diff options
Diffstat (limited to 'googlemock')
52 files changed, 6290 insertions, 8258 deletions
diff --git a/googlemock/CMakeLists.txt b/googlemock/CMakeLists.txt index eff2a6b..f75ec45 100644 --- a/googlemock/CMakeLists.txt +++ b/googlemock/CMakeLists.txt @@ -1,4 +1,7 @@ ######################################################################## +# Note: CMake support is community-based. The maintainers do not use CMake +# internally. +# # CMake build script for Google Mock. # # To run the tests for Google Mock itself on Linux, use 'make test' or @@ -139,7 +142,7 @@ if (gmock_build_tests) "$project_bin = \"${CMAKE_BINARY_DIR}/bin/$<CONFIG>\" $env:Path = \"$project_bin;$env:Path\" & $args") - elseif (MINGW) + elseif (MINGW OR CYGWIN) file(GENERATE OUTPUT "${CMAKE_CURRENT_BINARY_DIR}/RunTest.ps1" CONTENT "$project_bin = (cygpath --windows ${CMAKE_BINARY_DIR}/bin) @@ -159,7 +162,7 @@ $env:Path = \"$project_bin;$env:Path\" cxx_test(gmock-generated-matchers_test gmock_main) cxx_test(gmock-internal-utils_test gmock_main) cxx_test(gmock-matchers_test gmock_main) - if (MINGW) + if (MINGW OR CYGWIN) target_compile_options(gmock-matchers_test PRIVATE "-Wa,-mbig-obj") endif() cxx_test(gmock-more-actions_test gmock_main) diff --git a/googlemock/Makefile.am b/googlemock/Makefile.am deleted file mode 100644 index 4d4c965..0000000 --- a/googlemock/Makefile.am +++ /dev/null @@ -1,218 +0,0 @@ -# Automake file - -ACLOCAL_AMFLAGS = -I m4 - -# Nonstandard package files for distribution. -EXTRA_DIST = LICENSE - -# We may need to build our internally packaged gtest. If so, it will be -# included in the 'subdirs' variable. -SUBDIRS = $(subdirs) - -# This is generated by the configure script, so clean it for distribution. -DISTCLEANFILES = scripts/gmock-config - -# We define the global AM_CPPFLAGS as everything we compile includes from these -# directories. -AM_CPPFLAGS = $(GTEST_CPPFLAGS) -I$(srcdir)/include - -# Modifies compiler and linker flags for pthreads compatibility. -if HAVE_PTHREADS - AM_CXXFLAGS = @PTHREAD_CFLAGS@ -DGTEST_HAS_PTHREAD=1 - AM_LIBS = @PTHREAD_LIBS@ -endif - -# Build rules for libraries. -lib_LTLIBRARIES = lib/libgmock.la lib/libgmock_main.la - -lib_libgmock_la_SOURCES = src/gmock-all.cc - -pkginclude_HEADERS = \ - include/gmock/gmock-actions.h \ - include/gmock/gmock-cardinalities.h \ - include/gmock/gmock-function-mocker.h \ - include/gmock/gmock-generated-actions.h \ - include/gmock/gmock-generated-function-mockers.h \ - include/gmock/gmock-generated-matchers.h \ - include/gmock/gmock-matchers.h \ - include/gmock/gmock-more-actions.h \ - include/gmock/gmock-more-matchers.h \ - include/gmock/gmock-nice-strict.h \ - include/gmock/gmock-spec-builders.h \ - include/gmock/gmock.h - -pkginclude_internaldir = $(pkgincludedir)/internal -pkginclude_internal_HEADERS = \ - include/gmock/internal/gmock-internal-utils.h \ - include/gmock/internal/gmock-port.h \ - include/gmock/internal/gmock-pp.h \ - include/gmock/internal/custom/gmock-generated-actions.h \ - include/gmock/internal/custom/gmock-matchers.h \ - include/gmock/internal/custom/gmock-port.h - -lib_libgmock_main_la_SOURCES = src/gmock_main.cc -lib_libgmock_main_la_LIBADD = lib/libgmock.la - -# Build rules for tests. Automake's naming for some of these variables isn't -# terribly obvious, so this is a brief reference: -# -# TESTS -- Programs run automatically by "make check" -# check_PROGRAMS -- Programs built by "make check" but not necessarily run - -TESTS= -check_PROGRAMS= -AM_LDFLAGS = $(GTEST_LDFLAGS) - -# This exercises all major components of Google Mock. It also -# verifies that libgmock works. -TESTS += test/gmock-spec-builders_test -check_PROGRAMS += test/gmock-spec-builders_test -test_gmock_spec_builders_test_SOURCES = test/gmock-spec-builders_test.cc -test_gmock_spec_builders_test_LDADD = $(GTEST_LIBS) lib/libgmock.la - -# This tests using Google Mock in multiple translation units. It also -# verifies that libgmock_main and libgmock work. -TESTS += test/gmock_link_test -check_PROGRAMS += test/gmock_link_test -test_gmock_link_test_SOURCES = \ - test/gmock_link2_test.cc \ - test/gmock_link_test.cc \ - test/gmock_link_test.h -test_gmock_link_test_LDADD = $(GTEST_LIBS) lib/libgmock_main.la lib/libgmock.la - -if HAVE_PYTHON - # Tests that fused gmock files compile and work. - TESTS += test/gmock_fused_test - check_PROGRAMS += test/gmock_fused_test - test_gmock_fused_test_SOURCES = \ - fused-src/gmock-gtest-all.cc \ - fused-src/gmock/gmock.h \ - fused-src/gmock_main.cc \ - fused-src/gtest/gtest.h \ - test/gmock_test.cc - test_gmock_fused_test_CPPFLAGS = -I"$(srcdir)/fused-src" -endif - -# Google Mock source files that we don't compile directly. -GMOCK_SOURCE_INGLUDES = \ - src/gmock-cardinalities.cc \ - src/gmock-internal-utils.cc \ - src/gmock-matchers.cc \ - src/gmock-spec-builders.cc \ - src/gmock.cc - -EXTRA_DIST += $(GMOCK_SOURCE_INGLUDES) - -# C++ tests that we don't compile using autotools. -EXTRA_DIST += \ - test/gmock-actions_test.cc \ - test/gmock_all_test.cc \ - test/gmock-cardinalities_test.cc \ - test/gmock_ex_test.cc \ - test/gmock-generated-actions_test.cc \ - test/gmock-function-mocker_test.cc \ - test/gmock-generated-function-mockers_test.cc \ - test/gmock-generated-matchers_test.cc \ - test/gmock-internal-utils_test.cc \ - test/gmock-matchers_test.cc \ - test/gmock-more-actions_test.cc \ - test/gmock-nice-strict_test.cc \ - test/gmock-port_test.cc \ - test/gmock_stress_test.cc - -# Python tests, which we don't run using autotools. -EXTRA_DIST += \ - test/gmock_leak_test.py \ - test/gmock_leak_test_.cc \ - test/gmock_output_test.py \ - test/gmock_output_test_.cc \ - test/gmock_output_test_golden.txt \ - test/gmock_test_utils.py - -# Nonstandard package files for distribution. -EXTRA_DIST += \ - CONTRIBUTORS \ - make/Makefile - -# Pump scripts for generating Google Mock headers. -EXTRA_DIST += \ - include/gmock/gmock-generated-actions.h.pump \ - include/gmock/gmock-generated-function-mockers.h.pump \ - include/gmock/gmock-generated-matchers.h.pump \ - include/gmock/internal/custom/gmock-generated-actions.h.pump - -# Script for fusing Google Mock and Google Test source files. -EXTRA_DIST += scripts/fuse_gmock_files.py - -# The Google Mock Generator tool from the cppclean project. -EXTRA_DIST += \ - scripts/generator/LICENSE \ - scripts/generator/README \ - scripts/generator/README.cppclean \ - scripts/generator/cpp/__init__.py \ - scripts/generator/cpp/ast.py \ - scripts/generator/cpp/gmock_class.py \ - scripts/generator/cpp/keywords.py \ - scripts/generator/cpp/tokenize.py \ - scripts/generator/cpp/utils.py \ - scripts/generator/gmock_gen.py - -# CMake scripts. -EXTRA_DIST += \ - CMakeLists.txt - -# Microsoft Visual Studio 2005 projects. -EXTRA_DIST += \ - msvc/2005/gmock.sln \ - msvc/2005/gmock.vcproj \ - msvc/2005/gmock_config.vsprops \ - msvc/2005/gmock_main.vcproj \ - msvc/2005/gmock_test.vcproj - -# Microsoft Visual Studio 2010 projects. -EXTRA_DIST += \ - msvc/2010/gmock.sln \ - msvc/2010/gmock.vcxproj \ - msvc/2010/gmock_config.props \ - msvc/2010/gmock_main.vcxproj \ - msvc/2010/gmock_test.vcxproj - -if HAVE_PYTHON -# gmock_test.cc does not really depend on files generated by the -# fused-gmock-internal rule. However, gmock_test.o does, and it is -# important to include test/gmock_test.cc as part of this rule in order to -# prevent compiling gmock_test.o until all dependent files have been -# generated. -$(test_gmock_fused_test_SOURCES): fused-gmock-internal - -fused-gmock-internal: $(pkginclude_HEADERS) $(pkginclude_internal_HEADERS) \ - $(lib_libgmock_la_SOURCES) $(GMOCK_SOURCE_INGLUDES) \ - $(lib_libgmock_main_la_SOURCES) \ - scripts/fuse_gmock_files.py - mkdir -p "$(srcdir)/fused-src" - chmod -R u+w "$(srcdir)/fused-src" - rm -f "$(srcdir)/fused-src/gtest/gtest.h" - rm -f "$(srcdir)/fused-src/gmock/gmock.h" - rm -f "$(srcdir)/fused-src/gmock-gtest-all.cc" - "$(srcdir)/scripts/fuse_gmock_files.py" "$(srcdir)/fused-src" - cp -f "$(srcdir)/src/gmock_main.cc" "$(srcdir)/fused-src" - -maintainer-clean-local: - rm -rf "$(srcdir)/fused-src" -endif - -# Death tests may produce core dumps in the build directory. In case -# this happens, clean them to keep distcleancheck happy. -CLEANFILES = core - -# Disables 'make install' as installing a compiled version of Google -# Mock can lead to undefined behavior due to violation of the -# One-Definition Rule. - -install-exec-local: - echo "'make install' is dangerous and not supported. Instead, see README for how to integrate Google Mock into your build system." - false - -install-data-local: - echo "'make install' is dangerous and not supported. Instead, see README for how to integrate Google Mock into your build system." - false diff --git a/googlemock/README.md b/googlemock/README.md index b18be27..183fdb8 100644 --- a/googlemock/README.md +++ b/googlemock/README.md @@ -1,293 +1,44 @@ -## Google Mock ## +# Googletest Mocking (gMock) Framework -The Google C++ mocking framework. +### Overview -### Overview ### - -Google's framework for writing and using C++ mock classes. -It can help you derive better designs of your system and write better tests. +Google's framework for writing and using C++ mock classes. It can help you +derive better designs of your system and write better tests. It is inspired by: - * [jMock](http://www.jmock.org/), - * [EasyMock](http://www.easymock.org/), and - * [Hamcrest](http://code.google.com/p/hamcrest/), +* [jMock](http://www.jmock.org/), +* [EasyMock](http://www.easymock.org/), and +* [Hamcrest](http://code.google.com/p/hamcrest/), and designed with C++'s specifics in mind. -Google mock: - - * lets you create mock classes trivially using simple macros. - * supports a rich set of matchers and actions. - * handles unordered, partially ordered, or completely ordered expectations. - * is extensible by users. - -We hope you find it useful! - -### Features ### - - * Provides a declarative syntax for defining mocks. - * Can easily define partial (hybrid) mocks, which are a cross of real - and mock objects. - * Handles functions of arbitrary types and overloaded functions. - * Comes with a rich set of matchers for validating function arguments. - * Uses an intuitive syntax for controlling the behavior of a mock. - * Does automatic verification of expectations (no record-and-replay needed). - * Allows arbitrary (partial) ordering constraints on - function calls to be expressed,. - * Lets a user extend it by defining new matchers and actions. - * Does not use exceptions. - * Is easy to learn and use. - -Please see the project page above for more information as well as the -mailing list for questions, discussions, and development. There is -also an IRC channel on OFTC (irc.oftc.net) #gtest available. Please -join us! - -Please note that code under [scripts/generator](scripts/generator/) is -from [cppclean](http://code.google.com/p/cppclean/) and released under -the Apache License, which is different from Google Mock's license. - -## Getting Started ## - -If you are new to the project, we suggest that you read the user -documentation in the following order: - - * Learn the [basics](../googletest/docs/primer.md) of - Google Test, if you choose to use Google Mock with it (recommended). - * Read [Google Mock for Dummies](../googlemock/docs/ForDummies.md). - * Read the instructions below on how to build Google Mock. - -You can also watch Zhanyong's [talk](http://www.youtube.com/watch?v=sYpCyLI47rM) on Google Mock's usage and implementation. - -Once you understand the basics, check out the rest of the docs: - - * [CheatSheet](../googlemock/docs/CheatSheet.md) - all the commonly used stuff - at a glance. - * [CookBook](../googlemock/docs/CookBook.md) - recipes for getting things done, - including advanced techniques. - -If you need help, please check the -[KnownIssues](docs/KnownIssues.md) and -[FrequentlyAskedQuestions](docs/FrequentlyAskedQuestions.md) before -posting a question on the -[discussion group](http://groups.google.com/group/googlemock). - - -### Using Google Mock Without Google Test ### - -Google Mock is not a testing framework itself. Instead, it needs a -testing framework for writing tests. Google Mock works seamlessly -with [Google Test](https://github.com/google/googletest), but -you can also use it with [any C++ testing framework](../googlemock/docs/ForDummies.md#using-google-mock-with-any-testing-framework). - -### Requirements for End Users ### - -Google Mock is implemented on top of [Google Test]( -http://github.com/google/googletest/), and depends on it. -You must use the bundled version of Google Test when using Google Mock. - -You can also easily configure Google Mock to work with another testing -framework, although it will still need Google Test. Please read -["Using_Google_Mock_with_Any_Testing_Framework"]( - ../googlemock/docs/ForDummies.md#using-google-mock-with-any-testing-framework) -for instructions. - -Google Mock depends on advanced C++ features and thus requires a more -modern compiler. The following are needed to use Google Mock: - -#### Linux Requirements #### - - * GNU-compatible Make or "gmake" - * POSIX-standard shell - * POSIX(-2) Regular Expressions (regex.h) - * C++98-standard-compliant compiler (e.g. GCC 3.4 or newer) - -#### Windows Requirements #### - - * Microsoft Visual C++ 8.0 SP1 or newer - -#### Mac OS X Requirements #### - - * Mac OS X 10.4 Tiger or newer - * Developer Tools Installed - -### Requirements for Contributors ### - -We welcome patches. If you plan to contribute a patch, you need to -build Google Mock and its tests, which has further requirements: - - * Automake version 1.9 or newer - * Autoconf version 2.59 or newer - * Libtool / Libtoolize - * Python version 2.3 or newer (for running some of the tests and - re-generating certain source files from templates) - -### Building Google Mock ### - -#### Using CMake #### - -If you have CMake available, it is recommended that you follow the -[build instructions][gtest_cmakebuild] -as described for Google Test. - -If are using Google Mock with an -existing CMake project, the section -[Incorporating Into An Existing CMake Project][gtest_incorpcmake] -may be of particular interest. -To make it work for Google Mock you will need to change - - target_link_libraries(example gtest_main) - -to - - target_link_libraries(example gmock_main) - -This works because `gmock_main` library is compiled with Google Test. - -#### Preparing to Build (Unix only) #### - -If you are using a Unix system and plan to use the GNU Autotools build -system to build Google Mock (described below), you'll need to -configure it now. - -To prepare the Autotools build system: - - cd googlemock - autoreconf -fvi - -To build Google Mock and your tests that use it, you need to tell your -build system where to find its headers and source files. The exact -way to do it depends on which build system you use, and is usually -straightforward. - -This section shows how you can integrate Google Mock into your -existing build system. - -Suppose you put Google Mock in directory `${GMOCK_DIR}` and Google Test -in `${GTEST_DIR}` (the latter is `${GMOCK_DIR}/gtest` by default). To -build Google Mock, create a library build target (or a project as -called by Visual Studio and Xcode) to compile - - ${GTEST_DIR}/src/gtest-all.cc and ${GMOCK_DIR}/src/gmock-all.cc - -with - - ${GTEST_DIR}/include and ${GMOCK_DIR}/include - -in the system header search path, and - - ${GTEST_DIR} and ${GMOCK_DIR} - -in the normal header search path. Assuming a Linux-like system and gcc, -something like the following will do: - - g++ -isystem ${GTEST_DIR}/include -I${GTEST_DIR} \ - -isystem ${GMOCK_DIR}/include -I${GMOCK_DIR} \ - -pthread -c ${GTEST_DIR}/src/gtest-all.cc - g++ -isystem ${GTEST_DIR}/include -I${GTEST_DIR} \ - -isystem ${GMOCK_DIR}/include -I${GMOCK_DIR} \ - -pthread -c ${GMOCK_DIR}/src/gmock-all.cc - ar -rv libgmock.a gtest-all.o gmock-all.o - -(We need -pthread as Google Test and Google Mock use threads.) - -Next, you should compile your test source file with -${GTEST\_DIR}/include and ${GMOCK\_DIR}/include in the header search -path, and link it with gmock and any other necessary libraries: - - g++ -isystem ${GTEST_DIR}/include -isystem ${GMOCK_DIR}/include \ - -pthread path/to/your_test.cc libgmock.a -o your_test - -As an example, the make/ directory contains a Makefile that you can -use to build Google Mock on systems where GNU make is available -(e.g. Linux, Mac OS X, and Cygwin). It doesn't try to build Google -Mock's own tests. Instead, it just builds the Google Mock library and -a sample test. You can use it as a starting point for your own build -script. - -If the default settings are correct for your environment, the -following commands should succeed: - - cd ${GMOCK_DIR}/make - make - ./gmock_test - -If you see errors, try to tweak the contents of -[make/Makefile](make/Makefile) to make them go away. - -### Windows ### - -The msvc/2005 directory contains VC++ 2005 projects and the msvc/2010 -directory contains VC++ 2010 projects for building Google Mock and -selected tests. - -Change to the appropriate directory and run "msbuild gmock.sln" to -build the library and tests (or open the gmock.sln in the MSVC IDE). -If you want to create your own project to use with Google Mock, you'll -have to configure it to use the `gmock_config` propety sheet. For that: - - * Open the Property Manager window (View | Other Windows | Property Manager) - * Right-click on your project and select "Add Existing Property Sheet..." - * Navigate to `gmock_config.vsprops` or `gmock_config.props` and select it. - * In Project Properties | Configuration Properties | General | Additional - Include Directories, type <path to Google Mock>/include. - -### Tweaking Google Mock ### - -Google Mock can be used in diverse environments. The default -configuration may not work (or may not work well) out of the box in -some environments. However, you can easily tweak Google Mock by -defining control macros on the compiler command line. Generally, -these macros are named like `GTEST_XYZ` and you define them to either 1 -or 0 to enable or disable a certain feature. - -We list the most frequently used macros below. For a complete list, -see file [${GTEST\_DIR}/include/gtest/internal/gtest-port.h]( -../googletest/include/gtest/internal/gtest-port.h). - -### As a Shared Library (DLL) ### - -Google Mock is compact, so most users can build and link it as a static -library for the simplicity. Google Mock can be used as a DLL, but the -same DLL must contain Google Test as well. See -[Google Test's README][gtest_readme] -for instructions on how to set up necessary compiler settings. - -### Tweaking Google Mock ### - -Most of Google Test's control macros apply to Google Mock as well. -Please see [Google Test's README][gtest_readme] for how to tweak them. - -### Upgrading from an Earlier Version ### - -We strive to keep Google Mock releases backward compatible. -Sometimes, though, we have to make some breaking changes for the -users' long-term benefits. This section describes what you'll need to -do if you are upgrading from an earlier version of Google Mock. - -#### Upgrading from 1.1.0 or Earlier #### - -You may need to explicitly enable or disable Google Test's own TR1 -tuple library. See the instructions in section "[Choosing a TR1 Tuple -Library](#choosing-a-tr1-tuple-library)". - -#### Upgrading from 1.4.0 or Earlier #### - -On platforms where the pthread library is available, Google Test and -Google Mock use it in order to be thread-safe. For this to work, you -may need to tweak your compiler and/or linker flags. Please see the -"[Multi-threaded Tests](../googletest/README.md#multi-threaded-tests)" section in file Google Test's README for what you may need to do. - -If you have custom matchers defined using `MatcherInterface` or -`MakePolymorphicMatcher()`, you'll need to update their definitions to -use the new matcher API ( -[monomorphic](./docs/CookBook.md#writing-new-monomorphic-matchers), -[polymorphic](./docs/CookBook.md#writing-new-polymorphic-matchers)). -Matchers defined using `MATCHER()` or `MATCHER_P*()` aren't affected. - -Happy testing! - -[gtest_readme]: ../googletest/README.md "googletest" -[gtest_cmakebuild]: ../googletest/README.md#using-cmake "Using CMake" -[gtest_incorpcmake]: ../googletest/README.md#incorporating-into-an-existing-cmake-project "Incorporating Into An Existing CMake Project" +gMock: + +- provides a declarative syntax for defining mocks, +- can define partial (hybrid) mocks, which are a cross of real and mock + objects, +- handles functions of arbitrary types and overloaded functions, +- comes with a rich set of matchers for validating function arguments, +- uses an intuitive syntax for controlling the behavior of a mock, +- does automatic verification of expectations (no record-and-replay needed), +- allows arbitrary (partial) ordering constraints on function calls to be + expressed, +- lets a user extend it by defining new matchers and actions. +- does not use exceptions, and +- is easy to learn and use. + +Details and examples can be found here: + +* [gMock for Dummies](docs/for_dummies.md) +* [Legacy gMock FAQ](docs/gmock_faq.md) +* [gMock Cookbook](docs/cook_book.md) +* [gMock Cheat Sheet](docs/cheat_sheet.md) + +Please note that code under scripts/generator/ is from the [cppclean +project](http://code.google.com/p/cppclean/) and under the Apache +License, which is different from Google Mock's license. + +Google Mock is a part of +[Google Test C++ testing framework](http://github.com/google/googletest/) and a +subject to the same requirements. diff --git a/googlemock/build-aux/.keep b/googlemock/build-aux/.keep deleted file mode 100644 index e69de29..0000000 --- a/googlemock/build-aux/.keep +++ /dev/null diff --git a/googlemock/configure.ac b/googlemock/configure.ac deleted file mode 100644 index aaa4ad4..0000000 --- a/googlemock/configure.ac +++ /dev/null @@ -1,134 +0,0 @@ -m4_include(../googletest/m4/acx_pthread.m4) - -AC_INIT([Google C++ Mocking Framework], - [1.8.0], - [googlemock@googlegroups.com], - [gmock]) - -# Provide various options to initialize the Autoconf and configure processes. -AC_PREREQ([2.59]) -AC_CONFIG_SRCDIR([./LICENSE]) -AC_CONFIG_MACRO_DIRS([m4]) -AC_CONFIG_AUX_DIR([build-aux]) -AC_CONFIG_HEADERS([build-aux/config.h]) -AC_CONFIG_FILES([Makefile]) -AC_CONFIG_FILES([scripts/gmock-config], [chmod +x scripts/gmock-config]) - -# Initialize Automake with various options. We require at least v1.9, prevent -# pedantic complaints about package files, and enable various distribution -# targets. -AM_INIT_AUTOMAKE([1.9 dist-bzip2 dist-zip foreign subdir-objects]) - -# Check for programs used in building Google Test. -AC_PROG_CC -AC_PROG_CXX -AC_LANG([C++]) -AC_PROG_LIBTOOL - -PYTHON= # We *do not* allow the user to specify a python interpreter -AC_PATH_PROG([PYTHON],[python],[:]) -AS_IF([test "$PYTHON" != ":"], - [AM_PYTHON_CHECK_VERSION([$PYTHON],[2.3],[:],[PYTHON=":"])]) -AM_CONDITIONAL([HAVE_PYTHON],[test "$PYTHON" != ":"]) - -# Configure pthreads. -AC_ARG_WITH([pthreads], - [AS_HELP_STRING([--with-pthreads], - [use pthreads (default is yes)])], - [with_pthreads=$withval], - [with_pthreads=check]) - -have_pthreads=no -AS_IF([test "x$with_pthreads" != "xno"], - [ACX_PTHREAD( - [], - [AS_IF([test "x$with_pthreads" != "xcheck"], - [AC_MSG_FAILURE( - [--with-pthreads was specified, but unable to be used])])]) - have_pthreads="$acx_pthread_ok"]) -AM_CONDITIONAL([HAVE_PTHREADS],[test "x$have_pthreads" == "xyes"]) -AC_SUBST(PTHREAD_CFLAGS) -AC_SUBST(PTHREAD_LIBS) - -# GoogleMock currently has hard dependencies upon GoogleTest above and beyond -# running its own test suite, so we both provide our own version in -# a subdirectory and provide some logic to use a custom version or a system -# installed version. -AC_ARG_WITH([gtest], - [AS_HELP_STRING([--with-gtest], - [Specifies how to find the gtest package. If no - arguments are given, the default behavior, a - system installed gtest will be used if present, - and an internal version built otherwise. If a - path is provided, the gtest built or installed at - that prefix will be used.])], - [], - [with_gtest=yes]) -AC_ARG_ENABLE([external-gtest], - [AS_HELP_STRING([--disable-external-gtest], - [Disables any detection or use of a system - installed or user provided gtest. Any option to - '--with-gtest' is ignored. (Default is enabled.)]) - ], [], [enable_external_gtest=yes]) -AS_IF([test "x$with_gtest" == "xno"], - [AC_MSG_ERROR([dnl -Support for GoogleTest was explicitly disabled. Currently GoogleMock has a hard -dependency upon GoogleTest to build, please provide a version, or allow -GoogleMock to use any installed version and fall back upon its internal -version.])]) - -# Setup various GTEST variables. -AC_ARG_VAR([GTEST_CONFIG], - [The exact path of Google Test's 'gtest-config' script.]) -AC_ARG_VAR([GTEST_CPPFLAGS], - [C-like preprocessor flags for Google Test.]) -AC_ARG_VAR([GTEST_CXXFLAGS], - [C++ compile flags for Google Test.]) -AC_ARG_VAR([GTEST_LDFLAGS], - [Linker path and option flags for Google Test.]) -AC_ARG_VAR([GTEST_LIBS], - [Library linking flags for Google Test.]) -AC_ARG_VAR([GTEST_VERSION], - [The version of Google Test available.]) -HAVE_BUILT_GTEST="no" - -GTEST_MIN_VERSION="1.8.0" - -AS_IF([test "x${enable_external_gtest}" = "xyes"], - [# Begin filling in variables as we are able. - AS_IF([test "x${with_gtest}" != "xyes"], - [AS_IF([test -x "${with_gtest}/scripts/gtest-config"], - [GTEST_CONFIG="${with_gtest}/scripts/gtest-config"], - [GTEST_CONFIG="${with_gtest}/bin/gtest-config"]) - AS_IF([test -x "${GTEST_CONFIG}"], [], - [AC_MSG_ERROR([dnl -Unable to locate either a built or installed Google Test at '${with_gtest}'.]) - ])]) - - AS_IF([test -x "${GTEST_CONFIG}"], [], - [AC_PATH_PROG([GTEST_CONFIG], [gtest-config])]) - AS_IF([test -x "${GTEST_CONFIG}"], - [AC_MSG_CHECKING([for Google Test version >= ${GTEST_MIN_VERSION}]) - AS_IF([${GTEST_CONFIG} --min-version=${GTEST_MIN_VERSION}], - [AC_MSG_RESULT([yes]) - HAVE_BUILT_GTEST="yes"], - [AC_MSG_RESULT([no])])])]) - -AS_IF([test "x${HAVE_BUILT_GTEST}" = "xyes"], - [GTEST_CPPFLAGS=`${GTEST_CONFIG} --cppflags` - GTEST_CXXFLAGS=`${GTEST_CONFIG} --cxxflags` - GTEST_LDFLAGS=`${GTEST_CONFIG} --ldflags` - GTEST_LIBS=`${GTEST_CONFIG} --libs` - GTEST_VERSION=`${GTEST_CONFIG} --version`], - [ - # GTEST_CONFIG needs to be executable both in a Makefile environment and - # in a shell script environment, so resolve an absolute path for it here. - GTEST_CONFIG="`pwd -P`/../googletest/scripts/gtest-config" - GTEST_CPPFLAGS='-I$(top_srcdir)/../googletest/include' - GTEST_CXXFLAGS='-g' - GTEST_LDFLAGS='' - GTEST_LIBS='$(top_builddir)/../googletest/lib/libgtest.la' - GTEST_VERSION="${GTEST_MIN_VERSION}"]) - -# Output the generated files. No further autoconf macros may be used. -AC_OUTPUT diff --git a/googlemock/docs/CheatSheet.md b/googlemock/docs/CheatSheet.md deleted file mode 100644 index bc2af11..0000000 --- a/googlemock/docs/CheatSheet.md +++ /dev/null @@ -1,589 +0,0 @@ - - -# Defining a Mock Class # - -## Mocking a Normal Class ## - -Given -```cpp -class Foo { - ... - virtual ~Foo(); - virtual int GetSize() const = 0; - virtual string Describe(const char* name) = 0; - virtual string Describe(int type) = 0; - virtual bool Process(Bar elem, int count) = 0; -}; -``` -(note that `~Foo()` **must** be virtual) we can define its mock as -```cpp -#include "gmock/gmock.h" - -class MockFoo : public Foo { - MOCK_CONST_METHOD0(GetSize, int()); - MOCK_METHOD1(Describe, string(const char* name)); - MOCK_METHOD1(Describe, string(int type)); - MOCK_METHOD2(Process, bool(Bar elem, int count)); -}; -``` - -To create a "nice" mock object which ignores all uninteresting calls, -or a "strict" mock object, which treats them as failures: -```cpp -NiceMock<MockFoo> nice_foo; // The type is a subclass of MockFoo. -StrictMock<MockFoo> strict_foo; // The type is a subclass of MockFoo. -``` - -## Mocking a Class Template ## - -To mock -```cpp -template <typename Elem> -class StackInterface { - public: - ... - virtual ~StackInterface(); - virtual int GetSize() const = 0; - virtual void Push(const Elem& x) = 0; -}; -``` -(note that `~StackInterface()` **must** be virtual) just append `_T` to the `MOCK_*` macros: -```cpp -template <typename Elem> -class MockStack : public StackInterface<Elem> { - public: - ... - MOCK_CONST_METHOD0_T(GetSize, int()); - MOCK_METHOD1_T(Push, void(const Elem& x)); -}; -``` - -## Specifying Calling Conventions for Mock Functions ## - -If your mock function doesn't use the default calling convention, you -can specify it by appending `_WITH_CALLTYPE` to any of the macros -described in the previous two sections and supplying the calling -convention as the first argument to the macro. For example, -```cpp - MOCK_METHOD1_WITH_CALLTYPE(STDMETHODCALLTYPE, Foo, bool(int n)); - MOCK_CONST_METHOD2_WITH_CALLTYPE(STDMETHODCALLTYPE, Bar, int(double x, double y)); -``` -where `STDMETHODCALLTYPE` is defined by `<objbase.h>` on Windows. - -# Using Mocks in Tests # - -The typical flow is: - 1. Import the Google Mock names you need to use. All Google Mock names are in the `testing` namespace unless they are macros or otherwise noted. - 1. Create the mock objects. - 1. Optionally, set the default actions of the mock objects. - 1. Set your expectations on the mock objects (How will they be called? What wil they do?). - 1. Exercise code that uses the mock objects; if necessary, check the result using [Google Test](../../googletest/) assertions. - 1. When a mock objects is destructed, Google Mock automatically verifies that all expectations on it have been satisfied. - -Here is an example: -```cpp -using ::testing::Return; // #1 - -TEST(BarTest, DoesThis) { - MockFoo foo; // #2 - - ON_CALL(foo, GetSize()) // #3 - .WillByDefault(Return(1)); - // ... other default actions ... - - EXPECT_CALL(foo, Describe(5)) // #4 - .Times(3) - .WillRepeatedly(Return("Category 5")); - // ... other expectations ... - - EXPECT_EQ("good", MyProductionFunction(&foo)); // #5 -} // #6 -``` - -# Setting Default Actions # - -Google Mock has a **built-in default action** for any function that -returns `void`, `bool`, a numeric value, or a pointer. - -To customize the default action for functions with return type `T` globally: -```cpp -using ::testing::DefaultValue; - -// Sets the default value to be returned. T must be CopyConstructible. -DefaultValue<T>::Set(value); -// Sets a factory. Will be invoked on demand. T must be MoveConstructible. -// T MakeT(); -DefaultValue<T>::SetFactory(&MakeT); -// ... use the mocks ... -// Resets the default value. -DefaultValue<T>::Clear(); -``` - -To customize the default action for a particular method, use `ON_CALL()`: -```cpp -ON_CALL(mock_object, method(matchers)) - .With(multi_argument_matcher) ? - .WillByDefault(action); -``` - -# Setting Expectations # - -`EXPECT_CALL()` sets **expectations** on a mock method (How will it be -called? What will it do?): -```cpp -EXPECT_CALL(mock_object, method(matchers)) - .With(multi_argument_matcher) ? - .Times(cardinality) ? - .InSequence(sequences) * - .After(expectations) * - .WillOnce(action) * - .WillRepeatedly(action) ? - .RetiresOnSaturation(); ? -``` - -If `Times()` is omitted, the cardinality is assumed to be: - - * `Times(1)` when there is neither `WillOnce()` nor `WillRepeatedly()`; - * `Times(n)` when there are `n WillOnce()`s but no `WillRepeatedly()`, where `n` >= 1; or - * `Times(AtLeast(n))` when there are `n WillOnce()`s and a `WillRepeatedly()`, where `n` >= 0. - -A method with no `EXPECT_CALL()` is free to be invoked _any number of times_, and the default action will be taken each time. - -# Matchers # - -A **matcher** matches a _single_ argument. You can use it inside -`ON_CALL()` or `EXPECT_CALL()`, or use it to validate a value -directly: - -| Matcher | Description | -|:--------|:------------| -| `EXPECT_THAT(value, matcher)` | Asserts that `value` matches `matcher`. | -| `ASSERT_THAT(value, matcher)` | The same as `EXPECT_THAT(value, matcher)`, except that it generates a **fatal** failure. | - -Built-in matchers (where `argument` is the function argument) are -divided into several categories: - -## Wildcard ## -| Matcher | Description | -|:--------|:------------| -|`_`|`argument` can be any value of the correct type.