - EXPECT_TRUE(m_with_name.Matches(a)); - - a.set_s("hole"); - EXPECT_FALSE(m.Matches(a)); - EXPECT_FALSE(m_with_name.Matches(a)); -} - -#if GTEST_LANG_CXX11 -// Tests that Property(&Foo::property, ...) works when property() is -// ref-qualified. -TEST(PropertyTest, WorksForRefQualifiedProperty) { - Matcher<const AClass&> m = Property(&AClass::s_ref, StartsWith("hi")); - - AClass a; - a.set_s("hill"); - EXPECT_TRUE(m.Matches(a)); - - a.set_s("hole"); - EXPECT_FALSE(m.Matches(a)); -} -#endif - -// Tests that Property(&Foo::property, ...) works when property() -// returns a reference to non-const. -TEST(PropertyTest, WorksForReferenceToNonConstProperty) { - double x = 0.0; - AClass a; - - Matcher<const AClass&> m = Property(&AClass::x, Ref(x)); - EXPECT_FALSE(m.Matches(a)); - - m = Property(&AClass::x, Not(Ref(x))); - EXPECT_TRUE(m.Matches(a)); -} - -// Tests that Property(&Foo::property, ...) works when the argument is -// passed by value. -TEST(PropertyTest, WorksForByValueArgument) { - Matcher<AClass> m = Property(&AClass::s, StartsWith("hi")); - - AClass a; - a.set_s("hill"); - EXPECT_TRUE(m.Matches(a)); - - a.set_s("hole"); - EXPECT_FALSE(m.Matches(a)); -} - -// Tests that Property(&Foo::property, ...) works when the argument's -// type is a sub-type of Foo. -TEST(PropertyTest, WorksForArgumentOfSubType) { - // The matcher expects a DerivedClass, but inside the Property() we - // say AClass. - Matcher<const DerivedClass&> m = Property(&AClass::n, Ge(0)); - - DerivedClass d; - d.set_n(1); - EXPECT_TRUE(m.Matches(d)); - - d.set_n(-1); - EXPECT_FALSE(m.Matches(d)); -} - -// Tests that Property(&Foo::property, m) works when property()'s type -// and m's argument type are compatible but different. -TEST(PropertyTest, WorksForCompatibleMatcherType) { - // n() returns an int but the inner matcher expects a signed char. - Matcher<const AClass&> m = Property(&AClass::n, - Matcher<signed char>(Ge(0))); - - Matcher<const AClass&> m_with_name = - Property("n", &AClass::n, Matcher<signed char>(Ge(0))); - - AClass a; - EXPECT_TRUE(m.Matches(a)); - EXPECT_TRUE(m_with_name.Matches(a)); - a.set_n(-1); - EXPECT_FALSE(m.Matches(a)); - EXPECT_FALSE(m_with_name.Matches(a)); -} - -// Tests that Property() can describe itself. -TEST(PropertyTest, CanDescribeSelf) { - Matcher<const AClass&> m = Property(&AClass::n, Ge(0)); - - EXPECT_EQ("is an object whose given property is >= 0", Describe(m)); - EXPECT_EQ("is an object whose given property isn't >= 0", - DescribeNegation(m)); -} - -TEST(PropertyTest, CanDescribeSelfWithPropertyName) { - Matcher<const AClass&> m = Property("fancy_name", &AClass::n, Ge(0)); - - EXPECT_EQ("is an object whose property `fancy_name` is >= 0", Describe(m)); - EXPECT_EQ("is an object whose property `fancy_name` isn't >= 0", - DescribeNegation(m)); -} - -// Tests that Property() can explain the match result. -TEST(PropertyTest, CanExplainMatchResult) { - Matcher<const AClass&> m = Property(&AClass::n, Ge(0)); - - AClass a; - a.set_n(1); - EXPECT_EQ("whose given property is 1" + OfType("int"), Explain(m, a)); - - m = Property(&AClass::n, GreaterThan(0)); - EXPECT_EQ( - "whose given property is 1" + OfType("int") + ", which is 1 more than 0", - Explain(m, a)); -} - -TEST(PropertyTest, CanExplainMatchResultWithPropertyName) { - Matcher<const AClass&> m = Property("fancy_name", &AClass::n, Ge(0)); - - AClass a; - a.set_n(1); - EXPECT_EQ("whose property `fancy_name` is 1" + OfType("int"), Explain(m, a)); - - m = Property("fancy_name", &AClass::n, GreaterThan(0)); - EXPECT_EQ("whose property `fancy_name` is 1" + OfType("int") + - ", which is 1 more than 0", - Explain(m, a)); -} - -// Tests that Property() works when the argument is a pointer to const. -TEST(PropertyForPointerTest, WorksForPointerToConst) { - Matcher<const AClass*> m = Property(&AClass::n, Ge(0)); - - AClass a; - a.set_n(1); - EXPECT_TRUE(m.Matches(&a)); - - a.set_n(-1); - EXPECT_FALSE(m.Matches(&a)); -} - -// Tests that Property() works when the argument is a pointer to non-const. -TEST(PropertyForPointerTest, WorksForPointerToNonConst) { - Matcher<AClass*> m = Property(&AClass::s, StartsWith("hi")); - - AClass a; - a.set_s("hill"); - EXPECT_TRUE(m.Matches(&a)); - - a.set_s("hole"); - EXPECT_FALSE(m.Matches(&a)); -} - -// Tests that Property() works when the argument is a reference to a -// const pointer. -TEST(PropertyForPointerTest, WorksForReferenceToConstPointer) { - Matcher<AClass* const&> m = Property(&AClass::s, StartsWith("hi")); - - AClass a; - a.set_s("hill"); - EXPECT_TRUE(m.Matches(&a)); - - a.set_s("hole"); - EXPECT_FALSE(m.Matches(&a)); -} - -// Tests that Property() does not match the NULL pointer. -TEST(PropertyForPointerTest, WorksForReferenceToNonConstProperty) { - Matcher<const AClass*> m = Property(&AClass::x, _); - EXPECT_FALSE(m.Matches(NULL)); -} - -// Tests that Property(&Foo::property, ...) works when the argument's -// type is a sub-type of const Foo*. -TEST(PropertyForPointerTest, WorksForArgumentOfSubType) { - // The matcher expects a DerivedClass, but inside the Property() we - // say AClass. - Matcher<const DerivedClass*> m = Property(&AClass::n, Ge(0)); - - DerivedClass d; - d.set_n(1); - EXPECT_TRUE(m.Matches(&d)); - - d.set_n(-1); - EXPECT_FALSE(m.Matches(&d)); -} - -// Tests that Property() can describe itself when used to match a pointer. -TEST(PropertyForPointerTest, CanDescribeSelf) { - Matcher<const AClass*> m = Property(&AClass::n, Ge(0)); - - EXPECT_EQ("is an object whose given property is >= 0", Describe(m)); - EXPECT_EQ("is an object whose given property isn't >= 0", - DescribeNegation(m)); -} - -TEST(PropertyForPointerTest, CanDescribeSelfWithPropertyDescription) { - Matcher<const AClass*> m = Property("fancy_name", &AClass::n, Ge(0)); - - EXPECT_EQ("is an object whose property `fancy_name` is >= 0", Describe(m)); - EXPECT_EQ("is an object whose property `fancy_name` isn't >= 0", - DescribeNegation(m)); -} - -// Tests that Property() can explain the result of matching a pointer. -TEST(PropertyForPointerTest, CanExplainMatchResult) { - Matcher<const AClass*> m = Property(&AClass::n, Ge(0)); - - AClass a; - a.set_n(1); - EXPECT_EQ("", Explain(m, static_cast<const AClass*>(NULL))); - EXPECT_EQ( - "which points to an object whose given property is 1" + OfType("int"), - Explain(m, &a)); - - m = Property(&AClass::n, GreaterThan(0)); - EXPECT_EQ("which points to an object whose given property is 1" + - OfType("int") + ", which is 1 more than 0", - Explain(m, &a)); -} - -TEST(PropertyForPointerTest, CanExplainMatchResultWithPropertyName) { - Matcher<const AClass*> m = Property("fancy_name", &AClass::n, Ge(0)); - - AClass a; - a.set_n(1); - EXPECT_EQ("", Explain(m, static_cast<const AClass*>(NULL))); - EXPECT_EQ("which points to an object whose property `fancy_name` is 1" + - OfType("int"), - Explain(m, &a)); - - m = Property("fancy_name", &AClass::n, GreaterThan(0)); - EXPECT_EQ("which points to an object whose property `fancy_name` is 1" + - OfType("int") + ", which is 1 more than 0", - Explain(m, &a)); -} - -// Tests ResultOf. - -// Tests that ResultOf(f, ...) compiles and works as expected when f is a -// function pointer. -std::string IntToStringFunction(int input) { - return input == 1 ? "foo" : "bar"; -} - -TEST(ResultOfTest, WorksForFunctionPointers) { - Matcher<int> matcher = ResultOf(&IntToStringFunction, Eq(std::string("foo"))); - - EXPECT_TRUE(matcher.Matches(1)); - EXPECT_FALSE(matcher.Matches(2)); -} - -// Tests that ResultOf() can describe itself. -TEST(ResultOfTest, CanDescribeItself) { - Matcher<int> matcher = ResultOf(&IntToStringFunction, StrEq("foo")); - - EXPECT_EQ("is mapped by the given callable to a value that " - "is equal to \"foo\"", Describe(matcher)); - EXPECT_EQ("is mapped by the given callable to a value that " - "isn't equal to \"foo\"", DescribeNegation(matcher)); -} - -// Tests that ResultOf() can explain the match result. -int IntFunction(int input) { return input == 42 ? 80 : 90; } - -TEST(ResultOfTest, CanExplainMatchResult) { - Matcher<int> matcher = ResultOf(&IntFunction, Ge(85)); - EXPECT_EQ("which is mapped by the given callable to 90" + OfType("int"), - Explain(matcher, 36)); - - matcher = ResultOf(&IntFunction, GreaterThan(85)); - EXPECT_EQ("which is mapped by the given callable to 90" + OfType("int") + - ", which is 5 more than 85", Explain(matcher, 36)); -} - -// Tests that ResultOf(f, ...) compiles and works as expected when f(x) -// returns a non-reference. -TEST(ResultOfTest, WorksForNonReferenceResults) { - Matcher<int> matcher = ResultOf(&IntFunction, Eq(80)); - - EXPECT_TRUE(matcher.Matches(42)); - EXPECT_FALSE(matcher.Matches(36)); -} - -// Tests that ResultOf(f, ...) compiles and works as expected when f(x) -// returns a reference to non-const. -double& DoubleFunction(double& input) { return input; } // NOLINT - -Uncopyable& RefUncopyableFunction(Uncopyable& obj) { // NOLINT - return obj; -} - -TEST(ResultOfTest, WorksForReferenceToNonConstResults) { - double x = 3.14; - double x2 = x; - Matcher<double&> matcher = ResultOf(&DoubleFunction, Ref(x)); - - EXPECT_TRUE(matcher.Matches(x)); - EXPECT_FALSE(matcher.Matches(x2)); - - // Test that ResultOf works with uncopyable objects - Uncopyable obj(0); - Uncopyable obj2(0); - Matcher<Uncopyable&> matcher2 = - ResultOf(&RefUncopyableFunction, Ref(obj)); - - EXPECT_TRUE(matcher2.Matches(obj)); - EXPECT_FALSE(matcher2.Matches(obj2)); -} - -// Tests that ResultOf(f, ...) compiles and works as expected when f(x) -// returns a reference to const. -const std::string& StringFunction(const std::string& input) { return input; } - -TEST(ResultOfTest, WorksForReferenceToConstResults) { - std::string s = "foo"; - std::string s2 = s; - Matcher<const std::string&> matcher = ResultOf(&StringFunction, Ref(s)); - - EXPECT_TRUE(matcher.Matches(s)); - EXPECT_FALSE(matcher.Matches(s2)); -} - -// Tests that ResultOf(f, m) works when f(x) and m's -// argument types are compatible but different. -TEST(ResultOfTest, WorksForCompatibleMatcherTypes) { - // IntFunction() returns