./0000700000175000017500000000000011174451130010642 5ustar proppyproppy./UnitTest++/0000755000175000017500000000000011102405256012560 5ustar proppyproppy./UnitTest++/docs/0000755000175000017500000000000011102405256013510 5ustar proppyproppy./UnitTest++/docs/UnitTest++.html0000644000175000017500000003051410577526570016330 0ustar proppyproppy UnitTest++ in brief

UnitTest++ in brief

Introduction

This little document serves as bare-bones documentation for UnitTest++.

For background, goals and license details, see:

The documentation, while sparse, aims to be practical, so it should give you enough info to get started using UnitTest++ as fast as possible.

Building UnitTest++

Building UnitTest++ will be specific to each platform and build environment, but it should be straightforward.

Building with Visual Studio

If you are using Visual Studio, go for either of the provided .sln files, depending on version. There are no prefabricated solutions for versions earlier than VS.NET 2003, but we have had reports of people building UnitTest++ with at least VS.NET 2002.

Building with Make

The bundled makefile is written to build with g++. It also needs sed installed in the path, and to be able to use the mv and rm shell commands. The makefile should be usable on most Posix-like platforms.

Do "make all" to generate a library and test executable. A final build step runs all unit tests to make sure that the result works as expected.

Packaging

You'll probably want to keep the generated library in a shared space in source control, so you can reuse it for multiple test projects. A redistributable package of UnitTest++ would consist of the generated library file, and all of the header files in UnitTest++/src/ and its per-platform subfolders. The tests directory only contains the unit tests for the library, and need not be included.

Using UnitTest++

The source code for UnitTest++ comes with a full test suite written using UnitTest++. This is a great place to learn techniques for testing. There is one sample .cpp file: UnitTest++/src/tests/TestUnitTest++.cpp. It covers most of UnitTest++'s features in an easy-to-grasp context, so start there if you want a quick overview of typical usage.

Getting started

Listed below is a minimal C++ program to run a failing test through UnitTest++.

  // test.cpp
  #include <UnitTest++.h>

  TEST(FailSpectacularly)
  {
    CHECK(false);
  }

  int main()
  {
    return UnitTest::RunAllTests();
  }

UnitTest++.h is a facade header for UnitTest++, so including that should get you all features of the library. All classes and free functions are placed in namespace UnitTest, so you need to either qualify their full names (as with RunAllTests() in the example) or add a using namespace UnitTest; statement in your .cpp files. Note that any mention of UnitTest++ functions and classes in this document assume that the UnitTest namespace has been opened.

Compiling and linking this program with UnitTest++'s static library into an executable, and running it, will produce the following output (details may vary):

  .\test.cpp(5): error: Failure in FailSpectacularly: false
  FAILED: 1 out of 1 tests failed (1 failures).
  Test time: 0.00 seconds.

UnitTest++ attempts to report every failure in an IDE-friendly format, depending on platform (e.g. you can double-click it in Visual Studio's error list.) The exit code will be the number of failed tests, so that a failed test run always returns a non-zero exit code.

Test macros

To add a test, simply put the following code in a .cpp file of your choice:

  TEST(YourTestName)
  {
  }

The TEST macro contains enough machinery to turn this slightly odd-looking syntax into legal C++, and automatically register the test in a global list. This test list forms the basis of what is executed by RunAllTests().

If you want to re-use a set of test data for more than one test, or provide setup/teardown for tests, you can use the TEST_FIXTURE macro instead. The macro requires that you pass it a class name that it will instantiate, so any setup and teardown code should be in its constructor and destructor.

  struct SomeFixture
  {
    SomeFixture() { /* some setup */ }
    ~SomeFixture() { /* some teardown */ }

    int testData;
  };
 
  TEST_FIXTURE(SomeFixture, YourTestName)
  {
    int temp = testData;
  }

Note how members of the fixture are used as if they are a part of the test, since the macro-generated test class derives from the provided fixture class.

Suite macros

Tests can be grouped into suites, using the SUITE macro. A suite serves as a namespace for test names, so that the same test name can be used in two difference contexts.

  SUITE(YourSuiteName)
  {
    TEST(YourTestName)
    {
    }

    TEST(YourOtherTestName)
    {
    }
  }

This will place the tests into a C++ namespace called YourSuiteName, and make the suite name available to UnitTest++. RunAllTests() can be called for a specific suite name, so you can use this to build named groups of tests to be run together.

Simple check macros

In test cases, we want to check the results of our system under test. UnitTest++ provides a number of check macros that handle comparison and proper failure reporting.

The most basic variety is the boolean CHECK macro:

  CHECK(false); // fails

It will fail if the boolean expression evaluates to false.

For equality checks, it's generally better to use CHECK_EQUAL:

  CHECK_EQUAL(10, 20); // fails
  CHECK_EQUAL("foo", "bar"); // fails

Note how CHECK_EQUAL is overloaded for C strings, so you don't have to resort to strcmp or similar. There is no facility for case-insensitive comparison or string searches, so you may have to drop down to a plain boolean CHECK with help from the CRT:

  CHECK(std::strstr("zaza", "az") != 0); // succeeds

For floating-point comparison, equality isn't necessarily well-defined, so you should prefer the CHECK_CLOSE macro:

  CHECK_CLOSE(3.14, 3.1415, 0.01); // succeeds

All of the macros are tailored to avoid unintended side-effects, for example:

  TEST(CheckMacrosHaveNoSideEffects)
  {
    int i = 4;
    CHECK_EQUAL(5, ++i); // succeeds
    CHECK_EQUAL(5, i); // succeeds
  }

The check macros guarantee that the ++i expression isn't repeated internally, as demonstrated above.

Array check macros

There is a set of check macros for array comparison as well:

  const float oned[2] = { 10, 20 };
  CHECK_ARRAY_EQUAL(oned, oned, 2); // succeeds
  CHECK_ARRAY_CLOSE(oned, oned, 2, 0.00); // succeeds

  const float twod[2][3] = { {0, 1, 2}, {2, 3, 4} };
  CHECK_ARRAY2D_CLOSE(twod, twod, 2, 3, 0.00); // succeeds

The array equal macro compares elements using operator==, so CHECK_ARRAY_EQUAL won't work for an array of C strings, for example.

The array close macros are similar to the regular CHECK_CLOSE macro, and are really only useful for scalar types, that can be compared in terms of a difference between two array elements.

Note that the one-dimensional array macros work for std::vector as well, as it can be indexed just as a C array.

Exception check macros

Finally, there's a CHECK_THROW macro, which asserts that its enclosed expression throws the specified type:

  struct TestException {};
  CHECK_THROW(throw TestException(), TestException); // succeeds

UnitTest++ natively catches exceptions if your test code doesn't. So if your code under test throws any exception UnitTest++ will fail the test and report either using the what() method for std::exception derivatives or just a plain message for unknown exception types.

Should your test or code raise an irrecoverable error (an Access Violation on Win32, for example, or a signal on Linux), UnitTest++ will attempt to map them to an exception and fail the test, just as for other unhandled exceptions.

Time constraints

UnitTest++ can fail a test if it takes too long to complete, using so-called time constraints.

They come in two flavors; local and global time constraints.

Local time constraints are limited to the current scope, like so:

  TEST(YourTimedTest)
  {
     // Lengthy setup...

     {
        UNITTEST_TIME_CONSTRAINT(50);

        // Do time-critical stuff
     }

     // Lengthy teardown...
  }

The test will fail if the "Do time-critical stuff" block takes longer than 50 ms to complete. The time-consuming setup and teardown are not measured, since the time constraint is scope-bound. It's perfectly valid to have multiple local time constraints in the same test, as long as there is only one per block.

A global time constraint, on the other hand, requires that all of the tests in a test run are faster than a specified amount of time. This allows you, when you run a suite of tests, to ask UnitTest++ to fail it entirely if any test exceeds the global constraint. The max time is passed as a parameter to an overload of RunAllTests().

If you want to use a global time constraint, but have one test that is notoriously slow, you can exempt it from inspection by using the UNITTEST_TIME_CONSTRAINT_EXEMPT macro anywhere inside the test body.

  TEST(NotoriouslySlowTest)
  {
     UNITTEST_TIME_CONSTRAINT_EXEMPT();

     // Oh boy, this is going to take a while
     ...
  }

Test runners

The RunAllTests() function has an overload that lets you customize the behavior of the runner, such as global time constraints, custom reporters, which suite to run, etc.

  int RunAllTests(TestReporter& reporter, TestList const& list, char const* suiteName, int const maxTestTimeInMs);

If you attempt to pass custom parameters to RunAllTests(), note that the list parameter should have the value Test::GetTestList().

The parameterless RunAllTests() is a simple wrapper for this one, with sensible defaults.

Example setup

How to create a new test project varies depending on your environment, but here are some directions on common file structure and usage.

The general idea is that you keep one Main.cpp file with the entry-point which calls RunAllTests().

Then you can simply compile and link new .cpp files at will, typically one per test suite.

   + ShaverTests/
   |
   +- Main.cpp
   |
   +- TestBrush.cpp   
   +- TestEngine.cpp
   +- TestRazor.cpp

Each of the Test*.cpp files will contain one or more TEST macro incantations with the associated test code. There are no source-level dependencies between Main.cpp and Test*.cpp, as the TEST macro handles the registration and setup necessary for RunAllTests() to find all tests compiled into the same final executable.

UnitTest++ does not require this structure, even if this is how the library itself does it. As long as your test project contains one or more TESTs and calls RunAllTests() at one point or another, it will be handled by UnitTest++.

It's common to make the generated executable start as a post-build step, so that merely building your test project will run the tests as well. Since the exit code is the count of failures, a failed test will generally break the build, as most build engines will fail a build if any step returns a non-zero exit code.