| -|`A<type>()` or `An<type>()`|`argument` can be any value of type `type`. | - -## Generic Comparison ## - -| Matcher | Description | -|:---------------------|:------------------| -|`Eq(value)` or `value`|`argument == value`| -|`Ge(value)` |`argument >= value`| -|`Gt(value)` |`argument > value` | -|`Le(value)` |`argument <= value`| -|`Lt(value)` |`argument < value` | -|`Ne(value)` |`argument != value`| -|`IsNull()` |`argument` is a `NULL` pointer (raw or smart).| -|`NotNull()` |`argument` is a non-null pointer (raw or smart).| -|`Optional(m)` |`argument` is `optional<>` that contains a value matching `m`.| -|`VariantWith<T>(m)` |`argument` is `variant<>` that holds the alternative of type T with a value matching `m`.| -|`Ref(variable)` |`argument` is a reference to `variable`.| -|`TypedEq<type>(value)`|`argument` has type `type` and is equal to `value`. You may need to use this instead of `Eq(value)` when the mock function is overloaded.| - -Except `Ref()`, these matchers make a _copy_ of `value` in case it's -modified or destructed later. If the compiler complains that `value` -doesn't have a public copy constructor, try wrap it in `ByRef()`, -e.g. `Eq(ByRef(non_copyable_value))`. If you do that, make sure -`non_copyable_value` is not changed afterwards, or the meaning of your -matcher will be changed. - -## Floating-Point Matchers ## - -| Matcher | Description | -|:-------------------|:---------------------------------------------------------------------------------------------------------| -|`DoubleEq(a_double)`|`argument` is a `double` value approximately equal to `a_double`, treating two NaNs as unequal. | -|`FloatEq(a_float)` |`argument` is a `float` value approximately equal to `a_float`, treating two NaNs as unequal. | -|`NanSensitiveDoubleEq(a_double)`|`argument` is a `double` value approximately equal to `a_double`, treating two NaNs as equal. | -|`NanSensitiveFloatEq(a_float)`|`argument` is a `float` value approximately equal to `a_float`, treating two NaNs as equal. | - -The above matchers use ULP-based comparison (the same as used in -[Google Test](../../googletest/)). They -automatically pick a reasonable error bound based on the absolute -value of the expected value. `DoubleEq()` and `FloatEq()` conform to -the IEEE standard, which requires comparing two NaNs for equality to -return false. The `NanSensitive*` version instead treats two NaNs as -equal, which is often what a user wants. - -| Matcher | Description | -|:--------|:------------| -|`DoubleNear(a_double, max_abs_error)`|`argument` is a `double` value close to `a_double` (absolute error <= `max_abs_error`), treating two NaNs as unequal.| -|`FloatNear(a_float, max_abs_error)`|`argument` is a `float` value close to `a_float` (absolute error <= `max_abs_error`), treating two NaNs as unequal.| -|`NanSensitiveDoubleNear(a_double, max_abs_error)`|`argument` is a `double` value close to `a_double` (absolute error <= `max_abs_error`), treating two NaNs as equal.| -|`NanSensitiveFloatNear(a_float, max_abs_error)`|`argument` is a `float` value close to `a_float` (absolute error <= `max_abs_error`), treating two NaNs as equal.| - -## String Matchers ## - -The `argument` can be either a C string or a C++ string object: - -| Matcher | Description | -|:----------------------|:--------------------------------------------------| -|`ContainsRegex(string)`|`argument` matches the given regular expression. | -|`EndsWith(suffix)` |`argument` ends with string `suffix`. | -|`HasSubstr(string)` |`argument` contains `string` as a sub-string. | -|`MatchesRegex(string)` |`argument` matches the given regular expression with the match starting at the first character and ending at the last character.| -|`StartsWith(prefix)` |`argument` starts with string `prefix`. | -|`StrCaseEq(string)` |`argument` is equal to `string`, ignoring case. | -|`StrCaseNe(string)` |`argument` is not equal to `string`, ignoring case.| -|`StrEq(string)` |`argument` is equal to `string`. | -|`StrNe(string)` |`argument` is not equal to `string`. | - -`ContainsRegex()` and `MatchesRegex()` use the regular expression -syntax defined -[here](../../googletest/docs/advanced.md#regular-expression-syntax). -`StrCaseEq()`, `StrCaseNe()`, `StrEq()`, and `StrNe()` work for wide -strings as well. - -## Container Matchers ## - -Most STL-style containers support `==`, so you can use -`Eq(expected_container)` or simply `expected_container` to match a -container exactly. If you want to write the elements in-line, -match them more flexibly, or get more informative messages, you can use: - -| Matcher | Description | -|:--------|:------------| -| `ContainerEq(container)` | The same as `Eq(container)` except that the failure message also includes which elements are in one container but not the other. | -| `Contains(e)` | `argument` contains an element that matches `e`, which can be either a value or a matcher. | -| `Each(e)` | `argument` is a container where _every_ element matches `e`, which can be either a value or a matcher. | -| `ElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, where the i-th element matches `ei`, which can be a value or a matcher. 0 to 10 arguments are allowed. | -| `ElementsAreArray({ e0, e1, ..., en })`, `ElementsAreArray(array)`, or `ElementsAreArray(array, count)` | The same as `ElementsAre()` except that the expected element values/matchers come from an initializer list, STL-style container, or C-style array. | -| `IsEmpty()` | `argument` is an empty container (`container.empty()`). | -| `Pointwise(m, container)` | `argument` contains the same number of elements as in `container`, and for all i, (the i-th element in `argument`, the i-th element in `container`) match `m`, which is a matcher on 2-tuples. E.g. `Pointwise(Le(), upper_bounds)` verifies that each element in `argument` doesn't exceed the corresponding element in `upper_bounds`. See more detail below. | -| `SizeIs(m)` | `argument` is a container whose size matches `m`. E.g. `SizeIs(2)` or `SizeIs(Lt(2))`. | -| `UnorderedElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, and under some permutation each element matches an `ei` (for a different `i`), which can be a value or a matcher. 0 to 10 arguments are allowed. | -| `UnorderedElementsAreArray({ e0, e1, ..., en })`, `UnorderedElementsAreArray(array)`, or `UnorderedElementsAreArray(array, count)` | The same as `UnorderedElementsAre()` except that the expected element values/matchers come from an initializer list, STL-style container, or C-style array. | -| `WhenSorted(m)` | When `argument` is sorted using the `<` operator, it matches container matcher `m`. E.g. `WhenSorted(ElementsAre(1, 2, 3))` verifies that `argument` contains elements `1`, `2`, and `3`, ignoring order. | -| `WhenSortedBy(comparator, m)` | The same as `WhenSorted(m)`, except that the given comparator instead of `<` is used to sort `argument`. E.g. `WhenSortedBy(std::greater<int>(), ElementsAre(3, 2, 1))`. | - -Notes: - - * These matchers can also match: - 1. a native array passed by reference (e.g. in `Foo(const int (&a)[5])`), and - 1. an array passed as a pointer and a count (e.g. in `Bar(const T* buffer, int len)` -- see [Multi-argument Matchers](#multiargument-matchers)). - * The array being matched may be multi-dimensional (i.e. its elements can be arrays). - * `m` in `Pointwise(m, ...)` should be a matcher for `::testing::tuple<T, U>` where `T` and `U` are the element type of the actual container and the expected container, respectively. For example, to compare two `Foo` containers where `Foo` doesn't support `operator==` but has an `Equals()` method, one might write: - -```cpp -using ::testing::get; -MATCHER(FooEq, "") { - return get<0>(arg).Equals(get<1>(arg)); -} -... -EXPECT_THAT(actual_foos, Pointwise(FooEq(), expected_foos)); -``` - -## Member Matchers ## - -| Matcher | Description | -|:--------|:------------| -|`Field(&class::field, m)`|`argument.field` (or `argument->field` when `argument` is a plain pointer) matches matcher `m`, where `argument` is an object of type _class_.| -|`Key(e)`|`argument.first` matches `e`, which can be either a value or a matcher. E.g. `Contains(Key(Le(5)))` can verify that a `map` contains a key `<= 5`.| -|`Pair(m1, m2)`|`argument` is an `std::pair` whose `first` field matches `m1` and `second` field matches `m2`.| -|`Property(&class::property, m)`|`argument.property()` (or `argument->property()` when `argument` is a plain pointer) matches matcher `m`, where `argument` is an object of type _class_.| - -## Matching the Result of a Function or Functor ## - -| Matcher | Description | -|:---------------|:---------------------------------------------------------------------| -|`ResultOf(f, m)`|`f(argument)` matches matcher `m`, where `f` is a function or functor.| - -## Pointer Matchers ## - -| Matcher | Description | -|:------------------------|:-----------------------------------------------------------------------------------------------| -|`Pointee(m)` |`argument` (either a smart pointer or a raw pointer) points to a value that matches matcher `m`.| -|`WhenDynamicCastTo<T>(m)`| when `argument` is passed through `dynamic_cast<T>()`, it matches matcher `m`. | - -## Multiargument Matchers ## - -Technically, all matchers match a _single_ value. A "multi-argument" -matcher is just one that matches a _tuple_. The following matchers can -be used to match a tuple `(x, y)`: - -| Matcher | Description | -|:--------|:------------| -|`Eq()`|`x == y`| -|`Ge()`|`x >= y`| -|`Gt()`|`x > y` | -|`Le()`|`x <= y`| -|`Lt()`|`x < y` | -|`Ne()`|`x != y`| - -You can use the following selectors to pick a subset of the arguments -(or reorder them) to participate in the matching: - -| Matcher | Description | -|:--------|:------------| -|`AllArgs(m)`|Equivalent to `m`. Useful as syntactic sugar in `.With(AllArgs(m))`.| -|`Args<N1, N2, ..., Nk>(m)`|The tuple of the `k` selected (using 0-based indices) arguments matches `m`, e.g. `Args<1, 2>(Eq())`.| - -## Composite Matchers ## - -You can make a matcher from one or more other matchers: - -| Matcher | Description | -|:-----------------------|:------------------------------------------------------------| -|`AllOf(m1, m2, ..., mn)`|`argument` matches all of the matchers `m1` to `mn`. | -|`AnyOf(m1, m2, ..., mn)`|`argument` matches at least one of the matchers `m1` to `mn`.| -|`Not(m)` |`argument` doesn't match matcher `m`. | - -## Adapters for Matchers ## - -| Matcher | Description | -|:--------|:------------| -|`MatcherCast<T>(m)`|casts matcher `m` to type `Matcher<T>`.| -|`SafeMatcherCast<T>(m)`| [safely casts](CookBook.md#casting-matchers) matcher `m` to type `Matcher<T>`.| -|`Truly(predicate)`|`predicate(argument)` returns something considered by C++ to be true, where `predicate` is a function or functor.| - -## Matchers as Predicates ## - -| Matcher | Description | -|:--------|:------------| -|`Matches(m)(value)`|evaluates to `true` if `value` matches `m`. You can use `Matches(m)` alone as a unary functor.| -|`ExplainMatchResult(m, value, result_listener)`|evaluates to `true` if `value` matches `m`, explaining the result to `result_listener`.| -|`Value(value, m)`|evaluates to `true` if `value` matches `m`.| - -## Defining Matchers ## - -| Matcher | Description | -|:--------|:------------| -| `MATCHER(IsEven, "") { return (arg % 2) == 0; }` | Defines a matcher `IsEven()` to match an even number. | -| `MATCHER_P(IsDivisibleBy, n, "") { *result_listener << "where the remainder is " << (arg % n); return (arg % n) == 0; }` | Defines a macher `IsDivisibleBy(n)` to match a number divisible by `n`. | -| `MATCHER_P2(IsBetween, a, b, std::string(negation ? "isn't" : "is") + " between " + PrintToString(a) + " and " + PrintToString(b)) { return a <= arg && arg <= b; }` | Defines a matcher `IsBetween(a, b)` to match a value in the range [`a`, `b`]. | - -**Notes:** - - 1. The `MATCHER*` macros cannot be used inside a function or class. - 1. The matcher body must be _purely functional_ (i.e. it cannot have any side effect, and the result must not depend on anything other than the value being matched and the matcher parameters). - 1. You can use `PrintToString(x)` to convert a value `x` of any type to a string. - -## Matchers as Test Assertions ## - -| Matcher | Description | -|:--------|:------------| -|`ASSERT_THAT(expression, m)`|Generates a [fatal failure](../../googletest/docs/primer.md#assertions) if the value of `expression` doesn't match matcher `m`.| -|`EXPECT_THAT(expression, m)`|Generates a non-fatal failure if the value of `expression` doesn't match matcher `m`.| - -# Actions # - -**Actions** specify what a mock function should do when invoked. - -## Returning a Value ## - -| Matcher | Description | -|:--------|:------------| -|`Return()`|Return from a `void` mock function.| -|`Return(value)`|Return `value`. If the type of `value` is different to the mock function's return type, `value` is converted to the latter type <i>at the time the expectation is set</i>, not when the action is executed.| -|`ReturnArg<N>()`|Return the `N`-th (0-based) argument.| -|`ReturnNew<T>(a1, ..., ak)`|Return `new T(a1, ..., ak)`; a different object is created each time.| -|`ReturnNull()`|Return a null pointer.| -|`ReturnPointee(ptr)`|Return the value pointed to by `ptr`.| -|`ReturnRef(variable)`|Return a reference to `variable`.| -|`ReturnRefOfCopy(value)`|Return a reference to a copy of `value`; the copy lives as long as the action.| - -## Side Effects ## - -| Matcher | Description | -|:--------|:------------| -|`Assign(&variable, value)`|Assign `value` to variable.| -|`DeleteArg<N>()`| Delete the `N`-th (0-based) argument, which must be a pointer.| -|`SaveArg<N>(pointer)`| Save the `N`-th (0-based) argument to `*pointer`.| -|`SaveArgPointee<N>(pointer)`| Save the value pointed to by the `N`-th (0-based) argument to `*pointer`.| -|`SetArgReferee<N>(value)` | Assign value to the variable referenced by the `N`-th (0-based) argument. | -|`SetArgPointee<N>(value)` |Assign `value` to the variable pointed by the `N`-th (0-based) argument.| -|`SetArgumentPointee<N>(value)`|Same as `SetArgPointee<N>(value)`. Deprecated. Will be removed in v1.7.0.| -|`SetArrayArgument<N>(first, last)`|Copies the elements in source range [`first`, `last`) to the array pointed to by the `N`-th (0-based) argument, which can be either a pointer or an iterator. The action does not take ownership of the elements in the source range.| -|`SetErrnoAndReturn(error, value)`|Set `errno` to `error` and return `value`.| -|`Throw(exception)`|Throws the given exception, which can be any copyable value. Available since v1.1.0.| - -## Using a Function or a Functor as an Action ## - -| Matcher | Description | -|:--------|:------------| -|`Invoke(f)`|Invoke `f` with the arguments passed to the mock function, where `f` can be a global/static function or a functor.| -|`Invoke(object_pointer, &class::method)`|Invoke the {method on the object with the arguments passed to the mock function.| -|`InvokeWithoutArgs(f)`|Invoke `f`, which can be a global/static function or a functor. `f` must take no arguments.| -|`InvokeWithoutArgs(object_pointer, &class::method)`|Invoke the method on the object, which takes no arguments.| -|`InvokeArgument<N>(arg1, arg2, ..., argk)`|Invoke the mock function's `N`-th (0-based) argument, which must be a function or a functor, with the `k` arguments.| - -The return value of the invoked function is used as the return value -of the action. - -When defining a function or functor to be used with `Invoke*()`, you can declare any unused parameters as `Unused`: -```cpp - double Distance(Unused, double x, double y) { return sqrt(x*x + y*y); } - ... - EXPECT_CALL(mock, Foo("Hi", _, _)).WillOnce(Invoke(Distance)); -``` - -In `InvokeArgument<N>(...)`, if an argument needs to be passed by reference, wrap it inside `ByRef()`. For example, -```cpp - InvokeArgument<2>(5, string("Hi"), ByRef(foo)) -``` -calls the mock function's #2 argument, passing to it `5` and `string("Hi")` by value, and `foo` by reference. - -## Default Action ## - -| Matcher | Description | -|:--------|:------------| -|`DoDefault()`|Do the default action (specified by `ON_CALL()` or the built-in one).| - -**Note:** due to technical reasons, `DoDefault()` cannot be used inside a composite action - trying to do so will result in a run-time error. - -## Composite Actions ## - -| Matcher | Description | -|:-----------------------------|:-----------------------------------------------------------------------------------------------------------------------------| -|`DoAll(a1, a2, ..., an)` |Do all actions `a1` to `an` and return the result of `an` in each invocation. The first `n - 1` sub-actions must return void. | -|`IgnoreResult(a)` |Perform action `a` and ignore its result. `a` must not return void. | -|`WithArg<N>(a)` |Pass the `N`-th (0-based) argument of the mock function to action `a` and perform it. | -|`WithArgs<N1, N2, ..., Nk>(a)`|Pass the selected (0-based) arguments of the mock function to action `a` and perform it. | -|`WithoutArgs(a)` |Perform action `a` without any arguments. | - -## Defining Actions ## - -| Matcher | Description | -|:----------------------------------------------|:------------------------------------------------------------------------------------------| -| `ACTION(Sum) { return arg0 + arg1; }` | Defines an action `Sum()` to return the sum of the mock function's argument #0 and #1. | -| `ACTION_P(Plus, n) { return arg0 + n; }` | Defines an action `Plus(n)` to return the sum of the mock function's argument #0 and `n`. | -| `ACTION_Pk(Foo, p1, ..., pk) { statements; }` | Defines a parameterized action `Foo(p1, ..., pk)` to execute the given `statements`. | - -The `ACTION*` macros cannot be used inside a function or class. - -# Cardinalities # - -These are used in `Times()` to specify how many times a mock function will be called: - -| Matcher | Description | -|:--------|:------------| -|`AnyNumber()`|The function can be called any number of times.| -|`AtLeast(n)`|The call is expected at least `n` times.| -|`AtMost(n)`|The call is expected at most `n` times.| -|`Between(m, n)`|The call is expected between `m` and `n` (inclusive) times.| -|`Exactly(n) or n`|The call is expected exactly `n` times. In particular, the call should never happen when `n` is 0.| - -# Expectation Order # - -By default, the expectations can be matched in _any_ order. If some -or all expectations must be matched in a given order, there are two -ways to specify it. They can be used either independently or -together. - -## The After Clause ## - -```cpp -using ::testing::Expectation; -... -Expectation init_x = EXPECT_CALL(foo, InitX()); -Expectation init_y = EXPECT_CALL(foo, InitY()); -EXPECT_CALL(foo, Bar()) - .After(init_x, init_y); -``` -says that `Bar()` can be called only after both `InitX()` and -`InitY()` have been called. - -If you don't know how many pre-requisites an expectation has when you -write it, you can use an `ExpectationSet` to collect them: - -```cpp -using ::testing::ExpectationSet; -... -ExpectationSet all_inits; -for (int i = 0; i < element_count; i++) { - all_inits += EXPECT_CALL(foo, InitElement(i)); -} -EXPECT_CALL(foo, Bar()) - .After(all_inits); -``` -says that `Bar()` can be called only after all elements have been -initialized (but we don't care about which elements get initialized -before the others). - -Modifying an `ExpectationSet` after using it in an `.After()` doesn't -affect the meaning of the `.After()`. - -## Sequences ## - -When you have a long chain of sequential expectations, it's easier to -specify the order using **sequences**, which don't require you to given -each expectation in the chain a different name. <i>All expected<br> -calls</i> in the same sequence must occur in the order they are -specified. - -```cpp -using ::testing::Sequence; -Sequence s1, s2; -... -EXPECT_CALL(foo, Reset()) - .InSequence(s1, s2) - .WillOnce(Return(true)); -EXPECT_CALL(foo, GetSize()) - .InSequence(s1) - .WillOnce(Return(1)); -EXPECT_CALL(foo, Describe(A<const char*>())) - .InSequence(s2) - .WillOnce(Return("dummy")); -``` -says that `Reset()` must be called before _both_ `GetSize()` _and_ -`Describe()`, and the latter two can occur in any order. - -To put many expectations in a sequence conveniently: -```cpp -using ::testing::InSequence; -{ - InSequence dummy; - - EXPECT_CALL(...)...; - EXPECT_CALL(...)...; - ... - EXPECT_CALL(...)...; -} -``` -says that all expected calls in the scope of `dummy` must occur in -strict order. The name `dummy` is irrelevant.) - -# Verifying and Resetting a Mock # - -Google Mock will verify the expectations on a mock object when it is destructed, or you can do it earlier: -```cpp -using ::testing::Mock; -... -// Verifies and removes the expectations on mock_obj; -// returns true iff successful. -Mock::VerifyAndClearExpectations(&mock_obj); -... -// Verifies and removes the expectations on mock_obj; -// also removes the default actions set by ON_CALL(); -// returns true iff successful. -Mock::VerifyAndClear(&mock_obj); -``` - -You can also tell Google Mock that a mock object can be leaked and doesn't -need to be verified: -```cpp -Mock::AllowLeak(&mock_obj); -``` - -# Mock Classes # - -Google Mock defines a convenient mock class template -```cpp -class MockFunction<R(A1, ..., An)> { - public: - MOCK_METHODn(Call, R(A1, ..., An)); -}; -``` -See this [recipe](CookBook.md#using-check-points) for one application of it. - -# Flags # - -| Flag | Description | -|:--------|:------------| -| `--gmock_catch_leaked_mocks=0` | Don't report leaked mock objects as failures. | -| `--gmock_verbose=LEVEL` | Sets the default verbosity level (`info`, `warning`, or `error`) of Google Mock messages. | diff --git a/googlemock/docs/CookBook.md b/googlemock/docs/CookBook.md deleted file mode 100644 index 5209110..0000000 --- a/googlemock/docs/CookBook.md +++ /dev/null @@ -1,3660 +0,0 @@ - - -You can find recipes for using Google Mock here. If you haven't yet, -please read the [ForDummies](ForDummies.md) document first to make sure you understand -the basics. - -**Note:** Google Mock lives in the `testing` name space. For -readability, it is recommended to write `using ::testing::Foo;` once in -your file before using the name `Foo` defined by Google Mock. We omit -such `using` statements in this page for brevity, but you should do it -in your own code. - -# Creating Mock Classes # - -## Mocking Private or Protected Methods ## - -You must always put a mock method definition (`MOCK_METHOD*`) in a -`public:` section of the mock class, regardless of the method being -mocked being `public`, `protected`, or `private` in the base class. -This allows `ON_CALL` and `EXPECT_CALL` to reference the mock function -from outside of the mock class. (Yes, C++ allows a subclass to specify -a different access level than the base class on a virtual function.) -Example: - -```cpp -class Foo { - public: - ... - virtual bool Transform(Gadget* g) = 0; - - protected: - virtual void Resume(); - - private: - virtual int GetTimeOut(); -}; - -class MockFoo : public Foo { - public: - ... - MOCK_METHOD1(Transform, bool(Gadget* g)); - - // The following must be in the public section, even though the - // methods are protected or private in the base class. - MOCK_METHOD0(Resume, void()); - MOCK_METHOD0(GetTimeOut, int()); -}; -``` - -## Mocking Overloaded Methods ## - -You can mock overloaded functions as usual. No special attention is required: - -```cpp -class Foo { - ... - - // Must be virtual as we'll inherit from Foo. - virtual ~Foo(); - - // Overloaded on the types and/or numbers of arguments. - virtual int Add(Element x); - virtual int Add(int times, Element x); - - // Overloaded on the const-ness of this object. - virtual Bar& GetBar(); - virtual const Bar& GetBar() const; -}; - -class MockFoo : public Foo { - ... - MOCK_METHOD1(Add, int(Element x)); - MOCK_METHOD2(Add, int(int times, Element x); - - MOCK_METHOD0(GetBar, Bar&()); - MOCK_CONST_METHOD0(GetBar, const Bar&()); -}; -``` - -**Note:** if you don't mock all versions of the overloaded method, the -compiler will give you a warning about some methods in the base class -being hidden. To fix that, use `using` to bring them in scope: - -```cpp -class MockFoo : public Foo { - ... - using Foo::Add; - MOCK_METHOD1(Add, int(Element x)); - // We don't want to mock int Add(int times, Element x); - ... -}; -``` - -## Mocking Class Templates ## - -To mock a class template, append `_T` to the `MOCK_*` macros: - -```cpp -template <typename Elem> -class StackInterface { - ... - // Must be virtual as we'll inherit from StackInterface. - virtual ~StackInterface(); - - virtual int GetSize() const = 0; - virtual void Push(const Elem& x) = 0; -}; - -template <typename Elem> -class MockStack : public StackInterface<Elem> { - ... - MOCK_CONST_METHOD0_T(GetSize, int()); - MOCK_METHOD1_T(Push, void(const Elem& x)); -}; -``` - -## Mocking Nonvirtual Methods ## - -Google Mock can mock non-virtual functions to be used in what we call _hi-perf -dependency injection_. - -In this case, instead of sharing a common base class with the real -class, your mock class will be _unrelated_ to the real class, but -contain methods with the same signatures. The syntax for mocking -non-virtual methods is the _same_ as mocking virtual methods: - -```cpp -// A simple packet stream class. None of its members is virtual. -class ConcretePacketStream { - public: - void AppendPacket(Packet* new_packet); - const Packet* GetPacket(size_t packet_number) const; - size_t NumberOfPackets() const; - ... -}; - -// A mock packet stream class. It inherits from no other, but defines -// GetPacket() and NumberOfPackets(). -class MockPacketStream { - public: - MOCK_CONST_METHOD1(GetPacket, const Packet*(size_t packet_number)); - MOCK_CONST_METHOD0(NumberOfPackets, size_t()); - ... -}; -``` - -Note that the mock class doesn't define `AppendPacket()`, unlike the -real class. That's fine as long as the test doesn't need to call it. - -Next, you need a way to say that you want to use -`ConcretePacketStream` in production code and to use `MockPacketStream` -in tests. Since the functions are not virtual and the two classes are -unrelated, you must specify your choice at _compile time_ (as opposed -to run time). - -One way to do it is to templatize your code that needs to use a packet -stream. More specifically, you will give your code a template type -argument for the type of the packet stream. In production, you will -instantiate your template with `ConcretePacketStream` as the type -argument. In tests, you will instantiate the same template with -`MockPacketStream`. For example, you may write: - -```cpp -template <class PacketStream> -void CreateConnection(PacketStream* stream) { ... } - -template <class PacketStream> -class PacketReader { - public: - void ReadPackets(PacketStream* stream, size_t packet_num); -}; -``` - -Then you can use `CreateConnection<ConcretePacketStream>()` and -`PacketReader<ConcretePacketStream>` in production code, and use -`CreateConnection<MockPacketStream>()` and -`PacketReader<MockPacketStream>` in tests. - -```cpp - MockPacketStream mock_stream; - EXPECT_CALL(mock_stream, ...)