int but the inner matcher expects a signed char. - Matcher<int> matcher = ResultOf(IntFunction, Matcher<signed char>(Ge(85))); - - EXPECT_TRUE(matcher.Matches(36)); - EXPECT_FALSE(matcher.Matches(42)); -} - -// Tests that the program aborts when ResultOf is passed -// a NULL function pointer. -TEST(ResultOfDeathTest, DiesOnNullFunctionPointers) { - EXPECT_DEATH_IF_SUPPORTED( - ResultOf(static_cast<std::string (*)(int dummy)>(NULL), - Eq(std::string("foo"))), - "NULL function pointer is passed into ResultOf\\(\\)\\."); -} - -// Tests that ResultOf(f, ...) compiles and works as expected when f is a -// function reference. -TEST(ResultOfTest, WorksForFunctionReferences) { - Matcher<int> matcher = ResultOf(IntToStringFunction, StrEq("foo")); - EXPECT_TRUE(matcher.Matches(1)); - EXPECT_FALSE(matcher.Matches(2)); -} - -// Tests that ResultOf(f, ...) compiles and works as expected when f is a -// function object. -struct Functor : public ::std::unary_function<int, std::string> { - result_type operator()(argument_type input) const { - return IntToStringFunction(input); - } -}; - -TEST(ResultOfTest, WorksForFunctors) { - Matcher<int> matcher = ResultOf(Functor(), Eq(std::string("foo"))); - - EXPECT_TRUE(matcher.Matches(1)); - EXPECT_FALSE(matcher.Matches(2)); -} - -// Tests that ResultOf(f, ...) compiles and works as expected when f is a -// functor with more then one operator() defined. ResultOf() must work -// for each defined operator(). -struct PolymorphicFunctor { - typedef int result_type; - int operator()(int n) { return n; } - int operator()(const char* s) { return static_cast<int>(strlen(s)); } -}; - -TEST(ResultOfTest, WorksForPolymorphicFunctors) { - Matcher<int> matcher_int = ResultOf(PolymorphicFunctor(), Ge(5)); - - EXPECT_TRUE(matcher_int.Matches(10)); - EXPECT_FALSE(matcher_int.Matches(2)); - - Matcher<const char*> matcher_string = ResultOf(PolymorphicFunctor(), Ge(5)); - - EXPECT_TRUE(matcher_string.Matches("long string")); - EXPECT_FALSE(matcher_string.Matches("shrt")); -} - -const int* ReferencingFunction(const int& n) { return &n; } - -struct ReferencingFunctor { - typedef const int* result_type; - result_type operator()(const int& n) { return &n; } -}; - -TEST(ResultOfTest, WorksForReferencingCallables) { - const int n = 1; - const int n2 = 1; - Matcher<const int&> matcher2 = ResultOf(ReferencingFunction, Eq(&n)); - EXPECT_TRUE(matcher2.Matches(n)); - EXPECT_FALSE(matcher2.Matches(n2)); - - Matcher<const int&> matcher3 = ResultOf(ReferencingFunctor(), Eq(&n)); - EXPECT_TRUE(matcher3.Matches(n)); - EXPECT_FALSE(matcher3.Matches(n2)); -} - -class DivisibleByImpl { - public: - explicit DivisibleByImpl(int a_divider) : divider_(a_divider) {} - - // For testing using ExplainMatchResultTo() with polymorphic matchers. - template <typename T> - bool MatchAndExplain(const T& n, MatchResultListener* listener) const { - *listener << "which is " << (n % divider_) << " modulo " - << divider_; - return (n % divider_) == 0; - } - - void DescribeTo(ostream* os) const { - *os << "is divisible by " << divider_; - } - - void DescribeNegationTo(ostream* os) const { - *os << "is not divisible by " << divider_; - } - - void set_divider(int a_divider) { divider_ = a_divider; } - int divider() const { return divider_; } - - private: - int divider_; -}; - -PolymorphicMatcher<DivisibleByImpl> DivisibleBy(int n) { - return MakePolymorphicMatcher(DivisibleByImpl(n)); -} - -// Tests that when AllOf() fails, only the first failing matcher is -// asked to explain why. -TEST(ExplainMatchResultTest, AllOf_False_False) { - const Matcher<int> m = AllOf(DivisibleBy(4), DivisibleBy(3)); - EXPECT_EQ("which is 1 modulo 4", Explain(m, 5)); -} - -// Tests that when AllOf() fails, only the first failing matcher is -// asked to explain why. -TEST(ExplainMatchResultTest, AllOf_False_True) { - const Matcher<int> m = AllOf(DivisibleBy(4), DivisibleBy(3)); - EXPECT_EQ("which is 2 modulo 4", Explain(m, 6)); -} - -// Tests that when AllOf() fails, only the first failing matcher is -// asked to explain why. -TEST(ExplainMatchResultTest, AllOf_True_False) { - const Matcher<int> m = AllOf(Ge(1), DivisibleBy(3)); - EXPECT_EQ("which is 2 modulo 3", Explain(m, 5)); -} - -// Tests that when AllOf() succeeds, all matchers are asked to explain -// why. -TEST(ExplainMatchResultTest, AllOf_True_True) { - const Matcher<int> m = AllOf(DivisibleBy(2), DivisibleBy(3)); - EXPECT_EQ("which is 0 modulo 2, and which is 0 modulo 3", Explain(m, 6)); -} - -TEST(ExplainMatchResultTest, AllOf_True_True_2) { - const Matcher<int> m = AllOf(Ge(2), Le(3)); - EXPECT_EQ("", Explain(m, 2)); -} - -TEST(ExplainmatcherResultTest, MonomorphicMatcher) { - const Matcher<int> m = GreaterThan(5); - EXPECT_EQ("which is 1 more than 5", Explain(m, 6)); -} - -// The following two tests verify that values without a public copy -// ctor can be used as arguments to matchers like Eq(), Ge(), and etc -// with the help of ByRef(). - -class NotCopyable { - public: - explicit NotCopyable(int a_value) : value_(a_value) {} - - int value() const { return value_; } - - bool operator==(const NotCopyable& rhs) const { - return value() == rhs.value(); - } - - bool operator>=(const NotCopyable& rhs) const { - return value() >= rhs.value(); - } - private: - int value_; - - GTEST_DISALLOW_COPY_AND_ASSIGN_(NotCopyable); -}; - -TEST(ByRefTest, AllowsNotCopyableConstValueInMatchers) { - const NotCopyable const_value1(1); - const Matcher<const NotCopyable&> m = Eq(ByRef(const_value1)); - - const NotCopyable n1(1), n2(2); - EXPECT_TRUE(m.Matches(n1)); - EXPECT_FALSE(m.Matches(n2)); -} - -TEST(ByRefTest, AllowsNotCopyableValueInMatchers) { - NotCopyable value2(2); - const Matcher<NotCopyable&> m = Ge(ByRef(value2)); - - NotCopyable n1(1), n2(2); - EXPECT_FALSE(m.Matches(n1)); - EXPECT_TRUE(m.Matches(n2)); -} - -TEST(IsEmptyTest, ImplementsIsEmpty) { - vector<int> container; - EXPECT_THAT(container, IsEmpty()); - container.push_back(0); - EXPECT_THAT(container, Not(IsEmpty())); - container.push_back(1); - EXPECT_THAT(container, Not(IsEmpty())); -} - -TEST(IsEmptyTest, WorksWithString) { - std::string text; - EXPECT_THAT(text, IsEmpty()); - text = "foo"; - EXPECT_THAT(text, Not(IsEmpty())); - text = std::string("\0", 1); - EXPECT_THAT(text, Not(IsEmpty())); -} - -TEST(IsEmptyTest, CanDescribeSelf) { - Matcher<vector<int> > m = IsEmpty(); - EXPECT_EQ("is empty", Describe(m)); - EXPECT_EQ("isn't empty", DescribeNegation(m)); -} - -TEST(IsEmptyTest, ExplainsResult) { - Matcher<vector<int> > m = IsEmpty(); - vector<int> container; - EXPECT_EQ("", Explain(m, container)); - container.push_back(0); - EXPECT_EQ("whose size is 1", Explain(m, container)); -} - -TEST(IsTrueTest, IsTrueIsFalse) { - EXPECT_THAT(true, IsTrue()); - EXPECT_THAT(false, IsFalse()); - EXPECT_THAT(true, Not(IsFalse())); - EXPECT_THAT(false, Not(IsTrue())); - EXPECT_THAT(0, Not(IsTrue())); - EXPECT_THAT(0, IsFalse()); - EXPECT_THAT(NULL, Not(IsTrue())); - EXPECT_THAT(NULL, IsFalse()); - EXPECT_THAT(-1, IsTrue()); - EXPECT_THAT(-1, Not(IsFalse())); - EXPECT_THAT(1, IsTrue()); - EXPECT_THAT(1, Not(IsFalse())); - EXPECT_THAT(2, IsTrue()); - EXPECT_THAT(2, Not(IsFalse())); - int a = 42; - EXPECT_THAT(a, IsTrue()); - EXPECT_THAT(a, Not(IsFalse())); - EXPECT_THAT(&a, IsTrue()); - EXPECT_THAT(&a, Not(IsFalse())); - EXPECT_THAT(false, Not(IsTrue())); - EXPECT_THAT(true, Not(IsFalse())); -#if GTEST_LANG_CXX11 - EXPECT_THAT(std::true_type(), IsTrue()); - EXPECT_THAT(std::true_type(), Not(IsFalse())); - EXPECT_THAT(std::false_type(), IsFalse()); - EXPECT_THAT(std::false_type(), Not(IsTrue())); - EXPECT_THAT(nullptr, Not(IsTrue())); - EXPECT_THAT(nullptr, IsFalse()); - std::unique_ptr<int> null_unique; - std::unique_ptr<int> nonnull_unique(new int(0)); - EXPECT_THAT(null_unique, Not(IsTrue())); - EXPECT_THAT(null_unique, IsFalse()); - EXPECT_THAT(nonnull_unique, IsTrue()); - EXPECT_THAT(nonnull_unique, Not(IsFalse())); -#endif // GTEST_LANG_CXX11 -} - -TEST(SizeIsTest, ImplementsSizeIs) { - vector<int> container; - EXPECT_THAT(container, SizeIs(0)); - EXPECT_THAT(container, Not(SizeIs(1))); - container.push_back(0); - EXPECT_THAT(container, Not(SizeIs(0))); - EXPECT_THAT(container, SizeIs(1)); - container.push_back(0); - EXPECT_THAT(container, Not(SizeIs(0))); - EXPECT_THAT(container, SizeIs(2)); -} - -TEST(SizeIsTest, WorksWithMap) { - map<std::string, int> container; - EXPECT_THAT(container, SizeIs(0)); - EXPECT_THAT(container, Not(SizeIs(1))); - container.insert(make_pair("foo", 1)); - EXPECT_THAT(container, Not(SizeIs(0))); - EXPECT_THAT(container, SizeIs(1)); - container.insert(make_pair("bar", 2)); - EXPECT_THAT(container, Not(SizeIs(0))); - EXPECT_THAT(container, SizeIs(2)); -} - -TEST(SizeIsTest, WorksWithReferences) { - vector<int> container; - Matcher<const vector<int>&> m = SizeIs(1); - EXPECT_THAT(container, Not(m)); - container.push_back(0); - EXPECT_THAT(container, m); -} - -TEST(SizeIsTest, CanDescribeSelf) { - Matcher<vector<int> > m = SizeIs(2); - EXPECT_EQ("size is equal to 2", Describe(m)); - EXPECT_EQ("size isn't equal to 2", DescribeNegation(m)); -} - -TEST(SizeIsTest, ExplainsResult) { - Matcher<vector<int> > m1 = SizeIs(2); - Matcher<vector<int> > m2 = SizeIs(Lt(2u)); - Matcher<vector<int> > m3 = SizeIs(AnyOf(0, 3)); - Matcher<vector<int> > m4 = SizeIs(GreaterThan(1)); - vector<int> container; - EXPECT_EQ("whose size 0 doesn't match", Explain(m1, container)); - EXPECT_EQ("whose size 0 matches", Explain(m2, container)); - EXPECT_EQ("whose size 0 matches", Explain(m3, container)); - EXPECT_EQ("whose size 0 doesn't match, which is 1 less than 1", - Explain(m4, container)); - container.push_back(0); - container.push_back(0); - EXPECT_EQ("whose size 2 matches", Explain(m1, container)); - EXPECT_EQ("whose size 2 doesn't match", Explain(m2, container)); - EXPECT_EQ("whose size 2 doesn't match", Explain(m3, container)); - EXPECT_EQ("whose size 2 matches, which is 1 more than 1", - Explain(m4, container)); -} - -#if GTEST_HAS_TYPED_TEST -// Tests ContainerEq with different container types, and -// different element types. - -template <typename T> -class ContainerEqTest : public testing::Test {}; - -typedef testing::Types< - set<int>, - vector<size_t>, - multiset<size_t>, - list<int> > - ContainerEqTestTypes; - -TYPED_TEST_CASE(ContainerEqTest, ContainerEqTestTypes); - -// Tests that the filled container is equal to itself. -TYPED_TEST(ContainerEqTest, EqualsSelf) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - TypeParam my_set(vals, vals + 6); - const Matcher<TypeParam> m = ContainerEq(my_set); - EXPECT_TRUE(m.Matches(my_set)); - EXPECT_EQ("", Explain(m, my_set)); -} - -// Tests that missing values are reported. -TYPED_TEST(ContainerEqTest, ValueMissing) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {2, 1, 8, 5}; - TypeParam my_set(vals, vals + 6); - TypeParam test_set(test_vals, test_vals + 4); - const Matcher<TypeParam> m = ContainerEq(my_set); - EXPECT_FALSE(m.Matches(test_set)); - EXPECT_EQ("which doesn't have these expected elements: 3", - Explain(m, test_set)); -} - -// Tests that added values are reported. -TYPED_TEST(ContainerEqTest, ValueAdded) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {1, 2, 3, 5, 8, 46}; - TypeParam my_set(vals, vals + 6); - TypeParam test_set(test_vals, test_vals + 6); - const Matcher<const TypeParam&> m = ContainerEq(my_set); - EXPECT_FALSE(m.Matches(test_set)); - EXPECT_EQ("which has these unexpected elements: 46", Explain(m, test_set)); -} - -// Tests that added and missing values are reported together. -TYPED_TEST(ContainerEqTest, ValueAddedAndRemoved) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {1, 2, 3, 8, 46}; - TypeParam my_set(vals, vals + 6); - TypeParam test_set(test_vals, test_vals + 5); - const Matcher<TypeParam> m = ContainerEq(my_set); - EXPECT_FALSE(m.Matches(test_set)); - EXPECT_EQ("which has these unexpected elements: 46,\n" - "and doesn't have these expected elements: 5", - Explain(m, test_set)); -} - -// Tests duplicated value -- expect no explanation. -TYPED_TEST(ContainerEqTest, DuplicateDifference) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {1, 2, 3, 5, 8}; - TypeParam my_set(vals, vals + 6); - TypeParam test_set(test_vals, test_vals + 5); - const Matcher<const TypeParam&> m = ContainerEq(my_set); - // Depending on the container, match may be true or false - // But in any case there should be no explanation. - EXPECT_EQ("", Explain(m, test_set)); -} -#endif // GTEST_HAS_TYPED_TEST - -// Tests that mutliple missing values are reported. -// Using just vector here, so order is predictable. -TEST(ContainerEqExtraTest, MultipleValuesMissing) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {2, 1, 5}; - vector<int> my_set(vals, vals + 6); - vector<int> test_set(test_vals, test_vals + 3); - const Matcher<vector<int> > m = ContainerEq(my_set); - EXPECT_FALSE(m.Matches(test_set)); - EXPECT_EQ("which doesn't have these expected elements: 3, 8", - Explain(m, test_set)); -} - -// Tests that added values are reported. -// Using just vector here, so order is predictable. -TEST(ContainerEqExtraTest, MultipleValuesAdded) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {1, 2, 92, 3, 5, 8, 46}; - list<size_t> my_set(vals, vals + 6); - list<size_t> test_set(test_vals, test_vals + 7); - const Matcher<const list<size_t>&> m = ContainerEq(my_set); - EXPECT_FALSE(m.Matches(test_set)); - EXPECT_EQ("which has these unexpected elements: 92, 46", - Explain(m, test_set)); -} - -// Tests that added and missing values are reported together. -TEST(ContainerEqExtraTest, MultipleValuesAddedAndRemoved) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {1, 2, 3, 92, 46}; - list<size_t> my_set(vals, vals + 6); - list<size_t> test_set(test_vals, test_vals + 5); - const Matcher<const list<size_t> > m = ContainerEq(my_set); - EXPECT_FALSE(m.Matches(test_set)); - EXPECT_EQ("which has these unexpected elements: 92, 46,\n" - "and doesn't have these expected elements: 5, 8", - Explain(m, test_set)); -} - -// Tests to see that duplicate elements are detected, -// but (as above) not reported in the explanation. -TEST(ContainerEqExtraTest, MultiSetOfIntDuplicateDifference) { - static const int vals[] = {1, 1, 2, 3, 5, 8}; - static const int test_vals[] = {1, 2, 3, 5, 8}; - vector<int> my_set(vals, vals + 6); - vector<int> test_set(test_vals, test_vals + 5); - const Matcher<vector<int> > m = ContainerEq(my_set); - EXPECT_TRUE(m.Matches(my_set)); - EXPECT_FALSE(m.Matches(test_set)); - // There is nothing to report when both sets contain all the same values. - EXPECT_EQ("", Explain(m, test_set)); -} - -// Tests that ContainerEq works for non-trivial associative containers, -// like maps. -TEST(ContainerEqExtraTest, WorksForMaps) { - map<int, std::string> my_map; - my_map[0] = "a"; - my_map[1] = "b"; - - map<int, std::string> test_map; - test_map[0] = "aa"; - test_map[1] = "b"; - - const Matcher<const map<int, std::string>&> m = ContainerEq(my_map); - EXPECT_TRUE(m.Matches(my_map)); - EXPECT_FALSE(m.Matches(test_map)); - - EXPECT_EQ("which has these unexpected elements: (0, \"aa\"),\n" - "and doesn't have these expected elements: (0, \"a\")", - Explain(m, test_map)); -} - -TEST(ContainerEqExtraTest, WorksForNativeArray) { - int a1[] = {1, 2, 3}; - int a2[] = {1, 2, 3}; - int b[] = {1, 2, 4}; - - EXPECT_THAT(a1, ContainerEq(a2)); - EXPECT_THAT(a1, Not(ContainerEq(b))); -} - -TEST(ContainerEqExtraTest, WorksForTwoDimensionalNativeArray) { - const char a1[][3] = {"hi", "lo"}; - const char a2[][3] = {"hi", "lo"}; - const char b[][3] = {"lo", "hi"}; - - // Tests using ContainerEq() in the first dimension. - EXPECT_THAT(a1, ContainerEq(a2)); - EXPECT_THAT(a1, Not(ContainerEq(b))); - - // Tests using ContainerEq() in the second dimension. - EXPECT_THAT(a1, ElementsAre(ContainerEq(a2[0]), ContainerEq(a2[1]))); - EXPECT_THAT(a1, ElementsAre(Not(ContainerEq(b[0])), ContainerEq(a2[1]))); -} - -TEST(ContainerEqExtraTest, WorksForNativeArrayAsTuple) { - const int a1[] = {1, 2, 3}; - const int a2[] = {1, 2, 3}; - const int b[] = {1, 2, 3, 4}; - - const int* const p1 = a1; - EXPECT_THAT(make_tuple(p1, 3), ContainerEq(a2)); - EXPECT_THAT(make_tuple(p1, 3), Not(ContainerEq(b))); - - const int c[] = {1, 3, 2}; - EXPECT_THAT(make_tuple(p1, 3), Not(ContainerEq(c))); -} - -TEST(ContainerEqExtraTest, CopiesNativeArrayParameter) { - std::string a1[][3] = { - {"hi", "hello", "ciao"}, - {"bye", "see you", "ciao"} - }; - - std::string a2[][3] = { - {"hi", "hello", "ciao"}, - {"bye", "see you", "ciao"} - }; - - const Matcher<const std::string(&)[2][3]> m = ContainerEq(a2); - EXPECT_THAT(a1, m); - - a2[0][0] = "ha"; - EXPECT_THAT(a1, m); -} - -TEST(WhenSortedByTest, WorksForEmptyContainer) { - const vector<int> numbers; - EXPECT_THAT(numbers, WhenSortedBy(less<int>(), ElementsAre())); - EXPECT_THAT(numbers, Not(WhenSortedBy(less<int>(), ElementsAre(1)))); -} - -TEST(WhenSortedByTest, WorksForNonEmptyContainer) { - vector<unsigned> numbers; - numbers.push_back(3); - numbers.push_back(1); - numbers.push_back(2); - numbers.push_back(2); - EXPECT_THAT(numbers, WhenSortedBy(greater<unsigned>(), - ElementsAre(3, 2, 2, 1))); - EXPECT_THAT(numbers, Not(WhenSortedBy(greater<unsigned>(), - ElementsAre(1, 2, 2, 3)))); -} - -TEST(WhenSortedByTest, WorksForNonVectorContainer) { - list<std::string> words; - words.push_back("say"); - words.push_back("hello"); - words.push_back("world"); - EXPECT_THAT(words, WhenSortedBy(less<std::string>(), - ElementsAre("hello", "say", "world"))); - EXPECT_THAT(words, Not(WhenSortedBy(less<std::string>(), - ElementsAre("say", "hello", "world")))); -} - -TEST(WhenSortedByTest, WorksForNativeArray) { - const int numbers[] = {1, 3, 2, 4}; - const int sorted_numbers[] = {1, 2, 3, 4}; - EXPECT_THAT(numbers, WhenSortedBy(less<int>(), ElementsAre(1, 2, 3, 4))); - EXPECT_THAT(numbers, WhenSortedBy(less<int>(), - ElementsAreArray(sorted_numbers))); - EXPECT_THAT(numbers, Not(WhenSortedBy(less<int>(), ElementsAre(1, 3, 2, 4)))); -} - -TEST(WhenSortedByTest, CanDescribeSelf) { - const Matcher<vector<int> > m = WhenSortedBy(less<int>(), ElementsAre(1, 2)); - EXPECT_EQ("(when sorted) has 2 elements where\n" - "element #0 is equal to 1,\n" - "element #1 is equal to 2", - Describe(m)); - EXPECT_EQ("(when sorted) doesn't have 2 elements, or\n" - "element #0 isn't equal to 1, or\n" - "element #1 isn't equal to 2", - DescribeNegation(m)); -} - -TEST(WhenSortedByTest, ExplainsMatchResult) { - const int a[] = {2, 1}; - EXPECT_EQ("which is { 1, 2 } when sorted, whose element #0 doesn't match", - Explain(WhenSortedBy(less<int>(), ElementsAre(2, 3)), a)); - EXPECT_EQ("which is { 1, 2 } when sorted", - Explain(WhenSortedBy(less<int>(), ElementsAre(1, 2)), a)); -} - -// WhenSorted() is a simple wrapper on WhenSortedBy(). Hence we don't -// need to test it as exhaustively as we test the latter. - -TEST(WhenSortedTest, WorksForEmptyContainer) { - const vector<int> numbers; - EXPECT_THAT(numbers, WhenSorted(ElementsAre())); - EXPECT_THAT(numbers, Not(WhenSorted(ElementsAre(1)))); -} - -TEST(WhenSortedTest, WorksForNonEmptyContainer) { - list<std::string> words; - words.push_back("3"); - words.push_back("1"); - words.push_back("2"); - words.push_back("2"); - EXPECT_THAT(words, WhenSorted(ElementsAre("1", "2", "2", "3"))); - EXPECT_THAT(words, Not(WhenSorted(ElementsAre("3", "1", "2", "2")))); -} - -TEST(WhenSortedTest, WorksForMapTypes) { - map<std::string, int> word_counts; - word_counts["and"] = 1; - word_counts["the"] = 1; - word_counts["buffalo"] = 2; - EXPECT_THAT(word_counts, - WhenSorted(ElementsAre(Pair("and", 1), Pair("buffalo", 2), - Pair("the", 1)))); - EXPECT_THAT(word_counts, - Not(WhenSorted(ElementsAre(Pair("and", 1), Pair("the", 1), - Pair("buffalo", 2))))); -} - -TEST(WhenSortedTest, WorksForMultiMapTypes) { - multimap<int, int> ifib; - ifib.insert(make_pair(8, 6)); - ifib.insert(make_pair(2, 3)); - ifib.insert(make_pair(1, 1)); - ifib.insert(make_pair(3, 4)); - ifib.insert(make_pair(1, 2)); - ifib.insert(make_pair(5, 