./UnitTest++/README0000644000175000017500000000420211102405212013426 0ustar proppyproppyUnitTest++ README Version: v1.4 Last update: 2008-10-30 UnitTest++ is free software. You may copy, distribute, and modify it under the terms of the License contained in the file COPYING distributed with this package. This license is the same as the MIT/X Consortium license. See src/tests/TestUnitTest++.cpp for usage. Authors: Noel Llopis (llopis@convexhull.com) Charles Nicholson (charles.nicholson@gmail.com) Contributors: Jim Tilander Kim Grasman Jonathan Jansson Dirck Blaskey Rory Driscoll Dan Lind Matt Kimmel -- Submitted with permission from Blue Fang Games Anthony Moralez Jeff Dixon Randy Coulman Lieven van der Heide Release notes: -------------- Version 1.4 (2008-10-30) - CHECK macros work at arbitrary stack depth from inside TESTs. - Remove obsolete TEST_UTILITY macros - Predicated test execution (via TestRunner::RunTestsIf) - Better exception handling for fixture ctors/dtors. - VC6/7/8/9 support Version 1.3 (2007-4-22) - Removed dynamic memory allocations (other than streams) - MinGW support - Consistent (native) line endings - Minor bug fixing Version 1.2 (2006-10-29) - First pass at documentation. - More detailed error crash catching in fixtures. - Standard streams used for printing objects under check. This should allow the use of standard class types such as std::string or other custom classes with stream operators to ostream. - Standard streams can be optionally compiled off by defining UNITTEST_USE_CUSTOM_STREAMS in Config.h - Added named test suites - Added CHECK_ARRAY2D_CLOSE - Posix library name is libUnitTest++.a now - Floating point numbers are postfixed with f in the failure reports Version 1.1 (2006-04-18) - CHECK macros do not have side effects even if one of the parameters changes state - Removed CHECK_ARRAY_EQUAL (too similar to CHECK_ARRAY_CLOSE) - Added local and global time constraints - Removed dependencies on strstream - Improved Posix signal to exception translator - Failing tests are added to Visual Studio's error list - Fixed Visual Studio projects to work with spaces in directories Version 1.0 (2006-03-15) - Initial release ./UnitTest++/Makefile0000644000175000017500000000447711102072520014226 0ustar proppyproppyCXX = g++ CXXFLAGS ?= -g -Wall -W -ansi # -pedantic LDFLAGS ?= SED = sed MV = mv RM = rm .SUFFIXES: .o .cpp lib = libUnitTest++.a test = TestUnitTest++ src = src/AssertException.cpp \ src/Test.cpp \ src/Checks.cpp \ src/TestRunner.cpp \ src/TestResults.cpp \ src/TestReporter.cpp \ src/TestReporterStdout.cpp \ src/ReportAssert.cpp \ src/TestList.cpp \ src/TimeConstraint.cpp \ src/TestDetails.cpp \ src/MemoryOutStream.cpp \ src/DeferredTestReporter.cpp \ src/DeferredTestResult.cpp \ src/XmlTestReporter.cpp \ src/CurrentTest.cpp ifeq ($(MSYSTEM), MINGW32) src += src/Win32/TimeHelpers.cpp else src += src/Posix/SignalTranslator.cpp \ src/Posix/TimeHelpers.cpp endif test_src = src/tests/Main.cpp \ src/tests/TestAssertHandler.cpp \ src/tests/TestChecks.cpp \ src/tests/TestUnitTest++.cpp \ src/tests/TestTest.cpp \ src/tests/TestTestResults.cpp \ src/tests/TestTestRunner.cpp \ src/tests/TestCheckMacros.cpp \ src/tests/TestTestList.cpp \ src/tests/TestTestMacros.cpp \ src/tests/TestTimeConstraint.cpp \ src/tests/TestTimeConstraintMacro.cpp \ src/tests/TestMemoryOutStream.cpp \ src/tests/TestDeferredTestReporter.cpp \ src/tests/TestXmlTestReporter.cpp \ src/tests/TestCurrentTest.cpp objects = $(patsubst %.cpp, %.o, $(src)) test_objects = $(patsubst %.cpp, %.o, $(test_src)) dependencies = $(subst .o,.d,$(objects)) test_dependencies = $(subst .o,.d,$(test_objects)) define make-depend $(CXX) $(CXXFLAGS) -M $1 | \ $(SED) -e 's,\($(notdir $2)\) *:,$(dir $2)\1: ,' > $3.tmp $(SED) -e 's/#.*//' \ -e 's/^[^:]*: *//' \ -e 's/ *\\$$//' \ -e '/^$$/ d' \ -e 's/$$/ :/' $3.tmp >> $3.tmp $(MV) $3.tmp $3 endef all: $(test) $(lib): $(objects) @echo Creating $(lib) library... @ar cr $(lib) $(objects) $(test): $(lib) $(test_objects) @echo Linking $(test)... @$(CXX) $(LDFLAGS) -o $(test) $(test_objects) $(lib) @echo Running unit tests... @./$(test) clean: -@$(RM) $(objects) $(test_objects) $(dependencies) $(test_dependencies) $(test) $(lib) 2> /dev/null %.o : %.cpp @echo $< @$(call make-depend,$<,$@,$(subst .o,.d,$@)) @$(CXX) $(CXXFLAGS) -c $< -o $(patsubst %.cpp, %.o, $<) ifneq "$(MAKECMDGOALS)" "clean" -include $(dependencies) -include $(test_dependencies) endif ./UnitTest++/UnitTest++.vsnet2003.vcproj0000644000175000017500000001222611102072520017352 0ustar proppyproppy ./UnitTest++/UnitTest++.vsnet2005.vcproj0000644000175000017500000001332711102072520017357 0ustar proppyproppy ./UnitTest++/COPYING0000644000175000017500000000211110577526570013630 0ustar proppyproppyCopyright (c) 2006 Noel Llopis and Charles Nicholson Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ./UnitTest++/TestUnitTest++.vsnet2005.vcproj0000644000175000017500000001203511102072520020212 0ustar proppyproppy ./UnitTest++/TestUnitTest++.vsnet2003.vcproj0000644000175000017500000001075511102072520020217 0ustar proppyproppy ./UnitTest++/UnitTest++.vsnet2005.sln0000644000175000017500000000301010577526570016664 0ustar proppyproppy Microsoft Visual Studio Solution File, Format Version 9.00 # Visual Studio 2005 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "UnitTest++.vsnet2005", "UnitTest++.vsnet2005.vcproj", "{64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6}" EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "TestUnitTest++.vsnet2005", "TestUnitTest++.vsnet2005.vcproj", "{9CCC3439-309E-4E85-B3B8-CE704D385D48}" ProjectSection(ProjectDependencies) = postProject {64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6} = {64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6} EndProjectSection EndProject Global GlobalSection(SolutionConfigurationPlatforms) = preSolution Debug|Win32 = Debug|Win32 Release|Win32 = Release|Win32 EndGlobalSection GlobalSection(ProjectConfigurationPlatforms) = postSolution {64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6}.Debug|Win32.ActiveCfg = Debug|Win32 {64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6}.Debug|Win32.Build.0 = Debug|Win32 {64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6}.Release|Win32.ActiveCfg = Release|Win32 {64A4FEFE-0461-4E95-8CC1-91EF5F57DBC6}.Release|Win32.Build.0 = Release|Win32 {9CCC3439-309E-4E85-B3B8-CE704D385D48}.Debug|Win32.ActiveCfg = Debug|Win32 {9CCC3439-309E-4E85-B3B8-CE704D385D48}.Debug|Win32.Build.0 = Debug|Win32 {9CCC3439-309E-4E85-B3B8-CE704D385D48}.Release|Win32.ActiveCfg = Release|Win32 {9CCC3439-309E-4E85-B3B8-CE704D385D48}.Release|Win32.Build.0 = Release|Win32 EndGlobalSection GlobalSection(SolutionProperties) = preSolution HideSolutionNode = FALSE EndGlobalSection EndGlobal ./UnitTest++/src/0000755000175000017500000000000011102405256013347 5ustar proppyproppy./UnitTest++/src/TestResults.cpp0000644000175000017500000000233510577526570016401 0ustar proppyproppy#include "TestResults.h" #include "TestReporter.h" #include "TestDetails.h" namespace UnitTest { TestResults::TestResults(TestReporter* testReporter) : m_testReporter(testReporter) , m_totalTestCount(0) , m_failedTestCount(0) , m_failureCount(0) , m_currentTestFailed(false) { } void TestResults::OnTestStart(TestDetails const& test) { ++m_totalTestCount; m_currentTestFailed = false; if (m_testReporter) m_testReporter->ReportTestStart(test); } void TestResults::OnTestFailure(TestDetails const& test, char const* failure) { ++m_failureCount; if (!m_currentTestFailed) { ++m_failedTestCount; m_currentTestFailed = true; } if (m_testReporter) m_testReporter->ReportFailure(test, failure); } void TestResults::OnTestFinish(TestDetails const& test, float secondsElapsed) { if (m_testReporter) m_testReporter->ReportTestFinish(test, secondsElapsed); } int TestResults::GetTotalTestCount() const { return m_totalTestCount; } int TestResults::GetFailedTestCount() const { return m_failedTestCount; } int TestResults::GetFailureCount() const { return m_failureCount; } } ./UnitTest++/src/TestMacros.h0000644000175000017500000001226011102405212015575 0ustar proppyproppy#ifndef UNITTEST_TESTMACROS_H #define UNITTEST_TESTMACROS_H #include "Config.h" #include "ExecuteTest.h" #include "AssertException.h" #include "TestDetails.h" #include "MemoryOutStream.h" #ifndef UNITTEST_POSIX #define UNITTEST_THROW_SIGNALS #else #include "Posix/SignalTranslator.h" #endif #ifdef TEST #error UnitTest++ redefines TEST #endif #ifdef TEST_EX #error UnitTest++ redefines TEST_EX #endif #ifdef TEST_FIXTURE_EX #error UnitTest++ redefines TEST_FIXTURE_EX #endif #define SUITE(Name) \ namespace Suite##Name { \ namespace UnitTestSuite { \ inline char const* GetSuiteName () { \ return #Name ; \ } \ } \ } \ namespace Suite##Name #define TEST_EX(Name, List) \ class Test##Name : public UnitTest::Test \ { \ public: \ Test##Name() : Test(#Name, UnitTestSuite::GetSuiteName(), __FILE__, __LINE__) {} \ private: \ virtual void RunImpl() const; \ } test##Name##Instance; \ \ UnitTest::ListAdder adder##Name (List, &test##Name##Instance); \ \ void Test##Name::RunImpl() const #define TEST(Name) TEST_EX(Name, UnitTest::Test::GetTestList()) #define TEST_FIXTURE_EX(Fixture, Name, List) \ class Fixture##Name##Helper : public Fixture \ { \ public: \ explicit Fixture##Name##Helper(UnitTest::TestDetails const& details) : m_details(details) {} \ void RunImpl(); \ UnitTest::TestDetails const& m_details; \ private: \ Fixture##Name##Helper(Fixture##Name##Helper const&); \ Fixture##Name##Helper& operator =(Fixture##Name##Helper const&); \ }; \ \ class Test##Fixture##Name : public UnitTest::Test \ { \ public: \ Test##Fixture##Name() : Test(#Name, UnitTestSuite::GetSuiteName(), __FILE__, __LINE__) {} \ private: \ virtual void RunImpl() const; \ } test##Fixture##Name##Instance; \ \ UnitTest::ListAdder adder##Fixture##Name (List, &test##Fixture##Name##Instance); \ \ void Test##Fixture##Name::RunImpl() const \ { \ bool ctorOk = false; \ try { \ Fixture##Name##Helper fixtureHelper(m_details); \ ctorOk = true; \ UnitTest::ExecuteTest(fixtureHelper, m_details); \ } \ catch (UnitTest::AssertException const& e) \ { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(m_details.testName, m_details.suiteName, e.Filename(), e.LineNumber()), e.what()); \ } \ catch (std::exception const& e) \ { \ UnitTest::MemoryOutStream stream; \ stream << "Unhandled exception: " << e.what(); \ UnitTest::CurrentTest::Results()->OnTestFailure(m_details, stream.GetText()); \ } \ catch (...) { \ if (ctorOk) \ { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(m_details, __LINE__), \ "Unhandled exception while destroying fixture " #Fixture); \ } \ else \ { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(m_details, __LINE__), \ "Unhandled exception while constructing fixture " #Fixture); \ } \ } \ } \ void Fixture##Name##Helper::RunImpl() #define TEST_FIXTURE(Fixture,Name) TEST_FIXTURE_EX(Fixture, Name, UnitTest::Test::GetTestList()) #endif ./UnitTest++/src/Config.h0000644000175000017500000000176111102343354014732 0ustar proppyproppy#ifndef UNITTEST_CONFIG_H #define UNITTEST_CONFIG_H // Standard defines documented here: http://predef.sourceforge.net #if defined(_MSC_VER) #pragma warning(disable:4127) // conditional expression is constant #pragma warning(disable:4702) // unreachable code #pragma warning(disable:4722) // destructor never returns, potential memory leak #if (_MSC_VER == 1200) // VC6 #pragma warning(disable:4786) #pragma warning(disable:4290) #endif #endif #if defined(unix) || defined(__unix__) || defined(__unix) || defined(linux) || \ defined(__APPLE__) || defined(__NetBSD__) || defined(__OpenBSD__) || defined(__FreeBSD__) #define UNITTEST_POSIX #endif #if defined(__MINGW32__) #define UNITTEST_MINGW #endif // by default, MemoryOutStream is implemented in terms of std::ostringstream, which can be expensive. // uncomment this line to use the custom MemoryOutStream (no deps on std::ostringstream). //#define UNITTEST_USE_CUSTOM_STREAMS #endif ./UnitTest++/src/TestDetails.cpp0000644000175000017500000000077210577526570016330 0ustar proppyproppy#include "TestDetails.h" namespace UnitTest { TestDetails::TestDetails(char const* testName_, char const* suiteName_, char const* filename_, int lineNumber_) : suiteName(suiteName_) , testName(testName_) , filename(filename_) , lineNumber(lineNumber_) { } TestDetails::TestDetails(const TestDetails& details, int lineNumber_) : suiteName(details.suiteName) , testName(details.testName) , filename(details.filename) , lineNumber(lineNumber_) { } } ./UnitTest++/src/TimeConstraint.h0000644000175000017500000000130611102072520016455 0ustar proppyproppy#ifndef UNITTEST_TIMECONSTRAINT_H #define UNITTEST_TIMECONSTRAINT_H #include "TimeHelpers.h" namespace UnitTest { class TestResults; class TestDetails; class TimeConstraint { public: TimeConstraint(int ms, TestDetails const& details); ~TimeConstraint(); private: void operator=(TimeConstraint const&); TimeConstraint(TimeConstraint const&); Timer m_timer; TestDetails const& m_details; int const m_maxMs; }; #define UNITTEST_TIME_CONSTRAINT(ms) \ UnitTest::TimeConstraint unitTest__timeConstraint__(ms, UnitTest::TestDetails(m_details, __LINE__)) #define UNITTEST_TIME_CONSTRAINT_EXEMPT() do { m_timeConstraintExempt = true; } while (0) } #endif ./UnitTest++/src/XmlTestReporter.h0000644000175000017500000000175610577563442016675 0ustar proppyproppy#ifndef UNITTEST_XMLTESTREPORTER_H #define UNITTEST_XMLTESTREPORTER_H #include "DeferredTestReporter.h" #include namespace UnitTest { class XmlTestReporter : public DeferredTestReporter { public: explicit XmlTestReporter(std::ostream& ostream); virtual void ReportSummary(int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed); private: XmlTestReporter(XmlTestReporter const&); XmlTestReporter& operator=(XmlTestReporter const&); void AddXmlElement(std::ostream& os, char const* encoding); void BeginResults(std::ostream& os, int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed); void EndResults(std::ostream& os); void BeginTest(std::ostream& os, DeferredTestResult const& result); void AddFailure(std::ostream& os, DeferredTestResult const& result); void EndTest(std::ostream& os, DeferredTestResult const& result); std::ostream& m_ostream; }; } #endif ./UnitTest++/src/MemoryOutStream.h0000644000175000017500000000240510577526570016657 0ustar proppyproppy#ifndef UNITTEST_MEMORYOUTSTREAM_H #define UNITTEST_MEMORYOUTSTREAM_H #include "Config.h" #ifndef UNITTEST_USE_CUSTOM_STREAMS #include namespace UnitTest { class MemoryOutStream : public std::ostringstream { public: MemoryOutStream() {} char const* GetText() const; private: MemoryOutStream(MemoryOutStream const&); void operator =(MemoryOutStream const&); mutable std::string m_text; }; } #else #include namespace UnitTest { class MemoryOutStream { public: explicit MemoryOutStream(int const size = 256); ~MemoryOutStream(); char const* GetText() const; MemoryOutStream& operator << (char const* txt); MemoryOutStream& operator << (int n); MemoryOutStream& operator << (long n); MemoryOutStream& operator << (unsigned long n); MemoryOutStream& operator << (float f); MemoryOutStream& operator << (double d); MemoryOutStream& operator << (void const* p); MemoryOutStream& operator << (unsigned int s); enum { GROW_CHUNK_SIZE = 32 }; int GetCapacity() const; private: void operator= (MemoryOutStream const&); void GrowBuffer(int capacity); int m_capacity; char* m_buffer; }; } #endif #endif ./UnitTest++/src/CheckMacros.h0000644000175000017500000001073311102072520015700 0ustar proppyproppy#ifndef UNITTEST_CHECKMACROS_H #define UNITTEST_CHECKMACROS_H #include "Checks.h" #include "AssertException.h" #include "MemoryOutStream.h" #include "TestDetails.h" #include "CurrentTest.h" #ifdef CHECK #error UnitTest++ redefines CHECK #endif #ifdef CHECK_EQUAL #error UnitTest++ redefines