...; - .. set more expectations on mock_stream ... - PacketReader<MockPacketStream> reader(&mock_stream); - ... exercise reader ... -``` - -## Mocking Free Functions ## - -It's possible to use Google Mock to mock a free function (i.e. a -C-style function or a static method). You just need to rewrite your -code to use an interface (abstract class). - -Instead of calling a free function (say, `OpenFile`) directly, -introduce an interface for it and have a concrete subclass that calls -the free function: - -```cpp -class FileInterface { - public: - ... - virtual bool Open(const char* path, const char* mode) = 0; -}; - -class File : public FileInterface { - public: - ... - virtual bool Open(const char* path, const char* mode) { - return OpenFile(path, mode); - } -}; -``` - -Your code should talk to `FileInterface` to open a file. Now it's -easy to mock out the function. - -This may seem much hassle, but in practice you often have multiple -related functions that you can put in the same interface, so the -per-function syntactic overhead will be much lower. - -If you are concerned about the performance overhead incurred by -virtual functions, and profiling confirms your concern, you can -combine this with the recipe for [mocking non-virtual methods](#mocking-nonvirtual-methods). - -## The Nice, the Strict, and the Naggy ## - -If a mock method has no `EXPECT_CALL` spec but is called, Google Mock -will print a warning about the "uninteresting call". The rationale is: - - * New methods may be added to an interface after a test is written. We shouldn't fail a test just because a method it doesn't know about is called. - * However, this may also mean there's a bug in the test, so Google Mock shouldn't be silent either. If the user believes these calls are harmless, they can add an `EXPECT_CALL()` to suppress the warning. - -However, sometimes you may want to suppress all "uninteresting call" -warnings, while sometimes you may want the opposite, i.e. to treat all -of them as errors. Google Mock lets you make the decision on a -per-mock-object basis. - -Suppose your test uses a mock class `MockFoo`: - -```cpp -TEST(...) { - MockFoo mock_foo; - EXPECT_CALL(mock_foo, DoThis()); - ... code that uses mock_foo ... -} -``` - -If a method of `mock_foo` other than `DoThis()` is called, it will be -reported by Google Mock as a warning. However, if you rewrite your -test to use `NiceMock<MockFoo>` instead, the warning will be gone, -resulting in a cleaner test output: - -```cpp -using ::testing::NiceMock; - -TEST(...) { - NiceMock<MockFoo> mock_foo; - EXPECT_CALL(mock_foo, DoThis()); - ... code that uses mock_foo ... -} -``` - -`NiceMock<MockFoo>` is a subclass of `MockFoo`, so it can be used -wherever `MockFoo` is accepted. - -It also works if `MockFoo`'s constructor takes some arguments, as -`NiceMock<MockFoo>` "inherits" `MockFoo`'s constructors: - -```cpp -using ::testing::NiceMock; - -TEST(...) { - NiceMock<MockFoo> mock_foo(5, "hi"); // Calls MockFoo(5, "hi"). - EXPECT_CALL(mock_foo, DoThis()); - ... code that uses mock_foo ... -} -``` - -The usage of `StrictMock` is similar, except that it makes all -uninteresting calls failures: - -```cpp -using ::testing::StrictMock; - -TEST(...) { - StrictMock<MockFoo> mock_foo; - EXPECT_CALL(mock_foo, DoThis()); - ... code that uses mock_foo ... - - // The test will fail if a method of mock_foo other than DoThis() - // is called. -} -``` - -There are some caveats though (I don't like them just as much as the -next guy, but sadly they are side effects of C++'s limitations): - - 1. `NiceMock<MockFoo>` and `StrictMock<MockFoo>` only work for mock methods defined using the `MOCK_METHOD*` family of macros **directly** in the `MockFoo` class. If a mock method is defined in a **base class** of `MockFoo`, the "nice" or "strict" modifier may not affect it, depending on the compiler. In particular, nesting `NiceMock` and `StrictMock` (e.g. `NiceMock<StrictMock<MockFoo> >`) is **not** supported. - 1. The constructors of the base mock (`MockFoo`) cannot have arguments passed by non-const reference, which happens to be banned by the [Google C++ style guide](https://google.github.io/styleguide/cppguide.html). - 1. During the constructor or destructor of `MockFoo`, the mock object is _not_ nice or strict. This may cause surprises if the constructor or destructor calls a mock method on `this` object. (This behavior, however, is consistent with C++'s general rule: if a constructor or destructor calls a virtual method of `this` object, that method is treated as non-virtual. In other words, to the base class's constructor or destructor, `this` object behaves like an instance of the base class, not the derived class. This rule is required for safety. Otherwise a base constructor may use members of a derived class before they are initialized, or a base destructor may use members of a derived class after they have been destroyed.) - -Finally, you should be **very cautious** about when to use naggy or strict mocks, as they tend to make tests more brittle and harder to maintain. When you refactor your code without changing its externally visible behavior, ideally you should't need to update any tests. If your code interacts with a naggy mock, however, you may start to get spammed with warnings as the result of your change. Worse, if your code interacts with a strict mock, your tests may start to fail and you'll be forced to fix them. Our general recommendation is to use nice mocks (not yet the default) most of the time, use naggy mocks (the current default) when developing or debugging tests, and use strict mocks only as the last resort. - -## Simplifying the Interface without Breaking Existing Code ## - -Sometimes a method has a long list of arguments that is mostly -uninteresting. For example, - -```cpp -class LogSink { - public: - ... - virtual void send(LogSeverity severity, const char* full_filename, - const char* base_filename, int line, - const struct tm* tm_time, - const char* message, size_t message_len) = 0; -}; -``` - -This method's argument list is lengthy and hard to work with (let's -say that the `message` argument is not even 0-terminated). If we mock -it as is, using the mock will be awkward. If, however, we try to -simplify this interface, we'll need to fix all clients depending on -it, which is often infeasible. - -The trick is to re-dispatch the method in the mock class: - -```cpp -class ScopedMockLog : public LogSink { - public: - ... - virtual void send(LogSeverity severity, const char* full_filename, - const char* base_filename, int line, const tm* tm_time, - const char* message, size_t message_len) { - // We are only interested in the log severity, full file name, and - // log message. - Log(severity, full_filename, std::string(message, message_len)); - } - - // Implements the mock method: - // - // void Log(LogSeverity severity, - // const string& file_path, - // const string& message); - MOCK_METHOD3(Log, void(LogSeverity severity, const string& file_path, - const string& message)); -}; -``` - -By defining a new mock method with a trimmed argument list, we make -the mock class much more user-friendly. - -## Alternative to Mocking Concrete Classes ## - -Often you may find yourself using classes that don't implement -interfaces. In order to test your code that uses such a class (let's -call it `Concrete`), you may be tempted to make the methods of -`Concrete` virtual and then mock it. - -Try not to do that. - -Making a non-virtual function virtual is a big decision. It creates an -extension point where subclasses can tweak your class' behavior. This -weakens your control on the class because now it's harder to maintain -the class' invariants. You should make a function virtual only when -there is a valid reason for a subclass to override it. - -Mocking concrete classes directly is problematic as it creates a tight -coupling between the class and the tests - any small change in the -class may invalidate your tests and make test maintenance a pain. - -To avoid such problems, many programmers have been practicing "coding -to interfaces": instead of talking to the `Concrete` class, your code -would define an interface and talk to it. Then you implement that -interface as an adaptor on top of `Concrete`. In tests, you can easily -mock that interface to observe how your code is doing. - -This technique incurs some overhead: - - * You pay the cost of virtual function calls (usually not a problem). - * There is more abstraction for the programmers to learn. - -However, it can also bring significant benefits in addition to better -testability: - - * `Concrete`'s API may not fit your problem domain very well, as you may not be the only client it tries to serve. By designing your own interface, you have a chance to tailor it to your need - you may add higher-level functionalities, rename stuff, etc instead of just trimming the class. This allows you to write your code (user of the interface) in a more natural way, which means it will be more readable, more maintainable, and you'll be more productive. - * If `Concrete`'s implementation ever has to change, you don't have to rewrite everywhere it is used. Instead, you can absorb the change in your implementation of the interface, and your other code and tests will be insulated from this change. - -Some people worry that if everyone is practicing this technique, they -will end up writing lots of redundant code. This concern is totally -understandable. However, there are two reasons why it may not be the -case: - - * Different projects may need to use `Concrete` in different ways, so the best interfaces for them will be different. Therefore, each of them will have its own domain-specific interface on top of `Concrete`, and they will not be the same code. - * If enough projects want to use the same interface, they can always share it, just like they have been sharing `Concrete`. You can check in the interface and the adaptor somewhere near `Concrete` (perhaps in a `contrib` sub-directory) and let many projects use it. - -You need to weigh the pros and cons carefully for your particular -problem, but I'd like to assure you that the Java community has been -practicing this for a long time and it's a proven effective technique -applicable in a wide variety of situations. :-) - -## Delegating Calls to a Fake ## - -Some times you have a non-trivial fake implementation of an -interface. For example: - -```cpp -class Foo { - public: - virtual ~Foo() {} - virtual char DoThis(int n) = 0; - virtual void DoThat(const char* s, int* p) = 0; -}; - -class FakeFoo : public Foo { - public: - virtual char DoThis(int n) { - return (n > 0) ? '+' : - (n < 0) ? '-' : '0'; - } - - virtual void DoThat(const char* s, int* p) { - *p = strlen(s); - } -}; -``` - -Now you want to mock this interface such that you can set expectations -on it. However, you also want to use `FakeFoo` for the default -behavior, as duplicating it in the mock object is, well, a lot of -work. - -When you define the mock class using Google Mock, you can have it -delegate its default action to a fake class you already have, using -this pattern: - -```cpp -using ::testing::_; -using ::testing::Invoke; - -class MockFoo : public Foo { - public: - // Normal mock method definitions using Google Mock. - MOCK_METHOD1(DoThis, char(int n)); - MOCK_METHOD2(DoThat, void(const char* s, int* p)); - - // Delegates the default actions of the methods to a FakeFoo object. - // This must be called *before* the custom ON_CALL() statements. - void DelegateToFake() { - ON_CALL(*this, DoThis(_)) - .WillByDefault(Invoke(&fake_, &FakeFoo::DoThis)); - ON_CALL(*this, DoThat(_, _)) - .WillByDefault(Invoke(&fake_, &FakeFoo::DoThat)); - } - private: - FakeFoo fake_; // Keeps an instance of the fake in the mock. -}; -``` - -With that, you can use `MockFoo` in your tests as usual. Just remember -that if you don't explicitly set an action in an `ON_CALL()` or -`EXPECT_CALL()`, the fake will be called upon to do it: - -```cpp -using ::testing::_; - -TEST(AbcTest, Xyz) { - MockFoo foo; - foo.DelegateToFake(); // Enables the fake for delegation. - - // Put your ON_CALL(foo, ...)s here, if any. - - // No action specified, meaning to use the default action. - EXPECT_CALL(foo, DoThis(5)); - EXPECT_CALL(foo, DoThat(_, _)); - - int n = 0; - EXPECT_EQ('+', foo.DoThis(5)); // FakeFoo::DoThis() is invoked. - foo.DoThat("Hi", &n); // FakeFoo::DoThat() is invoked. - EXPECT_EQ(2, n); -} -``` - -**Some tips:** - - * If you want, you can still override the default action by providing your own `ON_CALL()` or using `.WillOnce()` / `.WillRepeatedly()` in `EXPECT_CALL()`. - * In `DelegateToFake()`, you only need to delegate the methods whose fake implementation you intend to use. - * The general technique discussed here works for overloaded methods, but you'll need to tell the compiler which version you mean. To disambiguate a mock function (the one you specify inside the parentheses of `ON_CALL()`), see the "Selecting Between Overloaded Functions" section on this page; to disambiguate a fake function (the one you place inside `Invoke()`), use a `static_cast` to specify the function's type. For instance, if class `Foo` has methods `char DoThis(int n)` and `bool DoThis(double x) const`, and you want to invoke the latter, you need to write `Invoke(&fake_, static_cast<bool (FakeFoo::*)(double) const>(&FakeFoo::DoThis))` instead of `Invoke(&fake_, &FakeFoo::DoThis)` (The strange-looking thing inside the angled brackets of `static_cast` is the type of a function pointer to the second `DoThis()` method.). - * Having to mix a mock and a fake is often a sign of something gone wrong. Perhaps you haven't got used to the interaction-based way of testing yet. Or perhaps your interface is taking on too many roles and should be split up. Therefore, **don't abuse this**. We would only recommend to do it as an intermediate step when you are refactoring your code. - -Regarding the tip on mixing a mock and a fake, here's an example on -why it may be a bad sign: Suppose you have a class `System` for -low-level system operations. In particular, it does file and I/O -operations. And suppose you want to test how your code uses `System` -to do I/O, and you just want the file operations to work normally. If -you mock out the entire `System` class, you'll have to provide a fake -implementation for the file operation part, which suggests that -`System` is taking on too many roles. - -Instead, you can define a `FileOps` interface and an `IOOps` interface -and split `System`'s functionalities into the two. Then you can mock -`IOOps` without mocking `FileOps`. - -## Delegating Calls to a Real Object ## - -When using testing doubles (mocks, fakes, stubs, and etc), sometimes -their behaviors will differ from those of the real objects. This -difference could be either intentional (as in simulating an error such -that you can test the error handling code) or unintentional. If your -mocks have different behaviors than the real objects by mistake, you -could end up with code that passes the tests but fails in production. - -You can use the _delegating-to-real_ technique to ensure that your -mock has the same behavior as the real object while retaining the -ability to validate calls. This technique is very similar to the -delegating-to-fake technique, the difference being that we use a real -object instead of a fake. Here's an example: - -```cpp -using ::testing::_; -using ::testing::AtLeast; -using ::testing::Invoke; - -class MockFoo : public Foo { - public: - MockFoo() { - // By default, all calls are delegated to the real object. - ON_CALL(*this, DoThis()) - .WillByDefault(Invoke(&real_, &Foo::DoThis)); - ON_CALL(*this, DoThat(_)) - .WillByDefault(Invoke(&real_, &Foo::DoThat)); - ... - } - MOCK_METHOD0(DoThis, ...); - MOCK_METHOD1(DoThat, ...); - ... - private: - Foo real_; -}; -... - - MockFoo mock; - - EXPECT_CALL(mock, DoThis()) - .Times(3); - EXPECT_CALL(mock, DoThat("Hi")) - .Times(AtLeast(1)); - ... use mock in test ... -``` - -With this, Google Mock will verify that your code made the right calls -(with the right arguments, in the right order, called the right number -of times, etc), and a real object will answer the calls (so the -behavior will be the same as in production). This gives you the best -of both worlds. - -## Delegating Calls to a Parent Class ## - -Ideally, you should code to interfaces, whose methods are all pure -virtual. In reality, sometimes you do need to mock a virtual method -that is not pure (i.e, it already has an implementation). For example: - -```cpp -class Foo { - public: - virtual ~Foo(); - - virtual void Pure(int n) = 0; - virtual int Concrete(const char* str) { ... } -}; - -class MockFoo : public Foo { - public: - // Mocking a pure method. - MOCK_METHOD1(Pure, void(int n)); - // Mocking a concrete method. Foo::Concrete() is shadowed. - MOCK_METHOD1(Concrete, int(const char* str)); -}; -``` - -Sometimes you may want to call `Foo::Concrete()` instead of -`MockFoo::Concrete()`. Perhaps you want to do it as part of a stub -action, or perhaps your test doesn't need to mock `Concrete()` at all -(but it would be oh-so painful to have to define a new mock class -whenever you don't need to mock one of its methods). - -The trick is to leave a back door in your mock class for accessing the -real methods in the base class: - -```cpp -class MockFoo : public Foo { - public: - // Mocking a pure method. - MOCK_METHOD1(Pure, void(int n)); - // Mocking a concrete method. Foo::Concrete() is shadowed. - MOCK_METHOD1(Concrete, int(const char* str)); - - // Use this to call Concrete() defined in Foo. - int FooConcrete(const char* str) { return Foo::Concrete(str); } -}; -``` - -Now, you can call `Foo::Concrete()` inside an action by: - -```cpp -using ::testing::_; -using ::testing::Invoke; -... - EXPECT_CALL(foo, Concrete(_)) - .WillOnce(Invoke(&foo, &MockFoo::FooConcrete)); -``` - -or tell the mock object that you don't want to mock `Concrete()`: - -```cpp -using ::testing::Invoke; -... - ON_CALL(foo, Concrete(_)) - .WillByDefault(Invoke(&foo, &MockFoo::FooConcrete)); -``` - -(Why don't we just write `Invoke(&foo, &Foo::Concrete)`? If you do -that, `MockFoo::Concrete()` will be called (and cause an infinite -recursion) since `Foo::Concrete()` is virtual. That's just how C++ -works.) - -# Using Matchers # - -## Matching Argument Values Exactly ## - -You can specify exactly which arguments a mock method is expecting: - -```cpp -using ::testing::Return; -... - EXPECT_CALL(foo, DoThis(5)) - .WillOnce(Return('a')); - EXPECT_CALL(foo, DoThat("Hello", bar)); -``` - -## Using Simple Matchers ## - -You can use matchers to match arguments that have a certain property: - -```cpp -using ::testing::Ge; -using ::testing::NotNull; -using ::testing::Return; -... - EXPECT_CALL(foo, DoThis(Ge(5))) // The argument must be >= 5. - .WillOnce(Return('a')); - EXPECT_CALL(foo, DoThat("Hello", NotNull())); - // The second argument must not be NULL. -``` - -A frequently used matcher is `_`, which matches anything: - -```cpp -using ::testing::_; -using ::testing::NotNull; -... - EXPECT_CALL(foo, DoThat(_, NotNull())); -``` - -## Combining Matchers ## - -You can build complex matchers from existing ones using `AllOf()`, -`AnyOf()`, and `Not()`: - -```cpp -using ::testing::AllOf; -using ::testing::Gt; -using ::testing::HasSubstr; -using ::testing::Ne; -using ::testing::Not; -... - // The argument must be > 5 and != 10. - EXPECT_CALL(foo, DoThis(AllOf(Gt(5), - Ne(10)))); - - // The first argument must not contain sub-string "blah". - EXPECT_CALL(foo, DoThat(Not(HasSubstr("blah")), - NULL)); -``` - -## Casting Matchers ## - -Google Mock matchers are statically typed, meaning that the compiler -can catch your mistake if you use a matcher of the wrong type (for -example, if you use `Eq(5)` to match a `string` argument). Good for -you! - -Sometimes, however, you know what you're doing and want the compiler -to give you some slack. One example is that you have a matcher for -`long` and the argument you want to match is `int`. While the two -types aren't exactly the same, there is nothing really wrong with -using a `Matcher<long>` to match an `int` - after all, we can first -convert the `int` argument to a `long` before giving it to the -matcher. - -To support this need, Google Mock gives you the -`SafeMatcherCast<T>(m)` function. It casts a matcher `m` to type -`Matcher<T>`. To ensure safety, Google Mock checks that (let `U` be the -type `m` accepts): - - 1. Type `T` can be implicitly cast to type `U`; - 1. When both `T` and `U` are built-in arithmetic types (`bool`, integers, and floating-point numbers), the conversion from `T` to `U` is not lossy (in other words, any value representable by `T` can also be represented by `U`); and - 1. When `U` is a reference, `T` must also be a reference (as the underlying matcher may be interested in the address of the `U` value). - -The code won't compile if any of these conditions aren't met. - -Here's one example: - -```cpp -using ::testing::SafeMatcherCast; - -// A base class and a child class. -class Base { ... }; -class Derived : public Base { ... }; - -class MockFoo : public Foo { - public: - MOCK_METHOD1(DoThis, void(Derived* derived)); -}; -... - - MockFoo foo; - // m is a Matcher<Base*> we got from somewhere. - EXPECT_CALL(foo, DoThis(SafeMatcherCast<Derived*>(m))); -``` - -If you find `SafeMatcherCast<T>(m)` too limiting, you can use a similar -function `MatcherCast<T>(m)`. The difference is that `MatcherCast` works -as long as you can `static_cast` type `T` to type `U`. - -`MatcherCast` essentially lets you bypass C++'s type system -(`static_cast` isn't always safe as it could throw away information, -for example), so be careful not to misuse/abuse it. - -## Selecting Between Overloaded Functions ## - -If you expect an overloaded function to be called, the compiler may -need some help on which overloaded version it is. - -To disambiguate functions overloaded on the const-ness of this object, -use the `Const()` argument wrapper. - -```cpp -using ::testing::ReturnRef; - -class MockFoo : public Foo { - ... - MOCK_METHOD0(GetBar, Bar&()); - MOCK_CONST_METHOD0(GetBar, const Bar&()); -}; -... - - MockFoo foo; - Bar bar1, bar2; - EXPECT_CALL(foo, GetBar()) // The non-const GetBar(). - .WillOnce(ReturnRef(bar1)); - EXPECT_CALL(Const(foo), GetBar()) // The const GetBar(). - .WillOnce(ReturnRef(bar2)); -``` - -(`Const()` is defined by Google Mock and returns a `const` reference -to its argument.) - -To disambiguate overloaded functions with the same number of arguments -but different argument types, you may need to specify the exact type -of a matcher, either by wrapping your matcher in `Matcher<type>()`, or -using a matcher whose type is fixed (`TypedEq<type>`, `An<type>()`, -etc): - -```cpp -using ::testing::An; -using ::testing::Lt; -using ::testing::Matcher; -using ::testing::TypedEq; - -class MockPrinter : public Printer { - public: - MOCK_METHOD1(Print, void(int n)); - MOCK_METHOD1(Print, void(char c)); -}; - -TEST(PrinterTest, Print) { - MockPrinter printer; - - EXPECT_CALL(printer, Print(An<int>())); // void Print(int); - EXPECT_CALL(printer, Print(Matcher<int>(Lt(5)))); // void Print(int); - EXPECT_CALL(printer, Print(TypedEq<char>('a'))); // void Print(char); - - printer.Print(3); - printer.Print(6); - printer.Print('a'); -} -``` - -## Performing Different Actions Based on the Arguments ## - -When a mock method is called, the _last_ matching expectation that's -still active will be selected (think "newer overrides older"). So, you -can make a method do different things depending on its argument values -like this: - -```cpp -using ::testing::_; -using ::testing::Lt; -using ::testing::Return; -... - // The default case. - EXPECT_CALL(foo, DoThis(_)) - .WillRepeatedly(Return('b')); - - // The more specific case. - EXPECT_CALL(foo, DoThis(Lt(5))) - .WillRepeatedly(Return('a')); -``` - -Now, if `foo.DoThis()` is called with a value less than 5, `'a'` will -be returned; otherwise `'b'` will be returned. - -## Matching Multiple Arguments as a Whole ## - -Sometimes it's not enough to match the arguments individually. For -example, we may want to say that the first argument must be less than -the second argument. The `With()` clause allows us to match -all arguments of a mock function as a whole. For example, - -```cpp -using ::testing::_; -using ::testing::Lt; -using ::testing::Ne; -... - EXPECT_CALL(foo, InRange(Ne(0), _)) - .With(Lt()); -``` - -says that the first argument of `InRange()` must not be 0, and must be -less than the second argument. - -The expression inside `With()` must be a matcher of type -`Matcher< ::testing::tuple<A1, ..., An> >`, where `A1`, ..., `An` are the -types of the function arguments. - -You can also write `AllArgs(m)` instead of `m` inside `.With()`. The -two forms are equivalent, but `.With(AllArgs(Lt()))` is more readable -than `.With(Lt())`. - -You can use `Args<k1, ..., kn>(m)` to match the `n` selected arguments -(as a tuple) against `m`. For example, - -```cpp -using ::testing::_; -using ::testing::AllOf; -using ::testing::Args; -using ::testing::Lt; -... - EXPECT_CALL(foo, Blah(_, _, _)) - .With(AllOf(Args<0, 1>(Lt()), Args<1, 2>(Lt()))); -``` - -says that `Blah()` will be called with arguments `x`, `y`, and `z` where -`x < y < z`. - -As a convenience and example, Google Mock provides some matchers for -2-tuples, including the `Lt()` matcher above. See the [CheatSheet](CheatSheet.md) for -the complete list. - -Note that if you want to pass the arguments to a predicate of your own -(e.g. `.With(Args<0, 1>(Truly(&MyPredicate)))`), that predicate MUST be -written to take a `::testing::tuple` as its argument; Google Mock will pass the `n` selected arguments as _one_ single tuple to the predicate. - -## Using Matchers as Predicates ## - -Have you noticed that a matcher is just a fancy predicate that also -knows how to describe itself? Many existing algorithms take predicates -as arguments (e.g. those defined in STL's `<algorithm>` header), and -it would be a shame if Google Mock matchers are not allowed to -participate. - -Luckily, you can use a matcher where a unary predicate functor is -expected by wrapping it inside the `Matches()` function. For example, - -```cpp -#include <algorithm> -#include <vector> - -std::vector<int> v; -... -// How many elements in v are >= 10? -const int count = count_if(v.begin(), v.end(), Matches(Ge(10))); -``` - -Since you can build complex matchers from simpler ones easily using -Google Mock, this gives you a way to conveniently construct composite -predicates (doing the same using STL's `<functional>` header is just -painful). For example, here's a predicate that's satisfied by any -number that is >= 0, <= 100, and != 50: - -```cpp -Matches(AllOf(Ge(0), Le(100), Ne(50))) -``` - -## Using Matchers in Google Test Assertions ## - -Since matchers are basically predicates that also know how to describe -themselves, there is a way to take advantage of them in -[Google Test](../../googletest/) assertions. It's -called `ASSERT_THAT` and `EXPECT_THAT`: - -```cpp - ASSERT_THAT(value, matcher); // Asserts that value matches matcher. - EXPECT_THAT(value, matcher); // The non-fatal version. -``` - -For example, in a Google Test test you can write: - -```cpp -#include "gmock/gmock.h" - -using ::testing::AllOf; -using ::testing::Ge; -using ::testing::Le; -using ::testing::MatchesRegex; -using ::testing::StartsWith; -... - - EXPECT_THAT(Foo(), StartsWith("Hello")); - EXPECT_THAT(Bar(), MatchesRegex("Line \\d+")); - ASSERT_THAT(Baz(), AllOf(Ge(5), Le(10))); -``` - -which (as you can probably guess) executes `Foo()`, `Bar()`, and -`Baz()`, and verifies that: - - * `Foo()` returns a string that starts with `"Hello"`. - * `Bar()` returns a string that matches regular expression `"Line \\d+"`. - * `Baz()` returns a number in the range [5, 10]. - -The nice thing about these macros is that _they read like -English_. They generate informative messages too. For example, if the -first `EXPECT_THAT()` above fails, the message will be something like: - -``` -Value of: Foo() - Actual: "Hi, world!" -Expected: starts with "Hello" -``` - -**Credit:** The idea of `(ASSERT|EXPECT)_THAT` was stolen from the -[Hamcrest](https://github.com/hamcrest/) project, which adds -`assertThat()` to JUnit. - -## Using Predicates as Matchers ## - -Google Mock provides a built-in set of matchers. In case you find them -lacking, you can use an arbitray unary predicate function or functor -as a matcher - as long as the predicate accepts a value of the type -you want. You do this by wrapping the predicate inside the `Truly()` -function, for example: - -```cpp -using ::testing::Truly; - -int IsEven(int n) { return (n % 2) == 0 ? 