5)); - EXPECT_THAT(ifib, WhenSorted(ElementsAre(Pair(1, 1), - Pair(1, 2), - Pair(2, 3), - Pair(3, 4), - Pair(5, 5), - Pair(8, 6)))); - EXPECT_THAT(ifib, Not(WhenSorted(ElementsAre(Pair(8, 6), - Pair(2, 3), - Pair(1, 1), - Pair(3, 4), - Pair(1, 2), - Pair(5, 5))))); -} - -TEST(WhenSortedTest, WorksForPolymorphicMatcher) { - std::deque<int> d; - d.push_back(2); - d.push_back(1); - EXPECT_THAT(d, WhenSorted(ElementsAre(1, 2))); - EXPECT_THAT(d, Not(WhenSorted(ElementsAre(2, 1)))); -} - -TEST(WhenSortedTest, WorksForVectorConstRefMatcher) { - std::deque<int> d; - d.push_back(2); - d.push_back(1); - Matcher<const std::vector<int>&> vector_match = ElementsAre(1, 2); - EXPECT_THAT(d, WhenSorted(vector_match)); - Matcher<const std::vector<int>&> not_vector_match = ElementsAre(2, 1); - EXPECT_THAT(d, Not(WhenSorted(not_vector_match))); -} - -// Deliberately bare pseudo-container. -// Offers only begin() and end() accessors, yielding InputIterator. -template <typename T> -class Streamlike { - private: - class ConstIter; - public: - typedef ConstIter const_iterator; - typedef T value_type; - - template <typename InIter> - Streamlike(InIter first, InIter last) : remainder_(first, last) {} - - const_iterator begin() const { - return const_iterator(this, remainder_.begin()); - } - const_iterator end() const { - return const_iterator(this, remainder_.end()); - } - - private: - class ConstIter : public std::iterator<std::input_iterator_tag, - value_type, - ptrdiff_t, - const value_type*, - const value_type&> { - public: - ConstIter(const Streamlike* s, - typename std::list<value_type>::iterator pos) - : s_(s), pos_(pos) {} - - const value_type& operator*() const { return *pos_; } - const value_type* operator->() const { return &*pos_; } - ConstIter& operator++() { - s_->remainder_.erase(pos_++); - return *this; - } - - // *iter++ is required to work (see std::istreambuf_iterator). - // (void)iter++ is also required to work. - class PostIncrProxy { - public: - explicit PostIncrProxy(const value_type& value) : value_(value) {} - value_type operator*() const { return value_; } - private: - value_type value_; - }; - PostIncrProxy operator++(int) { - PostIncrProxy proxy(**this); - ++(*this); - return proxy; - } - - friend bool operator==(const ConstIter& a, const ConstIter& b) { - return a.s_ == b.s_ && a.pos_ == b.pos_; - } - friend bool operator!=(const ConstIter& a, const ConstIter& b) { - return !(a == b); - } - - private: - const Streamlike* s_; - typename std::list<value_type>::iterator pos_; - }; - - friend std::ostream& operator<<(std::ostream& os, const Streamlike& s) { - os << "["; - typedef typename std::list<value_type>::const_iterator Iter; - const char* sep = ""; - for (Iter it = s.remainder_.begin(); it != s.remainder_.end(); ++it) { - os << sep << *it; - sep = ","; - } - os << "]"; - return os; - } - - mutable std::list<value_type> remainder_; // modified by iteration -}; - -TEST(StreamlikeTest, Iteration) { - const int a[5] = {2, 1, 4, 5, 3}; - Streamlike<int> s(a, a + 5); - Streamlike<int>::const_iterator it = s.begin(); - const int* ip = a; - while (it != s.end()) { - SCOPED_TRACE(ip - a); - EXPECT_EQ(*ip++, *it++); - } -} - -#if GTEST_HAS_STD_FORWARD_LIST_ -TEST(BeginEndDistanceIsTest, WorksWithForwardList) { - std::forward_list<int> container; - EXPECT_THAT(container, BeginEndDistanceIs(0)); - EXPECT_THAT(container, Not(BeginEndDistanceIs(1))); - container.push_front(0); - EXPECT_THAT(container, Not(BeginEndDistanceIs(0))); - EXPECT_THAT(container, BeginEndDistanceIs(1)); - container.push_front(0); - EXPECT_THAT(container, Not(BeginEndDistanceIs(0))); - EXPECT_THAT(container, BeginEndDistanceIs(2)); -} -#endif // GTEST_HAS_STD_FORWARD_LIST_ - -TEST(BeginEndDistanceIsTest, WorksWithNonStdList) { - const int a[5] = {1, 2, 3, 4, 5}; - Streamlike<int> s(a, a + 5); - EXPECT_THAT(s, BeginEndDistanceIs(5)); -} - -TEST(BeginEndDistanceIsTest, CanDescribeSelf) { - Matcher<vector<int> > m = BeginEndDistanceIs(2); - EXPECT_EQ("distance between begin() and end() is equal to 2", Describe(m)); - EXPECT_EQ("distance between begin() and end() isn't equal to 2", - DescribeNegation(m)); -} - -TEST(BeginEndDistanceIsTest, ExplainsResult) { - Matcher<vector<int> > m1 = BeginEndDistanceIs(2); - Matcher<vector<int> > m2 = BeginEndDistanceIs(Lt(2)); - Matcher<vector<int> > m3 = BeginEndDistanceIs(AnyOf(0, 3)); - Matcher<vector<int> > m4 = BeginEndDistanceIs(GreaterThan(1)); - vector<int> container; - EXPECT_EQ("whose distance between begin() and end() 0 doesn't match", - Explain(m1, container)); - EXPECT_EQ("whose distance between begin() and end() 0 matches", - Explain(m2, container)); - EXPECT_EQ("whose distance between begin() and end() 0 matches", - Explain(m3, container)); - EXPECT_EQ( - "whose distance between begin() and end() 0 doesn't match, which is 1 " - "less than 1", - Explain(m4, container)); - container.push_back(0); - container.push_back(0); - EXPECT_EQ("whose distance between begin() and end() 2 matches", - Explain(m1, container)); - EXPECT_EQ("whose distance between begin() and end() 2 doesn't match", - Explain(m2, container)); - EXPECT_EQ("whose distance between begin() and end() 2 doesn't match", - Explain(m3, container)); - EXPECT_EQ( - "whose distance between begin() and end() 2 matches, which is 1 more " - "than 1", - Explain(m4, container)); -} - -TEST(WhenSortedTest, WorksForStreamlike) { - // Streamlike 'container' provides only minimal iterator support. - // Its iterators are tagged with input_iterator_tag. - const int a[5] = {2, 1, 4, 5, 3}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - EXPECT_THAT(s, WhenSorted(ElementsAre(1, 2, 3, 4, 5))); - EXPECT_THAT(s, Not(WhenSorted(ElementsAre(2, 1, 4, 5, 3)))); -} - -TEST(WhenSortedTest, WorksForVectorConstRefMatcherOnStreamlike) { - const int a[] = {2, 1, 4, 5, 3}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - Matcher<const std::vector<int>&> vector_match = ElementsAre(1, 2, 3, 4, 5); - EXPECT_THAT(s, WhenSorted(vector_match)); - EXPECT_THAT(s, Not(WhenSorted(ElementsAre(2, 1, 4, 5, 3)))); -} - -TEST(IsSupersetOfTest, WorksForNativeArray) { - const int subset[] = {1, 4}; - const int superset[] = {1, 2, 4}; - const int disjoint[] = {1, 0, 3}; - EXPECT_THAT(subset, IsSupersetOf(subset)); - EXPECT_THAT(subset, Not(IsSupersetOf(superset))); - EXPECT_THAT(superset, IsSupersetOf(subset)); - EXPECT_THAT(subset, Not(IsSupersetOf(disjoint))); - EXPECT_THAT(disjoint, Not(IsSupersetOf(subset))); -} - -TEST(IsSupersetOfTest, WorksWithDuplicates) { - const int not_enough[] = {1, 2}; - const int enough[] = {1, 1, 2}; - const int expected[] = {1, 1}; - EXPECT_THAT(not_enough, Not(IsSupersetOf(expected))); - EXPECT_THAT(enough, IsSupersetOf(expected)); -} - -TEST(IsSupersetOfTest, WorksForEmpty) { - vector<int> numbers; - vector<int> expected; - EXPECT_THAT(numbers, IsSupersetOf(expected)); - expected.push_back(1); - EXPECT_THAT(numbers, Not(IsSupersetOf(expected))); - expected.clear(); - numbers.push_back(1); - numbers.push_back(2); - EXPECT_THAT(numbers, IsSupersetOf(expected)); - expected.push_back(1); - EXPECT_THAT(numbers, IsSupersetOf(expected)); - expected.push_back(2); - EXPECT_THAT(numbers, IsSupersetOf(expected)); - expected.push_back(3); - EXPECT_THAT(numbers, Not(IsSupersetOf(expected))); -} - -TEST(IsSupersetOfTest, WorksForStreamlike) { - const int a[5] = {1, 2, 3, 4, 5}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - - vector<int> expected; - expected.push_back(1); - expected.push_back(2); - expected.push_back(5); - EXPECT_THAT(s, IsSupersetOf(expected)); - - expected.push_back(0); - EXPECT_THAT(s, Not(IsSupersetOf(expected))); -} - -TEST(IsSupersetOfTest, TakesStlContainer) { - const int actual[] = {3, 1, 2}; - - ::std::list<int> expected; - expected.push_back(1); - expected.push_back(3); - EXPECT_THAT(actual, IsSupersetOf(expected)); - - expected.push_back(4); - EXPECT_THAT(actual, Not(IsSupersetOf(expected))); -} - -TEST(IsSupersetOfTest, Describe) { - typedef std::vector<int> IntVec; - IntVec expected; - expected.push_back(111); - expected.push_back(222); - expected.push_back(333); - EXPECT_THAT( - Describe<IntVec>(IsSupersetOf(expected)), - Eq("a surjection from elements to requirements exists such that:\n" - " - an element is equal to 111\n" - " - an element is equal to 222\n" - " - an element is equal to 333")); -} - -TEST(IsSupersetOfTest, DescribeNegation) { - typedef std::vector<int> IntVec; - IntVec expected; - expected.push_back(111); - expected.push_back(222); - expected.push_back(333); - EXPECT_THAT( - DescribeNegation<IntVec>(IsSupersetOf(expected)), - Eq("no surjection from elements to requirements exists such that:\n" - " - an element is equal to 111\n" - " - an element is equal to 222\n" - " - an element is equal to 333")); -} - -TEST(IsSupersetOfTest, MatchAndExplain) { - std::vector<int> v; - v.push_back(2); - v.push_back(3); - std::vector<int> expected; - expected.push_back(1); - expected.push_back(2); - StringMatchResultListener listener; - ASSERT_FALSE(ExplainMatchResult(IsSupersetOf(expected), v, &listener)) - << listener.str(); - EXPECT_THAT(listener.str(), - Eq("where the following matchers don't match any elements:\n" - "matcher #0: is equal to 1")); - - v.push_back(1); - listener.Clear(); - ASSERT_TRUE(ExplainMatchResult(IsSupersetOf(expected), v, &listener)) - << listener.str(); - EXPECT_THAT(listener.str(), Eq("where:\n" - " - element #0 is matched by matcher #1,\n" - " - element #2 is matched by matcher #0")); -} - -#if GTEST_HAS_STD_INITIALIZER_LIST_ -TEST(IsSupersetOfTest, WorksForRhsInitializerList) { - const int numbers[] = {1, 3, 6, 2, 4, 5}; - EXPECT_THAT(numbers, IsSupersetOf({1, 2})); - EXPECT_THAT(numbers, Not(IsSupersetOf({3, 0}))); -} -#endif - -TEST(IsSubsetOfTest, WorksForNativeArray) { - const int subset[] = {1, 4}; - const int superset[] = {1, 2, 4}; - const int disjoint[] = {1, 0, 