CHECK_EQUAL #endif #ifdef CHECK_CLOSE #error UnitTest++ redefines CHECK_CLOSE #endif #ifdef CHECK_ARRAY_EQUAL #error UnitTest++ redefines CHECK_ARRAY_EQUAL #endif #ifdef CHECK_ARRAY_CLOSE #error UnitTest++ redefines CHECK_ARRAY_CLOSE #endif #ifdef CHECK_ARRAY2D_CLOSE #error UnitTest++ redefines CHECK_ARRAY2D_CLOSE #endif #define CHECK(value) \ do \ { \ try { \ if (!UnitTest::Check(value)) \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), #value); \ } \ catch (...) { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), \ "Unhandled exception in CHECK(" #value ")"); \ } \ } while (0) #define CHECK_EQUAL(expected, actual) \ do \ { \ try { \ UnitTest::CheckEqual(*UnitTest::CurrentTest::Results(), expected, actual, UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__)); \ } \ catch (...) { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), \ "Unhandled exception in CHECK_EQUAL(" #expected ", " #actual ")"); \ } \ } while (0) #define CHECK_CLOSE(expected, actual, tolerance) \ do \ { \ try { \ UnitTest::CheckClose(*UnitTest::CurrentTest::Results(), expected, actual, tolerance, UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__)); \ } \ catch (...) { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), \ "Unhandled exception in CHECK_CLOSE(" #expected ", " #actual ")"); \ } \ } while (0) #define CHECK_ARRAY_EQUAL(expected, actual, count) \ do \ { \ try { \ UnitTest::CheckArrayEqual(*UnitTest::CurrentTest::Results(), expected, actual, count, UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__)); \ } \ catch (...) { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), \ "Unhandled exception in CHECK_ARRAY_EQUAL(" #expected ", " #actual ")"); \ } \ } while (0) #define CHECK_ARRAY_CLOSE(expected, actual, count, tolerance) \ do \ { \ try { \ UnitTest::CheckArrayClose(*UnitTest::CurrentTest::Results(), expected, actual, count, tolerance, UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__)); \ } \ catch (...) { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), \ "Unhandled exception in CHECK_ARRAY_CLOSE(" #expected ", " #actual ")"); \ } \ } while (0) #define CHECK_ARRAY2D_CLOSE(expected, actual, rows, columns, tolerance) \ do \ { \ try { \ UnitTest::CheckArray2DClose(*UnitTest::CurrentTest::Results(), expected, actual, rows, columns, tolerance, UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__)); \ } \ catch (...) { \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), \ "Unhandled exception in CHECK_ARRAY_CLOSE(" #expected ", " #actual ")"); \ } \ } while (0) #define CHECK_THROW(expression, ExpectedExceptionType) \ do \ { \ bool caught_ = false; \ try { expression; } \ catch (ExpectedExceptionType const&) { caught_ = true; } \ catch (...) {} \ if (!caught_) \ UnitTest::CurrentTest::Results()->OnTestFailure(UnitTest::TestDetails(*UnitTest::CurrentTest::Details(), __LINE__), "Expected exception: \"" #ExpectedExceptionType "\" not thrown"); \ } while(0) #define CHECK_ASSERT(expression) \ CHECK_THROW(expression, UnitTest::AssertException); #endif ./UnitTest++/src/TestResults.h0000644000175000017500000000142510577526570016045 0ustar proppyproppy#ifndef UNITTEST_TESTRESULTS_H #define UNITTEST_TESTRESULTS_H namespace UnitTest { class TestReporter; class TestDetails; class TestResults { public: explicit TestResults(TestReporter* reporter = 0); void OnTestStart(TestDetails const& test); void OnTestFailure(TestDetails const& test, char const* failure); void OnTestFinish(TestDetails const& test, float secondsElapsed); int GetTotalTestCount() const; int GetFailedTestCount() const; int GetFailureCount() const; private: TestReporter* m_testReporter; int m_totalTestCount; int m_failedTestCount; int m_failureCount; bool m_currentTestFailed; TestResults(TestResults const&); TestResults& operator =(TestResults const&); }; } #endif ./UnitTest++/src/TimeConstraint.cpp0000644000175000017500000000126311102072520017012 0ustar proppyproppy#include "TimeConstraint.h" #include "TestResults.h" #include "MemoryOutStream.h" #include "CurrentTest.h" namespace UnitTest { TimeConstraint::TimeConstraint(int ms, TestDetails const& details) : m_details(details) , m_maxMs(ms) { m_timer.Start(); } TimeConstraint::~TimeConstraint() { int const totalTimeInMs = m_timer.GetTimeInMs(); if (totalTimeInMs > m_maxMs) { MemoryOutStream stream; stream << "Time constraint failed. Expected to run test under " << m_maxMs << "ms but took " << totalTimeInMs << "ms."; UnitTest::CurrentTest::Results()->OnTestFailure(m_details, stream.GetText()); } } } ./UnitTest++/src/TestDetails.h0000644000175000017500000000112610577526570015767 0ustar proppyproppy#ifndef UNITTEST_TESTDETAILS_H #define UNITTEST_TESTDETAILS_H namespace UnitTest { class TestDetails { public: TestDetails(char const* testName, char const* suiteName, char const* filename, int lineNumber); TestDetails(const TestDetails& details, int lineNumber); char const* const suiteName; char const* const testName; char const* const filename; int const lineNumber; TestDetails(TestDetails const&); // Why is it public? --> http://gcc.gnu.org/bugs.html#cxx_rvalbind private: TestDetails& operator=(TestDetails const&); }; } #endif ./UnitTest++/src/TestReporterStdout.h0000644000175000017500000000104610577526570017410 0ustar proppyproppy#ifndef UNITTEST_TESTREPORTERSTDOUT_H #define UNITTEST_TESTREPORTERSTDOUT_H #include "TestReporter.h" namespace UnitTest { class TestReporterStdout : public TestReporter { private: virtual void ReportTestStart(TestDetails const& test); virtual void ReportFailure(TestDetails const& test, char const* failure); virtual void ReportTestFinish(TestDetails const& test, float secondsElapsed); virtual void ReportSummary(int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed); }; } #endif ./UnitTest++/src/TestReporter.cpp0000644000175000017500000000014110577526570016533 0ustar proppyproppy#include "TestReporter.h" namespace UnitTest { TestReporter::~TestReporter() { } } ./UnitTest++/src/Posix/0000755000175000017500000000000011102405256014451 5ustar proppyproppy./UnitTest++/src/Posix/SignalTranslator.h0000644000175000017500000000170611077630432020124 0ustar proppyproppy#ifndef UNITTEST_SIGNALTRANSLATOR_H #define UNITTEST_SIGNALTRANSLATOR_H #include #include namespace UnitTest { class SignalTranslator { public: SignalTranslator(); ~SignalTranslator(); static sigjmp_buf* s_jumpTarget; private: sigjmp_buf m_currentJumpTarget; sigjmp_buf* m_oldJumpTarget; struct sigaction m_old_SIGFPE_action; struct sigaction m_old_SIGTRAP_action; struct sigaction m_old_SIGSEGV_action; struct sigaction m_old_SIGBUS_action; struct sigaction m_old_SIGABRT_action; struct sigaction m_old_SIGALRM_action; }; #if !defined (__GNUC__) #define UNITTEST_EXTENSION #else #define UNITTEST_EXTENSION __extension__ #endif #define UNITTEST_THROW_SIGNALS \ UnitTest::SignalTranslator sig; \ if (UNITTEST_EXTENSION sigsetjmp(*UnitTest::SignalTranslator::s_jumpTarget, 1) != 0) \ throw ("Unhandled system exception"); } #endif ./UnitTest++/src/Posix/TimeHelpers.h0000644000175000017500000000051610577526570017067 0ustar proppyproppy#ifndef UNITTEST_TIMEHELPERS_H #define UNITTEST_TIMEHELPERS_H #include namespace UnitTest { class Timer { public: Timer(); void Start(); int GetTimeInMs() const; private: struct timeval m_startTime; }; namespace TimeHelpers { void SleepMs (int ms); } } #endif ./UnitTest++/src/Posix/TimeHelpers.cpp0000644000175000017500000000107010577526570017416 0ustar proppyproppy#include "TimeHelpers.h" #include namespace UnitTest { Timer::Timer() { m_startTime.tv_sec = 0; m_startTime.tv_usec = 0; } void Timer::Start() { gettimeofday(&m_startTime, 0); } int Timer::GetTimeInMs() const { struct timeval currentTime; gettimeofday(¤tTime, 0); int const dsecs = currentTime.tv_sec - m_startTime.tv_sec; int const dus = currentTime.tv_usec - m_startTime.tv_usec; return dsecs*1000 + dus/1000; } void TimeHelpers::SleepMs (int ms) { usleep(ms * 1000); } } ./UnitTest++/src/Posix/SignalTranslator.cpp0000644000175000017500000000216011077630432020452 0ustar proppyproppy#include "SignalTranslator.h" namespace UnitTest { sigjmp_buf* SignalTranslator::s_jumpTarget = 0; namespace { void SignalHandler(int sig) { siglongjmp(*SignalTranslator::s_jumpTarget, sig ); } } SignalTranslator::SignalTranslator() { m_oldJumpTarget = s_jumpTarget; s_jumpTarget = &m_currentJumpTarget; struct sigaction action; action.sa_flags = 0; action.sa_handler = SignalHandler; sigemptyset( &action.sa_mask ); sigaction( SIGSEGV, &action, &m_old_SIGSEGV_action ); sigaction( SIGFPE , &action, &m_old_SIGFPE_action ); sigaction( SIGTRAP, &action, &m_old_SIGTRAP_action ); sigaction( SIGBUS , &action, &m_old_SIGBUS_action ); sigaction( SIGILL , &action, &m_old_SIGBUS_action ); } SignalTranslator::~SignalTranslator() { sigaction( SIGILL , &m_old_SIGBUS_action , 0 ); sigaction( SIGBUS , &m_old_SIGBUS_action , 0 ); sigaction( SIGTRAP, &m_old_SIGTRAP_action, 0 ); sigaction( SIGFPE , &m_old_SIGFPE_action , 0 ); sigaction( SIGSEGV, &m_old_SIGSEGV_action, 0 ); s_jumpTarget = m_oldJumpTarget; } } ./UnitTest++/src/CurrentTest.cpp0000644000175000017500000000046311102072520016332 0ustar proppyproppy#include "CurrentTest.h" #include namespace UnitTest { TestResults*& CurrentTest::Results() { static TestResults* testResults = NULL; return testResults; } const TestDetails*& CurrentTest::Details() { static const TestDetails* testDetails = NULL; return testDetails; } } ./UnitTest++/src/DeferredTestReporter.h0000644000175000017500000000123710577526570017650 0ustar proppyproppy#ifndef UNITTEST_DEFERREDTESTREPORTER_H #define UNITTEST_DEFERREDTESTREPORTER_H #include "TestReporter.h" #include "DeferredTestResult.h" #include namespace UnitTest { class DeferredTestReporter : public TestReporter { public: virtual void ReportTestStart(TestDetails const& details); virtual void ReportFailure(TestDetails const& details, char const* failure); virtual void ReportTestFinish(TestDetails const& details, float secondsElapsed); typedef std::vector< DeferredTestResult > DeferredTestResultList; DeferredTestResultList& GetResults(); private: DeferredTestResultList m_results; }; } #endif ./UnitTest++/src/TestSuite.h0000644000175000017500000000030210577526570015466 0ustar proppyproppy#ifndef UNITTEST_TESTSUITE_H #define UNITTEST_TESTSUITE_H namespace UnitTestSuite { inline char const* GetSuiteName () { return "DefaultSuite"; } } #endif ./UnitTest++/src/DeferredTestResult.cpp0000644000175000017500000000063611102365170017637 0ustar proppyproppy#include "DeferredTestResult.h" #include "Config.h" namespace UnitTest { DeferredTestResult::DeferredTestResult() : suiteName("") , testName("") , failureFile("") , timeElapsed(0.0f) , failed(false) { } DeferredTestResult::DeferredTestResult(char const* suite, char const* test) : suiteName(suite) , testName(test) , failureFile("") , timeElapsed(0.0f) , failed(false) { } } ./UnitTest++/src/TestReporter.h0000644000175000017500000000104310577526570016202 0ustar proppyproppy#ifndef UNITTEST_TESTREPORTER_H #define UNITTEST_TESTREPORTER_H namespace UnitTest { class TestDetails; class TestReporter { public: virtual ~TestReporter(); virtual void ReportTestStart(TestDetails const& test) = 0; virtual void ReportFailure(TestDetails const& test, char const* failure) = 0; virtual void ReportTestFinish(TestDetails const& test, float secondsElapsed) = 0; virtual void ReportSummary(int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed) = 0; }; } #endif ./UnitTest++/src/Win32/0000755000175000017500000000000011102405256014251 5ustar proppyproppy./UnitTest++/src/Win32/TimeHelpers.h0000644000175000017500000000116711102343354016650 0ustar proppyproppy#ifndef UNITTEST_TIMEHELPERS_H #define UNITTEST_TIMEHELPERS_H #include "../Config.h" #ifdef UNITTEST_MINGW #ifndef __int64 #define __int64 long long #endif #endif namespace UnitTest { class Timer { public: Timer(); void Start(); int GetTimeInMs() const; private: __int64 GetTime() const; void* m_threadHandle; #if defined(_WIN64) unsigned __int64 m_processAffinityMask; #else unsigned long m_processAffinityMask; #endif __int64 m_startTime; __int64 m_frequency; }; namespace TimeHelpers { void SleepMs (int ms); } } #endif ./UnitTest++/src/Win32/TimeHelpers.cpp0000644000175000017500000000224311102343354017177 0ustar proppyproppy#include "TimeHelpers.h" #include namespace UnitTest { Timer::Timer() : m_startTime(0) , m_threadHandle(::GetCurrentThread()) { #if defined(_MSC_VER) && (_MSC_VER == 1200) // VC6 doesn't have DWORD_PTR? typedef unsigned long DWORD_PTR; #endif DWORD_PTR systemMask; ::GetProcessAffinityMask(GetCurrentProcess(), &m_processAffinityMask, &systemMask); ::SetThreadAffinityMask(m_threadHandle, 1); ::QueryPerformanceFrequency(reinterpret_cast< LARGE_INTEGER* >(&m_frequency)); ::SetThreadAffinityMask(m_threadHandle, m_processAffinityMask); } void Timer::Start() { m_startTime = GetTime(); } int Timer::GetTimeInMs() const { __int64 const elapsedTime = GetTime() - m_startTime; double const seconds = double(elapsedTime) / double(m_frequency); return int(seconds * 1000.0f); } __int64 Timer::GetTime() const { LARGE_INTEGER curTime; ::SetThreadAffinityMask(m_threadHandle, 1); ::QueryPerformanceCounter(&curTime); ::SetThreadAffinityMask(m_threadHandle, m_processAffinityMask); return curTime.QuadPart; } void TimeHelpers::SleepMs(int const ms) { ::Sleep(ms); } } ./UnitTest++/src/ReportAssert.h0000644000175000017500000000026610577526570016203 0ustar proppyproppy#ifndef UNITTEST_ASSERT_H #define UNITTEST_ASSERT_H namespace UnitTest { void ReportAssert(char const* description, char const* filename, int lineNumber); } #endif ./UnitTest++/src/Checks.h0000644000175000017500000001174511102342136014725 0ustar proppyproppy#ifndef UNITTEST_CHECKS_H #define UNITTEST_CHECKS_H #include "Config.h" #include "TestResults.h" #include "MemoryOutStream.h" namespace UnitTest { template< typename Value > bool Check(Value const value) { return !!value; // doing double negative to avoid silly VS warnings } template< typename Expected, typename Actual > void CheckEqual(TestResults& results, Expected const& expected, Actual const& actual, TestDetails const& details) { if (!