1 : 0; } -... - - // Bar() must be called with an even number. - EXPECT_CALL(foo, Bar(Truly(IsEven))); -``` - -Note that the predicate function / functor doesn't have to return -`bool`. It works as long as the return value can be used as the -condition in statement `if (condition) ...`. - -## Matching Arguments that Are Not Copyable ## - -When you do an `EXPECT_CALL(mock_obj, Foo(bar))`, Google Mock saves -away a copy of `bar`. When `Foo()` is called later, Google Mock -compares the argument to `Foo()` with the saved copy of `bar`. This -way, you don't need to worry about `bar` being modified or destroyed -after the `EXPECT_CALL()` is executed. The same is true when you use -matchers like `Eq(bar)`, `Le(bar)`, and so on. - -But what if `bar` cannot be copied (i.e. has no copy constructor)? You -could define your own matcher function and use it with `Truly()`, as -the previous couple of recipes have shown. Or, you may be able to get -away from it if you can guarantee that `bar` won't be changed after -the `EXPECT_CALL()` is executed. Just tell Google Mock that it should -save a reference to `bar`, instead of a copy of it. Here's how: - -```cpp -using ::testing::Eq; -using ::testing::ByRef; -using ::testing::Lt; -... - // Expects that Foo()'s argument == bar. - EXPECT_CALL(mock_obj, Foo(Eq(ByRef(bar)))); - - // Expects that Foo()'s argument < bar. - EXPECT_CALL(mock_obj, Foo(Lt(ByRef(bar)))); -``` - -Remember: if you do this, don't change `bar` after the -`EXPECT_CALL()`, or the result is undefined. - -## Validating a Member of an Object ## - -Often a mock function takes a reference to object as an argument. When -matching the argument, you may not want to compare the entire object -against a fixed object, as that may be over-specification. Instead, -you may need to validate a certain member variable or the result of a -certain getter method of the object. You can do this with `Field()` -and `Property()`. More specifically, - -```cpp -Field(&Foo::bar, m) -``` - -is a matcher that matches a `Foo` object whose `bar` member variable -satisfies matcher `m`. - -```cpp -Property(&Foo::baz, m) -``` - -is a matcher that matches a `Foo` object whose `baz()` method returns -a value that satisfies matcher `m`. - -For example: - -| Expression | Description | -|:-----------------------------|:-----------------------------------| -| `Field(&Foo::number, Ge(3))` | Matches `x` where `x.number >= 3`. | -| `Property(&Foo::name, StartsWith("John "))` | Matches `x` where `x.name()` starts with `"John "`. | - -Note that in `Property(&Foo::baz, ...)`, method `baz()` must take no -argument and be declared as `const`. - -BTW, `Field()` and `Property()` can also match plain pointers to -objects. For instance, - -```cpp -Field(&Foo::number, Ge(3)) -``` - -matches a plain pointer `p` where `p->number >= 3`. If `p` is `NULL`, -the match will always fail regardless of the inner matcher. - -What if you want to validate more than one members at the same time? -Remember that there is `AllOf()`. - -## Validating the Value Pointed to by a Pointer Argument ## - -C++ functions often take pointers as arguments. You can use matchers -like `IsNull()`, `NotNull()`, and other comparison matchers to match a -pointer, but what if you want to make sure the value _pointed to_ by -the pointer, instead of the pointer itself, has a certain property? -Well, you can use the `Pointee(m)` matcher. - -`Pointee(m)` matches a pointer iff `m` matches the value the pointer -points to. For example: - -```cpp -using ::testing::Ge; -using ::testing::Pointee; -... - EXPECT_CALL(foo, Bar(Pointee(Ge(3)))); -``` - -expects `foo.Bar()` to be called with a pointer that points to a value -greater than or equal to 3. - -One nice thing about `Pointee()` is that it treats a `NULL` pointer as -a match failure, so you can write `Pointee(m)` instead of - -```cpp - AllOf(NotNull(), Pointee(m)) -``` - -without worrying that a `NULL` pointer will crash your test. - -Also, did we tell you that `Pointee()` works with both raw pointers -**and** smart pointers (`linked_ptr`, `shared_ptr`, `scoped_ptr`, and -etc)? - -What if you have a pointer to pointer? You guessed it - you can use -nested `Pointee()` to probe deeper inside the value. For example, -`Pointee(Pointee(Lt(3)))` matches a pointer that points to a pointer -that points to a number less than 3 (what a mouthful...). - -## Testing a Certain Property of an Object ## - -Sometimes you want to specify that an object argument has a certain -property, but there is no existing matcher that does this. If you want -good error messages, you should define a matcher. If you want to do it -quick and dirty, you could get away with writing an ordinary function. - -Let's say you have a mock function that takes an object of type `Foo`, -which has an `int bar()` method and an `int baz()` method, and you -want to constrain that the argument's `bar()` value plus its `baz()` -value is a given number. Here's how you can define a matcher to do it: - -```cpp -using ::testing::MatcherInterface; -using ::testing::MatchResultListener; - -class BarPlusBazEqMatcher : public MatcherInterface<const Foo&> { - public: - explicit BarPlusBazEqMatcher(int expected_sum) - : expected_sum_(expected_sum) {} - - virtual bool MatchAndExplain(const Foo& foo, - MatchResultListener* listener) const { - return (foo.bar() + foo.baz()) == expected_sum_; - } - - virtual void DescribeTo(::std::ostream* os) const { - *os << "bar() + baz() equals " << expected_sum_; - } - - virtual void DescribeNegationTo(::std::ostream* os) const { - *os << "bar() + baz() does not equal " << expected_sum_; - } - private: - const int expected_sum_; -}; - -inline Matcher<const Foo&> BarPlusBazEq(int expected_sum) { - return MakeMatcher(new BarPlusBazEqMatcher(expected_sum)); -} - -... - - EXPECT_CALL(..., DoThis(BarPlusBazEq(5)))...; -``` - -## Matching Containers ## - -Sometimes an STL container (e.g. list, vector, map, ...) is passed to -a mock function and you may want to validate it. Since most STL -containers support the `==` operator, you can write -`Eq(expected_container)` or simply `expected_container` to match a -container exactly. - -Sometimes, though, you may want to be more flexible (for example, the -first element must be an exact match, but the second element can be -any positive number, and so on). Also, containers used in tests often -have a small number of elements, and having to define the expected -container out-of-line is a bit of a hassle. - -You can use the `ElementsAre()` or `UnorderedElementsAre()` matcher in -such cases: - -```cpp -using ::testing::_; -using ::testing::ElementsAre; -using ::testing::Gt; -... - - MOCK_METHOD1(Foo, void(const vector<int>& numbers)); -... - - EXPECT_CALL(mock, Foo(ElementsAre(1, Gt(0), _, 5))); -``` - -The above matcher says that the container must have 4 elements, which -must be 1, greater than 0, anything, and 5 respectively. - -If you instead write: - -```cpp -using ::testing::_; -using ::testing::Gt; -using ::testing::UnorderedElementsAre; -... - - MOCK_METHOD1(Foo, void(const vector<int>& numbers)); -... - - EXPECT_CALL(mock, Foo(UnorderedElementsAre(1, Gt(0), _, 5))); -``` - -It means that the container must have 4 elements, which under some -permutation must be 1, greater than 0, anything, and 5 respectively. - -`ElementsAre()` and `UnorderedElementsAre()` are overloaded to take 0 -to 10 arguments. If more are needed, you can place them in a C-style -array and use `ElementsAreArray()` or `UnorderedElementsAreArray()` -instead: - -```cpp -using ::testing::ElementsAreArray; -... - - // ElementsAreArray accepts an array of element values. - const int expected_vector1[] = { 1, 5, 2, 4, ... }; - EXPECT_CALL(mock, Foo(ElementsAreArray(expected_vector1))); - - // Or, an array of element matchers. - Matcher<int> expected_vector2 = { 1, Gt(2), _, 3, ... }; - EXPECT_CALL(mock, Foo(ElementsAreArray(expected_vector2))); -``` - -In case the array needs to be dynamically created (and therefore the -array size cannot be inferred by the compiler), you can give -`ElementsAreArray()` an additional argument to specify the array size: - -```cpp -using ::testing::ElementsAreArray; -... - int* const expected_vector3 = new int[count]; - ... fill expected_vector3 with values ... - EXPECT_CALL(mock, Foo(ElementsAreArray(expected_vector3, count))); -``` - -**Tips:** - - * `ElementsAre*()` can be used to match _any_ container that implements the STL iterator pattern (i.e. it has a `const_iterator` type and supports `begin()/end()`), not just the ones defined in STL. It will even work with container types yet to be written - as long as they follows the above pattern. - * You can use nested `ElementsAre*()` to match nested (multi-dimensional) containers. - * If the container is passed by pointer instead of by reference, just write `Pointee(ElementsAre*(...))`. - * The order of elements _matters_ for `ElementsAre*()`. Therefore don't use it with containers whose element order is undefined (e.g. `hash_map`). - -## Sharing Matchers ## - -Under the hood, a Google Mock matcher object consists of a pointer to -a ref-counted implementation object. Copying matchers is allowed and -very efficient, as only the pointer is copied. When the last matcher -that references the implementation object dies, the implementation -object will be deleted. - -Therefore, if you have some complex matcher that you want to use again -and again, there is no need to build it every time. Just assign it to a -matcher variable and use that variable repeatedly! For example, - -```cpp - Matcher<int> in_range = AllOf(Gt(5), Le(10)); - ... use in_range as a matcher in multiple EXPECT_CALLs ... -``` - -# Setting Expectations # - -## Knowing When to Expect ## - -`ON_CALL` is likely the single most under-utilized construct in Google Mock. - -There are basically two constructs for defining the behavior of a mock object: `ON_CALL` and `EXPECT_CALL`. The difference? `ON_CALL` defines what happens when a mock method is called, but _doesn't imply any expectation on the method being called._ `EXPECT_CALL` not only defines the behavior, but also sets an expectation that _the method will be called with the given arguments, for the given number of times_ (and _in the given order_ when you specify the order too). - -Since `EXPECT_CALL` does more, isn't it better than `ON_CALL`? Not really. Every `EXPECT_CALL` adds a constraint on the behavior of the code under test. Having more constraints than necessary is _baaad_ - even worse than not having enough constraints. - -This may be counter-intuitive. How could tests that verify more be worse than tests that verify less? Isn't verification the whole point of tests? - -The answer, lies in _what_ a test should verify. **A good test verifies the contract of the code.** If a test over-specifies, it doesn't leave enough freedom to the implementation. As a result, changing the implementation without breaking the contract (e.g. refactoring and optimization), which should be perfectly fine to do, can break such tests. Then you have to spend time fixing them, only to see them broken again the next time the implementation is changed. - -Keep in mind that one doesn't have to verify more than one property in one test. In fact, **it's a good style to verify only one thing in one test.** If you do that, a bug will likely break only one or two tests instead of dozens (which case would you rather debug?). If you are also in the habit of giving tests descriptive names that tell what they verify, you can often easily guess what's wrong just from the test log itself. - -So use `ON_CALL` by default, and only use `EXPECT_CALL` when you actually intend to verify that the call is made. For example, you may have a bunch of `ON_CALL`s in your test fixture to set the common mock behavior shared by all tests in the same group, and write (scarcely) different `EXPECT_CALL`s in different `TEST_F`s to verify different aspects of the code's behavior. Compared with the style where each `TEST` has many `EXPECT_CALL`s, this leads to tests that are more resilient to implementational changes (and thus less likely to require maintenance) and makes the intent of the tests more obvious (so they are easier to maintain when you do need to maintain them). - -If you are bothered by the "Uninteresting mock function call" message printed when a mock method without an `EXPECT_CALL` is called, you may use a `NiceMock` instead to suppress all such messages for the mock object, or suppress the message for specific methods by adding `EXPECT_CALL(...).Times(AnyNumber())`. DO NOT suppress it by blindly adding an `EXPECT_CALL(...)`, or you'll have a test that's a pain to maintain. - -## Ignoring Uninteresting Calls ## - -If you are not interested in how a mock method is called, just don't -say anything about it. In this case, if the method is ever called, -Google Mock will perform its default action to allow the test program -to continue. If you are not happy with the default action taken by -Google Mock, you can override it using `DefaultValue<T>::Set()` -(described later in this document) or `ON_CALL()`. - -Please note that once you expressed interest in a particular mock -method (via `EXPECT_CALL()`), all invocations to it must match some -expectation. If this function is called but the arguments don't match -any `EXPECT_CALL()` statement, it will be an error. - -## Disallowing Unexpected Calls ## - -If a mock method shouldn't be called at all, explicitly say so: - -```cpp -using ::testing::_; -... - EXPECT_CALL(foo, Bar(_)) - .Times(0); -``` - -If some calls to the method are allowed, but the rest are not, just -list all the expected calls: - -```cpp -using ::testing::AnyNumber; -using ::testing::Gt; -... - EXPECT_CALL(foo, Bar(5)); - EXPECT_CALL(foo, Bar(Gt(10))) - .Times(AnyNumber()); -``` - -A call to `foo.Bar()` that doesn't match any of the `EXPECT_CALL()` -statements will be an error. - -## Understanding Uninteresting vs Unexpected Calls ## - -_Uninteresting_ calls and _unexpected_ calls are different concepts in Google Mock. _Very_ different. - -A call `x.Y(...)` is **uninteresting** if there's _not even a single_ `EXPECT_CALL(x, Y(...))` set. In other words, the test isn't interested in the `x.Y()` method at all, as evident in that the test doesn't care to say anything about it. - -A call `x.Y(...)` is **unexpected** if there are some `EXPECT_CALL(x, Y(...))s` set, but none of them matches the call. Put another way, the test is interested in the `x.Y()` method (therefore it _explicitly_ sets some `EXPECT_CALL` to verify how it's called); however, the verification fails as the test doesn't expect this particular call to happen. - -**An unexpected call is always an error,** as the code under test doesn't behave the way the test expects it to behave. - -**By default, an uninteresting call is not an error,** as it violates no constraint specified by the test. (Google Mock's philosophy is that saying nothing means there is no constraint.) However, it leads to a warning, as it _might_ indicate a problem (e.g. the test author might have forgotten to specify a constraint). - -In Google Mock, `NiceMock` and `StrictMock` can be used to make a mock class "nice" or "strict". How does this affect uninteresting calls and unexpected calls? - -A **nice mock** suppresses uninteresting call warnings. It is less chatty than the default mock, but otherwise is the same. If a test fails with a default mock, it will also fail using a nice mock instead. And vice versa. Don't expect making a mock nice to change the test's result. - -A **strict mock** turns uninteresting call warnings into errors. So making a mock strict may change the test's result. - -Let's look at an example: - -```cpp -TEST(...) { - NiceMock<MockDomainRegistry> mock_registry; - EXPECT_CALL(mock_registry, GetDomainOwner("google.com")) - .WillRepeatedly(Return("Larry Page")); - - // Use mock_registry in code under test. - ... &mock_registry ... -} -``` - -The sole `EXPECT_CALL` here says that all calls to `GetDomainOwner()` must have `"google.com"` as the argument. If `GetDomainOwner("yahoo.com")` is called, it will be an unexpected call, and thus an error. Having a nice mock doesn't change the severity of an unexpected call. - -So how do we tell Google Mock that `GetDomainOwner()` can be called with some other arguments as well? The standard technique is to add a "catch all" `EXPECT_CALL`: - -```cpp - EXPECT_CALL(mock_registry, GetDomainOwner(_)) - .Times(AnyNumber()); // catches all other calls to this method. - EXPECT_CALL(mock_registry, GetDomainOwner("google.com")) - .WillRepeatedly(Return("Larry Page")); -``` - -Remember that `_` is the wildcard matcher that matches anything. With this, if `GetDomainOwner("google.com")` is called, it will do what the second `EXPECT_CALL` says; if it is called with a different argument, it will do what the first `EXPECT_CALL` says. - -Note that the order of the two `EXPECT_CALLs` is important, as a newer `EXPECT_CALL` takes precedence over an older one. - -For more on uninteresting calls, nice mocks, and strict mocks, read ["The Nice, the Strict, and the Naggy"](#the-nice-the-strict-and-the-naggy). - -## Expecting Ordered Calls ## - -Although an `EXPECT_CALL()` statement defined earlier takes precedence -when Google Mock tries to match a function call with an expectation, -by default calls don't have to happen in the order `EXPECT_CALL()` -statements are written. For example, if the arguments match the -matchers in the third `EXPECT_CALL()`, but not those in the first two, -then the third expectation will be used. - -If you would rather have all calls occur in the order of the -expectations, put the `EXPECT_CALL()` statements in a block where you -define a variable of type `InSequence`: - -```cpp - using ::testing::_; - using ::testing::InSequence; - - { - InSequence s; - - EXPECT_CALL(foo, DoThis(5)); - EXPECT_CALL(bar, DoThat(_)) - .Times(2); - EXPECT_CALL(foo, DoThis(6)); - } -``` - -In this example, we expect a call to `foo.DoThis(5)`, followed by two -calls to `bar.DoThat()` where the argument can be anything, which are -in turn followed by a call to `foo.DoThis(6)`. If a call occurred -out-of-order, Google Mock will report an error. - -## Expecting Partially Ordered Calls ## - -Sometimes requiring everything to occur in a predetermined order can -lead to brittle tests. For example, we may care about `A` occurring -before both `B` and `C`, but aren't interested in the relative order -of `B` and `C`. In this case, the test should reflect our real intent, -instead of being overly constraining. - -Google Mock allows you to impose an arbitrary DAG (directed acyclic -graph) on the calls. One way to express the DAG is to use the -[After](CheatSheet.md#the-after-clause) clause of `EXPECT_CALL`. - -Another way is via the `InSequence()` clause (not the same as the -`InSequence` class), which we borrowed from jMock 2. It's less -flexible than `After()`, but more convenient when you have long chains -of sequential calls, as it doesn't require you to come up with -different names for the expectations in the chains. Here's how it -works: - -If we view `EXPECT_CALL()` statements as nodes in a graph, and add an -edge from node A to node B wherever A must occur before B, we can get -a DAG. We use the term "sequence" to mean a directed path in this -DAG. Now, if we decompose the DAG into sequences, we just need to know -which sequences each `EXPECT_CALL()` belongs to in order to be able to -reconstruct the original DAG. - -So, to specify the partial order on the expectations we need to do two -things: first to define some `Sequence` objects, and then for each -`EXPECT_CALL()` say which `Sequence` objects it is part -of. Expectations in the same sequence must occur in the order they are -written. For example, - -```cpp - using ::testing::Sequence; - - Sequence s1, s2; - - EXPECT_CALL(foo, A()) - .InSequence(s1, s2); - EXPECT_CALL(bar, B()) - .InSequence(s1); - EXPECT_CALL(bar, C()) - .InSequence(s2); - EXPECT_CALL(foo, D()) - .InSequence(s2); -``` - -specifies the following DAG (where `s1` is `A -> B`, and `s2` is `A -> -C -> D`): - -``` - +---> B - | - A ---| - | - +---> C ---> D -``` - -This means that A must occur before B and C, and C must occur before -D. There's no restriction about the order other than these. - -## Controlling When an Expectation Retires ## - -When a mock method is called, Google Mock only consider expectations -that are still active. An expectation is active when created, and -becomes inactive (aka _retires_) when a call that has to occur later -has occurred. For example, in - -```cpp - using ::testing::_; - using ::testing::Sequence; - - Sequence s1, s2; - - EXPECT_CALL(log, Log(WARNING, _, "File too large.")) // #1 - .Times(AnyNumber()) - .InSequence(s1, s2); - EXPECT_CALL(log, Log(WARNING, _, "Data set is empty.")) // #2 - .InSequence(s1); - EXPECT_CALL(log, Log(WARNING, _, "User not found.")) // #3 - .InSequence(s2); -``` - -as soon as either #2 or #3 is matched, #1 will retire. If a warning -`"File too large."` is logged after this, it will be an error. - -Note that an expectation doesn't retire automatically when it's -saturated. For example, - -```cpp -using ::testing::_; -... - EXPECT_CALL(log, Log(WARNING, _, _)); // #1 - EXPECT_CALL(log, Log(WARNING, _, "File too large.")); // #2 -``` - -says that there will be exactly one warning with the message `"File -too large."`. If the second warning contains this message too, #2 will -match again and result in an upper-bound-violated error. - -If this is not what you want, you can ask an expectation to retire as -soon as it becomes saturated: - -```cpp -using ::testing::_; -... - EXPECT_CALL(log, Log(WARNING, _, _)); // #1 - EXPECT_CALL(log, Log(WARNING, _, "File too large.")) // #2 - .RetiresOnSaturation(); -``` - -Here #2 can be used only once, so if you have two warnings with the -message `"File too large."`, the first will match #2 and the second -will match #1 - there will be no error. - -# Using Actions # - -## Returning References from Mock Methods ## - -If a mock function's return type is a reference, you need to use -`ReturnRef()` instead of `Return()` to return a result: - -```cpp -using ::testing::ReturnRef; - -class MockFoo : public Foo { - public: - MOCK_METHOD0(GetBar, Bar&()); -}; -... - - MockFoo foo; - Bar bar; - EXPECT_CALL(foo, GetBar()) - .WillOnce(ReturnRef(bar)); -``` - -## Returning Live Values from Mock Methods ## - -The `Return(x)` action saves a copy of `x` when the action is -_created_, and always returns the same value whenever it's -executed. Sometimes you may want to instead return the _live_ value of -`x` (i.e. its value at the time when the action is _executed_.). - -If the mock function's return type is a reference, you can do it using -`ReturnRef(x)`, as shown in the previous recipe ("Returning References -from Mock Methods"). However, Google Mock doesn't let you use -`ReturnRef()` in a mock function whose return type is not a reference, -as doing that usually indicates a user error. So, what shall you do? - -You may be tempted to try `ByRef()`: - -```cpp -using testing::ByRef; -using testing::Return; - -class MockFoo : public Foo { - public: - MOCK_METHOD0(GetValue, int()); -}; -... - int x = 0; - MockFoo foo; - EXPECT_CALL(foo, GetValue()) - .WillRepeatedly(Return(ByRef(x))); - x = 42; - EXPECT_EQ(42, foo.GetValue()); -``` - -Unfortunately, it doesn't work here. The above code will fail with error: - -``` -Value of: foo.GetValue() - Actual: 0 -Expected: 42 -``` - -The reason is that `Return(value)` converts `value` to the actual -return type of the mock function at the time when the action is -_created_, not when it is _executed_. (This behavior was chosen for -the action to be safe when `value` is a proxy object that references -some temporary objects.) As a result, `ByRef(x)` is converted to an -`int` value (instead of a `const int&`) when the expectation is set, -and `Return(ByRef(x))` will always return 0. - -`ReturnPointee(pointer)` was provided to solve this problem -specifically. It returns the value pointed to by `pointer` at the time -the action is _executed_: - -```cpp -using testing::ReturnPointee; -... - int x = 0; - MockFoo foo; - EXPECT_CALL(foo, GetValue()) - .WillRepeatedly(ReturnPointee(&x)); // Note the & here. - x = 42; - EXPECT_EQ(42, foo.GetValue()); // This will succeed now. -``` - -## Combining Actions ## - -Want to do more than one thing when a function is called? That's -fine. `DoAll()` allow you to do sequence of actions every time. Only -the return value of the last action in the sequence will be used. - -```cpp -using ::testing::DoAll; - -class MockFoo : public Foo { - public: - MOCK_METHOD1(Bar, bool(int n)); -}; -... - - EXPECT_CALL(foo, Bar(_)) - .WillOnce(DoAll(action_1, - action_2, - ... - action_n)); -``` - -## Mocking Side Effects ## - -Sometimes a method exhibits its effect not via returning a value but -via side effects. For example, it may change some global state or -modify an output argument. To mock side effects, in general you can -define your own action by implementing `::testing::ActionInterface`. - -If all you need to do is to change an output argument, the built-in -`SetArgPointee()` action is convenient: - -```cpp -using ::testing::SetArgPointee; - -class MockMutator : public Mutator { - public: - MOCK_METHOD2(Mutate, void(bool mutate, int* value)); - ... -}; -... - - MockMutator mutator; - EXPECT_CALL(mutator, Mutate(true, _)) - .WillOnce(SetArgPointee<1>(5)); -``` - -In this example, when `mutator.Mutate()` is called, we will assign 5 -to the `int` variable pointed to by argument #1 -(0-based). - -`SetArgPointee()` conveniently makes an internal copy of the -value you pass to it, removing the need to keep the value in scope and -alive. The implication however is that the value must have a copy -constructor and assignment operator. - -If the mock method also needs to return a value as well, you can chain -`SetArgPointee()` with `Return()` using `DoAll()`: - -```cpp -using ::testing::_; -using ::testing::Return; -using ::testing::SetArgPointee; - -class MockMutator : public Mutator { - public: - ... - MOCK_METHOD1(MutateInt, bool(int* value)); -}; -... - - MockMutator mutator; - EXPECT_CALL(mutator, MutateInt(_)) - .WillOnce(DoAll(SetArgPointee<0>(5), - Return(true))); -``` - -If the output argument is an array, use the -`SetArrayArgument<N>(first, last)` action instead. It copies the -elements in source range `[first, last)` to the array pointed to by -the `N`-th (0-based) argument: - -```cpp -using ::testing::NotNull; -using ::testing::SetArrayArgument; - -class MockArrayMutator : public ArrayMutator { - public: - MOCK_METHOD2(Mutate, void(int* values, int