3}; - EXPECT_THAT(subset, IsSubsetOf(subset)); - EXPECT_THAT(subset, IsSubsetOf(superset)); - EXPECT_THAT(superset, Not(IsSubsetOf(subset))); - EXPECT_THAT(subset, Not(IsSubsetOf(disjoint))); - EXPECT_THAT(disjoint, Not(IsSubsetOf(subset))); -} - -TEST(IsSubsetOfTest, WorksWithDuplicates) { - const int not_enough[] = {1, 2}; - const int enough[] = {1, 1, 2}; - const int actual[] = {1, 1}; - EXPECT_THAT(actual, Not(IsSubsetOf(not_enough))); - EXPECT_THAT(actual, IsSubsetOf(enough)); -} - -TEST(IsSubsetOfTest, WorksForEmpty) { - vector<int> numbers; - vector<int> expected; - EXPECT_THAT(numbers, IsSubsetOf(expected)); - expected.push_back(1); - EXPECT_THAT(numbers, IsSubsetOf(expected)); - expected.clear(); - numbers.push_back(1); - numbers.push_back(2); - EXPECT_THAT(numbers, Not(IsSubsetOf(expected))); - expected.push_back(1); - EXPECT_THAT(numbers, Not(IsSubsetOf(expected))); - expected.push_back(2); - EXPECT_THAT(numbers, IsSubsetOf(expected)); - expected.push_back(3); - EXPECT_THAT(numbers, IsSubsetOf(expected)); -} - -TEST(IsSubsetOfTest, WorksForStreamlike) { - const int a[5] = {1, 2}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - - vector<int> expected; - expected.push_back(1); - EXPECT_THAT(s, Not(IsSubsetOf(expected))); - expected.push_back(2); - expected.push_back(5); - EXPECT_THAT(s, IsSubsetOf(expected)); -} - -TEST(IsSubsetOfTest, TakesStlContainer) { - const int actual[] = {3, 1, 2}; - - ::std::list<int> expected; - expected.push_back(1); - expected.push_back(3); - EXPECT_THAT(actual, Not(IsSubsetOf(expected))); - - expected.push_back(2); - expected.push_back(4); - EXPECT_THAT(actual, IsSubsetOf(expected)); -} - -TEST(IsSubsetOfTest, Describe) { - typedef std::vector<int> IntVec; - IntVec expected; - expected.push_back(111); - expected.push_back(222); - expected.push_back(333); - - EXPECT_THAT( - Describe<IntVec>(IsSubsetOf(expected)), - Eq("an injection from elements to requirements exists such that:\n" - " - an element is equal to 111\n" - " - an element is equal to 222\n" - " - an element is equal to 333")); -} - -TEST(IsSubsetOfTest, DescribeNegation) { - typedef std::vector<int> IntVec; - IntVec expected; - expected.push_back(111); - expected.push_back(222); - expected.push_back(333); - EXPECT_THAT( - DescribeNegation<IntVec>(IsSubsetOf(expected)), - Eq("no injection from elements to requirements exists such that:\n" - " - an element is equal to 111\n" - " - an element is equal to 222\n" - " - an element is equal to 333")); -} - -TEST(IsSubsetOfTest, MatchAndExplain) { - std::vector<int> v; - v.push_back(2); - v.push_back(3); - std::vector<int> expected; - expected.push_back(1); - expected.push_back(2); - StringMatchResultListener listener; - ASSERT_FALSE(ExplainMatchResult(IsSubsetOf(expected), v, &listener)) - << listener.str(); - EXPECT_THAT(listener.str(), - Eq("where the following elements don't match any matchers:\n" - "element #1: 3")); - - expected.push_back(3); - listener.Clear(); - ASSERT_TRUE(ExplainMatchResult(IsSubsetOf(expected), v, &listener)) - << listener.str(); - EXPECT_THAT(listener.str(), Eq("where:\n" - " - element #0 is matched by matcher #1,\n" - " - element #1 is matched by matcher #2")); -} - -#if GTEST_HAS_STD_INITIALIZER_LIST_ -TEST(IsSubsetOfTest, WorksForRhsInitializerList) { - const int numbers[] = {1, 2, 3}; - EXPECT_THAT(numbers, IsSubsetOf({1, 2, 3, 4})); - EXPECT_THAT(numbers, Not(IsSubsetOf({1, 2}))); -} -#endif - -// Tests using ElementsAre() and ElementsAreArray() with stream-like -// "containers". - -TEST(ElemensAreStreamTest, WorksForStreamlike) { - const int a[5] = {1, 2, 3, 4, 5}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - EXPECT_THAT(s, ElementsAre(1, 2, 3, 4, 5)); - EXPECT_THAT(s, Not(ElementsAre(2, 1, 4, 5, 3))); -} - -TEST(ElemensAreArrayStreamTest, WorksForStreamlike) { - const int a[5] = {1, 2, 3, 4, 5}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - - vector<int> expected; - expected.push_back(1); - expected.push_back(2); - expected.push_back(3); - expected.push_back(4); - expected.push_back(5); - EXPECT_THAT(s, ElementsAreArray(expected)); - - expected[3] = 0; - EXPECT_THAT(s, Not(ElementsAreArray(expected))); -} - -TEST(ElementsAreTest, WorksWithUncopyable) { - Uncopyable objs[2]; - objs[0].set_value(-3); - objs[1].set_value(1); - EXPECT_THAT(objs, ElementsAre(UncopyableIs(-3), Truly(ValueIsPositive))); -} - -TEST(ElementsAreTest, TakesStlContainer) { - const int actual[] = {3, 1, 2}; - - ::std::list<int> expected; - expected.push_back(3); - expected.push_back(1); - expected.push_back(2); - EXPECT_THAT(actual, ElementsAreArray(expected)); - - expected.push_back(4); - EXPECT_THAT(actual, Not(ElementsAreArray(expected))); -} - -// Tests for UnorderedElementsAreArray() - -TEST(UnorderedElementsAreArrayTest, SucceedsWhenExpected) { - const int a[] = {0, 1, 2, 3, 4}; - std::vector<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - do { - StringMatchResultListener listener; - EXPECT_TRUE(ExplainMatchResult(UnorderedElementsAreArray(a), - s, &listener)) << listener.str(); - } while (std::next_permutation(s.begin(), s.end())); -} - -TEST(UnorderedElementsAreArrayTest, VectorBool) { - const bool a[] = {0, 1, 0, 1, 1}; - const bool b[] = {1, 0, 1, 1, 0}; - std::vector<bool> expected(a, a + GTEST_ARRAY_SIZE_(a)); - std::vector<bool> actual(b, b + GTEST_ARRAY_SIZE_(b)); - StringMatchResultListener listener; - EXPECT_TRUE(ExplainMatchResult(UnorderedElementsAreArray(expected), - actual, &listener)) << listener.str(); -} - -TEST(UnorderedElementsAreArrayTest, WorksForStreamlike) { - // Streamlike 'container' provides only minimal iterator support. - // Its iterators are tagged with input_iterator_tag, and it has no - // size() or empty() methods. - const int a[5] = {2, 1, 4, 5, 3}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - - ::std::vector<int> expected; - expected.push_back(1); - expected.push_back(2); - expected.push_back(3); - expected.push_back(4); - expected.push_back(5); - EXPECT_THAT(s, UnorderedElementsAreArray(expected)); - - expected.push_back(6); - EXPECT_THAT(s, Not(UnorderedElementsAreArray(expected))); -} - -TEST(UnorderedElementsAreArrayTest, TakesStlContainer) { - const int actual[] = {3, 1, 2}; - - ::std::list<int> expected; - expected.push_back(1); - expected.push_back(2); - expected.push_back(3); - EXPECT_THAT(actual, UnorderedElementsAreArray(expected)); - - expected.push_back(4); - EXPECT_THAT(actual, Not(UnorderedElementsAreArray(expected))); -} - -#if GTEST_HAS_STD_INITIALIZER_LIST_ - -TEST(UnorderedElementsAreArrayTest, TakesInitializerList) { - const int a[5] = {2, 1, 4, 5, 3}; - EXPECT_THAT(a, UnorderedElementsAreArray({1, 2, 3, 4, 5})); - EXPECT_THAT(a, Not(UnorderedElementsAreArray({1, 2, 3, 4, 6}))); -} - -TEST(UnorderedElementsAreArrayTest, TakesInitializerListOfCStrings) { - const std::string a[5] = {"a", "b", "c", "d", "e"}; - EXPECT_THAT(a, UnorderedElementsAreArray({"a", "b", "c", "d", "e"})); - EXPECT_THAT(a, Not(UnorderedElementsAreArray({"a", "b", "c", "d", "ef"}))); -} - -TEST(UnorderedElementsAreArrayTest, TakesInitializerListOfSameTypedMatchers) { - const int a[5] = {2, 1, 4, 5, 3}; - EXPECT_THAT(a, UnorderedElementsAreArray( - {Eq(1), Eq(2), Eq(3), Eq(4), Eq(5)})); - EXPECT_THAT(a, Not(UnorderedElementsAreArray( - {Eq(1), Eq(2), Eq(3), Eq(4), Eq(6)}))); -} - -TEST(UnorderedElementsAreArrayTest, - TakesInitializerListOfDifferentTypedMatchers) { - const int a[5] = {2, 1, 4, 5, 3}; - // The compiler cannot infer the type of the initializer list if its - // elements have different types. We must explicitly specify the - // unified element type in this case. - EXPECT_THAT(a, UnorderedElementsAreArray<Matcher<int> >( - {Eq(1), Ne(-2), Ge(3), Le(4), Eq(5)})); - EXPECT_THAT(a, Not(UnorderedElementsAreArray<Matcher<int> >( - {Eq(1), Ne(-2), Ge(3), Le(4), Eq(6)}))); -} - -#endif // GTEST_HAS_STD_INITIALIZER_LIST_ - -class UnorderedElementsAreTest : public testing::Test { - protected: - typedef std::vector<int> IntVec; -}; - -TEST_F(UnorderedElementsAreTest, WorksWithUncopyable) { - Uncopyable objs[2]; - objs[0].set_value(-3); - objs[1].set_value(1); - EXPECT_THAT(objs, - UnorderedElementsAre(Truly(ValueIsPositive), UncopyableIs(-3))); -} - -TEST_F(UnorderedElementsAreTest, SucceedsWhenExpected) { - const int a[] = {1, 2, 3}; - std::vector<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - do { - StringMatchResultListener listener; - EXPECT_TRUE(ExplainMatchResult(UnorderedElementsAre(1, 2, 3), - s, &listener)) << listener.str(); - } while (std::next_permutation(s.begin(), s.end())); -} - -TEST_F(UnorderedElementsAreTest, FailsWhenAnElementMatchesNoMatcher) { - const int a[] = {1, 2, 3}; - std::vector<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - std::vector<Matcher<int> > mv; - mv.push_back(1); - mv.push_back(2); - mv.push_back(2); - // The element with value '3' matches nothing: fail fast. - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult(UnorderedElementsAreArray(mv), - s, &listener)) << listener.str(); -} - -TEST_F(UnorderedElementsAreTest, WorksForStreamlike) { - // Streamlike 'container' provides only minimal iterator support. - // Its iterators are tagged with input_iterator_tag, and it has no - // size() or empty() methods. - const int a[5] = {2, 1, 4, 5, 3}; - Streamlike<int> s(a, a + GTEST_ARRAY_SIZE_(a)); - - EXPECT_THAT(s, UnorderedElementsAre(1, 2, 3, 4, 5)); - EXPECT_THAT(s, Not(UnorderedElementsAre(2, 2, 3, 4, 5))); -} - -// One naive implementation of the matcher runs in O(N!) time, which is too -// slow for many real-world inputs. This test shows that our matcher can match -// 100 inputs very quickly (a few milliseconds). An O(100!) is 10^158 -// iterations and obviously effectively incomputable. -// [ RUN ] UnorderedElementsAreTest.Performance -// [ OK ] UnorderedElementsAreTest.Performance (4 ms) -TEST_F(UnorderedElementsAreTest, Performance) { - std::vector<int> s; - std::vector<Matcher<int> > mv; - for (int i = 0; i < 100; ++i) { - s.push_back(i); - mv.push_back(_); - } - mv[50] = Eq(0); - StringMatchResultListener listener; - EXPECT_TRUE(ExplainMatchResult(UnorderedElementsAreArray(mv), - s, &listener)) << listener.str(); -} - -// Another