(expected == actual)) { UnitTest::MemoryOutStream stream; stream << "Expected " << expected << " but was " << actual; results.OnTestFailure(details, stream.GetText()); } } void CheckEqual(TestResults& results, char const* expected, char const* actual, TestDetails const& details); void CheckEqual(TestResults& results, char* expected, char* actual, TestDetails const& details); void CheckEqual(TestResults& results, char* expected, char const* actual, TestDetails const& details); void CheckEqual(TestResults& results, char const* expected, char* actual, TestDetails const& details); template< typename Expected, typename Actual, typename Tolerance > bool AreClose(Expected const& expected, Actual const& actual, Tolerance const& tolerance) { return (actual >= (expected - tolerance)) && (actual <= (expected + tolerance)); } template< typename Expected, typename Actual, typename Tolerance > void CheckClose(TestResults& results, Expected const& expected, Actual const& actual, Tolerance const& tolerance, TestDetails const& details) { if (!AreClose(expected, actual, tolerance)) { UnitTest::MemoryOutStream stream; stream << "Expected " << expected << " +/- " << tolerance << " but was " << actual; results.OnTestFailure(details, stream.GetText()); } } template< typename Expected, typename Actual > void CheckArrayEqual(TestResults& results, Expected const& expected, Actual const& actual, int const count, TestDetails const& details) { bool equal = true; for (int i = 0; i < count; ++i) equal &= (expected[i] == actual[i]); if (!equal) { UnitTest::MemoryOutStream stream; stream << "Expected [ "; for (int expectedIndex = 0; expectedIndex < count; ++expectedIndex) stream << expected[expectedIndex] << " "; stream << "] but was [ "; for (int actualIndex = 0; actualIndex < count; ++actualIndex) stream << actual[actualIndex] << " "; stream << "]"; results.OnTestFailure(details, stream.GetText()); } } template< typename Expected, typename Actual, typename Tolerance > bool ArrayAreClose(Expected const& expected, Actual const& actual, int const count, Tolerance const& tolerance) { bool equal = true; for (int i = 0; i < count; ++i) equal &= AreClose(expected[i], actual[i], tolerance); return equal; } template< typename Expected, typename Actual, typename Tolerance > void CheckArrayClose(TestResults& results, Expected const& expected, Actual const& actual, int const count, Tolerance const& tolerance, TestDetails const& details) { bool equal = ArrayAreClose(expected, actual, count, tolerance); if (!equal) { UnitTest::MemoryOutStream stream; stream << "Expected [ "; for (int expectedIndex = 0; expectedIndex < count; ++expectedIndex) stream << expected[expectedIndex] << " "; stream << "] +/- " << tolerance << " but was [ "; for (int actualIndex = 0; actualIndex < count; ++actualIndex) stream << actual[actualIndex] << " "; stream << "]"; results.OnTestFailure(details, stream.GetText()); } } template< typename Expected, typename Actual, typename Tolerance > void CheckArray2DClose(TestResults& results, Expected const& expected, Actual const& actual, int const rows, int const columns, Tolerance const& tolerance, TestDetails const& details) { bool equal = true; for (int i = 0; i < rows; ++i) equal &= ArrayAreClose(expected[i], actual[i], columns, tolerance); if (!equal) { UnitTest::MemoryOutStream stream; stream << "Expected [ "; for (int expectedRow = 0; expectedRow < rows; ++expectedRow) { stream << "[ "; for (int expectedColumn = 0; expectedColumn < columns; ++expectedColumn) stream << expected[expectedRow][expectedColumn] << " "; stream << "] "; } stream << "] +/- " << tolerance << " but was [ "; for (int actualRow = 0; actualRow < rows; ++actualRow) { stream << "[ "; for (int actualColumn = 0; actualColumn < columns; ++actualColumn) stream << actual[actualRow][actualColumn] << " "; stream << "] "; } stream << "]"; results.OnTestFailure(details, stream.GetText()); } } } #endif ./UnitTest++/src/ExecuteTest.h0000644000175000017500000000173611102072520015763 0ustar proppyproppy#ifndef UNITTEST_EXECUTE_TEST_H #define UNITTEST_EXECUTE_TEST_H #include "TestDetails.h" #include "MemoryOutStream.h" #include "AssertException.h" #include "CurrentTest.h" #ifdef UNITTEST_POSIX #include "Posix/SignalTranslator.h" #endif namespace UnitTest { template< typename T > void ExecuteTest(T& testObject, TestDetails const& details) { CurrentTest::Details() = &details; try { #ifdef UNITTEST_POSIX UNITTEST_THROW_SIGNALS #endif testObject.RunImpl(); } catch (AssertException const& e) { CurrentTest::Results()->OnTestFailure( TestDetails(details.testName, details.suiteName, e.Filename(), e.LineNumber()), e.what()); } catch (std::exception const& e) { MemoryOutStream stream; stream << "Unhandled exception: " << e.what(); CurrentTest::Results()->OnTestFailure(details, stream.GetText()); } catch (...) { CurrentTest::Results()->OnTestFailure(details, "Unhandled exception: Crash!"); } } } #endif ./UnitTest++/src/ReportAssert.cpp0000644000175000017500000000032411077630432016516 0ustar proppyproppy#include "AssertException.h" namespace UnitTest { void ReportAssert(char const* description, char const* filename, int lineNumber) { throw AssertException(description, filename, lineNumber); } } ./UnitTest++/src/TestRunner.h0000644000175000017500000000220411102072520015621 0ustar proppyproppy#ifndef UNITTEST_TESTRUNNER_H #define UNITTEST_TESTRUNNER_H #include "Test.h" #include "TestList.h" #include "CurrentTest.h" namespace UnitTest { class TestReporter; class TestResults; class Timer; int RunAllTests(); struct True { bool operator()(const Test* const) const { return true; } }; class TestRunner { public: explicit TestRunner(TestReporter& reporter); ~TestRunner(); template int RunTestsIf(TestList const& list, char const* suiteName, const Predicate& predicate, int maxTestTimeInMs) const { Test* curTest = list.GetHead(); while (curTest != 0) { if (IsTestInSuite(curTest,suiteName) && predicate(curTest)) { RunTest(m_result, curTest, maxTestTimeInMs); } curTest = curTest->next; } return Finish(); } private: TestReporter* m_reporter; TestResults* m_result; Timer* m_timer; int Finish() const; bool IsTestInSuite(const Test* const curTest, char const* suiteName) const; void RunTest(TestResults* const result, Test* const curTest, int const maxTestTimeInMs) const; }; } #endif ./UnitTest++/src/TimeHelpers.h0000644000175000017500000000021210577526570015756 0ustar proppyproppy#include "Config.h" #if defined UNITTEST_POSIX #include "Posix/TimeHelpers.h" #else #include "Win32/TimeHelpers.h" #endif ./UnitTest++/src/UnitTest++.h0000644000175000017500000000046710665204256015446 0ustar proppyproppy#ifndef UNITTESTCPP_H #define UNITTESTCPP_H //lint -esym(1509,*Fixture) #include "Config.h" #include "Test.h" #include "TestList.h" #include "TestSuite.h" #include "TestResults.h" #include "TestMacros.h" #include "CheckMacros.h" #include "TestRunner.h" #include "TimeConstraint.h" #endif ./UnitTest++/src/DeferredTestResult.h0000644000175000017500000000110010610443002017261 0ustar proppyproppy#ifndef UNITTEST_DEFERREDTESTRESULT_H #define UNITTEST_DEFERREDTESTRESULT_H #include #include namespace UnitTest { struct DeferredTestResult { DeferredTestResult(); DeferredTestResult(char const* suite, char const* test); std::string suiteName; std::string testName; std::string failureFile; typedef std::pair< int, std::string > Failure; typedef std::vector< Failure > FailureVec; FailureVec failures; float timeElapsed; bool failed; }; } #endif //UNITTEST_DEFERREDTESTRESULT_H ./UnitTest++/src/Test.cpp0000644000175000017500000000127311102072520014767 0ustar proppyproppy#include "Config.h" #include "Test.h" #include "TestList.h" #include "TestResults.h" #include "AssertException.h" #include "MemoryOutStream.h" #include "ExecuteTest.h" #ifdef UNITTEST_POSIX #include "Posix/SignalTranslator.h" #endif namespace UnitTest { TestList& Test::GetTestList() { static TestList s_list; return s_list; } Test::Test(char const* testName, char const* suiteName, char const* filename, int lineNumber) : m_details(testName, suiteName, filename, lineNumber) , next(0) , m_timeConstraintExempt(false) { } Test::~Test() { } void Test::Run() { ExecuteTest(*this, m_details); } void Test::RunImpl() const { } } ./UnitTest++/src/MemoryOutStream.cpp0000644000175000017500000000532611102342136017172 0ustar proppyproppy#include "MemoryOutStream.h" #ifndef UNITTEST_USE_CUSTOM_STREAMS namespace UnitTest { char const* MemoryOutStream::GetText() const { m_text = this->str(); return m_text.c_str(); } } #else #include #include namespace UnitTest { namespace { template void FormatToStream(MemoryOutStream& stream, char const* format, ValueType const& value) { using namespace std; char txt[32]; sprintf(txt, format, value); stream << txt; } int RoundUpToMultipleOfPow2Number (int n, int pow2Number) { return (n + (pow2Number - 1)) & ~(pow2Number - 1); } } MemoryOutStream::MemoryOutStream(int const size) : m_capacity (0) , m_buffer (0) { GrowBuffer(size); } MemoryOutStream::~MemoryOutStream() { delete [] m_buffer; } char const* MemoryOutStream::GetText() const { return m_buffer; } MemoryOutStream& MemoryOutStream::operator << (char const* txt) { using namespace std; int const bytesLeft = m_capacity - (int)strlen(m_buffer); int const bytesRequired = (int)strlen(txt) + 1; if (bytesRequired > bytesLeft) { int const requiredCapacity = bytesRequired + m_capacity - bytesLeft; GrowBuffer(requiredCapacity); } strcat(m_buffer, txt); return *this; } MemoryOutStream& MemoryOutStream::operator << (int const n) { FormatToStream(*this, "%i", n); return *this; } MemoryOutStream& MemoryOutStream::operator << (long const n) { FormatToStream(*this, "%li", n); return *this; } MemoryOutStream& MemoryOutStream::operator << (unsigned long const n) { FormatToStream(*this, "%lu", n); return *this; } MemoryOutStream& MemoryOutStream::operator << (float const f) { FormatToStream(*this, "%ff", f); return *this; } MemoryOutStream& MemoryOutStream::operator << (void const* p) { FormatToStream(*this, "%p", p); return *this; } MemoryOutStream& MemoryOutStream::operator << (unsigned int const s) { FormatToStream(*this, "%u", s); return *this; } MemoryOutStream& MemoryOutStream::operator <<(double const d) { FormatToStream(*this, "%f", d); return *this; } int MemoryOutStream::GetCapacity() const { return m_capacity; } void MemoryOutStream::GrowBuffer(int const desiredCapacity) { int const newCapacity = RoundUpToMultipleOfPow2Number(desiredCapacity, GROW_CHUNK_SIZE); using namespace std; char* buffer = new char[newCapacity]; if (m_buffer) strcpy(buffer, m_buffer); else strcpy(buffer, ""); delete [] m_buffer; m_buffer = buffer; m_capacity = newCapacity; } } #endif ./UnitTest++/src/AssertException.cpp0000644000175000017500000000114211102342136017166 0ustar proppyproppy#include "AssertException.h" #include namespace UnitTest { AssertException::AssertException(char const* description, char const* filename, int lineNumber) : m_lineNumber(lineNumber) { using namespace std; strcpy(m_description, description); strcpy(m_filename, filename); } AssertException::~AssertException() throw() { } char const* AssertException::what() const throw() { return m_description; } char const* AssertException::Filename() const { return m_filename; } int AssertException::LineNumber() const { return m_lineNumber; } } ./UnitTest++/src/TestList.cpp0000644000175000017500000000102210627101056015623 0ustar proppyproppy#include "TestList.h" #include "Test.h" #include namespace UnitTest { TestList::TestList() : m_head(0) , m_tail(0) { } void TestList::Add(Test* test) { if (m_tail == 0) { assert(m_head == 0); m_head = test; m_tail = test; } else { m_tail->next = test; m_tail = test; } } Test* TestList::GetHead() const { return m_head; } ListAdder::ListAdder(TestList& list, Test* test) { list.Add(test); } } ./UnitTest++/src/Test.h0000644000175000017500000000112411102072520014427 0ustar proppyproppy#ifndef UNITTEST_TEST_H #define UNITTEST_TEST_H #include "TestDetails.h" namespace UnitTest { class TestResults; class TestList; class Test { public: explicit Test(char const* testName, char const* suiteName = "DefaultSuite", char const* filename = "", int lineNumber = 0); virtual ~Test(); void Run(); TestDetails const m_details; Test* next; mutable bool m_timeConstraintExempt; static TestList& GetTestList(); virtual void RunImpl() const; private: Test(Test const&); Test& operator =(Test const&); }; } #endif ./UnitTest++/src/DeferredTestReporter.cpp0000644000175000017500000000153211102365170020157 0ustar proppyproppy#include "DeferredTestReporter.h" #include "TestDetails.h" #include "Config.h" using namespace UnitTest; void DeferredTestReporter::ReportTestStart(TestDetails const& details) { m_results.push_back(DeferredTestResult(details.suiteName, details.testName)); } void DeferredTestReporter::ReportFailure(TestDetails const& details, char const* failure) { DeferredTestResult& r = m_results.back(); r.failed = true; r.failures.push_back(DeferredTestResult::Failure(details.lineNumber, failure)); r.failureFile = details.filename; } void DeferredTestReporter::ReportTestFinish(TestDetails const&, float secondsElapsed) { DeferredTestResult& r = m_results.back(); r.timeElapsed = secondsElapsed; } DeferredTestReporter::DeferredTestResultList& DeferredTestReporter::GetResults() { return m_results; } ./UnitTest++/src/TestReporterStdout.cpp0000644000175000017500000000224611102342136017721 0ustar proppyproppy#include "TestReporterStdout.h" #include #include "TestDetails.h" namespace UnitTest { void TestReporterStdout::ReportFailure(TestDetails const& details, char const* failure) { #if defined(__APPLE__) || defined(__GNUG__) char const* const errorFormat = "%s:%d: error: Failure in %s: %s\n"; #else char const* const errorFormat = "%s(%d): error: Failure in %s: %s\n"; #endif using namespace std; printf(errorFormat, details.filename, details.lineNumber, details.testName, failure); } void TestReporterStdout::ReportTestStart(TestDetails const& /*test*/) { } void TestReporterStdout::ReportTestFinish(TestDetails const& /*test*/, float) { } void TestReporterStdout::ReportSummary(int const totalTestCount, int const failedTestCount, int const failureCount, float secondsElapsed) { using namespace std; if (failureCount > 0) printf("FAILURE: %d out of %d tests failed (%d failures).\n", failedTestCount, totalTestCount, failureCount); else printf("Success: %d tests passed.\n", totalTestCount); printf("Test time: %.2f seconds.\n", secondsElapsed); } } ./UnitTest++/src/Checks.cpp0000644000175000017500000000233211102342136015250 0ustar proppyproppy#include "Checks.h" #include namespace UnitTest { namespace { void CheckStringsEqual(TestResults& results, char const* expected, char const* actual, TestDetails const& details) { using namespace std; if (strcmp(expected, actual)) { UnitTest::MemoryOutStream stream; stream << "Expected " << expected << " but was " << actual; results.OnTestFailure(details, stream.GetText()); } } } void CheckEqual(TestResults& results, char const* expected, char const* actual, TestDetails const& details) { CheckStringsEqual(results, expected, actual, details); } void CheckEqual(TestResults& results, char* expected, char* actual, TestDetails const& details) { CheckStringsEqual(results, expected, actual, details); } void CheckEqual(TestResults& results, char* expected, char const* actual, TestDetails const& details) { CheckStringsEqual(results, expected, actual, details); } void CheckEqual(TestResults& results, char const* expected, char* actual, TestDetails const& details) { CheckStringsEqual(results, expected, actual, details); } } ./UnitTest++/src/TestList.h0000644000175000017500000000054410627101056015300 0ustar proppyproppy#ifndef UNITTEST_TESTLIST_H #define UNITTEST_TESTLIST_H namespace UnitTest { class Test; class TestList { public: TestList(); void Add (Test* test); Test* GetHead() const; private: Test* m_head; Test* m_tail; }; class ListAdder { public: ListAdder(TestList& list, Test* test); }; } #endif ./UnitTest++/src/XmlTestReporter.cpp0000644000175000017500000000650211102365170017201 0ustar proppyproppy#include "XmlTestReporter.h" #include "Config.h" #include #include #include using std::string; using std::ostringstream; using std::ostream; namespace { void ReplaceChar(string& str, char c, string const& replacement) { for (size_t pos = str.find(c); pos != string::npos; pos = str.find(c, pos + 1)) str.replace(pos, 1, replacement); } string XmlEscape(string const& value) { string escaped = value; ReplaceChar(escaped, '&', "&"); ReplaceChar(escaped, '<', "<"); ReplaceChar(escaped, '>', ">"); ReplaceChar(escaped, '\'', "'"); ReplaceChar(escaped, '\"', """); return escaped; } string BuildFailureMessage(string const& file, int line, string const& message) { ostringstream failureMessage; failureMessage << file << "(" << line << ") : " << message; return failureMessage.str(); } } namespace UnitTest { XmlTestReporter::XmlTestReporter(ostream& ostream) : m_ostream(ostream) { } void XmlTestReporter::ReportSummary(int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed) { AddXmlElement(m_ostream, NULL); BeginResults(m_ostream, totalTestCount, failedTestCount, failureCount, secondsElapsed); DeferredTestResultList const& results = GetResults(); for (DeferredTestResultList::const_iterator i = results.begin(); i != results.end(); ++i) { BeginTest(m_ostream, *i); if (i->failed) AddFailure(m_ostream, *i); EndTest(m_ostream, *i); } EndResults(m_ostream); } void XmlTestReporter::AddXmlElement(ostream& os, char const* encoding) { os << ""; } void XmlTestReporter::BeginResults(std::ostream& os, int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed) { os << ""; } void XmlTestReporter::EndResults(std::ostream& os) { os << ""; } void XmlTestReporter::BeginTest(std::ostream& os, DeferredTestResult const& result) { os << ""; else os << "/>"; } void XmlTestReporter::AddFailure(std::ostream& os, DeferredTestResult const& result) { os << ">"; // close element for (DeferredTestResult::FailureVec::const_iterator it = result.failures.begin(); it != result.failures.end(); ++it) { string const escapedMessage = XmlEscape(it->second); string const message = BuildFailureMessage(result.failureFile, it->first, escapedMessage); os << ""; } } } ./UnitTest++/src/AssertException.h0000644000175000017500000000102710577526570016662 0ustar proppyproppy#ifndef UNITTEST_ASSERTEXCEPTION_H #define UNITTEST_ASSERTEXCEPTION_H #include namespace UnitTest { class AssertException : public std::exception { public: AssertException(char const* description, char const* filename, int lineNumber); virtual ~AssertException() throw(); virtual char const* what() const throw(); char const* Filename() const; int LineNumber() const; private: char m_description[512]; char m_filename[256]; int m_lineNumber; }; } #endif ./UnitTest++/src/tests/0000755000175000017500000000000011102405256014511 5ustar proppyproppy./UnitTest++/src/tests/TestUnitTest++.cpp0000644000175000017500000000543211102405212017756 0ustar proppyproppy#include "../UnitTest++.h" #include "../ReportAssert.h" #include "ScopedCurrentTest.h" #include // These are sample tests that show the different features of the framework namespace { TEST(ValidCheckSucceeds) { bool const b = true; CHECK(b); } TEST(CheckWorksWithPointers) { void* p = (void *)0x100; CHECK(p); CHECK(p != 0); } TEST(ValidCheckEqualSucceeds) { int const x = 3; int const y = 3; CHECK_EQUAL(x, y); } TEST(CheckEqualWorksWithPointers) { void* p = (void *)0; CHECK_EQUAL((void*)0, p); } TEST(ValidCheckCloseSucceeds) { CHECK_CLOSE(2.0f, 2.001f, 0.01f); CHECK_CLOSE(2.001f, 2.0f, 0.01f); } TEST(ArrayCloseSucceeds) { float const a1[] = {1, 2, 3}; float const a2[] = {1, 2.01f, 3}; CHECK_ARRAY_CLOSE(a1, a2, 3, 0.1f); } TEST (CheckArrayCloseWorksWithVectors) { std::vector< float > a(4); for (int i = 0; i < 4; ++i) a[i] = (float)i; CHECK_ARRAY_CLOSE(a, a, (int)a.size(), 0.0001f); } TEST(CheckThrowMacroSucceedsOnCorrectException) { struct TestException {}; CHECK_THROW(throw TestException(), TestException); } TEST(CheckAssertSucceeds) { CHECK_ASSERT(UnitTest::ReportAssert("desc", "file", 0)); } TEST(CheckThrowMacroFailsOnMissingException) { class NoThrowTest : public UnitTest::Test { public: NoThrowTest() : Test("nothrow") {} void DontThrow() const { } virtual void RunImpl() const { CHECK_THROW(DontThrow(), int); } }; UnitTest::TestResults results; { ScopedCurrentTest scopedResults(results); NoThrowTest test; test.Run(); } CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckThrowMacroFailsOnWrongException) { class WrongThrowTest : public UnitTest::Test { public: WrongThrowTest() : Test("wrongthrow") {} virtual void RunImpl() const { CHECK_THROW(throw "oops", int); } }; UnitTest::TestResults results; { ScopedCurrentTest scopedResults(results); WrongThrowTest test; test.Run(); } CHECK_EQUAL(1, results.GetFailureCount()); } struct SimpleFixture { SimpleFixture() { ++instanceCount; } ~SimpleFixture() { --instanceCount; } static int instanceCount; }; int SimpleFixture::instanceCount = 0; TEST_FIXTURE(SimpleFixture, DefaultFixtureCtorIsCalled) { CHECK(SimpleFixture::instanceCount > 0); } TEST_FIXTURE(SimpleFixture, OnlyOneFixtureAliveAtATime) { CHECK_EQUAL(1, SimpleFixture::instanceCount); } void CheckBool(const bool b) { CHECK(b); } TEST(CanCallCHECKOutsideOfTestFunction) { CheckBool(true); } } ./UnitTest++/src/tests/TestTimeConstraintMacro.cpp0000644000175000017500000000161111102342136021776 0ustar proppyproppy#include "../UnitTest++.h" #include "../TimeHelpers.h" #include "RecordingReporter.h" #include "ScopedCurrentTest.h" namespace { TEST (TimeConstraintMacroQualifiesNamespace) { // If this compiles without a "using namespace UnitTest;", all is well. UNITTEST_TIME_CONSTRAINT(1); } TEST (TimeConstraintMacroUsesCorrectInfo) { int testLine = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); UNITTEST_TIME_CONSTRAINT(10); testLine = __LINE__; UnitTest::TimeHelpers::SleepMs(20); } using namespace std; CHECK_EQUAL(1, reporter.testFailedCount); CHECK(strstr(reporter.lastFailedFile, __FILE__)); CHECK_EQUAL(testLine, reporter.lastFailedLine); CHECK(strstr(reporter.lastFailedTest, "TimeConstraintMacroUsesCorrectInfo")); } } ./UnitTest++/src/tests/TestCurrentTest.cpp0000644000175000017500000000124611102072520020334 0ustar proppyproppy#include "../UnitTest++.h" #include "../CurrentTest.h" #include "ScopedCurrentTest.h" namespace { TEST(CanSetandGetDetails) { bool ok = false; { ScopedCurrentTest scopedTest; const UnitTest::TestDetails* details = reinterpret_cast< const UnitTest::TestDetails* >(12345); UnitTest::CurrentTest::Details() = details; ok = (UnitTest::CurrentTest::Details() == details); } CHECK(ok); } TEST(CanSetAndGetResults) { bool ok = false; { ScopedCurrentTest scopedTest; UnitTest::TestResults results; UnitTest::CurrentTest::Results() = &results; ok = (UnitTest::CurrentTest::Results() == &results); } CHECK(ok); } } ./UnitTest++/src/tests/TestTestRunner.cpp0000644000175000017500000001714611102342136020174 0ustar proppyproppy#include "../UnitTest++.h" #include "RecordingReporter.h" #include "../ReportAssert.h" #include "../TestList.h" #include "../TimeHelpers.h" #include "../TimeConstraint.h" using namespace UnitTest; namespace { struct MockTest : public Test { MockTest(char const* testName, bool const success_, bool const assert_, int const count_ = 1) : Test(testName) , success(success_) , asserted(assert_) , count(count_) { } virtual void RunImpl(TestResults& testResults_) const { for (int i=0; i < count; ++i) { if (asserted) ReportAssert("desc", "file", 0); else if (!success) testResults_.OnTestFailure(m_details, "message"); } } bool const success; bool const asserted; int const count; }; struct TestRunnerFixture { TestRunnerFixture() : runner(reporter) { } RecordingReporter reporter; TestList list; TestRunner runner; }; TEST_FIXTURE(TestRunnerFixture, TestStartIsReportedCorrectly) { MockTest test("goodtest", true, false); list.Add(&test); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(1, reporter.testRunCount); CHECK_EQUAL("goodtest", reporter.lastStartedTest); } TEST_FIXTURE(TestRunnerFixture, TestFinishIsReportedCorrectly) { MockTest test("goodtest", true, false); list.Add(&test); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(1, reporter.testFinishedCount); CHECK_EQUAL("goodtest", reporter.lastFinishedTest); } class SlowTest : public Test { public: SlowTest() : Test("slow", "somesuite", "filename", 123) {} virtual void RunImpl(TestResults&) const { TimeHelpers::SleepMs(20); } }; TEST_FIXTURE(TestRunnerFixture, TestFinishIsCalledWithCorrectTime) { SlowTest test; list.Add(&test); runner.RunTestsIf(list, NULL, True(), 0); CHECK(reporter.lastFinishedTestTime >= 0.005f && reporter.lastFinishedTestTime <= 0.050f); } TEST_FIXTURE(TestRunnerFixture, FailureCountIsZeroWhenNoTestsAreRun) { CHECK_EQUAL(0, runner.RunTestsIf(list, NULL, True(), 0)); CHECK_EQUAL(0, reporter.testRunCount); CHECK_EQUAL(0, reporter.testFailedCount); } TEST_FIXTURE(TestRunnerFixture, CallsReportFailureOncePerFailingTest) { MockTest test1("test", false, false); list.Add(&test1); MockTest test2("test", true, false); list.Add(&test2); MockTest test3("test", false, false); list.Add(&test3); CHECK_EQUAL(2, runner.RunTestsIf(list, NULL, True(), 0)); CHECK_EQUAL(2, reporter.testFailedCount); } TEST_FIXTURE(TestRunnerFixture, TestsThatAssertAreReportedAsFailing) { MockTest test("test", true, true); list.Add(&test); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(1, reporter.testFailedCount); } TEST_FIXTURE(TestRunnerFixture, ReporterNotifiedOfTestCount) { MockTest test1("test", true, false); MockTest test2("test", true, false); MockTest test3("test", true, false); list.Add(&test1); list.Add(&test2); list.Add(&test3); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(3, reporter.summaryTotalTestCount); } TEST_FIXTURE(TestRunnerFixture, ReporterNotifiedOfFailedTests) { MockTest test1("test", false, false, 2); MockTest test2("test", true, false); MockTest test3("test", false, false, 3); list.Add(&test1); list.Add(&test2); list.Add(&test3); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(2, reporter.summaryFailedTestCount); } TEST_FIXTURE(TestRunnerFixture, ReporterNotifiedOfFailures) { MockTest test1("test", false, false, 2); MockTest test2("test", true, false); MockTest test3("test", false, false, 3); list.Add(&test1); list.Add(&test2); list.Add(&test3); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(5, reporter.summaryFailureCount); } TEST_FIXTURE(TestRunnerFixture, SlowTestPassesForHighTimeThreshold) { SlowTest test; list.Add(&test); runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(0, reporter.testFailedCount); } TEST_FIXTURE(TestRunnerFixture, SlowTestFailsForLowTimeThreshold) { SlowTest test; list.Add(&test); runner.RunTestsIf(list, NULL, True(), 3); CHECK_EQUAL(1, reporter.testFailedCount); } TEST_FIXTURE(TestRunnerFixture, SlowTestHasCorrectFailureInformation) { SlowTest test; list.Add(&test); runner.RunTestsIf(list, NULL, True(), 3); using namespace std; CHECK_EQUAL(test.m_details.testName, reporter.lastFailedTest); CHECK(strstr(test.m_details.filename, reporter.lastFailedFile)); CHECK_EQUAL(test.m_details.lineNumber, reporter.lastFailedLine); CHECK(strstr(reporter.lastFailedMessage, "Global time constraint failed")); CHECK(strstr(reporter.lastFailedMessage, "3ms")); } TEST_FIXTURE(TestRunnerFixture, SlowTestWithTimeExemptionPasses) { class SlowExemptedTest : public Test { public: SlowExemptedTest() : Test("slowexempted", "", 0) {} virtual void RunImpl(TestResults&) const { UNITTEST_TIME_CONSTRAINT_EXEMPT(); TimeHelpers::SleepMs(20); } }; SlowExemptedTest test; list.Add(&test); runner.RunTestsIf(list, NULL, True(), 3); CHECK_EQUAL(0, reporter.testFailedCount); } struct TestSuiteFixture { TestSuiteFixture() : test1("TestInDefaultSuite") , test2("TestInOtherSuite", "OtherSuite") , test3("SecondTestInDefaultSuite") , runner(reporter) { list.Add(&test1); list.Add(&test2); } Test test1; Test test2; Test test3; RecordingReporter reporter; TestList list; TestRunner runner; }; TEST_FIXTURE(TestSuiteFixture, TestRunnerRunsAllSuitesIfNullSuiteIsPassed) { runner.RunTestsIf(list, NULL, True(), 0); CHECK_EQUAL(2, reporter.summaryTotalTestCount); } TEST_FIXTURE(TestSuiteFixture,TestRunnerRunsOnlySpecifiedSuite) { runner.RunTestsIf(list, "OtherSuite", True(), 0); CHECK_EQUAL(1, reporter.summaryTotalTestCount); CHECK_EQUAL("TestInOtherSuite", reporter.lastFinishedTest); } struct RunTestIfNameIs { RunTestIfNameIs(char const* name_) : name(name_) { } bool operator()(const Test* const test) const { using namespace std; return (0 == strcmp(test->m_details.testName, name)); } char const* name; }; TEST(TestMockPredicateBehavesCorrectly) { RunTestIfNameIs predicate("pass"); Test pass("pass"); Test fail("fail"); CHECK(predicate(&pass)); CHECK(!predicate(&fail)); } TEST_FIXTURE(TestRunnerFixture, TestRunnerRunsTestsThatPassPredicate) { Test should_run("goodtest"); list.Add(&should_run); Test should_not_run("badtest"); list.Add(&should_not_run); runner.RunTestsIf(list, NULL, RunTestIfNameIs("goodtest"), 0); CHECK_EQUAL(1, reporter.testRunCount); CHECK_EQUAL("goodtest", reporter.lastStartedTest); } TEST_FIXTURE(TestRunnerFixture, TestRunnerOnlyRunsTestsInSpecifiedSuiteAndThatPassPredicate) { Test runningTest1("goodtest", "suite"); Test skippedTest2("goodtest"); Test skippedTest3("badtest", "suite"); Test skippedTest4("badtest"); list.Add(&runningTest1); list.Add(&skippedTest2); list.Add(&skippedTest3); list.Add(&skippedTest4); runner.RunTestsIf(list, "suite", RunTestIfNameIs("goodtest"), 0); CHECK_EQUAL(1, reporter.testRunCount); CHECK_EQUAL("goodtest", reporter.lastStartedTest); CHECK_EQUAL("suite", reporter.lastStartedSuite); } } ./UnitTest++/src/tests/TestTimeConstraint.cpp0000644000175000017500000000323511102342136021020 0ustar proppyproppy#include "../UnitTest++.h" #include "../TestResults.h" #include "../TimeHelpers.h" #include "RecordingReporter.h" #include "ScopedCurrentTest.h" using namespace UnitTest; namespace { TEST(TimeConstraintSucceedsWithFastTest) { TestResults result; { ScopedCurrentTest scopedResult(result); TimeConstraint t(200, TestDetails("", "", "", 0)); TimeHelpers::SleepMs(5); } CHECK_EQUAL(0, result.GetFailureCount()); } TEST(TimeConstraintFailsWithSlowTest) { TestResults result; { ScopedCurrentTest scopedResult(result); TimeConstraint t(10, TestDetails("", "", "", 0)); TimeHelpers::SleepMs(20); } CHECK_EQUAL(1, result.GetFailureCount()); } TEST(TimeConstraintFailureIncludesCorrectData) { RecordingReporter reporter; TestResults result(&reporter); { ScopedCurrentTest scopedResult(result); TestDetails const details("testname", "suitename", "filename", 10); TimeConstraint t(10, details); TimeHelpers::SleepMs(20); } using namespace std; CHECK(strstr(reporter.lastFailedFile, "filename")); CHECK_EQUAL(10, reporter.lastFailedLine); CHECK(strstr(reporter.lastFailedTest, "testname")); } TEST(TimeConstraintFailureIncludesTimeoutInformation) { RecordingReporter reporter; TestResults result(&reporter); { ScopedCurrentTest scopedResult(result); TimeConstraint t(10, TestDetails("", "", "", 0)); TimeHelpers::SleepMs(20); } using namespace std; CHECK(strstr(reporter.lastFailedMessage, "ime constraint")); CHECK(strstr(reporter.lastFailedMessage, "under 10ms")); } } ./UnitTest++/src/tests/ScopedCurrentTest.h0000644000175000017500000000165011102101430020267 0ustar proppyproppy#ifndef UNITTEST_SCOPEDCURRENTTEST_H #define UNITTEST_SCOPEDCURRENTTEST_H #include "../CurrentTest.h" #include class ScopedCurrentTest { public: ScopedCurrentTest() : m_oldTestResults(UnitTest::CurrentTest::Results()) , m_oldTestDetails(UnitTest::CurrentTest::Details()) { } explicit ScopedCurrentTest(UnitTest::TestResults& newResults, const UnitTest::TestDetails* newDetails = NULL) : m_oldTestResults(UnitTest::CurrentTest::Results()) , m_oldTestDetails(UnitTest::CurrentTest::Details()) { UnitTest::CurrentTest::Results() = &newResults; if (newDetails != NULL) UnitTest::CurrentTest::Details() = newDetails; } ~ScopedCurrentTest() { UnitTest::CurrentTest::Results() = m_oldTestResults; UnitTest::CurrentTest::Details() = m_oldTestDetails; } private: UnitTest::TestResults* m_oldTestResults; const UnitTest::TestDetails* m_oldTestDetails; }; #endif ./UnitTest++/src/tests/TestChecks.cpp0000644000175000017500000002112411102342136017252 0ustar proppyproppy#include "../UnitTest++.h" #include "RecordingReporter.h" using namespace UnitTest; namespace { TEST(CheckEqualWithUnsignedLong) { TestResults results; unsigned long something = 2; CHECK_EQUAL(something, something); } TEST(CheckEqualsWithStringsFailsOnDifferentStrings) { char txt1[] = "Hello"; char txt2[] = "Hallo"; TestResults results; CheckEqual(results, txt1, txt2, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } char txt1[] = "Hello"; // non-const on purpose so no folding of duplicate data char txt2[] = "Hello"; TEST(CheckEqualsWithStringsWorksOnContentsNonConstNonConst) { char const* const p1 = txt1; char const* const p2 = txt2; TestResults results; CheckEqual(results, p1, p2, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckEqualsWithStringsWorksOnContentsConstConst) { char* const p1 = txt1; char* const p2 = txt2; TestResults results; CheckEqual(results, p1, p2, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckEqualsWithStringsWorksOnContentsNonConstConst) { char* const p1 = txt1; char const* const p2 = txt2; TestResults