num_values)); - ... -}; -... - - MockArrayMutator mutator; - int values[5] = { 1, 2, 3, 4, 5 }; - EXPECT_CALL(mutator, Mutate(NotNull(), 5)) - .WillOnce(SetArrayArgument<0>(values, values + 5)); -``` - -This also works when the argument is an output iterator: - -```cpp -using ::testing::_; -using ::testing::SetArrayArgument; - -class MockRolodex : public Rolodex { - public: - MOCK_METHOD1(GetNames, void(std::back_insert_iterator<vector<string> >)); - ... -}; -... - - MockRolodex rolodex; - vector<string> names; - names.push_back("George"); - names.push_back("John"); - names.push_back("Thomas"); - EXPECT_CALL(rolodex, GetNames(_)) - .WillOnce(SetArrayArgument<0>(names.begin(), names.end())); -``` - -## Changing a Mock Object's Behavior Based on the State ## - -If you expect a call to change the behavior of a mock object, you can use `::testing::InSequence` to specify different behaviors before and after the call: - -```cpp -using ::testing::InSequence; -using ::testing::Return; - -... - { - InSequence seq; - EXPECT_CALL(my_mock, IsDirty()) - .WillRepeatedly(Return(true)); - EXPECT_CALL(my_mock, Flush()); - EXPECT_CALL(my_mock, IsDirty()) - .WillRepeatedly(Return(false)); - } - my_mock.FlushIfDirty(); -``` - -This makes `my_mock.IsDirty()` return `true` before `my_mock.Flush()` is called and return `false` afterwards. - -If the behavior change is more complex, you can store the effects in a variable and make a mock method get its return value from that variable: - -```cpp -using ::testing::_; -using ::testing::SaveArg; -using ::testing::Return; - -ACTION_P(ReturnPointee, p) { return *p; } -... - int previous_value = 0; - EXPECT_CALL(my_mock, GetPrevValue()) - .WillRepeatedly(ReturnPointee(&previous_value)); - EXPECT_CALL(my_mock, UpdateValue(_)) - .WillRepeatedly(SaveArg<0>(&previous_value)); - my_mock.DoSomethingToUpdateValue(); -``` - -Here `my_mock.GetPrevValue()` will always return the argument of the last `UpdateValue()` call. - -## Setting the Default Value for a Return Type ## - -If a mock method's return type is a built-in C++ type or pointer, by -default it will return 0 when invoked. Also, in C++ 11 and above, a mock -method whose return type has a default constructor will return a default-constructed -value by default. You only need to specify an -action if this default value doesn't work for you. - -Sometimes, you may want to change this default value, or you may want -to specify a default value for types Google Mock doesn't know -about. You can do this using the `::testing::DefaultValue` class -template: - -```cpp -class MockFoo : public Foo { - public: - MOCK_METHOD0(CalculateBar, Bar()); -}; -... - - Bar default_bar; - // Sets the default return value for type Bar. - DefaultValue<Bar>::Set(default_bar); - - MockFoo foo; - - // We don't need to specify an action here, as the default - // return value works for us. - EXPECT_CALL(foo, CalculateBar()); - - foo.CalculateBar(); // This should return default_bar. - - // Unsets the default return value. - DefaultValue<Bar>::Clear(); -``` - -Please note that changing the default value for a type can make you -tests hard to understand. We recommend you to use this feature -judiciously. For example, you may want to make sure the `Set()` and -`Clear()` calls are right next to the code that uses your mock. - -## Setting the Default Actions for a Mock Method ## - -You've learned how to change the default value of a given -type. However, this may be too coarse for your purpose: perhaps you -have two mock methods with the same return type and you want them to -have different behaviors. The `ON_CALL()` macro allows you to -customize your mock's behavior at the method level: - -```cpp -using ::testing::_; -using ::testing::AnyNumber; -using ::testing::Gt; -using ::testing::Return; -... - ON_CALL(foo, Sign(_)) - .WillByDefault(Return(-1)); - ON_CALL(foo, Sign(0)) - .WillByDefault(Return(0)); - ON_CALL(foo, Sign(Gt(0))) - .WillByDefault(Return(1)); - - EXPECT_CALL(foo, Sign(_)) - .Times(AnyNumber()); - - foo.Sign(5); // This should return 1. - foo.Sign(-9); // This should return -1. - foo.Sign(0); // This should return 0. -``` - -As you may have guessed, when there are more than one `ON_CALL()` -statements, the news order take precedence over the older ones. In -other words, the **last** one that matches the function arguments will -be used. This matching order allows you to set up the common behavior -in a mock object's constructor or the test fixture's set-up phase and -specialize the mock's behavior later. - -## Using Functions/Methods/Functors as Actions ## - -If the built-in actions don't suit you, you can easily use an existing -function, method, or functor as an action: - -```cpp -using ::testing::_; -using ::testing::Invoke; - -class MockFoo : public Foo { - public: - MOCK_METHOD2(Sum, int(int x, int y)); - MOCK_METHOD1(ComplexJob, bool(int x)); -}; - -int CalculateSum(int x, int y) { return x + y; } - -class Helper { - public: - bool ComplexJob(int x); -}; -... - - MockFoo foo; - Helper helper; - EXPECT_CALL(foo, Sum(_, _)) - .WillOnce(Invoke(CalculateSum)); - EXPECT_CALL(foo, ComplexJob(_)) - .WillOnce(Invoke(&helper, &Helper::ComplexJob)); - - foo.Sum(5, 6); // Invokes CalculateSum(5, 6). - foo.ComplexJob(10); // Invokes helper.ComplexJob(10); -``` - -The only requirement is that the type of the function, etc must be -_compatible_ with the signature of the mock function, meaning that the -latter's arguments can be implicitly converted to the corresponding -arguments of the former, and the former's return type can be -implicitly converted to that of the latter. So, you can invoke -something whose type is _not_ exactly the same as the mock function, -as long as it's safe to do so - nice, huh? - -## Invoking a Function/Method/Functor Without Arguments ## - -`Invoke()` is very useful for doing actions that are more complex. It -passes the mock function's arguments to the function or functor being -invoked such that the callee has the full context of the call to work -with. If the invoked function is not interested in some or all of the -arguments, it can simply ignore them. - -Yet, a common pattern is that a test author wants to invoke a function -without the arguments of the mock function. `Invoke()` allows her to -do that using a wrapper function that throws away the arguments before -invoking an underlining nullary function. Needless to say, this can be -tedious and obscures the intent of the test. - -`InvokeWithoutArgs()` solves this problem. It's like `Invoke()` except -that it doesn't pass the mock function's arguments to the -callee. Here's an example: - -```cpp -using ::testing::_; -using ::testing::InvokeWithoutArgs; - -class MockFoo : public Foo { - public: - MOCK_METHOD1(ComplexJob, bool(int n)); -}; - -bool Job1() { ... } -... - - MockFoo foo; - EXPECT_CALL(foo, ComplexJob(_)) - .WillOnce(InvokeWithoutArgs(Job1)); - - foo.ComplexJob(10); // Invokes Job1(). -``` - -## Invoking an Argument of the Mock Function ## - -Sometimes a mock function will receive a function pointer or a functor -(in other words, a "callable") as an argument, e.g. - -```cpp -class MockFoo : public Foo { - public: - MOCK_METHOD2(DoThis, bool(int n, bool (*fp)(int))); -}; -``` - -and you may want to invoke this callable argument: - -```cpp -using ::testing::_; -... - MockFoo foo; - EXPECT_CALL(foo, DoThis(_, _)) - .WillOnce(...); - // Will execute (*fp)(5), where fp is the - // second argument DoThis() receives. -``` - -Arghh, you need to refer to a mock function argument but your version -of C++ has no lambdas, so you have to define your own action. :-( -Or do you really? - -Well, Google Mock has an action to solve _exactly_ this problem: - -```cpp - InvokeArgument<N>(arg_1, arg_2, ..., arg_m) -``` - -will invoke the `N`-th (0-based) argument the mock function receives, -with `arg_1`, `arg_2`, ..., and `arg_m`. No matter if the argument is -a function pointer or a functor, Google Mock handles them both. - -With that, you could write: - -```cpp -using ::testing::_; -using ::testing::InvokeArgument; -... - EXPECT_CALL(foo, DoThis(_, _)) - .WillOnce(InvokeArgument<1>(5)); - // Will execute (*fp)(5), where fp is the - // second argument DoThis() receives. -``` - -What if the callable takes an argument by reference? No problem - just -wrap it inside `ByRef()`: - -```cpp -... - MOCK_METHOD1(Bar, bool(bool (*fp)(int, const Helper&))); -... -using ::testing::_; -using ::testing::ByRef; -using ::testing::InvokeArgument; -... - - MockFoo foo; - Helper helper; - ... - EXPECT_CALL(foo, Bar(_)) - .WillOnce(InvokeArgument<0>(5, ByRef(helper))); - // ByRef(helper) guarantees that a reference to helper, not a copy of it, - // will be passed to the callable. -``` - -What if the callable takes an argument by reference and we do **not** -wrap the argument in `ByRef()`? Then `InvokeArgument()` will _make a -copy_ of the argument, and pass a _reference to the copy_, instead of -a reference to the original value, to the callable. This is especially -handy when the argument is a temporary value: - -```cpp -... - MOCK_METHOD1(DoThat, bool(bool (*f)(const double& x, const string& s))); -... -using ::testing::_; -using ::testing::InvokeArgument; -... - - MockFoo foo; - ... - EXPECT_CALL(foo, DoThat(_)) - .WillOnce(InvokeArgument<0>(5.0, string("Hi"))); - // Will execute (*f)(5.0, string("Hi")), where f is the function pointer - // DoThat() receives. Note that the values 5.0 and string("Hi") are - // temporary and dead once the EXPECT_CALL() statement finishes. Yet - // it's fine to perform this action later, since a copy of the values - // are kept inside the InvokeArgument action. -``` - -## Ignoring an Action's Result ## - -Sometimes you have an action that returns _something_, but you need an -action that returns `void` (perhaps you want to use it in a mock -function that returns `void`, or perhaps it needs to be used in -`DoAll()` and it's not the last in the list). `IgnoreResult()` lets -you do that. For example: - -```cpp -using ::testing::_; -using ::testing::Invoke; -using ::testing::Return; - -int Process(const MyData& data); -string DoSomething(); - -class MockFoo : public Foo { - public: - MOCK_METHOD1(Abc, void(const MyData& data)); - MOCK_METHOD0(Xyz, bool()); -}; -... - - MockFoo foo; - EXPECT_CALL(foo, Abc(_)) - // .WillOnce(Invoke(Process)); - // The above line won't compile as Process() returns int but Abc() needs - // to return void. - .WillOnce(IgnoreResult(Invoke(Process))); - - EXPECT_CALL(foo, Xyz()) - .WillOnce(DoAll(IgnoreResult(Invoke(DoSomething)), - // Ignores the string DoSomething() returns. - Return(true))); -``` - -Note that you **cannot** use `IgnoreResult()` on an action that already -returns `void`. Doing so will lead to ugly compiler errors. - -## Selecting an Action's Arguments ## - -Say you have a mock function `Foo()` that takes seven arguments, and -you have a custom action that you want to invoke when `Foo()` is -called. Trouble is, the custom action only wants three arguments: - -```cpp -using ::testing::_; -using ::testing::Invoke; -... - MOCK_METHOD7(Foo, bool(bool visible, const string& name, int x, int y, - const map<pair<int, int>, double>& weight, - double min_weight, double max_wight)); -... - -bool IsVisibleInQuadrant1(bool visible, int x, int y) { - return visible && x >= 0 && y >= 0; -} -... - - EXPECT_CALL(mock, Foo(_, _, _, _, _, _, _)) - .WillOnce(Invoke(IsVisibleInQuadrant1)); // Uh, won't compile. :-( -``` - -To please the compiler God, you can to define an "adaptor" that has -the same signature as `Foo()` and calls the custom action with the -right arguments: - -```cpp -using ::testing::_; -using ::testing::Invoke; - -bool MyIsVisibleInQuadrant1(bool visible, const string& name, int x, int y, - const map<pair<int, int>, double>& weight, - double min_weight, double max_wight) { - return IsVisibleInQuadrant1(visible, x, y); -} -... - - EXPECT_CALL(mock, Foo(_, _, _, _, _, _, _)) - .WillOnce(Invoke(MyIsVisibleInQuadrant1)); // Now it works. -``` - -But isn't this awkward? - -Google Mock provides a generic _action adaptor_, so you can spend your -time minding more important business than writing your own -adaptors. Here's the syntax: - -```cpp - WithArgs<N1, N2, ..., Nk>(action) -``` - -creates an action that passes the arguments of the mock function at -the given indices (0-based) to the inner `action` and performs -it. Using `WithArgs`, our original example can be written as: - -```cpp -using ::testing::_; -using ::testing::Invoke; -using ::testing::WithArgs; -... - EXPECT_CALL(mock, Foo(_, _, _, _, _, _, _)) - .WillOnce(WithArgs<0, 2, 3>(Invoke(IsVisibleInQuadrant1))); - // No need to define your own adaptor. -``` - -For better readability, Google Mock also gives you: - - * `WithoutArgs(action)` when the inner `action` takes _no_ argument, and - * `WithArg<N>(action)` (no `s` after `Arg`) when the inner `action` takes _one_ argument. - -As you may have realized, `InvokeWithoutArgs(...)` is just syntactic -sugar for `WithoutArgs(Invoke(...))`. - -Here are more tips: - - * The inner action used in `WithArgs` and friends does not have to be `Invoke()` -- it can be anything. - * You can repeat an argument in the argument list if necessary, e.g. `WithArgs<2, 3, 3, 5>(...)`. - * You can change the order of the arguments, e.g. `WithArgs<3, 2, 1>(...)`. - * The types of the selected arguments do _not_ have to match the signature of the inner action exactly. It works as long as they can be implicitly converted to the corresponding arguments of the inner action. For example, if the 4-th argument of the mock function is an `int` and `my_action` takes a `double`, `WithArg<4>(my_action)` will work. - -## Ignoring Arguments in Action Functions ## - -The selecting-an-action's-arguments recipe showed us one way to make a -mock function and an action with incompatible argument lists fit -together. The downside is that wrapping the action in -`WithArgs<...>()` can get tedious for people writing the tests. - -If you are defining a function, method, or functor to be used with -`Invoke*()`, and you are not interested in some of its arguments, an -alternative to `WithArgs` is to declare the uninteresting arguments as -`Unused`. This makes the definition less cluttered and less fragile in -case the types of the uninteresting arguments change. It could also -increase the chance the action function can be reused. For example, -given - -```cpp - MOCK_METHOD3(Foo, double(const string& label, double x, double y)); - MOCK_METHOD3(Bar, double(int index, double x, double y)); -``` - -instead of - -```cpp -using ::testing::_; -using ::testing::Invoke; - -double DistanceToOriginWithLabel(const string& label, double x, double y) { - return sqrt(x*x + y*y); -} - -double DistanceToOriginWithIndex(int index, double x, double y) { - return sqrt(x*x + y*y); -} -... - - EXEPCT_CALL(mock, Foo("abc", _, _)) - .WillOnce(Invoke(DistanceToOriginWithLabel)); - EXEPCT_CALL(mock, Bar(5, _, _)) - .WillOnce(Invoke(DistanceToOriginWithIndex)); -``` - -you could write - -```cpp -using ::testing::_; -using ::testing::Invoke; -using ::testing::Unused; - -double DistanceToOrigin(Unused, double x, double y) { - return sqrt(x*x + y*y); -} -... - - EXEPCT_CALL(mock, Foo("abc", _, _)) - .WillOnce(Invoke(DistanceToOrigin)); - EXEPCT_CALL(mock, Bar(5, _, _)) - .WillOnce(Invoke(DistanceToOrigin)); -``` - -## Sharing Actions ## - -Just like matchers, a Google Mock action object consists of a pointer -to a ref-counted implementation object. Therefore copying actions is -also allowed and very efficient. When the last action that references -the implementation object dies, the implementation object will be -deleted. - -If you have some complex action that you want to use again and again, -you may not have to build it from scratch every time. If the action -doesn't have an internal state (i.e. if it always does the same thing -no matter how many times it has been called), you can assign it to an -action variable and use that variable repeatedly. For example: - -```cpp - Action<bool(int*)> set_flag = DoAll(SetArgPointee<0>(5), - Return(true)); - ... use set_flag in .WillOnce() and .WillRepeatedly() ... -``` - -However, if the action has its own state, you may be surprised if you -share the action object. Suppose you have an action factory -`IncrementCounter(init)` which creates an action that increments and -returns a counter whose initial value is `init`, using two actions -created from the same expression and using a shared action will -exihibit different behaviors. Example: - -```cpp - EXPECT_CALL(foo, DoThis()) - .WillRepeatedly(IncrementCounter(0)); - EXPECT_CALL(foo, DoThat()) - .WillRepeatedly(IncrementCounter(0)); - foo.DoThis(); // Returns 1. - foo.DoThis(); // Returns 2. - foo.DoThat(); // Returns 1 - Blah() uses a different - // counter than Bar()'s. -``` - -versus - -```cpp - Action<int()> increment = IncrementCounter(0); - - EXPECT_CALL(foo, DoThis()) - .WillRepeatedly(increment); - EXPECT_CALL(foo, DoThat()) - .WillRepeatedly(increment); - foo.DoThis(); // Returns 1. - foo.DoThis(); // Returns 2. - foo.DoThat(); // Returns 3 - the counter is shared. -``` - -# Misc Recipes on Using Google Mock # - -## Mocking Methods That Use Move-Only Types ## - -C++11 introduced *move-only types*. A move-only-typed value can be moved from -one object to another, but cannot be copied. `std::unique_ptr<T>` is -probably the most commonly used move-only type. - -Mocking a method that takes and/or returns move-only types presents some -challenges, but nothing insurmountable. This recipe shows you how you can do it. -Note that the support for move-only method arguments was only introduced to -gMock in April 2017; in older code, you may find more complex -[workarounds](#legacy-workarounds-for-move-only-types) for lack of this feature. - -Let’s say we are working on a fictional project that lets one post and share -snippets called “buzzes”. Your code uses these types: - -```cpp -enum class AccessLevel { kInternal, kPublic }; - -class Buzz { - public: - explicit Buzz(AccessLevel access) { ... } - ... -}; - -class Buzzer { - public: - virtual ~Buzzer() {} - virtual std::unique_ptr<Buzz> MakeBuzz(StringPiece text) = 0; - virtual bool ShareBuzz(std::unique_ptr<Buzz> buzz, int64_t timestamp) = 0; - ... -}; -``` - -A `Buzz` object represents a snippet being posted. A class that implements the -`Buzzer` interface is capable of creating and sharing `Buzz`es. Methods in -`Buzzer` may return a `unique_ptr<Buzz>` or take a -`unique_ptr<Buzz>`. Now we need to mock `Buzzer` in our tests. - -To mock a method that accepts or returns move-only types, you just use the -familiar `MOCK_METHOD` syntax as usual: - -```cpp -class MockBuzzer : public Buzzer { - public: - MOCK_METHOD1(MakeBuzz, std::unique_ptr<Buzz>(StringPiece text)); - MOCK_METHOD2(ShareBuzz, bool(std::unique_ptr<Buzz> buzz, int64_t timestamp)); -}; -``` - -Now that we have the mock class defined, we can use it in tests. In the -following code examples, we assume that we have defined a `MockBuzzer` object -named `mock_buzzer_`: - -```cpp - MockBuzzer mock_buzzer_; -``` - -First let’s see how we can set expectations on the `MakeBuzz()` method, which -returns a `unique_ptr<Buzz>`. - -As usual, if you set an expectation without an action (i.e. the `.WillOnce()` or -`.WillRepeated()` clause), when that expectation fires, the default action for -that method will be taken. Since `unique_ptr<>` has a default constructor -that returns a null `unique_ptr`, that’s what you’ll get if you don’t specify an -action: - -```cpp - // Use the default action. - EXPECT_CALL(mock_buzzer_, MakeBuzz("hello")); - - // Triggers the previous EXPECT_CALL. - EXPECT_EQ(nullptr, mock_buzzer_.MakeBuzz("hello")); -``` - -If you are not happy with the default action, you can tweak it as usual; see -[Setting Default Actions](#setting-the-default-actions-for-a-mock-method). - -If you just need to return a pre-defined move-only value, you can use the -`Return(ByMove(...))` action: - -```cpp - // When this fires, the unique_ptr<> specified by ByMove(...) will - // be returned. - EXPECT_CALL(mock_buzzer_, MakeBuzz("world")) - .WillOnce(Return(ByMove(MakeUnique<Buzz>(AccessLevel::kInternal)))); - - EXPECT_NE(nullptr, mock_buzzer_.MakeBuzz("world")); -``` - -Note that `ByMove()` is essential here - if you drop it, the code won’t compile. - -Quiz time! What do you think will happen if a `Return(ByMove(...))` action is -performed more than once (e.g. you write -`.WillRepeatedly(Return(ByMove(...)));`)? Come think of it, after the first -time the action runs, the source value will be consumed (since it’s a move-only -value), so the next time around, there’s no value to move from -- you’ll get a -run-time error that `Return(ByMove(...))` can only be run once. - -If you need your mock method to do more than just moving a pre-defined value, -remember that you can always use a lambda or a callable object, which can do -pretty much anything you want: - -```cpp - EXPECT_CALL(mock_buzzer_, MakeBuzz("x")) - .WillRepeatedly([](StringPiece text) { - return MakeUnique<Buzz>(AccessLevel::kInternal); - }); - - EXPECT_NE(nullptr, mock_buzzer_.MakeBuzz("x")); - EXPECT_NE(nullptr, mock_buzzer_.MakeBuzz("x")); -``` - -Every time this `EXPECT_CALL` fires, a new `unique_ptr<Buzz>` will be -created and returned. You cannot do this with `Return(ByMove(...))`. - -That covers returning move-only values; but how do we work with methods -accepting move-only arguments? The answer is that they work normally, although -some actions will not compile when any of method's arguments are move-only. You -can always use `Return`, or a [lambda or functor](#using-functionsmethodsfunctors-as-actions): - -```cpp - using ::testing::Unused; - - EXPECT_CALL(mock_buzzer_, ShareBuzz(NotNull(), _)) .WillOnce(Return(true)); - EXPECT_TRUE(mock_buzzer_.ShareBuzz(MakeUnique<Buzz>(AccessLevel::kInternal)), - 0); - - EXPECT_CALL(mock_buzzer_, ShareBuzz(_, _)) .WillOnce( - [](std::unique_ptr<Buzz> buzz, Unused) { return buzz != nullptr; }); - EXPECT_FALSE(mock_buzzer_.ShareBuzz(nullptr, 0)); -``` - -Many built-in actions (`WithArgs`, `WithoutArgs`,`DeleteArg`, `SaveArg`, ...) -could in principle support move-only arguments, but the support for this is not -implemented yet. If this is blocking you, please file a bug. - -A few actions (e.g. `DoAll`) copy their arguments internally, so they can never -work with non-copyable objects; you'll have to use functors instead. - -##### Legacy workarounds for move-only types - -Support for move-only function arguments was only introduced to gMock in April -2017. In older code, you may encounter the following workaround for the lack of -this feature (it is no longer necessary - we're including it just for -reference): - -```cpp -class MockBuzzer : public Buzzer { - public: - MOCK_METHOD2(DoShareBuzz, bool(Buzz* buzz, Time timestamp)); - bool ShareBuzz(std::unique_ptr<Buzz> buzz, Time timestamp) override { - return DoShareBuzz(buzz.get(), timestamp); - } -}; -``` - -The trick is to delegate the `ShareBuzz()` method to a mock method (let’s call -it `DoShareBuzz()`) that does not take move-only parameters. Then, instead of -setting expectations on `ShareBuzz()`, you set them on the `DoShareBuzz()` mock -method: - -```cpp - MockBuzzer mock_buzzer_; - EXPECT_CALL(mock_buzzer_, DoShareBuzz(NotNull(), _)); - - // When one calls ShareBuzz() on the MockBuzzer like this, the call is - // forwarded to DoShareBuzz(), which is mocked. Therefore this statement - // will trigger the above EXPECT_CALL. - mock_buzzer_.ShareBuzz(MakeUnique<Buzz>(AccessLevel::kInternal), 0); -``` - - - -## Making the Compilation Faster ## - -Believe it or not, the _vast majority_ of the time spent on compiling -a mock class is in generating its constructor and destructor, as they -perform non-trivial tasks (e.g. verification of the -expectations). What's more, mock methods with different signatures -have different types and thus their constructors/destructors need to -be generated by the compiler separately. As a result, if you mock many -different types of methods, compiling your mock class can get really -slow. - -If you are experiencing slow compilation, you can move the definition -of your mock class' constructor and destructor out of the class body -and into a `.cpp` file. This way, even if you `#include` your mock -class in N files, the compiler only needs to generate its constructor -and destructor once, resulting in a much faster compilation. - -Let's illustrate the idea using an example. Here's the definition of a -mock class before applying this recipe: - -```cpp -// File mock_foo.h. -... -class MockFoo : public Foo { - public: - // Since we don't declare the constructor or the destructor, - // the compiler will generate them in every translation unit - // where this mock class is used. - - MOCK_METHOD0(DoThis, int()); - MOCK_METHOD1(DoThat, bool(const char* str)); - ... more mock methods ... -}; -``` - -After the change, it would look like: - -```cpp -// File mock_foo.h. -... -class MockFoo : public Foo { - public: - // The constructor and destructor are declared, but not defined, here. - MockFoo(); - virtual ~MockFoo(); - - MOCK_METHOD0(DoThis, int()); - MOCK_METHOD1(DoThat, bool(const char* str)); - ... more mock methods ... -}; -``` -and -```cpp -// File mock_foo.cpp. -#include "path/to/mock_foo.h" - -// The definitions may appear trivial, but the functions actually do a -// lot of things through the constructors/destructors of the member -// variables used to implement the mock methods. -MockFoo::MockFoo() {} -MockFoo::~MockFoo() {} -``` - -## Forcing a Verification ## - -When it's being destroyed, your friendly mock object will automatically -verify that all expectations on it have been satisfied, and will -generate [Google Test](../../googletest/) failures -if not. This is convenient as it leaves you with one less thing to -worry about. That is, unless you are not sure if your mock object will -be destroyed. - -How could it be that your mock object won't eventually be destroyed? -Well, it might be created on the heap and owned by the code you are -testing. Suppose there's a bug in that code and it doesn't delete the -mock object properly - you could end up with a passing test when -there's actually a bug. - -Using a heap checker is a good idea and can alleviate the concern, but -its implementation may not be 100% reliable. So, sometimes you do want -to _force_ Google Mock to verify a mock object before it is -(hopefully) destructed. You can do this with -`Mock::VerifyAndClearExpectations(&mock_object)`: - -```cpp -TEST(MyServerTest, ProcessesRequest) { - using ::testing::Mock; - - MockFoo* const foo = new MockFoo; - EXPECT_CALL(*foo, ...)