variant of 'Performance' with similar expectations. -// [ RUN ] UnorderedElementsAreTest.PerformanceHalfStrict -// [ OK ] UnorderedElementsAreTest.PerformanceHalfStrict (4 ms) -TEST_F(UnorderedElementsAreTest, PerformanceHalfStrict) { - std::vector<int> s; - std::vector<Matcher<int> > mv; - for (int i = 0; i < 100; ++i) { - s.push_back(i); - if (i & 1) { - mv.push_back(_); - } else { - mv.push_back(i); - } - } - StringMatchResultListener listener; - EXPECT_TRUE(ExplainMatchResult(UnorderedElementsAreArray(mv), - s, &listener)) << listener.str(); -} - -TEST_F(UnorderedElementsAreTest, FailMessageCountWrong) { - std::vector<int> v; - v.push_back(4); - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult(UnorderedElementsAre(1, 2, 3), - v, &listener)) << listener.str(); - EXPECT_THAT(listener.str(), Eq("which has 1 element")); -} - -TEST_F(UnorderedElementsAreTest, FailMessageCountWrongZero) { - std::vector<int> v; - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult(UnorderedElementsAre(1, 2, 3), - v, &listener)) << listener.str(); - EXPECT_THAT(listener.str(), Eq("")); -} - -TEST_F(UnorderedElementsAreTest, FailMessageUnmatchedMatchers) { - std::vector<int> v; - v.push_back(1); - v.push_back(1); - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult(UnorderedElementsAre(1, 2), - v, &listener)) << listener.str(); - EXPECT_THAT( - listener.str(), - Eq("where the following matchers don't match any elements:\n" - "matcher #1: is equal to 2")); -} - -TEST_F(UnorderedElementsAreTest, FailMessageUnmatchedElements) { - std::vector<int> v; - v.push_back(1); - v.push_back(2); - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult(UnorderedElementsAre(1, 1), - v, &listener)) << listener.str(); - EXPECT_THAT( - listener.str(), - Eq("where the following elements don't match any matchers:\n" - "element #1: 2")); -} - -TEST_F(UnorderedElementsAreTest, FailMessageUnmatchedMatcherAndElement) { - std::vector<int> v; - v.push_back(2); - v.push_back(3); - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult(UnorderedElementsAre(1, 2), - v, &listener)) << listener.str(); - EXPECT_THAT( - listener.str(), - Eq("where" - " the following matchers don't match any elements:\n" - "matcher #0: is equal to 1\n" - "and" - " where" - " the following elements don't match any matchers:\n" - "element #1: 3")); -} - -// Test helper for formatting element, matcher index pairs in expectations. -static std::string EMString(int element, int matcher) { - stringstream ss; - ss << "(element #" << element << ", matcher #" << matcher << ")"; - return ss.str(); -} - -TEST_F(UnorderedElementsAreTest, FailMessageImperfectMatchOnly) { - // A situation where all elements and matchers have a match - // associated with them, but the max matching is not perfect. - std::vector<std::string> v; - v.push_back("a"); - v.push_back("b"); - v.push_back("c"); - StringMatchResultListener listener; - EXPECT_FALSE(ExplainMatchResult( - UnorderedElementsAre("a", "a", AnyOf("b", "c")), v, &listener)) - << listener.str(); - - std::string prefix = - "where no permutation of the elements can satisfy all matchers, " - "and the closest match is 2 of 3 matchers with the " - "pairings:\n"; - - // We have to be a bit loose here, because there are 4 valid max matches. - EXPECT_THAT( - listener.str(), - AnyOf(prefix + "{\n " + EMString(0, 0) + - ",\n " + EMString(1, 2) + "\n}", - prefix + "{\n " + EMString(0, 1) + - ",\n " + EMString(1, 2) + "\n}", - prefix + "{\n " + EMString(0, 0) + - ",\n " + EMString(2, 2) + "\n}", - prefix + "{\n " + EMString(0, 1) + - ",\n " + EMString(2, 2) + "\n}")); -} - -TEST_F(UnorderedElementsAreTest, Describe) { - EXPECT_THAT(Describe<IntVec>(UnorderedElementsAre()), - Eq("is empty")); - EXPECT_THAT( - Describe<IntVec>(UnorderedElementsAre(345)), - Eq("has 1 element and that element is equal to 345")); - EXPECT_THAT( - Describe<IntVec>(UnorderedElementsAre(111, 222, 333)), - Eq("has 3 elements and there exists some permutation " - "of elements such that:\n" - " - element #0 is equal to 111, and\n" - " - element #1 is equal to 222, and\n" - " - element #2 is equal to 333")); -} - -TEST_F(UnorderedElementsAreTest, DescribeNegation) { - EXPECT_THAT(DescribeNegation<IntVec>(UnorderedElementsAre()), - Eq("isn't empty")); - EXPECT_THAT( - DescribeNegation<IntVec>(UnorderedElementsAre(345)), - Eq("doesn't have 1 element, or has 1 element that isn't equal to 345")); - EXPECT_THAT( - DescribeNegation<IntVec>(UnorderedElementsAre(123, 234, 345)), - Eq("doesn't have 3 elements, or there exists no permutation " - "of elements such that:\n" - " - element #0 is equal to 123, and\n" - " - element #1 is equal to 234, and\n" - " - element #2 is equal to 345")); -} - -namespace { - -// Used as a check on the more complex max flow method used in the -// real testing::internal::FindMaxBipartiteMatching. This method is -// compatible but runs in worst-case factorial time, so we only -// use it in testing for small problem sizes. -template <typename Graph> -class BacktrackingMaxBPMState { - public: - // Does not take ownership of 'g'. - explicit BacktrackingMaxBPMState(const Graph* g) : graph_(g) { } - - ElementMatcherPairs Compute() { - if (graph_->LhsSize() == 0 || graph_->RhsSize() == 0) { - return best_so_far_; - } - lhs_used_.assign(graph_->LhsSize(), kUnused); - rhs_used_.assign(graph_->RhsSize(), kUnused); - for (size_t irhs = 0; irhs < graph_->RhsSize(); ++irhs) { - matches_.clear(); - RecurseInto(irhs); - if (best_so_far_.size() == graph_->RhsSize()) - break; - } - return best_so_far_; - } - - private: - static const size_t kUnused = static_cast<size_t>(-1); - - void PushMatch(size_t lhs, size_t rhs) { - matches_.push_back(ElementMatcherPair(lhs, rhs)); - lhs_used_[lhs] = rhs; - rhs_used_[rhs] = lhs; - if (matches_.size() > best_so_far_.size()) { - best_so_far_ = matches_; - } - } - - void PopMatch() { - const ElementMatcherPair& back = matches_.back(); - lhs_used_[back.first] = kUnused; - rhs_used_[back.second] = kUnused; - matches_.pop_back(); - } - - bool RecurseInto(size_t irhs) { - if (rhs_used_[irhs] != kUnused) { - return true; - } - for (size_t ilhs = 0; ilhs < graph_->LhsSize(); ++ilhs) { - if (lhs_used_[ilhs] != kUnused) { - continue; - } - if (!graph_->HasEdge(ilhs, irhs)) { - continue; - } - PushMatch(ilhs, irhs); - if (best_so_far_.size() == graph_->RhsSize()) { - return false; - } - for (size_t mi = irhs + 1; mi < graph_->RhsSize(); ++mi) { - if (!RecurseInto(mi)) return false; - } - PopMatch(); - } - return true; - } - - const Graph* graph_; // not owned - std::vector<size_t> lhs_used_; - std::vector<size_t> rhs_used_; - ElementMatcherPairs matches_; - ElementMatcherPairs best_so_far_; -}; - -template <typename Graph> -const size_t BacktrackingMaxBPMState<Graph>::kUnused; - -} // namespace - -// Implement a simple backtracking algorithm to determine if it is possible -// to find one element per matcher, without reusing elements. -template <typename Graph> -ElementMatcherPairs -FindBacktrackingMaxBPM(const Graph& g) { - return BacktrackingMaxBPMState<Graph>(&g).Compute(); -} - -class BacktrackingBPMTest : public ::testing::Test { }; - -// Tests the MaxBipartiteMatching algorithm with square matrices. -// The single int param is the # of nodes on each of the left and right sides. -class BipartiteTest : public ::testing::TestWithParam<int> { }; - -// Verify all match graphs up to some moderate number of edges. -TEST_P(BipartiteTest, Exhaustive) { - int nodes = GetParam(); - MatchMatrix graph(nodes, nodes); - do { - ElementMatcherPairs matches = - internal::FindMaxBipartiteMatching(graph); - EXPECT_EQ(FindBacktrackingMaxBPM(graph).size(), matches.size()) - << "graph: " << graph.DebugString(); - // Check that all elements of matches are in the graph. - // Check that elements of first and second are unique. - std::vector<bool> seen_element(graph.LhsSize()); - std::vector<bool> seen_matcher(graph.RhsSize()); - SCOPED_TRACE(PrintToString(matches)); - for (size_t i = 0; i < matches.size(); ++i) { - size_t ilhs = matches[i].first; - size_t irhs = matches[i].second; - EXPECT_TRUE(graph.HasEdge(ilhs, irhs)); - EXPECT_FALSE(seen_element[ilhs]); - EXPECT_FALSE(seen_matcher[irhs]); - seen_element[ilhs] = true; - seen_matcher[irhs] = true; - } - } while (graph.NextGraph()); -} - -INSTANTIATE_TEST_CASE_P(AllGraphs, BipartiteTest, - ::testing::Range(0, 5)); - -// Parameterized by a pair interpreted as (LhsSize, RhsSize). -class BipartiteNonSquareTest - : public ::testing::TestWithParam<std::pair<size_t, size_t> > { -}; - -TEST_F(BipartiteNonSquareTest, SimpleBacktracking) { - // ....... - // 0:-----\ : - // 1:---\ | : - // 2:---\ | : - // 3:-\ | | : - // :.......: - // 0 1 2 - MatchMatrix g(4, 3); - static const int kEdges[][2] = {{0, 2}, {1, 1}, {2, 1}, {3, 0}}; - for (size_t i = 0; i < GTEST_ARRAY_SIZE_(kEdges); ++i) { - g.SetEdge(kEdges[i][0], kEdges[i][1], true); - } - EXPECT_THAT(FindBacktrackingMaxBPM(g), - ElementsAre(Pair(3, 0), - Pair(AnyOf(1, 2), 1), - Pair(0, 2))) << g.DebugString(); -} - -// Verify a few nonsquare matrices. -TEST_P(BipartiteNonSquareTest, Exhaustive) { - size_t nlhs = GetParam().first; - size_t nrhs = GetParam().second; - MatchMatrix graph(nlhs, nrhs); - do { - EXPECT_EQ(FindBacktrackingMaxBPM(graph).size(), - internal::FindMaxBipartiteMatching(graph).size()) - << "graph: " << graph.DebugString() - << "\nbacktracking: " - << PrintToString(FindBacktrackingMaxBPM(graph)) - << "\nmax flow: " - << PrintToString(internal::FindMaxBipartiteMatching(graph)); - } while (graph.NextGraph()); -} - -INSTANTIATE_TEST_CASE_P(AllGraphs, BipartiteNonSquareTest, - testing::Values( - std::make_pair(1, 2), - std::make_pair(2, 1), - std::make_pair(3, 2), - std::make_pair(2, 3), - std::make_pair(4, 1), - std::make_pair(1, 4), - std::make_pair(4, 3), - std::make_pair(3, 4))); - -class BipartiteRandomTest - : public ::testing::TestWithParam<std::pair<int, int> > { -}; - -// Verifies a large sample of larger