results; CheckEqual(results, p1, p2, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckEqualsWithStringsWorksOnContentsConstNonConst) { char const* const p1 = txt1; char* const p2 = txt2; TestResults results; CheckEqual(results, p1, p2, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckEqualsWithStringsWorksOnContentsWithALiteral) { char const* const p1 = txt1; TestResults results; CheckEqual(results, "Hello", p1, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckEqualFailureIncludesCheckExpectedAndActual) { RecordingReporter reporter; TestResults results(&reporter); const int something = 2; CheckEqual(results, 1, something, TestDetails("", "", "", 0)); using namespace std; CHECK(strstr(reporter.lastFailedMessage, "xpected 1")); CHECK(strstr(reporter.lastFailedMessage, "was 2")); } TEST(CheckEqualFailureIncludesDetails) { RecordingReporter reporter; TestResults results(&reporter); TestDetails const details("mytest", "mysuite", "file.h", 101); CheckEqual(results, 1, 2, details); CHECK_EQUAL("mytest", reporter.lastFailedTest); CHECK_EQUAL("mysuite", reporter.lastFailedSuite); CHECK_EQUAL("file.h", reporter.lastFailedFile); CHECK_EQUAL(101, reporter.lastFailedLine); } TEST(CheckCloseTrue) { TestResults results; CheckClose(results, 3.001f, 3.0f, 0.1f, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckCloseFalse) { TestResults results; CheckClose(results, 3.12f, 3.0f, 0.1f, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckCloseWithZeroEpsilonWorksForSameNumber) { TestResults results; CheckClose(results, 0.1f, 0.1f, 0, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckCloseWithNaNFails) { union { unsigned int bitpattern; float nan; }; bitpattern = 0xFFFFFFFF; TestResults results; CheckClose(results, 3.0f, nan, 0.1f, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckCloseWithNaNAgainstItselfFails) { union { unsigned int bitpattern; float nan; }; bitpattern = 0xFFFFFFFF; TestResults results; CheckClose(results, nan, nan, 0.1f, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckCloseFailureIncludesCheckExpectedAndActual) { RecordingReporter reporter; TestResults results(&reporter); const float expected = 0.9f; const float actual = 1.1f; CheckClose(results, expected, actual, 0.01f, TestDetails("", "", "", 0)); using namespace std; CHECK(strstr(reporter.lastFailedMessage, "xpected 0.9")); CHECK(strstr(reporter.lastFailedMessage, "was 1.1")); } TEST(CheckCloseFailureIncludesTolerance) { RecordingReporter reporter; TestResults results(&reporter); CheckClose(results, 2, 3, 0.01f, TestDetails("", "", "", 0)); using namespace std; CHECK(strstr(reporter.lastFailedMessage, "0.01")); } TEST(CheckCloseFailureIncludesDetails) { RecordingReporter reporter; TestResults results(&reporter); TestDetails const details("mytest", "mysuite", "header.h", 10); CheckClose(results, 2, 3, 0.01f, details); CHECK_EQUAL("mytest", reporter.lastFailedTest); CHECK_EQUAL("mysuite", reporter.lastFailedSuite); CHECK_EQUAL("header.h", reporter.lastFailedFile); CHECK_EQUAL(10, reporter.lastFailedLine); } TEST(CheckArrayEqualTrue) { TestResults results; int const array[3] = { 1, 2, 3 }; CheckArrayEqual(results, array, array, 3, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckArrayEqualFalse) { TestResults results; int const array1[3] = { 1, 2, 3 }; int const array2[3] = { 1, 2, 2 }; CheckArrayEqual(results, array1, array2, 3, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckArrayCloseTrue) { TestResults results; float const array1[3] = { 1.0f, 1.5f, 2.0f }; float const array2[3] = { 1.01f, 1.51f, 2.01f }; CheckArrayClose(results, array1, array2, 3, 0.02f, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckArrayCloseFalse) { TestResults results; float const array1[3] = { 1.0f, 1.5f, 2.0f }; float const array2[3] = { 1.01f, 1.51f, 2.01f }; CheckArrayClose(results, array1, array2, 3, 0.001f, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckArrayCloseFailureIncludesDetails) { RecordingReporter reporter; TestResults results(&reporter); TestDetails const details("arrayCloseTest", "arrayCloseSuite", "file", 1337); float const array1[3] = { 1.0f, 1.5f, 2.0f }; float const array2[3] = { 1.01f, 1.51f, 2.01f }; CheckArrayClose(results, array1, array2, 3, 0.001f, details); CHECK_EQUAL("arrayCloseTest", reporter.lastFailedTest); CHECK_EQUAL("arrayCloseSuite", reporter.lastFailedSuite); CHECK_EQUAL("file", reporter.lastFailedFile); CHECK_EQUAL(1337, reporter.lastFailedLine); } TEST(CheckArray2DCloseTrue) { TestResults results; float const array1[3][3] = { { 1.0f, 1.5f, 2.0f }, { 2.0f, 2.5f, 3.0f }, { 3.0f, 3.5f, 4.0f } }; float const array2[3][3] = { { 1.01f, 1.51f, 2.01f }, { 2.01f, 2.51f, 3.01f }, { 3.01f, 3.51f, 4.01f } }; CheckArray2DClose(results, array1, array2, 3, 3, 0.02f, TestDetails("", "", "", 0)); CHECK_EQUAL(0, results.GetFailureCount()); } TEST(CheckArray2DCloseFalse) { TestResults results; float const array1[3][3] = { { 1.0f, 1.5f, 2.0f }, { 2.0f, 2.5f, 3.0f }, { 3.0f, 3.5f, 4.0f } }; float const array2[3][3] = { { 1.01f, 1.51f, 2.01f }, { 2.01f, 2.51f, 3.01f }, { 3.01f, 3.51f, 4.01f } }; CheckArray2DClose(results, array1, array2, 3, 3, 0.001f, TestDetails("", "", "", 0)); CHECK_EQUAL(1, results.GetFailureCount()); } TEST(CheckCloseWithDoublesSucceeds) { CHECK_CLOSE(0.5, 0.5, 0.0001); } TEST(CheckArray2DCloseFailureIncludesDetails) { RecordingReporter reporter; TestResults results(&reporter); TestDetails const details("array2DCloseTest", "array2DCloseSuite", "file", 1234); float const array1[3][3] = { { 1.0f, 1.5f, 2.0f }, { 2.0f, 2.5f, 3.0f }, { 3.0f, 3.5f, 4.0f } }; float const array2[3][3] = { { 1.01f, 1.51f, 2.01f }, { 2.01f, 2.51f, 3.01f }, { 3.01f, 3.51f, 4.01f } }; CheckArray2DClose(results, array1, array2, 3, 3, 0.001f, details); CHECK_EQUAL("array2DCloseTest", reporter.lastFailedTest); CHECK_EQUAL("array2DCloseSuite", reporter.lastFailedSuite); CHECK_EQUAL("file", reporter.lastFailedFile); CHECK_EQUAL(1234, reporter.lastFailedLine); } } ./UnitTest++/src/tests/TestTest.cpp0000644000175000017500000000454111102072520016772 0ustar proppyproppy#include "../UnitTest++.h" #include "../TestReporter.h" #include "../TimeHelpers.h" #include "ScopedCurrentTest.h" using namespace UnitTest; namespace { TEST(PassingTestHasNoFailures) { class PassingTest : public Test { public: PassingTest() : Test("passing") {} virtual void RunImpl() const { CHECK(true); } }; TestResults results; { ScopedCurrentTest scopedResults(results); PassingTest().Run(); } CHECK_EQUAL(0, results.GetFailureCount()); } TEST(FailingTestHasFailures) { class FailingTest : public Test { public: FailingTest() : Test("failing") {} virtual void RunImpl() const { CHECK(false); } }; TestResults results; { ScopedCurrentTest scopedResults(results); FailingTest().Run(); } CHECK_EQUAL(1, results.GetFailureCount()); } TEST(ThrowingTestsAreReportedAsFailures) { class CrashingTest : public Test { public: CrashingTest() : Test("throwing") {} virtual void RunImpl() const { throw "Blah"; } }; TestResults results; { ScopedCurrentTest scopedResult(results); CrashingTest().Run(); } CHECK_EQUAL(1, results.GetFailureCount()); } #ifndef UNITTEST_MINGW TEST(CrashingTestsAreReportedAsFailures) { class CrashingTest : public Test { public: CrashingTest() : Test("crashing") {} virtual void RunImpl() const { reinterpret_cast< void (*)() >(0)(); } }; TestResults results; { ScopedCurrentTest scopedResult(results); CrashingTest().Run(); } CHECK_EQUAL(1, results.GetFailureCount()); } #endif TEST(TestWithUnspecifiedSuiteGetsDefaultSuite) { Test test("test"); CHECK(test.m_details.suiteName != NULL); CHECK_EQUAL("DefaultSuite", test.m_details.suiteName); } TEST(TestReflectsSpecifiedSuiteName) { Test test("test", "testSuite"); CHECK(test.m_details.suiteName != NULL); CHECK_EQUAL("testSuite", test.m_details.suiteName); } void Fail() { CHECK(false); } TEST(OutOfCoreCHECKMacrosCanFailTests) { TestResults results; { ScopedCurrentTest scopedResult(results); Fail(); } CHECK_EQUAL(1, results.GetFailureCount()); } } ./UnitTest++/src/tests/TestXmlTestReporter.cpp0000644000175000017500000001335210577526570021226 0ustar proppyproppy#include "../UnitTest++.h" #include "../XmlTestReporter.h" #include using namespace UnitTest; using std::ostringstream; namespace { #ifdef UNITTEST_USE_CUSTOM_STREAMS // Overload to let MemoryOutStream accept std::string MemoryOutStream& operator<<(MemoryOutStream& s, const std::string& value) { s << value.c_str(); return s; } #endif struct XmlTestReporterFixture { XmlTestReporterFixture() : reporter(output) { } ostringstream output; XmlTestReporter reporter; }; TEST_FIXTURE(XmlTestReporterFixture, MultipleCharactersAreEscaped) { TestDetails const details("TestName", "suite", "filename.h", 4321); reporter.ReportTestStart(details); reporter.ReportFailure(details, "\"\"\'\'&&<<>>"); reporter.ReportTestFinish(details, 0.1f); reporter.ReportSummary(1, 2, 3, 0.1f); char const* expected = "" "" "" "" "" ""; CHECK_EQUAL(expected, output.str()); } TEST_FIXTURE(XmlTestReporterFixture, OutputIsCachedUntilReportSummaryIsCalled) { TestDetails const details("", "", "", 0); reporter.ReportTestStart(details); reporter.ReportFailure(details, "message"); reporter.ReportTestFinish(details, 1.0F); CHECK(output.str().empty()); reporter.ReportSummary(1, 1, 1, 1.0f); CHECK(!output.str().empty()); } TEST_FIXTURE(XmlTestReporterFixture, EmptyReportSummaryFormat) { reporter.ReportSummary(0, 0, 0, 0.1f); const char *expected = "" "" ""; CHECK_EQUAL(expected, output.str()); } TEST_FIXTURE(XmlTestReporterFixture, SingleSuccessfulTestReportSummaryFormat) { TestDetails const details("TestName", "DefaultSuite", "", 0); reporter.ReportTestStart(details); reporter.ReportSummary(1, 0, 0, 0.1f); const char *expected = "" "" "" ""; CHECK_EQUAL(expected, output.str()); } TEST_FIXTURE(XmlTestReporterFixture, SingleFailedTestReportSummaryFormat) { TestDetails const details("A Test", "suite", "A File", 4321); reporter.ReportTestStart(details); reporter.ReportFailure(details, "A Failure"); reporter.ReportSummary(1, 1, 1, 0.1f); const char *expected = "" "" "" "" "" ""; CHECK_EQUAL(expected, output.str()); } TEST_FIXTURE(XmlTestReporterFixture, FailureMessageIsXMLEscaped) { TestDetails const details("TestName", "suite", "filename.h", 4321); reporter.ReportTestStart(details); reporter.ReportFailure(details, "\"\'&<>"); reporter.ReportTestFinish(details, 0.1f); reporter.ReportSummary(1, 1, 1, 0.1f); char const* expected = "" "" "" "" "" ""; CHECK_EQUAL(expected, output.str()); } TEST_FIXTURE(XmlTestReporterFixture, OneFailureAndOneSuccess) { TestDetails const failedDetails("FailedTest", "suite", "fail.h", 1); reporter.ReportTestStart(failedDetails); reporter.ReportFailure(failedDetails, "expected 1 but was 2"); reporter.ReportTestFinish(failedDetails, 0.1f); TestDetails const succeededDetails("SucceededTest", "suite", "", 0); reporter.ReportTestStart(succeededDetails); reporter.ReportTestFinish(succeededDetails, 1.0f); reporter.ReportSummary(2, 1, 1, 1.1f); char const* expected = "" "" "" "" "" "" ""; CHECK_EQUAL(expected, output.str()); } TEST_FIXTURE(XmlTestReporterFixture, MultipleFailures) { TestDetails const failedDetails1("FailedTest", "suite", "fail.h", 1); TestDetails const failedDetails2("FailedTest", "suite", "fail.h", 31); reporter.ReportTestStart(failedDetails1); reporter.ReportFailure(failedDetails1, "expected 1 but was 2"); reporter.ReportFailure(failedDetails2, "expected one but was two"); reporter.ReportTestFinish(failedDetails1, 0.1f); reporter.ReportSummary(1, 1, 2, 1.1f); char const* expected = "" "" "" "" "" "" ""; CHECK_EQUAL(expected, output.str()); } } ./UnitTest++/src/tests/TestAssertHandler.cpp0000644000175000017500000000147610577526570020646 0ustar proppyproppy#include "../UnitTest++.h" #include "../AssertException.h" #include "../ReportAssert.h" using namespace UnitTest; namespace { TEST(ReportAssertThrowsAssertException) { bool caught = false; try { ReportAssert("", "", 0); } catch(AssertException const&) { caught = true; } CHECK (true == caught); } TEST(ReportAssertSetsCorrectInfoInException) { const int lineNumber = 12345; const char* description = "description"; const char* filename = "filename"; try { ReportAssert(description, filename, lineNumber); } catch(AssertException const& e) { CHECK_EQUAL(description, e.what()); CHECK_EQUAL(filename, e.Filename()); CHECK_EQUAL(lineNumber, e.LineNumber()); } } } ./UnitTest++/src/tests/TestTestMacros.cpp0000644000175000017500000001151411102342136020140 0ustar proppyproppy#include "../UnitTest++.h" #include "../TestMacros.h" #include "../TestList.h" #include "../TestResults.h" #include "../TestReporter.h" #include "../ReportAssert.h" #include "RecordingReporter.h" #include "ScopedCurrentTest.h" using namespace UnitTest; namespace { TestList list1; TEST_EX(DummyTest, list1) { } TEST (TestsAreAddedToTheListThroughMacro) { CHECK(list1.GetHead() != 0); CHECK(list1.GetHead()->next == 0); } struct ThrowingThingie { ThrowingThingie() : dummy(false) { if (!dummy) throw "Oops"; } bool dummy; }; TestList list2; TEST_FIXTURE_EX(ThrowingThingie, DummyTestName, list2) { } TEST (ExceptionsInFixtureAreReportedAsHappeningInTheFixture) { RecordingReporter reporter; TestResults result(&reporter); { ScopedCurrentTest scopedResults(result); list2.GetHead()->Run(); } CHECK(strstr(reporter.lastFailedMessage, "xception")); CHECK(strstr(reporter.lastFailedMessage, "fixture")); CHECK(strstr(reporter.lastFailedMessage, "ThrowingThingie")); } struct DummyFixture { int x; }; // We're really testing the macros so we just want them to compile and link SUITE(TestSuite1) { TEST(SimilarlyNamedTestsInDifferentSuitesWork) { } TEST_FIXTURE(DummyFixture, SimilarlyNamedFixtureTestsInDifferentSuitesWork) { } } SUITE(TestSuite2) { TEST(SimilarlyNamedTestsInDifferentSuitesWork) { } TEST_FIXTURE(DummyFixture,SimilarlyNamedFixtureTestsInDifferentSuitesWork) { } } TestList macroTestList1; TEST_EX(MacroTestHelper1, macroTestList1) { } TEST(TestAddedWithTEST_EXMacroGetsDefaultSuite) { CHECK(macroTestList1.GetHead() != NULL); CHECK_EQUAL ("MacroTestHelper1", macroTestList1.GetHead()->m_details.testName); CHECK_EQUAL ("DefaultSuite", macroTestList1.GetHead()->m_details.suiteName); } TestList macroTestList2; TEST_FIXTURE_EX(DummyFixture, MacroTestHelper2, macroTestList2) { } TEST(TestAddedWithTEST_FIXTURE_EXMacroGetsDefaultSuite) { CHECK(macroTestList2.GetHead() != NULL); CHECK_EQUAL ("MacroTestHelper2", macroTestList2.GetHead()->m_details.testName); CHECK_EQUAL ("DefaultSuite", macroTestList2.GetHead()->m_details.suiteName); } struct FixtureCtorThrows { FixtureCtorThrows() { throw "exception"; } }; TestList throwingFixtureTestList1; TEST_FIXTURE_EX(FixtureCtorThrows, FixtureCtorThrowsTestName, throwingFixtureTestList1) { } TEST(FixturesWithThrowingCtorsAreFailures) { CHECK(throwingFixtureTestList1.GetHead() != NULL); RecordingReporter reporter; TestResults result(&reporter); { ScopedCurrentTest scopedResult(result); throwingFixtureTestList1.GetHead()->Run(); } int const failureCount = result.GetFailedTestCount(); CHECK_EQUAL(1, failureCount); CHECK(strstr(reporter.lastFailedMessage, "while constructing fixture")); } struct FixtureDtorThrows { ~FixtureDtorThrows() { throw "exception"; } }; TestList throwingFixtureTestList2; TEST_FIXTURE_EX(FixtureDtorThrows, FixtureDtorThrowsTestName, throwingFixtureTestList2) { } TEST(FixturesWithThrowingDtorsAreFailures) { CHECK(throwingFixtureTestList2.GetHead() != NULL); RecordingReporter reporter; TestResults result(&reporter); { ScopedCurrentTest scopedResult(result); throwingFixtureTestList2.GetHead()->Run(); } int const failureCount = result.GetFailedTestCount(); CHECK_EQUAL(1, failureCount); CHECK(strstr(reporter.lastFailedMessage, "while destroying fixture")); } const int FailingLine = 123; struct FixtureCtorAsserts { FixtureCtorAsserts() { UnitTest::ReportAssert("assert failure", "file", FailingLine); } }; TestList