...; - // ... other expectations ... - - // server now owns foo. - MyServer server(foo); - server.ProcessRequest(...); - - // In case that server's destructor will forget to delete foo, - // this will verify the expectations anyway. - Mock::VerifyAndClearExpectations(foo); -} // server is destroyed when it goes out of scope here. -``` - -**Tip:** The `Mock::VerifyAndClearExpectations()` function returns a -`bool` to indicate whether the verification was successful (`true` for -yes), so you can wrap that function call inside a `ASSERT_TRUE()` if -there is no point going further when the verification has failed. - -## Using Check Points ## - -Sometimes you may want to "reset" a mock object at various check -points in your test: at each check point, you verify that all existing -expectations on the mock object have been satisfied, and then you set -some new expectations on it as if it's newly created. This allows you -to work with a mock object in "phases" whose sizes are each -manageable. - -One such scenario is that in your test's `SetUp()` function, you may -want to put the object you are testing into a certain state, with the -help from a mock object. Once in the desired state, you want to clear -all expectations on the mock, such that in the `TEST_F` body you can -set fresh expectations on it. - -As you may have figured out, the `Mock::VerifyAndClearExpectations()` -function we saw in the previous recipe can help you here. Or, if you -are using `ON_CALL()` to set default actions on the mock object and -want to clear the default actions as well, use -`Mock::VerifyAndClear(&mock_object)` instead. This function does what -`Mock::VerifyAndClearExpectations(&mock_object)` does and returns the -same `bool`, **plus** it clears the `ON_CALL()` statements on -`mock_object` too. - -Another trick you can use to achieve the same effect is to put the -expectations in sequences and insert calls to a dummy "check-point" -function at specific places. Then you can verify that the mock -function calls do happen at the right time. For example, if you are -exercising code: - -```cpp -Foo(1); -Foo(2); -Foo(3); -``` - -and want to verify that `Foo(1)` and `Foo(3)` both invoke -`mock.Bar("a")`, but `Foo(2)` doesn't invoke anything. You can write: - -```cpp -using ::testing::MockFunction; - -TEST(FooTest, InvokesBarCorrectly) { - MyMock mock; - // Class MockFunction<F> has exactly one mock method. It is named - // Call() and has type F. - MockFunction<void(string check_point_name)> check; - { - InSequence s; - - EXPECT_CALL(mock, Bar("a")); - EXPECT_CALL(check, Call("1")); - EXPECT_CALL(check, Call("2")); - EXPECT_CALL(mock, Bar("a")); - } - Foo(1); - check.Call("1"); - Foo(2); - check.Call("2"); - Foo(3); -} -``` - -The expectation spec says that the first `Bar("a")` must happen before -check point "1", the second `Bar("a")` must happen after check point "2", -and nothing should happen between the two check points. The explicit -check points make it easy to tell which `Bar("a")` is called by which -call to `Foo()`. - -## Mocking Destructors ## - -Sometimes you want to make sure a mock object is destructed at the -right time, e.g. after `bar->A()` is called but before `bar->B()` is -called. We already know that you can specify constraints on the order -of mock function calls, so all we need to do is to mock the destructor -of the mock function. - -This sounds simple, except for one problem: a destructor is a special -function with special syntax and special semantics, and the -`MOCK_METHOD0` macro doesn't work for it: - -```cpp - MOCK_METHOD0(~MockFoo, void()); // Won't compile! -``` - -The good news is that you can use a simple pattern to achieve the same -effect. First, add a mock function `Die()` to your mock class and call -it in the destructor, like this: - -```cpp -class MockFoo : public Foo { - ... - // Add the following two lines to the mock class. - MOCK_METHOD0(Die, void()); - virtual ~MockFoo() { Die(); } -}; -``` - -(If the name `Die()` clashes with an existing symbol, choose another -name.) Now, we have translated the problem of testing when a `MockFoo` -object dies to testing when its `Die()` method is called: - -```cpp - MockFoo* foo = new MockFoo; - MockBar* bar = new MockBar; - ... - { - InSequence s; - - // Expects *foo to die after bar->A() and before bar->B(). - EXPECT_CALL(*bar, A()); - EXPECT_CALL(*foo, Die()); - EXPECT_CALL(*bar, B()); - } -``` - -And that's that. - -## Using Google Mock and Threads ## - -**IMPORTANT NOTE:** What we describe in this recipe is **ONLY** true on -platforms where Google Mock is thread-safe. Currently these are only -platforms that support the pthreads library (this includes Linux and Mac). -To make it thread-safe on other platforms we only need to implement -some synchronization operations in `"gtest/internal/gtest-port.h"`. - -In a **unit** test, it's best if you could isolate and test a piece of -code in a single-threaded context. That avoids race conditions and -dead locks, and makes debugging your test much easier. - -Yet many programs are multi-threaded, and sometimes to test something -we need to pound on it from more than one thread. Google Mock works -for this purpose too. - -Remember the steps for using a mock: - - 1. Create a mock object `foo`. - 1. Set its default actions and expectations using `ON_CALL()` and `EXPECT_CALL()`. - 1. The code under test calls methods of `foo`. - 1. Optionally, verify and reset the mock. - 1. Destroy the mock yourself, or let the code under test destroy it. The destructor will automatically verify it. - -If you follow the following simple rules, your mocks and threads can -live happily together: - - * Execute your _test code_ (as opposed to the code being tested) in _one_ thread. This makes your test easy to follow. - * Obviously, you can do step #1 without locking. - * When doing step #2 and #5, make sure no other thread is accessing `foo`. Obvious too, huh? - * #3 and #4 can be done either in one thread or in multiple threads - anyway you want. Google Mock takes care of the locking, so you don't have to do any - unless required by your test logic. - -If you violate the rules (for example, if you set expectations on a -mock while another thread is calling its methods), you get undefined -behavior. That's not fun, so don't do it. - -Google Mock guarantees that the action for a mock function is done in -the same thread that called the mock function. For example, in - -```cpp - EXPECT_CALL(mock, Foo(1)) - .WillOnce(action1); - EXPECT_CALL(mock, Foo(2)) - .WillOnce(action2); -``` - -if `Foo(1)` is called in thread 1 and `Foo(2)` is called in thread 2, -Google Mock will execute `action1` in thread 1 and `action2` in thread -2. - -Google Mock does _not_ impose a sequence on actions performed in -different threads (doing so may create deadlocks as the actions may -need to cooperate). This means that the execution of `action1` and -`action2` in the above example _may_ interleave. If this is a problem, -you should add proper synchronization logic to `action1` and `action2` -to make the test thread-safe. - - -Also, remember that `DefaultValue<T>` is a global resource that -potentially affects _all_ living mock objects in your -program. Naturally, you won't want to mess with it from multiple -threads or when there still are mocks in action. - -## Controlling How Much Information Google Mock Prints ## - -When Google Mock sees something that has the potential of being an -error (e.g. a mock function with no expectation is called, a.k.a. an -uninteresting call, which is allowed but perhaps you forgot to -explicitly ban the call), it prints some warning messages, including -the arguments of the function and the return value. Hopefully this -will remind you to take a look and see if there is indeed a problem. - -Sometimes you are confident that your tests are correct and may not -appreciate such friendly messages. Some other times, you are debugging -your tests or learning about the behavior of the code you are testing, -and wish you could observe every mock call that happens (including -argument values and the return value). Clearly, one size doesn't fit -all. - -You can control how much Google Mock tells you using the -`--gmock_verbose=LEVEL` command-line flag, where `LEVEL` is a string -with three possible values: - - * `info`: Google Mock will print all informational messages, warnings, and errors (most verbose). At this setting, Google Mock will also log any calls to the `ON_CALL/EXPECT_CALL` macros. - * `warning`: Google Mock will print both warnings and errors (less verbose). This is the default. - * `error`: Google Mock will print errors only (least verbose). - -Alternatively, you can adjust the value of that flag from within your -tests like so: - -```cpp - ::testing::FLAGS_gmock_verbose = "error"; -``` - -Now, judiciously use the right flag to enable Google Mock serve you better! - -## Gaining Super Vision into Mock Calls ## - -You have a test using Google Mock. It fails: Google Mock tells you -that some expectations aren't satisfied. However, you aren't sure why: -Is there a typo somewhere in the matchers? Did you mess up the order -of the `EXPECT_CALL`s? Or is the code under test doing something -wrong? How can you find out the cause? - -Won't it be nice if you have X-ray vision and can actually see the -trace of all `EXPECT_CALL`s and mock method calls as they are made? -For each call, would you like to see its actual argument values and -which `EXPECT_CALL` Google Mock thinks it matches? - -You can unlock this power by running your test with the -`--gmock_verbose=info` flag. For example, given the test program: - -```cpp -using testing::_; -using testing::HasSubstr; -using testing::Return; - -class MockFoo { - public: - MOCK_METHOD2(F, void(const string& x, const string& y)); -}; - -TEST(Foo, Bar) { - MockFoo mock; - EXPECT_CALL(mock, F(_, _)).WillRepeatedly(Return()); - EXPECT_CALL(mock, F("a", "b")); - EXPECT_CALL(mock, F("c", HasSubstr("d"))); - - mock.F("a", "good"); - mock.F("a", "b"); -} -``` - -if you run it with `--gmock_verbose=info`, you will see this output: - -``` -[ RUN ] Foo.Bar - -foo_test.cc:14: EXPECT_CALL(mock, F(_, _)) invoked -foo_test.cc:15: EXPECT_CALL(mock, F("a", "b")) invoked -foo_test.cc:16: EXPECT_CALL(mock, F("c", HasSubstr("d"))) invoked -foo_test.cc:14: Mock function call matches EXPECT_CALL(mock, F(_, _))... - Function call: F(@0x7fff7c8dad40"a", @0x7fff7c8dad10"good") -foo_test.cc:15: Mock function call matches EXPECT_CALL(mock, F("a", "b"))... - Function call: F(@0x7fff7c8dada0"a", @0x7fff7c8dad70"b") -foo_test.cc:16: Failure -Actual function call count doesn't match EXPECT_CALL(mock, F("c", HasSubstr("d")))... - Expected: to be called once - Actual: never called - unsatisfied and active -[ FAILED ] Foo.Bar -``` - -Suppose the bug is that the `"c"` in the third `EXPECT_CALL` is a typo -and should actually be `"a"`. With the above message, you should see -that the actual `F("a", "good")` call is matched by the first -`EXPECT_CALL`, not the third as you thought. From that it should be -obvious that the third `EXPECT_CALL` is written wrong. Case solved. - -## Running Tests in Emacs ## - -If you build and run your tests in Emacs, the source file locations of -Google Mock and [Google Test](../../googletest/) -errors will be highlighted. Just press `<Enter>` on one of them and -you'll be taken to the offending line. Or, you can just type `C-x `` -to jump to the next error. - -To make it even easier, you can add the following lines to your -`~/.emacs` file: - -``` -(global-set-key "\M-m" 'compile) ; m is for make -(global-set-key [M-down] 'next-error) -(global-set-key [M-up] '(lambda () (interactive) (next-error -1))) -``` - -Then you can type `M-m` to start a build, or `M-up`/`M-down` to move -back and forth between errors. - -## Fusing Google Mock Source Files ## - -Google Mock's implementation consists of dozens of files (excluding -its own tests). Sometimes you may want them to be packaged up in -fewer files instead, such that you can easily copy them to a new -machine and start hacking there. For this we provide an experimental -Python script `fuse_gmock_files.py` in the `scripts/` directory -(starting with release 1.2.0). Assuming you have Python 2.4 or above -installed on your machine, just go to that directory and run -``` -python fuse_gmock_files.py OUTPUT_DIR -``` - -and you should see an `OUTPUT_DIR` directory being created with files -`gtest/gtest.h`, `gmock/gmock.h`, and `gmock-gtest-all.cc` in it. -These three files contain everything you need to use Google Mock (and -Google Test). Just copy them to anywhere you want and you are ready -to write tests and use mocks. You can use the -[make/Makefile](../make/Makefile) file as an example on how to compile your tests -against them. - -# Extending Google Mock # - -## Writing New Matchers Quickly ## - -The `MATCHER*` family of macros can be used to define custom matchers -easily. The syntax: - -```cpp -MATCHER(name, description_string_expression) { statements; } -``` - -will define a matcher with the given name that executes the -statements, which must return a `bool` to indicate if the match -succeeds. Inside the statements, you can refer to the value being -matched by `arg`, and refer to its type by `arg_type`. - -The description string is a `string`-typed expression that documents -what the matcher does, and is used to generate the failure message -when the match fails. It can (and should) reference the special -`bool` variable `negation`, and should evaluate to the description of -the matcher when `negation` is `false`, or that of the matcher's -negation when `negation` is `true`. - -For convenience, we allow the description string to be empty (`""`), -in which case Google Mock will use the sequence of words in the -matcher name as the description. - -For example: -```cpp -MATCHER(IsDivisibleBy7, "") { return (arg % 7) == 0; } -``` -allows you to write -```cpp - // Expects mock_foo.Bar(n) to be called where n is divisible by 7. - EXPECT_CALL(mock_foo, Bar(IsDivisibleBy7())); -``` -or, -```cpp -using ::testing::Not; -... - EXPECT_THAT(some_expression, IsDivisibleBy7()); - EXPECT_THAT(some_other_expression, Not(IsDivisibleBy7())); -``` -If the above assertions fail, they will print something like: -``` - Value of: some_expression - Expected: is divisible by 7 - Actual: 27 -... - Value of: some_other_expression - Expected: not (is divisible by 7) - Actual: 21 -``` -where the descriptions `"is divisible by 7"` and `"not (is divisible -by 7)"` are automatically calculated from the matcher name -`IsDivisibleBy7`. - -As you may have noticed, the auto-generated descriptions (especially -those for the negation) may not be so great. You can always override -them with a string expression of your own: -```cpp -MATCHER(IsDivisibleBy7, std::string(negation ? "isn't" : "is") + - " divisible by 7") { - return (arg % 7) == 0; -} -``` - -Optionally, you can stream additional information to a hidden argument -named `result_listener` to explain the match result. For example, a -better definition of `IsDivisibleBy7` is: -```cpp -MATCHER(IsDivisibleBy7, "") { - if ((arg % 7) == 0) - return true; - - *result_listener << "the remainder is " << (arg % 7); - return false; -} -``` - -With this definition, the above assertion will give a better message: -``` - Value of: some_expression - Expected: is divisible by 7 - Actual: 27 (the remainder is 6) -``` - -You should let `MatchAndExplain()` print _any additional information_ -that can help a user understand the match result. Note that it should -explain why the match succeeds in case of a success (unless it's -obvious) - this is useful when the matcher is used inside -`Not()`. There is no need to print the argument value itself, as -Google Mock already prints it for you. - -**Notes:** - - 1. The type of the value being matched (`arg_type`) is determined by the context in which you use the matcher and is supplied to you by the compiler, so you don't need to worry about declaring it (nor can you). This allows the matcher to be polymorphic. For example, `IsDivisibleBy7()` can be used to match any type where the value of `(arg % 7) == 0` can be implicitly converted to a `bool`. In the `Bar(IsDivisibleBy7())` example above, if method `Bar()` takes an `int`, `arg_type` will be `int`; if it takes an `unsigned long`, `arg_type` will be `unsigned long`; and so on. - 1. Google Mock doesn't guarantee when or how many times a matcher will be invoked. Therefore the matcher logic must be _purely functional_ (i.e. it cannot have any side effect, and the result must not depend on anything other than the value being matched and the matcher parameters). This requirement must be satisfied no matter how you define the matcher (e.g. using one of the methods described in the following recipes). In particular, a matcher can never call a mock function, as that will affect the state of the mock object and Google Mock. - -## Writing New Parameterized Matchers Quickly ## - -Sometimes you'll want to define a matcher that has parameters. For that you -can use the macro: -```cpp -MATCHER_P(name, param_name, description_string) { statements; } -``` -where the description string can be either `""` or a string expression -that references `negation` and `param_name`. - -For example: -```cpp -MATCHER_P(HasAbsoluteValue, value, "") { return abs(arg) == value; } -``` -will allow you to write: -```cpp - EXPECT_THAT(Blah("a"), HasAbsoluteValue(n)); -``` -which may lead to this message (assuming `n` is 10): -``` - Value of: Blah("a") - Expected: has absolute value 10 - Actual: -9 -``` - -Note that both the matcher description and its parameter are -printed, making the message human-friendly. - -In the matcher definition body, you can write `foo_type` to -reference the type of a parameter named `foo`. For example, in the -body of `MATCHER_P(HasAbsoluteValue, value)` above, you can write -`value_type` to refer to the type of `value`. - -Google Mock also provides `MATCHER_P2`, `MATCHER_P3`, ..., up to -`MATCHER_P10` to support multi-parameter matchers: -```cpp -MATCHER_Pk(name, param_1, ..., param_k, description_string) { statements; } -``` - -Please note that the custom description string is for a particular -**instance** of the matcher, where the parameters have been bound to -actual values. Therefore usually you'll want the parameter values to -be part of the description. Google Mock lets you do that by -referencing the matcher parameters in the description string -expression. - -For example, -```cpp - using ::testing::PrintToString; - MATCHER_P2(InClosedRange, low, hi, - std::string(negation ? "isn't" : "is") + " in range [" + - PrintToString(low) + ", " + PrintToString(hi) + "]") { - return low <= arg && arg <= hi; - } - ... - EXPECT_THAT(3, InClosedRange(4, 6)); -``` -would generate a failure that contains the message: -``` - Expected: is in range [4, 6] -``` - -If you specify `""` as the description, the failure message will -contain the sequence of words in the matcher name followed by the -parameter values printed as a tuple. For example, -```cpp - MATCHER_P2(InClosedRange, low, hi, "") { ... } - ... - EXPECT_THAT(3, InClosedRange(4, 6)); -``` -would generate a failure that contains the text: -``` - Expected: in closed range (4, 6) -``` - -For the purpose of typing, you can view -```cpp -MATCHER_Pk(Foo, p1, ..., pk, description_string) { ... } -``` -as shorthand for -```cpp -template <typename p1_type, ..., typename pk_type> -FooMatcherPk<p1_type, ..., pk_type> -Foo(p1_type p1, ..., pk_type pk) { ... } -``` - -When you write `Foo(v1, ..., vk)`, the compiler infers the types of -the parameters `v1`, ..., and `vk` for you. If you are not happy with -the result of the type inference, you can specify the types by -explicitly instantiating the template, as in `Foo<long, bool>(5, false)`. -As said earlier, you don't get to (or need to) specify -`arg_type` as that's determined by the context in which the matcher -is used. - -You can assign the result of expression `Foo(p1, ..., pk)` to a -variable of type `FooMatcherPk<p1_type, ..., pk_type>`. This can be -useful when composing matchers. Matchers that don't have a parameter -or have only one parameter have special types: you can assign `Foo()` -to a `FooMatcher`-typed variable, and assign `Foo(p)` to a -`FooMatcherP<p_type>`-typed variable. - -While you can instantiate a matcher template with reference types, -passing the parameters by pointer usually makes your code more -readable. If, however, you still want to pass a parameter by -reference, be aware that in the failure message generated by the -matcher you will see the value of the referenced object but not its -address. - -You can overload matchers with different numbers of parameters: -```cpp -MATCHER_P(Blah, a, description_string_1) { ... } -MATCHER_P2(Blah, a, b, description_string_2) { ... } -``` - -While it's tempting to always use the `MATCHER*` macros when defining -a new matcher, you should also consider implementing -`MatcherInterface` or using `MakePolymorphicMatcher()` instead (see -the recipes that follow), especially if you need to use the matcher a -lot. While these approaches require more work, they give you more -control on the types of the value being matched and the matcher -parameters, which in general leads to better compiler error messages -that pay off in the long run. They also allow overloading matchers -based on parameter types (as opposed to just based on the number of -parameters). - -## Writing New Monomorphic Matchers ## - -A matcher of argument type `T` implements -`::testing::MatcherInterface<T>` and does two things: it tests whether a -value of type `T` matches the matcher, and can describe what kind of -values it matches. The latter ability is used for generating readable -error messages when expectations are violated. - -The interface looks like this: - -```cpp -class MatchResultListener { - public: - ... - // Streams x to the underlying ostream; does nothing if the ostream - // is NULL. - template <typename T> - MatchResultListener& operator<<(const T& x); - - // Returns the underlying ostream. - ::std::ostream* stream(); -}; - -template <typename T> -class MatcherInterface { - public: - virtual ~MatcherInterface(); - - // Returns true iff the matcher matches x; also explains the match - // result to 'listener'. - virtual bool MatchAndExplain(T x, MatchResultListener* listener) const = 0; - - // Describes this matcher to an ostream. - virtual void DescribeTo(::std::ostream* os) const = 0; - - // Describes the negation of this matcher to an ostream. - virtual void DescribeNegationTo(::std::ostream* os) const; -}; -``` - -If you need a custom matcher but `Truly()` is not a good option (for -example, you may not be happy with the way `Truly(predicate)` -describes itself, or you may want your matcher to be polymorphic as -`Eq(value)` is), you can define a matcher to do whatever you want in -two steps: first implement the matcher interface, and then define a -factory function to create a matcher instance. The second step is not -strictly needed but it makes the syntax of using the matcher nicer. - -For example, you can define a matcher to test whether an `int` is -divisible by 7 and then use it like this: -```cpp -using ::testing::MakeMatcher; -using ::testing::Matcher; -using ::testing::MatcherInterface; -using ::testing::MatchResultListener; - -class DivisibleBy7Matcher : public MatcherInterface<int> { - public: - virtual bool MatchAndExplain(int n, MatchResultListener* listener) const { - return (n % 7) == 0; - } - - virtual void DescribeTo(::std::ostream* os) const { - *os << "is divisible by 7"; - } - - virtual void DescribeNegationTo(::std::ostream* os) const { - *os << "is not divisible by 7"; - } -}; - -inline Matcher<int> DivisibleBy7() { - return MakeMatcher(new DivisibleBy7Matcher); -} -... - - EXPECT_CALL(foo, Bar(DivisibleBy7())); -``` - -You may improve the matcher message by streaming additional -information to the `listener` argument in `MatchAndExplain()`: - -```cpp -class DivisibleBy7Matcher : public MatcherInterface<int> { - public: - virtual bool MatchAndExplain(int n, - MatchResultListener* listener) const { - const int remainder = n % 7; - if (remainder != 0) { - *listener << "the remainder is " << remainder; - } - return remainder == 0; - } - ... -}; -``` - -Then, `EXPECT_THAT(x, DivisibleBy7());` may general a message like this: -``` -Value of: x -Expected: is divisible by 7 - Actual: 23 (the remainder is 2) -``` - -## Writing New Polymorphic Matchers ## - -You've learned how to write your own matchers in the previous -recipe. Just one problem: a matcher created using `MakeMatcher()` only -works for one particular type of arguments. If you want a -_polymorphic_ matcher that works with arguments of several types (for -instance, `Eq(x)` can be used to match a `value` as long as `value` == -`x` compiles -- `value` and `x` don't have to share the same type), -you can learn the trick from `"gmock/gmock-matchers.h"` but it's a bit -involved. - -Fortunately, most of the time you can define a polymorphic matcher -easily with the help of `MakePolymorphicMatcher()`. Here's how you can -define `NotNull()` as an example: - -```cpp -using ::testing::MakePolymorphicMatcher; -using ::testing::MatchResultListener; -using ::testing::NotNull; -using ::testing::PolymorphicMatcher; - -class NotNullMatcher { - public: - // To implement a polymorphic matcher, first define a COPYABLE class - // that has three members MatchAndExplain(), DescribeTo(), and - // DescribeNegationTo(), like the following. - - // In this example, we want to use NotNull() with any pointer, so - // MatchAndExplain() accepts a pointer of any type as its first argument. - // In general, you can define MatchAndExplain() as an ordinary method or - // a method template, or even overload it. - template <typename T> - bool MatchAndExplain(T* p, - MatchResultListener* /* listener */) const { - return p != NULL; - } - - // Describes the property of a value matching this matcher. - void DescribeTo(::std::ostream* os) const { *os << "is not NULL"; } - - // Describes the property of a value NOT matching this matcher. - void DescribeNegationTo(::std::ostream* os) const { *os << "is NULL"; } -}; - -// To construct a polymorphic matcher, pass an instance of the class -// to MakePolymorphicMatcher(). Note the return type. -inline PolymorphicMatcher<NotNullMatcher> NotNull() { - return MakePolymorphicMatcher(NotNullMatcher()); -} -... - - EXPECT_CALL(foo, Bar(NotNull())); // The argument must be a non-NULL pointer. -``` - -**Note:** Your polymorphic matcher class does **not** need to inherit from -`MatcherInterface` or any other class, and its methods do **not** need -to be virtual. - -Like in a monomorphic matcher, you may explain the match result by -streaming additional information to the `listener` argument in -`MatchAndExplain()`. - -## Writing New Cardinalities ## - -A cardinality is used in `Times()` to tell Google Mock how many times -you expect a call to occur. It doesn't have to be exact. For example, -you can say `AtLeast(5)` or `Between(2, 4)`. - -If the built-in set of cardinalities doesn't suit you, you are free to -define your own by implementing the following interface (in namespace -`testing`): - -```cpp -class CardinalityInterface { - public: - virtual ~CardinalityInterface(); - - // Returns true iff call_count calls will satisfy this cardinality. - virtual bool IsSatisfiedByCallCount(int call_count) const = 0; - - // Returns true iff call_count calls will saturate this cardinality. - virtual bool IsSaturatedByCallCount(int call_count) const = 0; - - // Describes self to an ostream. - virtual void DescribeTo(::std::ostream* os) const = 0; -}; -``` - -For example, to specify that a call must occur even number of times, -you can write - -```cpp -using ::testing::Cardinality; -using ::testing::CardinalityInterface; -using ::testing::MakeCardinality; - -class EvenNumberCardinality : public CardinalityInterface { - public: - virtual bool IsSatisfiedByCallCount(int call_count) const { - return (call_count % 2) == 0; - } - - virtual bool IsSaturatedByCallCount(int call_count) const { - return false; - } - - virtual void DescribeTo(::std::ostream* os) const { - *os << "called even number of times"; - } -}; - -Cardinality EvenNumber() { - return MakeCardinality(new EvenNumberCardinality); -} -... - - EXPECT_CALL(foo, Bar(3)) - .Times(EvenNumber()); -``` - -## Writing New Actions Quickly ## - -If the built-in actions don't work for you, and you find it -inconvenient to use `Invoke()`, you can use a macro from the `ACTION*` -family to quickly define a new action that can be used in your code as -if it's a built-in action. - -By writing -```cpp -ACTION(name) { statements; } -``` -in a namespace scope (i.e. not inside a class or function), you will -define an action with the given name that executes the statements. -The value returned by `statements` will be used as the return value of -the action. Inside the statements, you can refer to the K-th -(0-based) argument of the mock function as `argK`. For example: -```cpp -ACTION(IncrementArg1) { return ++(*arg1); } -``` -allows you to write -```cpp -... WillOnce(IncrementArg1()); -``` - -Note that you don't need to specify the types of the mock function -arguments. Rest assured that your code is type-safe though: -you'll get a compiler error if `*arg1` doesn't support the `++` -operator, or if the type of `++(*arg1)` isn't compatible with the mock -function's return type. - -Another example: -```cpp -ACTION(Foo) { - (*arg2)(5); - Blah(); - *arg1 = 0; - return arg0; -} -``` -defines an action `Foo()` that invokes argument #2 (a function pointer) -with 5, calls function `Blah()`, sets the value pointed to by argument -#1 to 0, and returns argument #0. - -For more convenience and flexibility, you can also use the following -pre-defined symbols in the body of `ACTION`: - -| `argK_type` | The type of the K-th (0-based) argument of the mock function | -|:----------------|:-------------------------------------------------------------| -| `args` | All arguments of the mock function as a tuple | -| `args_type` | The type of all arguments of the mock function as a tuple | -| `return_type` | The return type of the mock function | -| `function_type` | The type of the mock function | - -For example, when using an `ACTION` as a stub action for mock function: -```cpp -int DoSomething(bool flag, int* ptr); -``` -we have: - -| **Pre-defined Symbol** | **Is Bound To** | -|:-----------------------|:----------------| -| `arg0` | the value of `flag` | -| `arg0_type` | the type `bool` | -| `arg1` | the value of `ptr` | -| `arg1_type` | the