graphs. -TEST_P(BipartiteRandomTest, LargerNets) { - int nodes = GetParam().first; - int iters = GetParam().second; - MatchMatrix graph(nodes, nodes); - - testing::internal::Int32 seed = GTEST_FLAG(random_seed); - if (seed == 0) { - seed = static_cast<testing::internal::Int32>(time(NULL)); - } - - for (; iters > 0; --iters, ++seed) { - srand(static_cast<int>(seed)); - graph.Randomize(); - EXPECT_EQ(FindBacktrackingMaxBPM(graph).size(), - internal::FindMaxBipartiteMatching(graph).size()) - << " graph: " << graph.DebugString() - << "\nTo reproduce the failure, rerun the test with the flag" - " --" << GTEST_FLAG_PREFIX_ << "random_seed=" << seed; - } -} - -// Test argument is a std::pair<int, int> representing (nodes, iters). -INSTANTIATE_TEST_CASE_P(Samples, BipartiteRandomTest, - testing::Values( - std::make_pair(5, 10000), - std::make_pair(6, 5000), - std::make_pair(7, 2000), - std::make_pair(8, 500), - std::make_pair(9, 100))); - -// Tests IsReadableTypeName(). - -TEST(IsReadableTypeNameTest, ReturnsTrueForShortNames) { - EXPECT_TRUE(IsReadableTypeName("int")); - EXPECT_TRUE(IsReadableTypeName("const unsigned char*")); - EXPECT_TRUE(IsReadableTypeName("MyMap<int, void*>")); - EXPECT_TRUE(IsReadableTypeName("void (*)(int, bool)")); -} - -TEST(IsReadableTypeNameTest, ReturnsTrueForLongNonTemplateNonFunctionNames) { - EXPECT_TRUE(IsReadableTypeName("my_long_namespace::MyClassName")); - EXPECT_TRUE(IsReadableTypeName("int [5][6][7][8][9][10][11]")); - EXPECT_TRUE(IsReadableTypeName("my_namespace::MyOuterClass::MyInnerClass")); -} - -TEST(IsReadableTypeNameTest, ReturnsFalseForLongTemplateNames) { - EXPECT_FALSE( - IsReadableTypeName("basic_string<char, std::char_traits<char> >")); - EXPECT_FALSE(IsReadableTypeName("std::vector<int, std::alloc_traits<int> >")); -} - -TEST(IsReadableTypeNameTest, ReturnsFalseForLongFunctionTypeNames) { - EXPECT_FALSE(IsReadableTypeName("void (&)(int, bool, char, float)")); -} - -// Tests FormatMatcherDescription(). - -TEST(FormatMatcherDescriptionTest, WorksForEmptyDescription) { - EXPECT_EQ("is even", - FormatMatcherDescription(false, "IsEven", Strings())); - EXPECT_EQ("not (is even)", - FormatMatcherDescription(true, "IsEven", Strings())); - - const char* params[] = {"5"}; - EXPECT_EQ("equals 5", - FormatMatcherDescription(false, "Equals", - Strings(params, params + 1))); - - const char* params2[] = {"5", "8"}; - EXPECT_EQ("is in range (5, 8)", - FormatMatcherDescription(false, "IsInRange", - Strings(params2, params2 + 2))); -} - -// Tests PolymorphicMatcher::mutable_impl(). -TEST(PolymorphicMatcherTest, CanAccessMutableImpl) { - PolymorphicMatcher<DivisibleByImpl> m(DivisibleByImpl(42)); - DivisibleByImpl& impl = m.mutable_impl(); - EXPECT_EQ(42, impl.divider()); - - impl.set_divider(0); - EXPECT_EQ(0, m.mutable_impl().divider()); -} - -// Tests PolymorphicMatcher::impl(). -TEST(PolymorphicMatcherTest, CanAccessImpl) { - const PolymorphicMatcher<DivisibleByImpl> m(DivisibleByImpl(42)); - const DivisibleByImpl& impl = m.impl(); - EXPECT_EQ(42, impl.divider()); -} - -TEST(MatcherTupleTest, ExplainsMatchFailure) { - stringstream ss1; - ExplainMatchFailureTupleTo(make_tuple(Matcher<char>(Eq('a')), GreaterThan(5)), - make_tuple('a', 10), &ss1); - EXPECT_EQ("", ss1.str()); // Successful match. - - stringstream ss2; - ExplainMatchFailureTupleTo(make_tuple(GreaterThan(5), Matcher<char>(Eq('a'))), - make_tuple(2, 'b'), &ss2); - EXPECT_EQ(" Expected arg #0: is > 5\n" - " Actual: 2, which is 3 less than 5\n" - " Expected arg #1: is equal to 'a' (97, 0x61)\n" - " Actual: 'b' (98, 0x62)\n", - ss2.str()); // Failed match where both arguments need explanation. - - stringstream ss3; - ExplainMatchFailureTupleTo(make_tuple(GreaterThan(5), Matcher<char>(Eq('a'))), - make_tuple(2, 'a'), &ss3); - EXPECT_EQ(" Expected arg #0: is > 5\n" - " Actual: 2, which is 3 less than 5\n", - ss3.str()); // Failed match where only one argument needs - // explanation. -} - -// Tests Each(). - -TEST(EachTest, ExplainsMatchResultCorrectly) { - set<int> a; // empty - - Matcher<set<int> > m = Each(2); - EXPECT_EQ("", Explain(m, a)); - - Matcher<const int(&)[1]> n = Each(1); // NOLINT - - const int b[1] = {1}; - EXPECT_EQ("", Explain(n, b)); - - n = Each(3); - EXPECT_EQ("whose element #0 doesn't match", Explain(n, b)); - - a.insert(1); - a.insert(2); - a.insert(3); - m = Each(GreaterThan(0)); - EXPECT_EQ("", Explain(m, a)); - - m = Each(GreaterThan(10)); - EXPECT_EQ("whose element #0 doesn't match, which is 9 less than 10", - Explain(m, a)); -} - -TEST(EachTest, DescribesItselfCorrectly) { - Matcher<vector<int> > m = Each(1); - EXPECT_EQ("only contains elements that is equal to 1", Describe(m)); - - Matcher<vector<int> > m2 = Not(m); - EXPECT_EQ("contains some element that isn't equal to 1", Describe(m2)); -} - -TEST(EachTest, MatchesVectorWhenAllElementsMatch) { - vector<int> some_vector; - EXPECT_THAT(some_vector, Each(1)); - some_vector.push_back(3); - EXPECT_THAT(some_vector, Not(Each(1))); - EXPECT_THAT(some_vector, Each(3)); - some_vector.push_back(1); - some_vector.push_back(2); - EXPECT_THAT(some_vector, Not(Each(3))); - EXPECT_THAT(some_vector, Each(Lt(3.5))); - - vector<std::string> another_vector; - another_vector.push_back("fee"); - EXPECT_THAT(another_vector, Each(std::string("fee"))); - another_vector.push_back("fie"); - another_vector.push_back("foe"); - another_vector.push_back("fum"); - EXPECT_THAT(another_vector, Not(Each(std::string("fee")))); -} - -TEST(EachTest, MatchesMapWhenAllElementsMatch) { - map<const char*, int> my_map; - const char* bar = "a string"; - my_map[bar] = 2; - EXPECT_THAT(my_map, Each(make_pair(bar, 2))); - - map<std::string, int> another_map; - EXPECT_THAT(another_map, Each(make_pair(std::string("fee"), 1))); - another_map["fee"] = 1; - EXPECT_THAT(another_map, Each(make_pair(std::string("fee"), 1))); - another_map["fie"] = 2; - another_map["foe"] = 3; - another_map["fum"] = 4; - EXPECT_THAT(another_map, Not(Each(make_pair(std::string("fee"), 1)))); - EXPECT_THAT(another_map, Not(Each(make_pair(std::string("fum"), 1)))); - EXPECT_THAT(another_map, Each(Pair(_, Gt(0)))); -} - -TEST(EachTest, AcceptsMatcher) { - const int a[] = {1, 2, 3}; - EXPECT_THAT(a, Each(Gt(0))); - EXPECT_THAT(a, Not(Each(Gt(1)))); -} - -TEST(EachTest, WorksForNativeArrayAsTuple) { - const int a[] = {1, 2}; - const int* const pointer = a; - EXPECT_THAT(make_tuple(pointer, 2), Each(Gt(0))); - EXPECT_THAT(make_tuple(pointer, 2), Not(Each(Gt(1)))); -} - -// For testing Pointwise(). -class IsHalfOfMatcher { - public: - template <typename T1, typename T2> - bool MatchAndExplain(const tuple<T1, T2>& a_pair, - MatchResultListener* listener) const { - if (get<0>(a_pair) == get<1>(a_pair)/2) { - *listener << "where the second is " << get<1>(a_pair); - return true; - } else { - *listener << "where the second/2 is " << get<1>(a_pair)/2; - return false; - } - } - - void DescribeTo(ostream* os) const { - *os << "are a pair where the first is half of the second"; - } - - void DescribeNegationTo(ostream* os) const { - *os << "are a pair where the first isn't half of the second"; - } -}; - -PolymorphicMatcher<IsHalfOfMatcher> IsHalfOf() { - return MakePolymorphicMatcher(IsHalfOfMatcher()); -} - -TEST(PointwiseTest, DescribesSelf) { - vector<int> rhs; - rhs.push_back(1); - rhs.push_back(2); - rhs.push_back(3); - const Matcher<const vector<int>&> m = Pointwise(IsHalfOf(), rhs); - EXPECT_EQ("contains 3 values, where each value and its corresponding value " - "in { 1, 2, 3 } are a pair where the first is half of the second", - Describe(m)); - EXPECT_EQ("doesn't contain exactly 3 values, or contains a value x at some " - "index i where x and the i-th value of { 1, 2, 3 } are a pair " - "where the first isn't half of the second", - DescribeNegation(m)); -} - -TEST(PointwiseTest, MakesCopyOfRhs) { - list<signed char> rhs; - rhs.push_back(2); - rhs.push_back(4); - - int lhs[] = {1, 2}; - const Matcher<const int (&)[2]> m = Pointwise(IsHalfOf(), rhs); - EXPECT_THAT(lhs, m); - - // Changing rhs now shouldn't affect m, which made a copy of rhs. - rhs.push_back(6); - EXPECT_THAT(lhs, m); -} - -TEST(PointwiseTest, WorksForLhsNativeArray) { - const int lhs[] = {1, 2, 3}; - vector<int> rhs; - rhs.push_back(2); - rhs.push_back(4); - rhs.push_back(6); - EXPECT_THAT(lhs, Pointwise(Lt(), rhs)); - EXPECT_THAT(lhs, Not(Pointwise(Gt(), rhs))); -} - -TEST(PointwiseTest, WorksForRhsNativeArray) { - const int rhs[] = {1, 2, 3}; - vector<int> lhs; - lhs.push_back(2); - lhs.push_back(4); - lhs.push_back(6); - EXPECT_THAT(lhs, Pointwise(Gt(), rhs)); - EXPECT_THAT(lhs, Not(Pointwise(Lt(), rhs))); -} - -// Test is effective only with sanitizers. -TEST(PointwiseTest, WorksForVectorOfBool) { - vector<bool> rhs(3, false); - rhs[1] = true; - vector<bool> lhs = rhs; - EXPECT_THAT(lhs, Pointwise(Eq(), rhs)); - rhs[0] = true; - EXPECT_THAT(lhs, Not(Pointwise(Eq(), rhs))); -} - -#if GTEST_HAS_STD_INITIALIZER_LIST_ - -TEST(PointwiseTest, WorksForRhsInitializerList) { - const vector<int> lhs{2, 4, 6}; - EXPECT_THAT(lhs, Pointwise(Gt(), {1, 2, 3})); - EXPECT_THAT(lhs, Not(Pointwise(Lt(), {3, 3, 7}))); -} - -#endif // GTEST_HAS_STD_INITIALIZER_LIST_ - -TEST(PointwiseTest, RejectsWrongSize) { - const double lhs[2] = {1, 2}; - const int rhs[1] = {0}; - EXPECT_THAT(lhs, Not(Pointwise(Gt(), rhs))); - EXPECT_EQ("which contains 2 values", - Explain(Pointwise(Gt(), rhs), lhs)); - - const int rhs2[3] = {0, 1, 2}; - EXPECT_THAT(lhs, Not(Pointwise(Gt(), rhs2))); -} - -TEST(PointwiseTest, RejectsWrongContent) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {2, 6, 4}; - EXPECT_THAT(lhs, Not(Pointwise(IsHalfOf(), rhs))); - EXPECT_EQ("where the value pair (2, 6) at index #1 don't match, " - "where the second/2 is 3", - Explain(Pointwise(IsHalfOf(), rhs), lhs)); -} - -TEST(PointwiseTest, AcceptsCorrectContent) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {2, 4, 6}; - EXPECT_THAT(lhs, Pointwise(IsHalfOf(), rhs)); - EXPECT_EQ("", Explain(Pointwise(IsHalfOf(), rhs), lhs)); -} - -TEST(PointwiseTest, AllowsMonomorphicInnerMatcher) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {2, 