ctorAssertFixtureTestList; TEST_FIXTURE_EX(FixtureCtorAsserts, CorrectlyReportsAssertFailureInCtor, ctorAssertFixtureTestList) { } TEST(CorrectlyReportsFixturesWithCtorsThatAssert) { RecordingReporter reporter; TestResults result(&reporter); { ScopedCurrentTest scopedResults(result); ctorAssertFixtureTestList.GetHead()->Run(); } const int failureCount = result.GetFailedTestCount(); CHECK_EQUAL(1, failureCount); CHECK_EQUAL(FailingLine, reporter.lastFailedLine); CHECK(strstr(reporter.lastFailedMessage, "assert failure")); } } // We're really testing if it's possible to use the same suite in two files // to compile and link successfuly (TestTestSuite.cpp has suite with the same name) // Note: we are outside of the anonymous namespace SUITE(SameTestSuite) { TEST(DummyTest1) { } } #define CUR_TEST_NAME CurrentTestDetailsContainCurrentTestInfo #define INNER_STRINGIFY(X) #X #define STRINGIFY(X) INNER_STRINGIFY(X) TEST(CUR_TEST_NAME) { const UnitTest::TestDetails* details = CurrentTest::Details(); CHECK_EQUAL(STRINGIFY(CUR_TEST_NAME), details->testName); } #undef CUR_TEST_NAME #undef INNER_STRINGIFY #undef STRINGIFY ./UnitTest++/src/tests/TestCheckMacros.cpp0000644000175000017500000005237011102342136020243 0ustar proppyproppy#include "../UnitTest++.h" #include "../CurrentTest.h" #include "RecordingReporter.h" #include "ScopedCurrentTest.h" using namespace std; namespace { TEST(CheckSucceedsOnTrue) { bool failure = true; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK(true); failure = (testResults.GetFailureCount() > 0); } CHECK(!failure); } TEST(CheckFailsOnFalse) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK(false); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(FailureReportsCorrectTestName) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK(false); } CHECK_EQUAL(m_details.testName, reporter.lastFailedTest); } TEST(CheckFailureIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const bool yaddayadda = false; CHECK(yaddayadda); } CHECK(strstr(reporter.lastFailedMessage, "yaddayadda")); } int ThrowingFunction() { throw "Doh"; } TEST(CheckFailsOnException) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK(ThrowingFunction() == 1); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckFailureBecauseOfExceptionIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK(ThrowingFunction() == 1); } CHECK(strstr(reporter.lastFailedMessage, "ThrowingFunction() == 1")); } TEST(CheckEqualSucceedsOnEqual) { bool failure = true; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_EQUAL(1, 1); failure = (testResults.GetFailureCount() > 0); } CHECK(!failure); } TEST(CheckEqualFailsOnNotEqual) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_EQUAL(1, 2); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckEqualFailsOnException) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_EQUAL(ThrowingFunction(), 1); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckEqualFailureContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails const testDetails("testName", "suiteName", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); CHECK_EQUAL(1, 123); line = __LINE__; } CHECK_EQUAL("testName", reporter.lastFailedTest); CHECK_EQUAL("suiteName", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckEqualFailureBecauseOfExceptionContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails const testDetails("testName", "suiteName", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); CHECK_EQUAL(ThrowingFunction(), 123); line = __LINE__; } CHECK_EQUAL("testName", reporter.lastFailedTest); CHECK_EQUAL("suiteName", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckEqualFailureBecauseOfExceptionIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_EQUAL(ThrowingFunction(), 123); } CHECK(strstr(reporter.lastFailedMessage, "ThrowingFunction()")); CHECK(strstr(reporter.lastFailedMessage, "123")); } int g_sideEffect = 0; int FunctionWithSideEffects() { ++g_sideEffect; return 1; } TEST(CheckEqualDoesNotHaveSideEffectsWhenPassing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); CHECK_EQUAL(1, FunctionWithSideEffects()); } CHECK_EQUAL(1, g_sideEffect); } TEST(CheckEqualDoesNotHaveSideEffectsWhenFailing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); CHECK_EQUAL(2, FunctionWithSideEffects()); } CHECK_EQUAL(1, g_sideEffect); } TEST(CheckCloseSucceedsOnEqual) { bool failure = true; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_CLOSE (1.0f, 1.001f, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(!failure); } TEST(CheckCloseFailsOnNotEqual) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_CLOSE (1.0f, 1.1f, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckCloseFailsOnException) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_CLOSE ((float)ThrowingFunction(), 1.0001f, 0.1f); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckCloseFailureContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails testDetails("test", "suite", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); CHECK_CLOSE (1.0f, 1.1f, 0.01f); line = __LINE__; } CHECK_EQUAL("test", reporter.lastFailedTest); CHECK_EQUAL("suite", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckCloseFailureBecauseOfExceptionContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails testDetails("closeTest", "closeSuite", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); CHECK_CLOSE ((float)ThrowingFunction(), 1.0001f, 0.1f); line = __LINE__; } CHECK_EQUAL("closeTest", reporter.lastFailedTest); CHECK_EQUAL("closeSuite", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckCloseFailureBecauseOfExceptionIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); CHECK_CLOSE ((float)ThrowingFunction(), 1.0001f, 0.1f); } CHECK(strstr(reporter.lastFailedMessage, "(float)ThrowingFunction()")); CHECK(strstr(reporter.lastFailedMessage, "1.0001f")); } TEST(CheckCloseDoesNotHaveSideEffectsWhenPassing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); CHECK_CLOSE (1, FunctionWithSideEffects(), 0.1f); } CHECK_EQUAL(1, g_sideEffect); } TEST(CheckCloseDoesNotHaveSideEffectsWhenFailing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); CHECK_CLOSE (2, FunctionWithSideEffects(), 0.1f); } CHECK_EQUAL(1, g_sideEffect); } class ThrowingObject { public: float operator[](int) const { throw "Test throw"; } }; TEST(CheckArrayCloseSucceedsOnEqual) { bool failure = true; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[4] = { 0, 1, 2, 3 }; CHECK_ARRAY_CLOSE (data, data, 4, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(!failure); } TEST(CheckArrayCloseFailsOnNotEqual) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[4] = { 0, 1, 2, 3 }; int const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_CLOSE (data1, data2, 4, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckArrayCloseFailureIncludesCheckExpectedAndActual) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[4] = { 0, 1, 2, 3 }; int const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_CLOSE (data1, data2, 4, 0.01f); } CHECK(strstr(reporter.lastFailedMessage, "xpected [ 0 1 2 3 ]")); CHECK(strstr(reporter.lastFailedMessage, "was [ 0 1 3 3 ]")); } TEST(CheckArrayCloseFailureContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails testDetails("arrayCloseTest", "arrayCloseSuite", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); int const data1[4] = { 0, 1, 2, 3 }; int const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_CLOSE (data1, data2, 4, 0.01f); line = __LINE__; } CHECK_EQUAL("arrayCloseTest", reporter.lastFailedTest); CHECK_EQUAL("arrayCloseSuite", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckArrayCloseFailureBecauseOfExceptionContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails testDetails("arrayCloseTest", "arrayCloseSuite", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); int const data[4] = { 0, 1, 2, 3 }; CHECK_ARRAY_CLOSE (data, ThrowingObject(), 4, 0.01f); line = __LINE__; } CHECK_EQUAL("arrayCloseTest", reporter.lastFailedTest); CHECK_EQUAL("arrayCloseSuite", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckArrayCloseFailureIncludesTolerance) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); float const data1[4] = { 0, 1, 2, 3 }; float const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_CLOSE (data1, data2, 4, 0.01f); } CHECK(strstr(reporter.lastFailedMessage, "0.01")); } TEST(CheckArrayCloseFailsOnException) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[4] = { 0, 1, 2, 3 }; ThrowingObject obj; CHECK_ARRAY_CLOSE (data, obj, 3, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckArrayCloseFailureOnExceptionIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[4] = { 0, 1, 2, 3 }; ThrowingObject obj; CHECK_ARRAY_CLOSE (data, obj, 3, 0.01f); } CHECK(strstr(reporter.lastFailedMessage, "data")); CHECK(strstr(reporter.lastFailedMessage, "obj")); } TEST(CheckArrayEqualSuceedsOnEqual) { bool failure = true; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[4] = { 0, 1, 2, 3 }; CHECK_ARRAY_EQUAL (data, data, 4); failure = (testResults.GetFailureCount() > 0); } CHECK(!failure); } TEST(CheckArrayEqualFailsOnNotEqual) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[4] = { 0, 1, 2, 3 }; int const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_EQUAL (data1, data2, 4); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckArrayEqualFailureIncludesCheckExpectedAndActual) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[4] = { 0, 1, 2, 3 }; int const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_EQUAL (data1, data2, 4); } CHECK(strstr(reporter.lastFailedMessage, "xpected [ 0 1 2 3 ]")); CHECK(strstr(reporter.lastFailedMessage, "was [ 0 1 3 3 ]")); } TEST(CheckArrayEqualFailureContainsCorrectInfo) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[4] = { 0, 1, 2, 3 }; int const data2[4] = { 0, 1, 3, 3 }; CHECK_ARRAY_EQUAL (data1, data2, 4); line = __LINE__; } CHECK_EQUAL("CheckArrayEqualFailureContainsCorrectInfo", reporter.lastFailedTest); CHECK_EQUAL(__FILE__, reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckArrayEqualFailsOnException) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[4] = { 0, 1, 2, 3 }; ThrowingObject obj; CHECK_ARRAY_EQUAL (data, obj, 3); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckArrayEqualFailureOnExceptionIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[4] = { 0, 1, 2, 3 }; ThrowingObject obj; CHECK_ARRAY_EQUAL (data, obj, 3); } CHECK(strstr(reporter.lastFailedMessage, "data")); CHECK(strstr(reporter.lastFailedMessage, "obj")); } float const* FunctionWithSideEffects2() { ++g_sideEffect; static float const data[] = {1,2,3,4}; return data; } TEST(CheckArrayCloseDoesNotHaveSideEffectsWhenPassing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); const float data[] = { 0, 1, 2, 3 }; CHECK_ARRAY_CLOSE (data, FunctionWithSideEffects2(), 4, 0.01f); } CHECK_EQUAL(1, g_sideEffect); } TEST(CheckArrayCloseDoesNotHaveSideEffectsWhenFailing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); const float data[] = { 0, 1, 3, 3 }; CHECK_ARRAY_CLOSE (data, FunctionWithSideEffects2(), 4, 0.01f); } CHECK_EQUAL(1, g_sideEffect); } class ThrowingObject2D { public: float* operator[](int) const { throw "Test throw"; } }; TEST(CheckArray2DCloseSucceedsOnEqual) { bool failure = true; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[2][2] = { {0, 1}, {2, 3} }; CHECK_ARRAY2D_CLOSE (data, data, 2, 2, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(!failure); } TEST(CheckArray2DCloseFailsOnNotEqual) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[2][2] = { {0, 1}, {2, 3} }; int const data2[2][2] = { {0, 1}, {3, 3} }; CHECK_ARRAY2D_CLOSE (data1, data2, 2, 2, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckArray2DCloseFailureIncludesCheckExpectedAndActual) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); int const data1[2][2] = { {0, 1}, {2, 3} }; int const data2[2][2] = { {0, 1}, {3, 3} }; CHECK_ARRAY2D_CLOSE (data1, data2, 2, 2, 0.01f); } CHECK(strstr(reporter.lastFailedMessage, "xpected [ [ 0 1 ] [ 2 3 ] ]")); CHECK(strstr(reporter.lastFailedMessage, "was [ [ 0 1 ] [ 3 3 ] ]")); } TEST(CheckArray2DCloseFailureContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails testDetails("array2DCloseTest", "array2DCloseSuite", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); int const data1[2][2] = { {0, 1}, {2, 3} }; int const data2[2][2] = { {0, 1}, {3, 3} }; CHECK_ARRAY2D_CLOSE (data1, data2, 2, 2, 0.01f); line = __LINE__; } CHECK_EQUAL("array2DCloseTest", reporter.lastFailedTest); CHECK_EQUAL("array2DCloseSuite", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckArray2DCloseFailureBecauseOfExceptionContainsCorrectDetails) { int line = 0; RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); UnitTest::TestDetails testDetails("array2DCloseTest", "array2DCloseSuite", "filename", -1); ScopedCurrentTest scopedResults(testResults, &testDetails); const float data[2][2] = { {0, 1}, {2, 3} }; CHECK_ARRAY2D_CLOSE (data, ThrowingObject2D(), 2, 2, 0.01f); line = __LINE__; } CHECK_EQUAL("array2DCloseTest", reporter.lastFailedTest); CHECK_EQUAL("array2DCloseSuite", reporter.lastFailedSuite); CHECK_EQUAL("filename", reporter.lastFailedFile); CHECK_EQUAL(line, reporter.lastFailedLine); } TEST(CheckArray2DCloseFailureIncludesTolerance) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); float const data1[2][2] = { {0, 1}, {2, 3} }; float const data2[2][2] = { {0, 1}, {3, 3} }; CHECK_ARRAY2D_CLOSE (data1, data2, 2, 2, 0.01f); } CHECK(strstr(reporter.lastFailedMessage, "0.01")); } TEST(CheckArray2DCloseFailsOnException) { bool failure = false; { RecordingReporter reporter; UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[2][2] = { {0, 1}, {2, 3} }; ThrowingObject2D obj; CHECK_ARRAY2D_CLOSE (data, obj, 2, 2, 0.01f); failure = (testResults.GetFailureCount() > 0); } CHECK(failure); } TEST(CheckArray2DCloseFailureOnExceptionIncludesCheckContents) { RecordingReporter reporter; { UnitTest::TestResults testResults(&reporter); ScopedCurrentTest scopedResults(testResults); const float data[2][2] = { {0, 1}, {2, 3} }; ThrowingObject2D obj; CHECK_ARRAY2D_CLOSE (data, obj, 2, 2, 0.01f); } CHECK(strstr(reporter.lastFailedMessage, "data")); CHECK(strstr(reporter.lastFailedMessage, "obj")); } float const* const* FunctionWithSideEffects3() { ++g_sideEffect; static float const data1[] = {0,1}; static float const data2[] = {2,3}; static const float* const data[] = {data1, data2}; return data; } TEST(CheckArray2DCloseDoesNotHaveSideEffectsWhenPassing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); const float data[2][2] = { {0, 1}, {2, 3} }; CHECK_ARRAY2D_CLOSE (data, FunctionWithSideEffects3(), 2, 2, 0.01f); } CHECK_EQUAL(1, g_sideEffect); } TEST(CheckArray2DCloseDoesNotHaveSideEffectsWhenFailing) { g_sideEffect = 0; { UnitTest::TestResults testResults; ScopedCurrentTest scopedResults(testResults); const float data[2][2] = { {0, 1}, {3, 3} }; CHECK_ARRAY2D_CLOSE (data, FunctionWithSideEffects3(), 2, 2, 0.01f); } CHECK_EQUAL(1, g_sideEffect); } } ./UnitTest++/src/tests/Main.cpp0000644000175000017500000000021610577526570016122 0ustar proppyproppy#include "../UnitTest++.h" #include "../TestReporterStdout.h" int main(int, char const *[]) { return UnitTest::RunAllTests(); } ./UnitTest++/src/tests/TestTestSuite.cpp0000644000175000017500000000046611102072520020006 0ustar proppyproppy#include "../UnitTest++.h" // We're really testing if it's possible to use the same suite in two files // to compile and link successfuly (TestTestSuite.cpp has suite with the same name) // Note: we are outside of the anonymous namespace SUITE(SameTestSuite) { TEST(DummyTest2) { } } ./UnitTest++/src/tests/TestTestResults.cpp0000644000175000017500000000575210577526570020411 0ustar proppyproppy#include "../UnitTest++.h" #include "../TestResults.h" #include "RecordingReporter.h" using namespace UnitTest; namespace { TestDetails const details("testname", "suitename", "filename", 123); TEST(StartsWithNoTestsRun) { TestResults results; CHECK_EQUAL (0, results.GetTotalTestCount()); } TEST(RecordsNumbersOfTests) { TestResults results; results.OnTestStart(details); results.OnTestStart(details); results.OnTestStart(details); CHECK_EQUAL(3, results.GetTotalTestCount()); } TEST(StartsWithNoTestsFailing) { TestResults results; CHECK_EQUAL (0, results.GetFailureCount()); } TEST(RecordsNumberOfFailures) { TestResults results; results.OnTestFailure(details, ""); results.OnTestFailure(details, ""); CHECK_EQUAL(2, results.GetFailureCount()); } TEST(RecordsNumberOfFailedTests) { TestResults results; results.OnTestStart(details); results.OnTestFailure(details, ""); results.OnTestFinish(details, 0); results.OnTestStart(details); results.OnTestFailure(details, ""); results.OnTestFailure(details, ""); results.OnTestFailure(details, ""); results.OnTestFinish(details, 0); CHECK_EQUAL (2, results.GetFailedTestCount()); } TEST(NotifiesReporterOfTestStartWithCorrectInfo) { RecordingReporter reporter; TestResults results(&reporter); results.OnTestStart(details); CHECK_EQUAL (1, reporter.testRunCount); CHECK_EQUAL ("suitename", reporter.lastStartedSuite); CHECK_EQUAL ("testname", reporter.lastStartedTest); } TEST(NotifiesReporterOfTestFailureWithCorrectInfo) { RecordingReporter reporter; TestResults results(&reporter); results.OnTestFailure(details, "failurestring"); CHECK_EQUAL (1, reporter.testFailedCount); CHECK_EQUAL ("filename", reporter.lastFailedFile); CHECK_EQUAL (123, reporter.lastFailedLine); CHECK_EQUAL ("suitename", reporter.lastFailedSuite); CHECK_EQUAL ("testname", reporter.lastFailedTest); CHECK_EQUAL ("failurestring", reporter.lastFailedMessage); } TEST(NotifiesReporterOfCheckFailureWithCorrectInfo) { RecordingReporter reporter; TestResults results(&reporter); results.OnTestFailure(details, "failurestring"); CHECK_EQUAL (1, reporter.testFailedCount); CHECK_EQUAL ("filename", reporter.lastFailedFile); CHECK_EQUAL (123, reporter.lastFailedLine); CHECK_EQUAL ("testname", reporter.lastFailedTest); CHECK_EQUAL ("suitename", reporter.lastFailedSuite); CHECK_EQUAL ("failurestring", reporter.lastFailedMessage); } TEST(NotifiesReporterOfTestEnd) { RecordingReporter reporter; TestResults results(&reporter); results.OnTestFinish(details, 0.1234f); CHECK_EQUAL (1, reporter.testFinishedCount); CHECK_EQUAL ("testname", reporter.lastFinishedTest); CHECK_EQUAL ("suitename", reporter.lastFinishedSuite); CHECK_CLOSE (0.1234f, reporter.lastFinishedTestTime, 0.0001f); } } ./UnitTest++/src/tests/TestTestList.cpp0000644000175000017500000000151210577526570017651 0ustar proppyproppy#include "../UnitTest++.h" #include "../TestList.h" using namespace UnitTest; namespace { TEST (TestListIsEmptyByDefault) { TestList list; CHECK (list.GetHead() == 0); } TEST (AddingTestSetsHeadToTest) { Test test("test"); TestList list; list.Add(&test); CHECK (list.GetHead() == &test); CHECK (test.next == 0); } TEST (AddingSecondTestAddsItToEndOfList) { Test test1("test1"); Test test2("test2"); TestList list; list.Add(&test1); list.Add(&test2); CHECK (list.GetHead() == &test1); CHECK (test1.next == &test2); CHECK (test2.next == 0); } TEST (ListAdderAddsTestToList) { TestList list; Test test(""); ListAdder adder(list, &test); CHECK (list.GetHead() == &test); CHECK (test.next == 0); } } ./UnitTest++/src/tests/TestMemoryOutStream.cpp0000644000175000017500000000704111102342136021170 0ustar proppyproppy#include "../UnitTest++.h" #include "../MemoryOutStream.h" #include using namespace UnitTest; using namespace std; namespace { TEST(DefaultIsEmptyString) { MemoryOutStream const stream; CHECK(stream.GetText() != 0); CHECK_EQUAL("", stream.GetText()); } TEST(StreamingTextCopiesCharacters) { MemoryOutStream stream; stream << "Lalala"; CHECK_EQUAL("Lalala", stream.GetText()); } TEST(StreamingMultipleTimesConcatenatesResult) { MemoryOutStream stream; stream << "Bork" << "Foo" << "Bar"; CHECK_EQUAL("BorkFooBar", stream.GetText()); } TEST(StreamingIntWritesCorrectCharacters) { MemoryOutStream stream; stream << (int)123; CHECK_EQUAL("123", stream.GetText()); } TEST(StreamingUnsignedIntWritesCorrectCharacters) { MemoryOutStream stream; stream << (unsigned int)123; CHECK_EQUAL("123", stream.GetText()); } TEST(StreamingLongWritesCorrectCharacters) { MemoryOutStream stream; stream << (long)(-123); CHECK_EQUAL("-123", stream.GetText()); } TEST(StreamingUnsignedLongWritesCorrectCharacters) { MemoryOutStream stream; stream << (unsigned long)123; CHECK_EQUAL("123", stream.GetText()); } TEST(StreamingFloatWritesCorrectCharacters) { MemoryOutStream stream; stream << 3.1415f; CHECK(strstr(stream.GetText(), "3.1415")); } TEST(StreamingDoubleWritesCorrectCharacters) { MemoryOutStream stream; stream << 3.1415; CHECK(strstr(stream.GetText(), "3.1415")); } TEST(StreamingPointerWritesCorrectCharacters) { MemoryOutStream stream; int* p = (int*)0x1234; stream << p; CHECK(strstr(stream.GetText(), "1234")); } TEST(StreamingSizeTWritesCorrectCharacters) { MemoryOutStream stream; size_t const s = 53124; stream << s; CHECK_EQUAL("53124", stream.GetText()); } #ifdef UNITTEST_USE_CUSTOM_STREAMS TEST(StreamInitialCapacityIsCorrect) { MemoryOutStream stream(MemoryOutStream::GROW_CHUNK_SIZE); CHECK_EQUAL((int)MemoryOutStream::GROW_CHUNK_SIZE, stream.GetCapacity()); } TEST(StreamInitialCapacityIsMultipleOfGrowChunkSize) { MemoryOutStream stream(MemoryOutStream::GROW_CHUNK_SIZE + 1); CHECK_EQUAL((int)MemoryOutStream::GROW_CHUNK_SIZE * 2, stream.GetCapacity()); } TEST(ExceedingCapacityGrowsBuffer) { MemoryOutStream stream(MemoryOutStream::GROW_CHUNK_SIZE); stream << "012345678901234567890123456789"; char const* const oldBuffer = stream.GetText(); stream << "0123456789"; CHECK(oldBuffer != stream.GetText()); } TEST(ExceedingCapacityGrowsBufferByGrowChunk) { MemoryOutStream stream(MemoryOutStream::GROW_CHUNK_SIZE); stream << "0123456789012345678901234567890123456789"; CHECK_EQUAL(MemoryOutStream::GROW_CHUNK_SIZE * 2, stream.GetCapacity()); } TEST(WritingStringLongerThanCapacityFitsInNewBuffer) { MemoryOutStream stream(8); stream << "0123456789ABCDEF"; CHECK_EQUAL("0123456789ABCDEF", stream.GetText()); } TEST(WritingIntLongerThanCapacityFitsInNewBuffer) { MemoryOutStream stream(8); stream << "aaaa" << 123456;; CHECK_EQUAL("aaaa123456", stream.GetText()); } TEST(WritingFloatLongerThanCapacityFitsInNewBuffer) { MemoryOutStream stream(8); stream << "aaaa" << 123456.0f;; CHECK_EQUAL("aaaa123456.000000f", stream.GetText()); } TEST(WritingSizeTLongerThanCapacityFitsInNewBuffer) { MemoryOutStream stream(8); stream << "aaaa" << size_t(32145); CHECK_EQUAL("aaaa32145", stream.GetText()); } #endif } ./UnitTest++/src/tests/TestDeferredTestReporter.cpp0000644000175000017500000000645111102342136022163 0ustar proppyproppy#include "../UnitTest++.h" #include "../DeferredTestReporter.h" #include "../Config.h" #include namespace UnitTest { namespace { #ifdef UNITTEST_USE_CUSTOM_STREAMS MemoryOutStream& operator <<(MemoryOutStream& lhs, const std::string& rhs) { lhs << rhs.c_str(); return lhs; } #endif struct MockDeferredTestReporter : public DeferredTestReporter { virtual void ReportSummary(int, int, int, float) { } }; struct DeferredTestReporterFixture { DeferredTestReporterFixture() : testName("UniqueTestName") , testSuite("UniqueTestSuite") , fileName("filename.h") , lineNumber(12) , details(testName.c_str(), testSuite.c_str(), fileName.c_str(), lineNumber) { } MockDeferredTestReporter reporter; std::string const testName; std::string const testSuite; std::string const fileName; int const lineNumber; TestDetails const details; }; TEST_FIXTURE(DeferredTestReporterFixture, ReportTestStartCreatesANewDeferredTest) { reporter.ReportTestStart(details); CHECK_EQUAL(1, (int)reporter.GetResults().size()); } TEST_FIXTURE(DeferredTestReporterFixture, ReportTestStartCapturesTestNameAndSuite) { reporter.ReportTestStart(details); DeferredTestResult const& result = reporter.GetResults().at(0); CHECK_EQUAL(testName.c_str(), result.testName); CHECK_EQUAL(testSuite.c_str(), result.suiteName); } TEST_FIXTURE(DeferredTestReporterFixture, ReportTestEndCapturesTestTime) { float const elapsed = 123.45f; reporter.ReportTestStart(details); reporter.ReportTestFinish(details, elapsed); DeferredTestResult const& result = reporter.GetResults().at(0); CHECK_CLOSE(elapsed, result.timeElapsed, 0.0001f); } TEST_FIXTURE(DeferredTestReporterFixture, ReportFailureSavesFailureDetails) { char const* failure = "failure"; reporter.ReportTestStart(details); reporter.ReportFailure(details, failure); DeferredTestResult const& result = reporter.GetResults().at(0); CHECK(result.failed == true); CHECK_EQUAL(fileName.c_str(), result.failureFile); } TEST_FIXTURE(DeferredTestReporterFixture, ReportFailureSavesFailureDetailsForMultipleFailures) { char const* failure1 = "failure 1"; char const* failure2 = "failure 2"; reporter.ReportTestStart(details); reporter.ReportFailure(details, failure1); reporter.ReportFailure(details, failure2); DeferredTestResult const& result = reporter.GetResults().at(0); CHECK_EQUAL(2, (int)result.failures.size()); CHECK_EQUAL(failure1, result.failures[0].second); CHECK_EQUAL(failure2, result.failures[1].second); } TEST_FIXTURE(DeferredTestReporterFixture, DeferredTestReporterTakesCopyOfFailureMessage) { reporter.ReportTestStart(details); char failureMessage[128]; char const* goodStr = "Real failure message"; char const* badStr = "Bogus failure message"; using namespace std; strcpy(failureMessage, goodStr); reporter.ReportFailure(details, failureMessage); strcpy(failureMessage, badStr); DeferredTestResult const& result = reporter.GetResults().at(0); DeferredTestResult::Failure const& failure = result.failures.at(0); CHECK_EQUAL(goodStr, failure.second); } }} ./UnitTest++/src/tests/RecordingReporter.h0000644000175000017500000000537211102342136020325 0ustar proppyproppy#ifndef UNITTEST_RECORDINGREPORTER_H #define UNITTEST_RECORDINGREPORTER_H #include "../TestReporter.h" #include #include "../TestDetails.h" struct RecordingReporter : public UnitTest::TestReporter { private: enum { kMaxStringLength = 256 }; public: RecordingReporter() : testRunCount(0) , testFailedCount(0) , lastFailedLine(0) , testFinishedCount(0) , lastFinishedTestTime(0) , summaryTotalTestCount(0) , summaryFailedTestCount(0) , summaryFailureCount(0) , summarySecondsElapsed(0) { lastStartedSuite[0] = '\0'; lastStartedTest[0] = '\0'; lastFailedFile[0] = '\0'; lastFailedSuite[0] = '\0'; lastFailedTest[0] = '\0'; lastFailedMessage[0] = '\0'; lastFinishedSuite[0] = '\0'; lastFinishedTest[0] = '\0'; } virtual void ReportTestStart(UnitTest::TestDetails const& test) { using namespace std; ++testRunCount; strcpy(lastStartedSuite, test.suiteName); strcpy(lastStartedTest, test.testName); } virtual void ReportFailure(UnitTest::TestDetails const& test, char const* failure) { using namespace std; ++testFailedCount; strcpy(lastFailedFile, test.filename); lastFailedLine = test.lineNumber; strcpy(lastFailedSuite, test.suiteName); strcpy(lastFailedTest, test.testName); strcpy(lastFailedMessage, failure); } virtual void ReportTestFinish(UnitTest::TestDetails const& test, float testDuration) { using namespace std; ++testFinishedCount; strcpy(lastFinishedSuite, test.suiteName); strcpy(lastFinishedTest, test.testName); lastFinishedTestTime = testDuration; } virtual void ReportSummary(int totalTestCount, int failedTestCount, int failureCount, float secondsElapsed) { summaryTotalTestCount = totalTestCount; summaryFailedTestCount = failedTestCount; summaryFailureCount = failureCount; summarySecondsElapsed = secondsElapsed; } int testRunCount; char lastStartedSuite[kMaxStringLength]; char lastStartedTest[kMaxStringLength]; int testFailedCount; char lastFailedFile[kMaxStringLength]; int lastFailedLine; char lastFailedSuite[kMaxStringLength]; char lastFailedTest[kMaxStringLength]; char lastFailedMessage[kMaxStringLength]; int testFinishedCount; char lastFinishedSuite[kMaxStringLength]; char lastFinishedTest[kMaxStringLength]; float lastFinishedTestTime; int summaryTotalTestCount; int summaryFailedTestCount; int summaryFailureCount; float summarySecondsElapsed; }; #endif ./UnitTest++/src/CurrentTest.h0000644000175000017500000000037211102072520015776 0ustar proppyproppy#ifndef UNITTEST_CURRENTTESTRESULTS_H #define UNITTEST_CURRENTTESTRESULTS_H namespace UnitTest { class TestResults; class TestDetails; namespace CurrentTest { TestResults*& Results(); const TestDetails*& Details(); } } #endif ./UnitTest++/src/TestRunner.cpp0000644000175000017500000000351211102342136016162 0ustar proppyproppy#include "TestRunner.h" #include "TestResults.h" #include "TestReporter.h" #include "TestReporterStdout.h" #include "TimeHelpers.h" #include "MemoryOutStream.h" #include namespace UnitTest { int RunAllTests() { TestReporterStdout reporter; TestRunner runner(reporter); return runner.RunTestsIf(Test::GetTestList(), NULL, True(), 0); } TestRunner::TestRunner(TestReporter& reporter) : m_reporter(&reporter) , m_result(new TestResults(&reporter)) , m_timer(new Timer) { m_timer->Start(); } TestRunner::~TestRunner() { delete m_result; delete m_timer; } int TestRunner::Finish() const { float const secondsElapsed = m_timer->GetTimeInMs() / 1000.0f; m_reporter->ReportSummary(m_result->GetTotalTestCount(), m_result->GetFailedTestCount(), m_result->GetFailureCount(), secondsElapsed); return m_result->GetFailureCount(); } bool TestRunner::IsTestInSuite(const Test* const curTest, char const* suiteName) const { using namespace std; return (suiteName == NULL) || !strcmp(curTest->m_details.suiteName, suiteName); } void TestRunner::RunTest(TestResults* const result, Test* const curTest, int const maxTestTimeInMs) const { CurrentTest::Results() = result; Timer testTimer; testTimer.Start(); result->OnTestStart(curTest->m_details); curTest->Run(); int const testTimeInMs = testTimer.GetTimeInMs(); if (maxTestTimeInMs > 0 && testTimeInMs > maxTestTimeInMs && !curTest->m_timeConstraintExempt) { MemoryOutStream stream; stream << "Global time constraint failed. Expected under " << maxTestTimeInMs << "ms but took " << testTimeInMs << "ms."; result->OnTestFailure(curTest->m_details, stream.GetText()); } result->OnTestFinish(curTest->m_details, testTimeInMs/1000.0f); } } ./UnitTest++/UnitTest++.vsnet2003.sln0000644000175000017500000000301110577526570016663 0ustar proppyproppyMicrosoft Visual Studio Solution File, Format Version 8.00 Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "UnitTest++.vsnet2003", "UnitTest++.vsnet2003.vcproj", "{7E5DD804-EC63-4FA5-BB6D-53DA86806EF5}" ProjectSection(ProjectDependencies) = postProject EndProjectSection EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "TestUnitTest++.vsnet2003", "TestUnitTest++.vsnet2003.vcproj", "{ACDF9A6A-874F-49E5-AB7C-74F8150BB4C7}" ProjectSection(ProjectDependencies) = postProject {7E5DD804-EC63-4FA5-BB6D-53DA86806EF5} = {7E5DD804-EC63-4FA5-BB6D-53DA86806EF5} EndProjectSection EndProject Global GlobalSection(SolutionConfiguration) = preSolution Debug = Debug Release = Release EndGlobalSection GlobalSection(ProjectConfiguration) = postSolution {7E5DD804-EC63-4FA5-BB6D-53DA86806EF5}.Debug.ActiveCfg = Debug|Win32 {7E5DD804-EC63-4FA5-BB6D-53DA86806EF5}.Debug.Build.0 = Debug|Win32 {7E5DD804-EC63-4FA5-BB6D-53DA86806EF5}.Release.ActiveCfg = Release|Win32 {7E5DD804-EC63-4FA5-BB6D-53DA86806EF5}.Release.Build.0 = Release|Win32 {ACDF9A6A-874F-49E5-AB7C-74F8150BB4C7}.Debug.ActiveCfg = Debug|Win32 {ACDF9A6A-874F-49E5-AB7C-74F8150BB4C7}.Debug.Build.0 = Debug|Win32 {ACDF9A6A-874F-49E5-AB7C-74F8150BB4C7}.Release.ActiveCfg = Release|Win32 {ACDF9A6A-874F-49E5-AB7C-74F8150BB4C7}.Release.Build.0 = Release|Win32 EndGlobalSection GlobalSection(ExtensibilityGlobals) = postSolution EndGlobalSection GlobalSection(ExtensibilityAddIns) = postSolution EndGlobalSection EndGlobal