4, 6}; - const Matcher<tuple<const double&, const int&> > m1 = IsHalfOf(); - EXPECT_THAT(lhs, Pointwise(m1, rhs)); - EXPECT_EQ("", Explain(Pointwise(m1, rhs), lhs)); - - // This type works as a tuple<const double&, const int&> can be - // implicitly cast to tuple<double, int>. - const Matcher<tuple<double, int> > m2 = IsHalfOf(); - EXPECT_THAT(lhs, Pointwise(m2, rhs)); - EXPECT_EQ("", Explain(Pointwise(m2, rhs), lhs)); -} - -TEST(UnorderedPointwiseTest, DescribesSelf) { - vector<int> rhs; - rhs.push_back(1); - rhs.push_back(2); - rhs.push_back(3); - const Matcher<const vector<int>&> m = UnorderedPointwise(IsHalfOf(), rhs); - EXPECT_EQ( - "has 3 elements and there exists some permutation of elements such " - "that:\n" - " - element #0 and 1 are a pair where the first is half of the second, " - "and\n" - " - element #1 and 2 are a pair where the first is half of the second, " - "and\n" - " - element #2 and 3 are a pair where the first is half of the second", - Describe(m)); - EXPECT_EQ( - "doesn't have 3 elements, or there exists no permutation of elements " - "such that:\n" - " - element #0 and 1 are a pair where the first is half of the second, " - "and\n" - " - element #1 and 2 are a pair where the first is half of the second, " - "and\n" - " - element #2 and 3 are a pair where the first is half of the second", - DescribeNegation(m)); -} - -TEST(UnorderedPointwiseTest, MakesCopyOfRhs) { - list<signed char> rhs; - rhs.push_back(2); - rhs.push_back(4); - - int lhs[] = {2, 1}; - const Matcher<const int (&)[2]> m = UnorderedPointwise(IsHalfOf(), rhs); - EXPECT_THAT(lhs, m); - - // Changing rhs now shouldn't affect m, which made a copy of rhs. - rhs.push_back(6); - EXPECT_THAT(lhs, m); -} - -TEST(UnorderedPointwiseTest, WorksForLhsNativeArray) { - const int lhs[] = {1, 2, 3}; - vector<int> rhs; - rhs.push_back(4); - rhs.push_back(6); - rhs.push_back(2); - EXPECT_THAT(lhs, UnorderedPointwise(Lt(), rhs)); - EXPECT_THAT(lhs, Not(UnorderedPointwise(Gt(), rhs))); -} - -TEST(UnorderedPointwiseTest, WorksForRhsNativeArray) { - const int rhs[] = {1, 2, 3}; - vector<int> lhs; - lhs.push_back(4); - lhs.push_back(2); - lhs.push_back(6); - EXPECT_THAT(lhs, UnorderedPointwise(Gt(), rhs)); - EXPECT_THAT(lhs, Not(UnorderedPointwise(Lt(), rhs))); -} - -#if GTEST_HAS_STD_INITIALIZER_LIST_ - -TEST(UnorderedPointwiseTest, WorksForRhsInitializerList) { - const vector<int> lhs{2, 4, 6}; - EXPECT_THAT(lhs, UnorderedPointwise(Gt(), {5, 1, 3})); - EXPECT_THAT(lhs, Not(UnorderedPointwise(Lt(), {1, 1, 7}))); -} - -#endif // GTEST_HAS_STD_INITIALIZER_LIST_ - -TEST(UnorderedPointwiseTest, RejectsWrongSize) { - const double lhs[2] = {1, 2}; - const int rhs[1] = {0}; - EXPECT_THAT(lhs, Not(UnorderedPointwise(Gt(), rhs))); - EXPECT_EQ("which has 2 elements", - Explain(UnorderedPointwise(Gt(), rhs), lhs)); - - const int rhs2[3] = {0, 1, 2}; - EXPECT_THAT(lhs, Not(UnorderedPointwise(Gt(), rhs2))); -} - -TEST(UnorderedPointwiseTest, RejectsWrongContent) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {2, 6, 6}; - EXPECT_THAT(lhs, Not(UnorderedPointwise(IsHalfOf(), rhs))); - EXPECT_EQ("where the following elements don't match any matchers:\n" - "element #1: 2", - Explain(UnorderedPointwise(IsHalfOf(), rhs), lhs)); -} - -TEST(UnorderedPointwiseTest, AcceptsCorrectContentInSameOrder) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {2, 4, 6}; - EXPECT_THAT(lhs, UnorderedPointwise(IsHalfOf(), rhs)); -} - -TEST(UnorderedPointwiseTest, AcceptsCorrectContentInDifferentOrder) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {6, 4, 2}; - EXPECT_THAT(lhs, UnorderedPointwise(IsHalfOf(), rhs)); -} - -TEST(UnorderedPointwiseTest, AllowsMonomorphicInnerMatcher) { - const double lhs[3] = {1, 2, 3}; - const int rhs[3] = {4, 6, 2}; - const Matcher<tuple<const double&, const int&> > m1 = IsHalfOf(); - EXPECT_THAT(lhs, UnorderedPointwise(m1, rhs)); - - // This type works as a tuple<const double&, const int&> can be - // implicitly cast to tuple<double, int>. - const Matcher<tuple<double, int> > m2 = IsHalfOf(); - EXPECT_THAT(lhs, UnorderedPointwise(m2, rhs)); -} - -// Sample optional type implementation with minimal requirements for use with -// Optional matcher. -class SampleOptionalInt { - public: - typedef int value_type; - explicit SampleOptionalInt(int value) : value_(value), has_value_(true) {} - SampleOptionalInt() : value_(0), has_value_(false) {} - operator bool() const { - return has_value_; - } - const int& operator*() const { - return value_; - } - private: - int value_; - bool has_value_; -}; - -TEST(OptionalTest, DescribesSelf) { - const Matcher<SampleOptionalInt> m = Optional(Eq(1)); - EXPECT_EQ("value is equal to 1", Describe(m)); -} - -TEST(OptionalTest, ExplainsSelf) { - const Matcher<SampleOptionalInt> m = Optional(Eq(1)); - EXPECT_EQ("whose value 1 matches", Explain(m, SampleOptionalInt(1))); - EXPECT_EQ("whose value 2 doesn't match", Explain(m, SampleOptionalInt(2))); -} - -TEST(OptionalTest, MatchesNonEmptyOptional) { - const Matcher<SampleOptionalInt> m1 = Optional(1); - const Matcher<SampleOptionalInt> m2 = Optional(Eq(2)); - const Matcher<SampleOptionalInt> m3 = Optional(Lt(3)); - SampleOptionalInt opt(1); - EXPECT_TRUE(m1.Matches(opt)); - EXPECT_FALSE(m2.Matches(opt)); - EXPECT_TRUE(m3.Matches(opt)); -} - -TEST(OptionalTest, DoesNotMatchNullopt) { - const Matcher<SampleOptionalInt> m = Optional(1); - SampleOptionalInt empty; - EXPECT_FALSE(m.Matches(empty)); -} - -class SampleVariantIntString { - public: - SampleVariantIntString(int i) : i_(i), has_int_(true) {} - SampleVariantIntString(const std::string& s) : s_(s), has_int_(false) {} - - template <typename T> - friend bool holds_alternative(const SampleVariantIntString& value) { - return value.has_int_ == internal::IsSame<T, int>::value; - } - - template <typename T> - friend const T& get(const SampleVariantIntString& value) { - return value.get_impl(static_cast<T*>(NULL)); - } - - private: - const int& get_impl(int*) const { return i_; } - const std::string& get_impl(std::string*) const { return s_; } - - int i_; - std::string s_; - bool has_int_; -}; - -TEST(VariantTest, DescribesSelf) { - const Matcher<SampleVariantIntString> m = VariantWith<int>(Eq(1)); - EXPECT_THAT(Describe(m), ContainsRegex("is a variant<> with value of type " - "'.*' and the value is equal to 1")); -} - -TEST(VariantTest, ExplainsSelf) { - const Matcher<SampleVariantIntString> m = VariantWith<int>(Eq(1)); - EXPECT_THAT(Explain(m, SampleVariantIntString(1)), - ContainsRegex("whose value 1")); - EXPECT_THAT(Explain(m, SampleVariantIntString("A")), - HasSubstr("whose value is not of type '")); - EXPECT_THAT(Explain(m, SampleVariantIntString(2)), - "whose value 2 doesn't match"); -} - -TEST(VariantTest, FullMatch) { - Matcher<SampleVariantIntString> m = VariantWith<int>(Eq(1)); - EXPECT_TRUE(m.Matches(SampleVariantIntString(1))); - - m = VariantWith<std::string>(Eq("1")); - EXPECT_TRUE(m.Matches(SampleVariantIntString("1"))); -} - -TEST(VariantTest, TypeDoesNotMatch) { - Matcher<SampleVariantIntString> m = VariantWith<int>(Eq(1)); - EXPECT_FALSE(m.Matches(SampleVariantIntString("1"))); - - m = VariantWith<std::string>(Eq("1")); - EXPECT_FALSE(m.Matches(SampleVariantIntString(1))); -} - -TEST(VariantTest, InnerDoesNotMatch) { - Matcher<SampleVariantIntString> m = VariantWith<int>(Eq(1)); - EXPECT_FALSE(m.Matches(SampleVariantIntString(2))); - - m = VariantWith<std::string>(Eq("1")); - EXPECT_FALSE(m.Matches(SampleVariantIntString("2"))); -} - -class SampleAnyType { - public: - explicit SampleAnyType(int i) : index_(0), i_(i) {} - explicit SampleAnyType(const std::string& s) : index_(1), s_(s) {} - - template <typename T> - friend const T* any_cast(const SampleAnyType* any) { - return any->get_impl(static_cast<T*>(NULL)); - } - - private: - int index_; - int i_; - std::string s_; - - const int* get_impl(int*) const { return index_ == 0 ? &i_ : NULL; } - const std::string* get_impl(std::string*) const { - return index_ == 1 ? &s_ : NULL; - } -}; - -TEST(AnyWithTest, FullMatch) { - Matcher<SampleAnyType> m = AnyWith<int>(Eq(1)); - EXPECT_TRUE(m.Matches(SampleAnyType(1))); -} - -TEST(AnyWithTest, TestBadCastType) { - Matcher<SampleAnyType> m = AnyWith<std::string>(Eq("fail")); - EXPECT_FALSE(m.Matches(SampleAnyType(1))); -} - -#if GTEST_LANG_CXX11 -TEST(AnyWithTest, TestUseInContainers) { - std::vector<SampleAnyType> a; - a.emplace_back(1); - a.emplace_back(2); - a.emplace_back(3); - EXPECT_THAT( - a, ElementsAreArray({AnyWith<int>(1), AnyWith<int>(2), AnyWith<int>(3)})); - - std::vector<SampleAnyType> b; - b.emplace_back("hello"); - b.emplace_back("merhaba"); - b.emplace_back("salut"); - EXPECT_THAT(b, ElementsAreArray({AnyWith<std::string>("hello"), - AnyWith<std::string>("merhaba"), - AnyWith<std::string>("salut")})); -} -#endif // GTEST_LANG_CXX11 -TEST(AnyWithTest, TestCompare) { - EXPECT_THAT(SampleAnyType(1), AnyWith<int>(Gt(0))); -} - -TEST(AnyWithTest, DescribesSelf) { - const Matcher<const SampleAnyType&> m = AnyWith<int>(Eq(1)); - EXPECT_THAT(Describe(m), ContainsRegex("is an 'any' type with value of type " - "'.*' and the value is equal to 1")); -} - -TEST(AnyWithTest, ExplainsSelf) { - const Matcher<const SampleAnyType&> m = AnyWith<int>(Eq(1)); - - EXPECT_THAT(Explain(m, SampleAnyType(1)), ContainsRegex("whose value 1")); - EXPECT_THAT(Explain(m, SampleAnyType("A")), - HasSubstr("whose value is not of type '")); - EXPECT_THAT(Explain(m, SampleAnyType(2)), "whose value 2 doesn't match"); -} - -#if GTEST_LANG_CXX11 - -TEST(PointeeTest, WorksOnMoveOnlyType) { - std::unique_ptr<int> p(new int(3)); - EXPECT_THAT(p, Pointee(Eq(3))); - EXPECT_THAT(p, Not(Pointee(Eq(2)))); -} - -TEST(NotTest, WorksOnMoveOnlyType) { - std::unique_ptr<int> p(new int(3)); - EXPECT_THAT(p, Pointee(Eq(3))); - EXPECT_THAT(p, Not(Pointee(Eq(2)))); -} - -#endif // GTEST_LANG_CXX11 - -} // namespace gmock_matchers_test -} // namespace testing - |