type `int*` | -| `args` | the tuple `(flag, ptr)` | -| `args_type` | the type `::testing::tuple<bool, int*>` | -| `return_type` | the type `int` | -| `function_type` | the type `int(bool, int*)` | - -## Writing New Parameterized Actions Quickly ## - -Sometimes you'll want to parameterize an action you define. For that -we have another macro -```cpp -ACTION_P(name, param) { statements; } -``` - -For example, -```cpp -ACTION_P(Add, n) { return arg0 + n; } -``` -will allow you to write -```cpp -// Returns argument #0 + 5. -... WillOnce(Add(5)); -``` - -For convenience, we use the term _arguments_ for the values used to -invoke the mock function, and the term _parameters_ for the values -used to instantiate an action. - -Note that you don't need to provide the type of the parameter either. -Suppose the parameter is named `param`, you can also use the -Google-Mock-defined symbol `param_type` to refer to the type of the -parameter as inferred by the compiler. For example, in the body of -`ACTION_P(Add, n)` above, you can write `n_type` for the type of `n`. - -Google Mock also provides `ACTION_P2`, `ACTION_P3`, and etc to support -multi-parameter actions. For example, -```cpp -ACTION_P2(ReturnDistanceTo, x, y) { - double dx = arg0 - x; - double dy = arg1 - y; - return sqrt(dx*dx + dy*dy); -} -``` -lets you write -```cpp -... WillOnce(ReturnDistanceTo(5.0, 26.5)); -``` - -You can view `ACTION` as a degenerated parameterized action where the -number of parameters is 0. - -You can also easily define actions overloaded on the number of parameters: -```cpp -ACTION_P(Plus, a) { ... } -ACTION_P2(Plus, a, b) { ... } -``` - -## Restricting the Type of an Argument or Parameter in an ACTION ## - -For maximum brevity and reusability, the `ACTION*` macros don't ask -you to provide the types of the mock function arguments and the action -parameters. Instead, we let the compiler infer the types for us. - -Sometimes, however, we may want to be more explicit about the types. -There are several tricks to do that. For example: -```cpp -ACTION(Foo) { - // Makes sure arg0 can be converted to int. - int n = arg0; - ... use n instead of arg0 here ... -} - -ACTION_P(Bar, param) { - // Makes sure the type of arg1 is const char*. - ::testing::StaticAssertTypeEq<const char*, arg1_type>(); - - // Makes sure param can be converted to bool. - bool flag = param; -} -``` -where `StaticAssertTypeEq` is a compile-time assertion in Google Test -that verifies two types are the same. - -## Writing New Action Templates Quickly ## - -Sometimes you want to give an action explicit template parameters that -cannot be inferred from its value parameters. `ACTION_TEMPLATE()` -supports that and can be viewed as an extension to `ACTION()` and -`ACTION_P*()`. - -The syntax: -```cpp -ACTION_TEMPLATE(ActionName, - HAS_m_TEMPLATE_PARAMS(kind1, name1, ..., kind_m, name_m), - AND_n_VALUE_PARAMS(p1, ..., p_n)) { statements; } -``` - -defines an action template that takes _m_ explicit template parameters -and _n_ value parameters, where _m_ is between 1 and 10, and _n_ is -between 0 and 10. `name_i` is the name of the i-th template -parameter, and `kind_i` specifies whether it's a `typename`, an -integral constant, or a template. `p_i` is the name of the i-th value -parameter. - -Example: -```cpp -// DuplicateArg<k, T>(output) converts the k-th argument of the mock -// function to type T and copies it to *output. -ACTION_TEMPLATE(DuplicateArg, - // Note the comma between int and k: - HAS_2_TEMPLATE_PARAMS(int, k, typename, T), - AND_1_VALUE_PARAMS(output)) { - *output = T(::testing::get<k>(args)); -} -``` - -To create an instance of an action template, write: -```cpp - ActionName<t1, ..., t_m>(v1, ..., v_n) -``` -where the `t`s are the template arguments and the -`v`s are the value arguments. The value argument -types are inferred by the compiler. For example: -```cpp -using ::testing::_; -... - int n; - EXPECT_CALL(mock, Foo(_, _)) - .WillOnce(DuplicateArg<1, unsigned char>(&n)); -``` - -If you want to explicitly specify the value argument types, you can -provide additional template arguments: -```cpp - ActionName<t1, ..., t_m, u1, ..., u_k>(v1, ..., v_n) -``` -where `u_i` is the desired type of `v_i`. - -`ACTION_TEMPLATE` and `ACTION`/`ACTION_P*` can be overloaded on the -number of value parameters, but not on the number of template -parameters. Without the restriction, the meaning of the following is -unclear: - -```cpp - OverloadedAction<int, bool>(x); -``` - -Are we using a single-template-parameter action where `bool` refers to -the type of `x`, or a two-template-parameter action where the compiler -is asked to infer the type of `x`? - -## Using the ACTION Object's Type ## - -If you are writing a function that returns an `ACTION` object, you'll -need to know its type. The type depends on the macro used to define -the action and the parameter types. The rule is relatively simple: - -| **Given Definition** | **Expression** | **Has Type** | -|:---------------------|:---------------|:-------------| -| `ACTION(Foo)` | `Foo()` | `FooAction` | -| `ACTION_TEMPLATE(Foo, HAS_m_TEMPLATE_PARAMS(...), AND_0_VALUE_PARAMS())` | `Foo<t1, ..., t_m>()` | `FooAction<t1, ..., t_m>` | -| `ACTION_P(Bar, param)` | `Bar(int_value)` | `BarActionP<int>` | -| `ACTION_TEMPLATE(Bar, HAS_m_TEMPLATE_PARAMS(...), AND_1_VALUE_PARAMS(p1))` | `Bar<t1, ..., t_m>(int_value)` | `FooActionP<t1, ..., t_m, int>` | -| `ACTION_P2(Baz, p1, p2)` | `Baz(bool_value, int_value)` | `BazActionP2<bool, int>` | -| `ACTION_TEMPLATE(Baz, HAS_m_TEMPLATE_PARAMS(...), AND_2_VALUE_PARAMS(p1, p2))`| `Baz<t1, ..., t_m>(bool_value, int_value)` | `FooActionP2<t1, ..., t_m, bool, int>` | -| ... | ... | ... | - -Note that we have to pick different suffixes (`Action`, `ActionP`, -`ActionP2`, and etc) for actions with different numbers of value -parameters, or the action definitions cannot be overloaded on the -number of them. - -## Writing New Monomorphic Actions ## - -While the `ACTION*` macros are very convenient, sometimes they are -inappropriate. For example, despite the tricks shown in the previous -recipes, they don't let you directly specify the types of the mock -function arguments and the action parameters, which in general leads -to unoptimized compiler error messages that can baffle unfamiliar -users. They also don't allow overloading actions based on parameter -types without jumping through some hoops. - -An alternative to the `ACTION*` macros is to implement -`::testing::ActionInterface<F>`, where `F` is the type of the mock -function in which the action will be used. For example: - -```cpp -template <typename F>class ActionInterface { - public: - virtual ~ActionInterface(); - - // Performs the action. Result is the return type of function type - // F, and ArgumentTuple is the tuple of arguments of F. - // - // For example, if F is int(bool, const string&), then Result would - // be int, and ArgumentTuple would be ::testing::tuple<bool, const string&>. - virtual Result Perform(const ArgumentTuple& args) = 0; -}; - -using ::testing::_; -using ::testing::Action; -using ::testing::ActionInterface; -using ::testing::MakeAction; - -typedef int IncrementMethod(int*); - -class IncrementArgumentAction : public ActionInterface<IncrementMethod> { - public: - virtual int Perform(const ::testing::tuple<int*>& args) { - int* p = ::testing::get<0>(args); // Grabs the first argument. - return *p++; - } -}; - -Action<IncrementMethod> IncrementArgument() { - return MakeAction(new IncrementArgumentAction); -} -... - - EXPECT_CALL(foo, Baz(_)) - .WillOnce(IncrementArgument()); - - int n = 5; - foo.Baz(&n); // Should return 5 and change n to 6. -``` - -## Writing New Polymorphic Actions ## - -The previous recipe showed you how to define your own action. This is -all good, except that you need to know the type of the function in -which the action will be used. Sometimes that can be a problem. For -example, if you want to use the action in functions with _different_ -types (e.g. like `Return()` and `SetArgPointee()`). - -If an action can be used in several types of mock functions, we say -it's _polymorphic_. The `MakePolymorphicAction()` function template -makes it easy to define such an action: - -```cpp -namespace testing { - -template <typename Impl> -PolymorphicAction<Impl> MakePolymorphicAction(const Impl& impl); - -} // namespace testing -``` - -As an example, let's define an action that returns the second argument -in the mock function's argument list. The first step is to define an -implementation class: - -```cpp -class ReturnSecondArgumentAction { - public: - template <typename Result, typename ArgumentTuple> - Result Perform(const ArgumentTuple& args) const { - // To get the i-th (0-based) argument, use ::testing::get<i>(args). - return ::testing::get<1>(args); - } -}; -``` - -This implementation class does _not_ need to inherit from any -particular class. What matters is that it must have a `Perform()` -method template. This method template takes the mock function's -arguments as a tuple in a **single** argument, and returns the result of -the action. It can be either `const` or not, but must be invokable -with exactly one template argument, which is the result type. In other -words, you must be able to call `Perform<R>(args)` where `R` is the -mock function's return type and `args` is its arguments in a tuple. - -Next, we use `MakePolymorphicAction()` to turn an instance of the -implementation class into the polymorphic action we need. It will be -convenient to have a wrapper for this: - -```cpp -using ::testing::MakePolymorphicAction; -using ::testing::PolymorphicAction; - -PolymorphicAction<ReturnSecondArgumentAction> ReturnSecondArgument() { - return MakePolymorphicAction(ReturnSecondArgumentAction()); -} -``` - -Now, you can use this polymorphic action the same way you use the -built-in ones: - -```cpp -using ::testing::_; - -class MockFoo : public Foo { - public: - MOCK_METHOD2(DoThis, int(bool flag, int n)); - MOCK_METHOD3(DoThat, string(int x, const char* str1, const char* str2)); -}; -... - - MockFoo foo; - EXPECT_CALL(foo, DoThis(_, _)) - .WillOnce(ReturnSecondArgument()); - EXPECT_CALL(foo, DoThat(_, _, _)) - .WillOnce(ReturnSecondArgument()); - ... - foo.DoThis(true, 5); // Will return 5. - foo.DoThat(1, "Hi", "Bye"); // Will return "Hi". -``` - -## Teaching Google Mock How to Print Your Values ## - -When an uninteresting or unexpected call occurs, Google Mock prints the -argument values and the stack trace to help you debug. Assertion -macros like `EXPECT_THAT` and `EXPECT_EQ` also print the values in -question when the assertion fails. Google Mock and Google Test do this using -Google Test's user-extensible value printer. - -This printer knows how to print built-in C++ types, native arrays, STL -containers, and any type that supports the `<<` operator. For other -types, it prints the raw bytes in the value and hopes that you the -user can figure it out. -[Google Test's advanced guide](../../googletest/docs/advanced.md#teaching-googletest-how-to-print-your-values) -explains how to extend the printer to do a better job at -printing your particular type than to dump the bytes. diff --git a/googlemock/docs/DesignDoc.md b/googlemock/docs/DesignDoc.md deleted file mode 100644 index 4cddc9d..0000000 --- a/googlemock/docs/DesignDoc.md +++ /dev/null @@ -1,282 +0,0 @@ -This page discusses the design of new Google Mock features. - - - -# Macros for Defining Actions # - -## Problem ## - -Due to the lack of closures in C++, it currently requires some -non-trivial effort to define a custom action in Google Mock. For -example, suppose you want to "increment the value pointed to by the -second argument of the mock function and return it", you could write: - -```cpp -int IncrementArg1(Unused, int* p, Unused) { - return ++(*p); -} - -... WillOnce(Invoke(IncrementArg1)); -``` - -There are several things unsatisfactory about this approach: - - * Even though the action only cares about the second argument of the mock function, its definition needs to list other arguments as dummies. This is tedious. - * The defined action is usable only in mock functions that takes exactly 3 arguments - an unnecessary restriction. - * To use the action, one has to say `Invoke(IncrementArg1)`, which isn't as nice as `IncrementArg1()`. - -The latter two problems can be overcome using `MakePolymorphicAction()`, -but it requires much more boilerplate code: - -```cpp -class IncrementArg1Action { - public: - template <typename Result, typename ArgumentTuple> - Result Perform(const ArgumentTuple& args) const { - return ++(*tr1::get<1>(args)); - } -}; - -PolymorphicAction<IncrementArg1Action> IncrementArg1() { - return MakePolymorphicAction(IncrementArg1Action()); -} - -... WillOnce(IncrementArg1()); -``` - -Our goal is to allow defining custom actions with the least amount of -boiler-plate C++ requires. - -## Solution ## - -We propose to introduce a new macro: -```cpp -ACTION(name) { statements; } -``` - -Using this in a namespace scope will define an action with the given -name that executes the statements. Inside the statements, you can -refer to the K-th (0-based) argument of the mock function as `argK`. -For example: -```cpp -ACTION(IncrementArg1) { return ++(*arg1); } -``` -allows you to write -```cpp -... WillOnce(IncrementArg1()); -``` - -Note that you don't need to specify the types of the mock function -arguments, as brevity is a top design goal here. Rest assured that -your code is still type-safe though: you'll get a compiler error if -`*arg1` doesn't support the `++` operator, or if the type of -`++(*arg1)` isn't compatible with the mock function's return type. - -Another example: -```cpp -ACTION(Foo) { - (*arg2)(5); - Blah(); - *arg1 = 0; - return arg0; -} -``` -defines an action `Foo()` that invokes argument #2 (a function pointer) -with 5, calls function `Blah()`, sets the value pointed to by argument -#1 to 0, and returns argument #0. - -For more convenience and flexibility, you can also use the following -pre-defined symbols in the body of `ACTION`: - -| Argument | Description | -|:----------------|:-------------------------------------------------------------| -| `argK_type` | The type of the K-th (0-based) argument of the mock function | -| `args` | All arguments of the mock function as a tuple | -| `args_type` | The type of all arguments of the mock function as a tuple | -| `return_type` | The return type of the mock function | -| `function_type` | The type of the mock function | - -For example, when using an `ACTION` as a stub action for mock function: -```cpp -int DoSomething(bool flag, int* ptr); -``` -we have: - -| **Pre-defined Symbol** | **Is Bound To** | -|:-----------------------|:----------------| -| `arg0` | the value of `flag` | -| `arg0_type` | the type `bool` | -| `arg1` | the value of `ptr` | -| `arg1_type` | the type `int*` | -| `args` | the tuple `(flag, ptr)` | -| `args_type` | the type `std::tr1::tuple<bool, int*>` | -| `return_type` | the type `int` | -| `function_type` | the type `int(bool, int*)` | - -## Parameterized actions ## - -Sometimes you'll want to parameterize the action. For that we propose -another macro -```cpp -ACTION_P(name, param) { statements; } -``` - -For example, -```cpp -ACTION_P(Add, n) { return arg0 + n; } -``` -will allow you to write -```cpp -// Returns argument #0 + 5. -... WillOnce(Add(5)); -``` - -For convenience, we use the term _arguments_ for the values used to -invoke the mock function, and the term _parameters_ for the values -used to instantiate an action. - -Note that you don't need to provide the type of the parameter either. -Suppose the parameter is named `param`, you can also use the -Google-Mock-defined symbol `param_type` to refer to the type of the -parameter as inferred by the compiler. - -We will also provide `ACTION_P2`, `ACTION_P3`, and etc to support -multi-parameter actions. For example, -```cpp -ACTION_P2(ReturnDistanceTo, x, y) { - double dx = arg0 - x; - double dy = arg1 - y; - return sqrt(dx*dx + dy*dy); -} -``` -lets you write -```cpp -... WillOnce(ReturnDistanceTo(5.0, 26.5)); -``` - -You can view `ACTION` as a degenerated parameterized action where the -number of parameters is 0. - -## Advanced Usages ## - -### Overloading Actions ### - -You can easily define actions overloaded on the number of parameters: -```cpp -ACTION_P(Plus, a) { ... } -ACTION_P2(Plus, a, b) { ... } -``` - -### Restricting the Type of an Argument or Parameter ### - -For maximum brevity and reusability, the `ACTION*` macros don't let -you specify the types of the mock function arguments and the action -parameters. Instead, we let the compiler infer the types for us. - -Sometimes, however, we may want to be more explicit about the types. -There are several tricks to do that. For example: -```cpp -ACTION(Foo) { - // Makes sure arg0 can be converted to int. - int n = arg0; - ... use n instead of arg0 here ... -} - -ACTION_P(Bar, param) { - // Makes sure the type of arg1 is const char*. - ::testing::StaticAssertTypeEq<const char*, arg1_type>(); - - // Makes sure param can be converted to bool. - bool flag = param; -} -``` -where `StaticAssertTypeEq` is a compile-time assertion we plan to add to -Google Test (the name is chosen to match `static_assert` in C++0x). - -### Using the ACTION Object's Type ### - -If you are writing a function that returns an `ACTION` object, you'll -need to know its type. The type depends on the macro used to define -the action and the parameter types. The rule is relatively simple: -| **Given Definition** | **Expression** | **Has Type** | -|:-------------------------|:-----------------------------|:-------------------------| -| `ACTION(Foo)` | `Foo()` | `FooAction` | -| `ACTION_P(Bar, param)` | `Bar(int_value)` | `BarActionP<int>` | -| `ACTION_P2(Baz, p1, p2)` | `Baz(bool_value, int_value)` | `BazActionP2<bool, int>` | -| ... | ... | ... | - -Note that we have to pick different suffixes (`Action`, `ActionP`, -`ActionP2`, and etc) for actions with different numbers of parameters, -or the action definitions cannot be overloaded on the number of -parameters. - -## When to Use ## - -While the new macros are very convenient, please also consider other -means of implementing actions (e.g. via `ActionInterface` or -`MakePolymorphicAction()`), especially if you need to use the defined -action a lot. While the other approaches require more work, they give -you more control on the types of the mock function arguments and the -action parameters, which in general leads to better compiler error -messages that pay off in the long run. They also allow overloading -actions based on parameter types, as opposed to just the number of -parameters. - -## Related Work ## - -As you may have realized, the `ACTION*` macros resemble closures (also -known as lambda expressions or anonymous functions). Indeed, both of -them seek to lower the syntactic overhead for defining a function. - -C++0x will support lambdas, but they are not part of C++ right now. -Some non-standard libraries (most notably BLL or Boost Lambda Library) -try to alleviate this problem. However, they are not a good choice -for defining actions as: - - * They are non-standard and not widely installed. Google Mock only depends on standard libraries and `tr1::tuple`, which is part of the new C++ standard and comes with gcc 4+. We want to keep it that way. - * They are not trivial to learn. - * They will become obsolete when C++0x's lambda feature is widely supported. We don't want to make our users use a dying library. - * Since they are based on operators, they are rather ad hoc: you cannot use statements, and you cannot pass the lambda arguments to a function, for example. - * They have subtle semantics that easily confuses new users. For example, in expression `_1++ + foo++`, `foo` will be incremented only once where the expression is evaluated, while `_1` will be incremented every time the unnamed function is invoked. This is far from intuitive. - -`ACTION*` avoid all these problems. - -## Future Improvements ## - -There may be a need for composing `ACTION*` definitions (i.e. invoking -another `ACTION` inside the definition of one `ACTION*`). We are not -sure we want it yet, as one can get a similar effect by putting -`ACTION` definitions in function templates and composing the function -templates. We'll revisit this based on user feedback. - -The reason we don't allow `ACTION*()` inside a function body is that -the current C++ standard doesn't allow function-local types to be used -to instantiate templates. The upcoming C++0x standard will lift this -restriction. Once this feature is widely supported by compilers, we -can revisit the implementation and add support for using `ACTION*()` -inside a function. - -C++0x will also support lambda expressions. When they become -available, we may want to support using lambdas as actions. - -# Macros for Defining Matchers # - -Once the macros for defining actions are implemented, we plan to do -the same for matchers: - -```cpp -MATCHER(name) { statements; } -``` - -where you can refer to the value being matched as `arg`. For example, -given: - -```cpp -MATCHER(IsPositive) { return arg > 0; } -``` - -you can use `IsPositive()` as a matcher that matches a value iff it is -greater than 0. - -We will also add `MATCHER_P`, `MATCHER_P2`, and etc for parameterized -matchers. diff --git a/googlemock/docs/Documentation.md b/googlemock/docs/Documentation.md deleted file mode 100644 index a42bd11..0000000 --- a/googlemock/docs/Documentation.md +++ /dev/null @@ -1,15 +0,0 @@ -This page lists all documentation markdown files for Google Mock **(the -current git version)** --- **if you use a former version of Google Mock, please read the -documentation for that specific version instead (e.g. by checking out -the respective git branch/tag).** - - * [ForDummies](ForDummies.md) -- start here if you are new to Google Mock. - * [CheatSheet](CheatSheet.md) -- a quick reference. - * [CookBook](CookBook.md) -- recipes for doing various tasks using Google Mock. - * [FrequentlyAskedQuestions](FrequentlyAskedQuestions.md) -- check here before asking a question on the mailing list. - -To contribute code to Google Mock, read: - - * [CONTRIBUTING](../../CONTRIBUTING.md) -- read this _before_ writing your first patch. - * [Pump Manual](../../googletest/docs/PumpManual.md) -- how we generate some of Google Mock's source files. diff --git a/googlemock/docs/ForDummies.md b/googlemock/docs/ForDummies.md deleted file mode 100644 index e2a430f..0000000 --- a/googlemock/docs/ForDummies.md +++ /dev/null @@ -1,447 +0,0 @@ - - -(**Note:** If you get compiler errors that you don't understand, be sure to consult [Google Mock Doctor](FrequentlyAskedQuestions.md#how-am-i-supposed-to-make-sense-of-these-horrible-template-errors).) - -# What Is Google C++ Mocking Framework? # -When you write a prototype or test, often it's not feasible or wise to rely on real objects entirely. A **mock object** implements the same interface as a real object (so it can be used as one), but lets you specify at run time how it will be used and what it should do (which methods will be called? in which order? how many times? with what arguments? what will they return? etc). - -**Note:** It is easy to confuse the term _fake objects_ with mock objects. Fakes and mocks actually mean very different things in the Test-Driven Development (TDD) community: - - * **Fake** objects have working implementations, but usually take some shortcut (perhaps to make the operations less expensive), which makes them not suitable for production. An in-memory file system would be an example of a fake. - * **Mocks** are objects pre-programmed with _expectations_, which form a specification of the calls they are expected to receive. - -If all this seems too abstract for you, don't worry - the most important thing to remember is that a mock allows you to check the _interaction_ between itself and code that uses it. The difference between fakes and mocks will become much clearer once you start to use mocks. - -**Google C++ Mocking Framework** (or **Google Mock** for short) is a library (sometimes we also call it a "framework" to make it sound cool) for creating mock classes and using them. It does to C++ what [jMock](http://www.jmock.org/) and [EasyMock](http://www.easymock.org/) do to Java. - -Using Google Mock involves three basic steps: - - 1. Use some simple macros to describe the interface you want to mock, and they will expand to the implementation of your mock class; - 1. Create some mock objects and specify its expectations and behavior using an intuitive syntax; - 1. Exercise code that uses the mock objects. Google Mock will catch any violation of the expectations as soon as it arises. - -# Why Google Mock? # -While mock objects help you remove unnecessary dependencies in tests and make them fast and reliable, using mocks manually in C++ is _hard_: - - * Someone has to implement the mocks. The job is usually tedious and error-prone. No wonder people go great distances to avoid it. - * The quality of those manually written mocks is a bit, uh, unpredictable. You may see some really polished ones, but you may also see some that were hacked up in a hurry and have all sorts of ad-hoc restrictions. - * The knowledge you gained from using one mock doesn't transfer to the next. - -In contrast, Java and Python programmers have some fine mock frameworks, which automate the creation of mocks. As a result, mocking is a proven effective technique and widely adopted practice in those communities. Having the right tool absolutely makes the difference. - -Google Mock was built to help C++ programmers. It was inspired by [jMock](http://www.jmock.org/) and [EasyMock](http://www.easymock.org/), but designed with C++'s specifics in mind. It is your friend if any of the following problems is bothering you: - - * You are stuck with a sub-optimal design and wish you had done more prototyping before it was too late, but prototyping in C++ is by no means "rapid". - * Your tests are slow as they depend on too many libraries or use expensive resources (e.g. a database). - * Your tests are brittle as some resources they use are unreliable (e.g. the network). - * You want to test how your code handles a failure (e.g. a file checksum error), but it's not easy to cause one. - * You need to make sure that your module interacts with other modules in the right way, but it's hard to observe the interaction; therefore you resort to observing the side effects at the end of the action, which is awkward at best. - * You want to "mock out" your dependencies, except that they don't have mock implementations yet; and, frankly, you aren't thrilled by some of those hand-written mocks. - -We encourage you to use Google Mock as: - - * a _design_ tool, for it lets you experiment with your interface design early and often. More iterations lead to better designs! - * a _testing_ tool to cut your tests' outbound dependencies and probe the interaction between your module and its collaborators. - -# Getting Started # -Using Google Mock is easy! Inside your C++ source file, just `#include` `"gtest/gtest.h"` and `"gmock/gmock.h"`, and you are ready to go. - -# A Case for Mock Turtles # -Let's look at an example. Suppose you are developing a graphics program that relies on a LOGO-like API for drawing. How would you test that it does the right thing? Well, you can run it and compare the screen with a golden screen snapshot, but let's admit it: tests like this are expensive to run and fragile (What if you just upgraded to a shiny new graphics card that has better anti-aliasing? Suddenly you have to update all your golden images.). It would be too painful if all your tests are like this. Fortunately, you learned about Dependency Injection and know the right thing to do: instead of having your application talk to the drawing API directly, wrap the API in an interface (say, `Turtle`) and code to that interface: - -```cpp -class Turtle { - ... - virtual ~Turtle() {} - virtual void PenUp() = 0; - virtual void PenDown() = 0; - virtual void Forward(int distance) = 0; - virtual void Turn(int degrees) = 0; - virtual void GoTo(int x, int y) = 0; - virtual int GetX() const = 0; - virtual int GetY() const = 0; -}; -``` - -(Note that the destructor of `Turtle` **must** be virtual, as is the case for **all** classes you intend to inherit from - otherwise the destructor of the derived class will not be called when you delete an object through a base pointer, and you'll get corrupted program states like memory leaks.) - -You can control whether the turtle's movement will leave a trace using `PenUp()` and `PenDown()`, and control its movement using `Forward()`, `Turn()`, and `GoTo()`. Finally, `GetX()` and `GetY()` tell you the current position of the turtle. - -Your program will normally use a real implementation of this interface. In tests, you can use a mock implementation instead. This allows you to easily check what drawing primitives your program is calling, with what arguments, and in which order. Tests written this way are much more robust (they won't break because your new machine does anti-aliasing differently), easier to read and maintain (the intent of a test is expressed in the code, not in some binary images), and run _much, much faster_. - -# Writing the Mock Class # -If you are lucky, the mocks you need to use have already been implemented by some nice people. If, however, you find yourself in the position to write a mock class, relax - Google Mock turns this task into a fun game! (Well, almost.) - -## How to Define It ## -Using the `Turtle` interface as example, here are the simple steps you need to follow: - - 1. Derive a class `MockTurtle` from `Turtle`. - 1. Take a _virtual_ function of `Turtle` (while it's possible to [mock non-virtual methods using templates](CookBook.md#mocking-nonvirtual-methods), it's much more involved). Count how many arguments it has. - 1. In the `public:` section of the child class, write `MOCK_METHODn();` (or `MOCK_CONST_METHODn();` if you are mocking a `const` method), where `n` is the number of the arguments; if you counted wrong, shame on you, and a compiler error will tell you so. - 1. Now comes the fun part: you take the function signature, cut-and-paste the _function name_ as the _first_ argument to the macro, and leave what's left as the _second_ argument (in case you're curious, this is the _type of the function_). - 1. Repeat until all virtual functions you want to mock are done. - -After the process, you should have something like: - -```cpp -#include "gmock/gmock.h" // Brings in Google Mock. -class MockTurtle : public Turtle { - public: - ... - MOCK_METHOD0(PenUp, void()); - MOCK_METHOD0(PenDown, void()); - MOCK_METHOD1(Forward, void(int distance)); - MOCK_METHOD1(Turn, void(int degrees)); - MOCK_METHOD2(GoTo, void(int x, int y)); - MOCK_CONST_METHOD0(GetX, int()); - MOCK_CONST_METHOD0(GetY, int()); -}; -``` - -You don't need to define these mock methods somewhere else - the `MOCK_METHOD*` macros will generate the definitions for you. It's that simple! Once you get the hang of it, you can pump out mock classes faster than your source-control system can handle your check-ins. - -**Tip:** If even this is too much work for you, you'll find the -`gmock_gen.py` tool in Google Mock's `scripts/generator/` directory (courtesy of the [cppclean](http://code.google.com/p/cppclean/) project) useful. This command-line -tool requires that you have Python 2.4 installed. You give it a C++ file and the name of an abstract class defined in it, -and it will print the definition of the mock class for you. Due to the -complexity of the C++ language, this script may not always work, but -it can be quite handy when it does. For more details, read the [user documentation](../scripts/generator/README). - -## Where to Put It ## -When you define a mock class, you need to decide where to put its definition. Some people put it in a `*_test.cc`. This is fine when the interface being mocked (say, `Foo`) is owned by the same person or team. Otherwise, when the owner of `Foo` changes it, your test could break. (You can't really expect `Foo`'s maintainer to fix every test that uses `Foo`, can you?) - -So, the rule of thumb is: if you need to mock `Foo` and it's owned by others, define the mock class in `Foo`'s package (better, in a `testing` sub-package such that you can clearly separate production code and testing utilities), and put it in a `mock_foo.h`. Then everyone can reference `mock_foo.h` from their tests. If `Foo` ever changes, there is only one copy of `MockFoo` to change, and only tests that depend on the changed methods need to be fixed. - -Another way to do it: you can introduce a thin layer `FooAdaptor` on top of `Foo` and code to this new interface. Since you own `FooAdaptor`, you can absorb changes in `Foo` much more easily. While this is more work initially, carefully choosing the adaptor interface can make your code easier to write and more readable (a net win in the long run), as you can choose `FooAdaptor` to fit your specific domain much better than `Foo` does. - -# Using Mocks in Tests # -Once you have a mock class, using it is easy. The typical work flow is: - - 1. Import the Google Mock names from the `testing` namespace such that you can use them unqualified (You only have to do it once per file. Remember that namespaces are a good idea and good for your health.). - 1. Create some mock objects. - 1. Specify your expectations on them (How many times will a method be called? With what arguments? What should it do? etc.). - 1. Exercise some code that uses the mocks; optionally, check the result using Google Test assertions. If a mock method is called more than expected or with wrong arguments, you'll get an error immediately. - 1. When a mock is destructed, Google Mock will automatically check whether all expectations on it have been satisfied. - -Here's an example: - -```cpp -#include "path/to/mock-turtle.h" -#include "gmock/gmock.h" -#include "gtest/gtest.h" -using ::testing::AtLeast; // #1 - -TEST(PainterTest, CanDrawSomething) { - MockTurtle turtle; // #2 - EXPECT_CALL(turtle, PenDown()) // #3 - .Times(AtLeast(1)); - - Painter painter(&turtle); // #4 - - EXPECT_TRUE(painter.DrawCircle(0, 0, 10)); -} // #5 - -int main(int argc, char** argv) { - // The following line must be executed to initialize Google Mock - // (and Google Test) before running the tests. - ::testing::InitGoogleMock(&argc, argv); - return RUN_ALL_TESTS(); -} -``` - -As you might have guessed, this test checks that `PenDown()` is called at least once. If the `painter` object didn't call this method, your test will fail with a message like this: - -``` -path/to/my_test.cc:119: Failure -Actual function call count doesn't match this expectation: -Actually: never called; -Expected: called at least once. -``` - -**Tip 1:** If you run the test from an Emacs buffer, you can hit `<Enter>` on the line number displayed in the error message to jump right to the failed expectation. - -**Tip 2:** If your mock objects are never deleted, the final verification won't happen. Therefore it's a good idea to use a heap leak checker in your tests when you allocate mocks on the heap. - -**Important note:** Google Mock requires expectations to be set **before** the mock functions are called, otherwise the behavior is **undefined**. In particular, you mustn't interleave `EXPECT_CALL()`s and calls to the mock functions. - -This means `EXPECT_CALL()` should be read as expecting that a call will occur _in the future_, not that a call has occurred. Why does Google Mock work like that? Well, specifying the expectation beforehand allows Google Mock to report a violation as soon as it arises, when the context (stack trace, etc) is still available. This makes debugging much easier. - -Admittedly, this test is contrived and doesn't do much. You can easily achieve the same effect without using Google Mock. However, as we shall reveal soon, Google Mock allows you to do _much more_ with the mocks. - -## Using Google Mock with Any Testing Framework ## -If you want to use something other than Google Test (e.g. [CppUnit](http://sourceforge.net/projects/cppunit/) or -[CxxTest](https://cxxtest.com/)) as your testing framework, just change the `main()` function in the previous section to: -```cpp -int main(int argc, char** argv) { - // The following line causes Google Mock to throw an exception on failure, - // which will be interpreted by your testing framework as a test failure. - ::testing::GTEST_FLAG(throw_on_failure) = true; - ::testing::InitGoogleMock(&argc, argv); - ... whatever your testing framework requires ... -} -``` - -This approach has a catch: it makes Google Mock throw an exception -from a mock object's destructor sometimes. With some compilers, this -sometimes causes the test program to crash. You'll still be able to -notice that the test has failed, but it's not a graceful failure. - -A better solution is to use Google Test's -[event listener API](../../googletest/docs/advanced.md#extending-googletest-by-handling-test-events) -to report a test failure to your testing framework properly. You'll need to -implement the `OnTestPartResult()` method of the event listener interface, but it -should be straightforward. - -If this turns out to be too much work, we suggest that you stick with -Google Test, which works with Google Mock seamlessly (in fact, it is -technically part of Google Mock.). If there is a reason that you -cannot use Google Test, please let us know. - -# Setting Expectations # -The key to using a mock object successfully is to set the _right expectations_ on it. If you set the expectations too strict, your test will fail as the result of unrelated changes. If you set them too loose, bugs can slip through. You want to do it just right such that your test can catch exactly the kind of bugs you intend it to catch. Google Mock provides the necessary means for you to do it "just right." - -## General Syntax ## -In Google Mock we use the `EXPECT_CALL()` macro to set an expectation on a mock method. The general syntax is: - -```cpp -EXPECT_CALL(mock_object, method(matchers)) - .Times(cardinality) - .WillOnce(action) - .WillRepeatedly(action); -``` - -The macro has two arguments: first the mock object, and then the method and its arguments. Note that the two are separated by a comma (`,`), not a period (`.`). (Why using a comma? The answer is that it was necessary for technical reasons.) - -The macro can be followed by some optional _clauses_ that provide more information about the expectation. We'll discuss how each clause works in the coming sections. - -This syntax is designed to make an expectation read like English. For example, you can probably guess that - -```cpp -using ::testing::Return; -... -EXPECT_CALL(turtle, GetX()) - .Times(5) - .WillOnce(Return(100)) - .WillOnce(Return(150)) - .WillRepeatedly(Return(200)); -``` - -says that the `turtle` object's `GetX()` method will be called five times, it will return 100 the first time, 150 the second time, and then 200 every time. Some people like to call this style of syntax a Domain-Specific Language (DSL). - -**Note:** Why do we use a macro to do this? It serves two purposes: first it makes expectations easily identifiable (either by `grep` or by a human reader), and second it allows Google Mock to include the source file location of a failed expectation in messages, making debugging easier. - -## Matchers: What Arguments Do We Expect? ## -When a mock function takes arguments, we must specify what arguments we are expecting; for example: - -```cpp -// Expects the turtle to move forward by 100 units. -EXPECT_CALL(turtle, Forward(100)); -``` - -Sometimes you may not want to be too specific (Remember that talk about tests being too rigid? Over specification leads to brittle tests and obscures the intent of tests. Therefore we encourage you to specify only what's necessary - no more, no less.). If you care to check that `Forward()` will be called but aren't interested in its actual argument, write `_` as the argument, which means "anything goes": - -```cpp -using ::testing::_; -... -// Expects the turtle to move forward. -EXPECT_CALL(turtle, Forward(_)); -``` - -`_` is an instance of what we call **matchers**. A matcher is like a predicate and can test whether an argument is what we'd expect. You can use a matcher inside `EXPECT_CALL()` wherever a function argument is expected. - -A list of built-in matchers can be found in the [CheatSheet](CheatSheet.md). For example, here's the `Ge` (greater than or equal) matcher: - -```cpp -using ::testing::Ge; -... -EXPECT_CALL(turtle, Forward(Ge(100))); -``` - -This checks that the turtle will be told to go forward by at least 100 units. - -## Cardinalities: How Many Times Will It Be Called? ## -The first clause we can specify following an `EXPECT_CALL()` is `Times()`. We call its argument a **cardinality** as it tells _how many times_ the call should occur. It allows us to repeat an expectation many times without actually writing it as many times. More importantly, a cardinality can be "fuzzy", just like a matcher can be. This allows a user to express the intent of a test exactly. - -An interesting special case is when we say `Times(0)`. You may have guessed - it means that the function shouldn't be called with the given arguments at all, and Google Mock will report a Google Test failure whenever the function is (wrongfully) called. - -We've seen `AtLeast(n)` as an example of fuzzy cardinalities earlier. For the list of built-in cardinalities you can use, see the [CheatSheet](CheatSheet.md). - -The `Times()` clause can be omitted. **If you omit `Times()`, Google Mock will infer the cardinality for you.** The rules are easy to remember: - - * If **neither** `WillOnce()` **nor** `WillRepeatedly()` is in the `EXPECT_CALL()`, the inferred cardinality is `Times(1)`. - * If there are `n WillOnce()`'s but **no** `WillRepeatedly()`, where `n` >= 1, the cardinality is `Times(n)`. - * If there are `n WillOnce()`'s and **one** `WillRepeatedly()`, where `n` >= 0, the cardinality is `Times(AtLeast(n))`. - -**Quick quiz:** what do you think will happen if a function is expected to be called twice but actually called four times? - -## Actions: What Should It Do? ## -Remember that a mock object doesn't really have a working implementation? We as users have to tell it what to do when a method is invoked. This is easy in Google Mock. - -First, if the return type of a mock function is a built-in type or a pointer, the function has a **default action** (a `void` function will just return, a `bool` function will return `false`, and other functions will return 0). In addition, in C++ 11 and above, a mock function whose return type is default-constructible (i.e. has a default constructor) has a default action of returning a default-constructed value. If you don't say anything, this behavior will be used. - -Second, if a mock function doesn't have a default action, or the default action doesn't suit you, you can specify the action to be taken each time the expectation matches using a series of `WillOnce()` clauses followed by an optional `WillRepeatedly()`. For example, - -```cpp -using ::testing::Return; -... -EXPECT_CALL(turtle, GetX()) - .WillOnce(Return(100)) - .WillOnce(Return(200)) - .WillOnce(Return(300)); -``` - -This says that `turtle.GetX()` will be called _exactly three times_ (Google Mock inferred this from how many `WillOnce()` clauses we've written, since we didn't explicitly write `Times()`), and will return 100, 200, and 300 respectively. - -```cpp -using ::testing::Return; -... -EXPECT_CALL(turtle, GetY()) - .WillOnce(Return(100)) - .WillOnce(Return(200)) - .WillRepeatedly(Return(300)); -``` - -says that `turtle.GetY()` will be called _at least twice_ (Google Mock knows this as we've written two `WillOnce()` clauses and a `WillRepeatedly()` while having no explicit `Times()`), will return 100 the first time, 200 the second time, and 300 from the third time on. - -Of course, if you explicitly write a `Times()`, Google Mock will not try to infer the cardinality itself. What if the number you specified is larger than there are `WillOnce()` clauses? Well, after all `WillOnce()`s are used up, Google Mock will do the _default_ action for the function every time (unless, of course, you have a `WillRepeatedly()`.). - -What can we do inside `WillOnce()` besides `Return()`? You can return a reference using `ReturnRef(variable)`, or invoke a pre-defined function, among [others](CheatSheet.md#actions). - -**Important note:** The `EXPECT_CALL()` statement evaluates the action clause only once, even though the action may be performed many times. Therefore you must be careful about side effects. The following may not do what you want: - -```cpp -int n = 100; -EXPECT_CALL(turtle, GetX()) -.Times(4) -.WillRepeatedly(Return(n++)); -``` - -Instead of returning 100, 101, 102, ..., consecutively, this mock function will always return 100 as `n++` is only evaluated once. Similarly, `Return(new Foo)` will create a new `Foo` object when the `EXPECT_CALL()` is executed, and will return the same pointer every time. If you want the side effect to happen every time, you need to define a custom action, which we'll teach in the [CookBook](CookBook.md). - -Time for another quiz! What do you think the following means? - -```cpp -using ::testing::Return; -... -EXPECT_CALL(turtle, GetY()) -.Times(4) -.WillOnce(Return(100)); -``` - -Obviously `turtle.GetY()` is expected to be called four times. But if you think it will return 100 every time, think twice! Remember that one `WillOnce()` clause will be consumed each time the function is invoked and the default action will be taken afterwards. So the right answer is that `turtle.GetY()` will return 100 the first time, but **return 0 from the second time on**, as returning 0 is the default action for `int` functions. - -## Using Multiple Expectations ## -So far we've only shown examples where you have a single expectation. More realistically, you're going to specify expectations on multiple mock methods, which may be from multiple mock objects. - -By default, when a mock method is invoked, Google Mock will search the expectations in the **reverse order** they are defined, and stop when an active expectation that matches the arguments is found (you can think of it as "newer rules override older ones."). If the matching expectation cannot take any more calls, you will get an upper-bound-violated failure. Here's an example: - -```cpp -using ::testing::_; -... -EXPECT_CALL(turtle, Forward(_)); // #1 -EXPECT_CALL(turtle, Forward(10)) // #2 - .Times(2); -``` - -If `Forward(10)` is called three times in a row, the third time it will be an error, as the last matching expectation (#2) has been saturated. If, however, the third `Forward(10)` call is replaced by `Forward(20)`, then it would be OK, as now #1 will be the matching expectation. - -**Side note:** Why does Google Mock search for a match in the _reverse_ order of the expectations? The reason is that this allows a user to set up the default expectations in a mock object's constructor or the test fixture's set-up phase and then customize the mock by writing more specific expectations in the test body. So, if you have two expectations on the same method, you want to put the one with more specific matchers **after** the other, or the more specific rule would be shadowed by the more general one that comes after it. - -## Ordered vs Unordered Calls ## -By default, an expectation can match a call even though an earlier expectation hasn't been satisfied. In other words, the calls don't have to occur in the order the expectations are specified. - -Sometimes, you may want all the expected calls to occur in a strict order. To say this in Google Mock is easy: - -```cpp -using ::testing::InSequence; -... -TEST(FooTest, DrawsLineSegment) { - ... - { - InSequence dummy; - - EXPECT_CALL(turtle, PenDown()); - EXPECT_CALL(turtle, Forward(100)); - EXPECT_CALL(turtle, PenUp()); - } - Foo(); -} -``` - -By creating an object of type `InSequence`, all expectations in its scope are put into a _sequence_ and have to occur _sequentially_. Since we are just relying on the constructor and destructor of this object to do the actual work, its name is really irrelevant. - -In this example, we test that `Foo()` calls the three expected functions in the order as written. If a call is made out-of-order, it will be an error. - -(What if you care about the relative order of some of the calls, but not all of them? Can you specify an arbitrary partial order? The answer is ... yes! If you are impatient, the details can be found in the [CookBook](CookBook.md#expecting-partially-ordered-calls).) - -## All Expectations Are Sticky (Unless Said Otherwise) ## -Now let's do a quick quiz to see how well you can use this mock stuff already. How would you test that the turtle is asked to go to the origin _exactly twice_ (you want to ignore any other instructions it receives)? - -After you've come up with your answer, take a look at ours and compare notes (solve it yourself first - don't cheat!): - -```cpp -using ::testing::_; -... -EXPECT_CALL(turtle, GoTo(_, _)) // #1 - .Times(AnyNumber()); -EXPECT_CALL(turtle, GoTo(0, 0)) // #2 - .Times(2); -``` - -Suppose `turtle.GoTo(0, 0)` is called three times. In the third time, Google Mock will see that the arguments match expectation #2 (remember that we always pick the last matching expectation). Now, since we said that there should be only two such calls, Google Mock will report an error immediately. This is basically what we've told you in the "Using Multiple Expectations" section above. - -This example shows that **expectations in Google Mock are "sticky" by default**, in the sense that they remain active even after we have reached their invocation upper bounds. This is an important rule to remember, as it affects the meaning of the spec, and is **different** to how it's done in many other mocking frameworks (Why'd we do that? Because we think our rule makes the common cases easier to express and understand.). - -Simple? Let's see if you've really understood it: what does the following code say? - -```cpp -using ::testing::Return; -... -for (int i = n; i > 0; i--) { - EXPECT_CALL(turtle, GetX()) - .WillOnce(Return(10*i)); -} -``` - -If you think it says that `turtle.GetX()` will be called `n` times and will return 10, 20, 30, ..., consecutively, think twice! The problem is that, as we said, expectations are sticky. So, the second time `turtle.GetX()` is called, the last (latest) `EXPECT_CALL()` statement will match, and will immediately lead to an "upper bound exceeded" error - this piece of code is not very useful! - -One correct way of saying that `turtle.GetX()` will return 10, 20, 30, ..., is to explicitly say that the expectations are _not_ sticky. In other words, they should _retire_ as soon as they are saturated: - -```cpp -using ::testing::Return; -... -for (int i = n; i > 0; i--) { - EXPECT_CALL(turtle, GetX()) - .WillOnce(Return(10*i)) - .RetiresOnSaturation(); -} -``` - -And, there's a better way to do it: in this case, we expect the calls to occur in a specific order, and we line up the actions to match the order. Since the order is important here, we should make it explicit using a sequence: - -```cpp -using ::testing::InSequence; -using ::testing::Return; -... -{ - InSequence s; - - for (int i = 1; i <= n; i++) { - EXPECT_CALL(turtle, GetX()) - .WillOnce(Return(10*i)) - .RetiresOnSaturation(); - } -} -``` - -By the way, the other situation where an expectation may _not_ be sticky is when it's in a sequence - as soon as another expectation that comes after it in the sequence has been used, it automatically retires (and will never be used to match any call). - -## Uninteresting Calls ## -A mock object may have many methods, and not all of them are that interesting. For example, in some tests we may not care about how many times `GetX()` and `GetY()` get called. - -In Google Mock, if you are not interested in a method, just don't say anything about it. If a call to this method occurs, you'll see a warning in the test output, but it won't be a failure. - -# What Now? # -Congratulations! You've learned enough about Google Mock to start using it. Now, you might want to join the [googlemock](http://groups.google.com/group/googlemock) discussion group and actually write some tests using Google Mock - it will be fun. Hey, it may even be addictive - you've been warned. - -Then, if you feel like increasing your mock quotient, you should move on to the [CookBook](CookBook.md). You can learn many advanced features of Google Mock there -- and advance your level of enjoyment and testing bliss. diff --git a/googlemock/docs/FrequentlyAskedQuestions.md b/googlemock/docs/FrequentlyAskedQuestions.md deleted file mode 100644 index e91f038..0000000 --- a/googlemock/docs/FrequentlyAskedQuestions.md +++ /dev/null @@ -1,627 +0,0 @@ - - -Please send your questions to the -[googlemock](http://groups.google.com/group/googlemock) discussion -group. If you need help with compiler errors, make sure you have -tried [Google Mock Doctor](#how-am-i-supposed-to-make-sense-of-these-horrible-template-errors) first. - -## When I call a method on my mock object, the method for the real object is invoked instead. What's the problem? ## - -In order for a method to be mocked, it must be _virtual_, unless you use the [high-perf dependency injection technique](CookBook.md#mocking-nonvirtual-methods). - -## I wrote some matchers. After I upgraded to a new version of Google Mock, they no longer compile. What's going on? ## - -After version 1.4.0 of Google Mock was released, we had an idea on how -to make it easier to write matchers that can generate informative -messages efficiently. We experimented with this idea and liked what -we saw. Therefore we decided to implement it. - -Unfortunately, this means that if you have defined your own matchers -by implementing `MatcherInterface` or using `MakePolymorphicMatcher()`, -your definitions will no longer compile. Matchers defined using the -`MATCHER*` family of macros are not affected. - -Sorry for the hassle if your matchers are affected. We believe it's -in everyone's long-term interest to make this change sooner than -later. Fortunately, it's usually not hard to migrate an existing -matcher to the new API. Here's what you need to do: - -If you wrote your matcher like this: -```cpp -// Old matcher definition that doesn't work with the latest -// Google Mock. -using ::testing::MatcherInterface; -... -class MyWonderfulMatcher : public MatcherInterface<MyType> { - public: - ... - virtual bool Matches(MyType value) const { - // Returns true if value matches. - return value.GetFoo() > 5; - } - ... -}; -``` - -you'll need to change it to: -```cpp -// New matcher definition that works with the latest Google Mock. -using ::testing::MatcherInterface; -using ::testing::MatchResultListener; -... -class MyWonderfulMatcher : public MatcherInterface<MyType> { - public: - ... - virtual bool MatchAndExplain(MyType value, - MatchResultListener* listener) const { - // Returns true if value matches. - return value.GetFoo() > 5; - } - ... -}; -``` -(i.e. rename `Matches()` to `MatchAndExplain()` and give it a second -argument of type `MatchResultListener*`.) - -If you were also using `ExplainMatchResultTo()` to improve the matcher -message: -```cpp -// Old matcher definition that doesn't work with the lastest -// Google Mock. -using ::testing::MatcherInterface; -... -class MyWonderfulMatcher : public MatcherInterface<MyType> { - public: - ... - virtual bool Matches(MyType value) const { - // Returns true if value matches. - return value.GetFoo() > 5; - } - - virtual void ExplainMatchResultTo(MyType value, - ::std::ostream* os) const { - // Prints some helpful information to os to help - // a user understand why value matches (or doesn't match). - *os << "the Foo property is " << value.GetFoo(); - } - ... -}; -``` - -you should move the logic of `ExplainMatchResultTo()` into -`MatchAndExplain()`, using the `MatchResultListener` argument where -the `::std::ostream` was used: -```cpp -// New matcher definition that works with the latest Google Mock. -using ::testing::MatcherInterface; -using ::testing::MatchResultListener; -... -class MyWonderfulMatcher : public MatcherInterface<MyType> { - public: - ... - virtual bool MatchAndExplain(MyType value, - MatchResultListener* listener) const { - // Returns true if value matches. - *listener << "the Foo property is " << value.GetFoo(); - return value.GetFoo() > 5; - } - ... -}; -``` - -If your matcher is defined using `MakePolymorphicMatcher()`: -```cpp -// Old matcher definition that doesn't work with the latest -// Google Mock. -using ::testing::MakePolymorphicMatcher; -... -class MyGreatMatcher { - public: - ... - bool Matches(MyType value) const { - // Returns true if value matches. - return value.GetBar() < 42; - } - ... -}; -... MakePolymorphicMatcher(MyGreatMatcher()) ... -``` - -you should rename the `Matches()` method to `MatchAndExplain()` and -add a `MatchResultListener*` argument (the same as what you need to do -for matchers defined by implementing `MatcherInterface`): -```cpp -// New matcher definition that works with the latest Google Mock. -using ::testing::MakePolymorphicMatcher; -using ::testing::MatchResultListener; -... -class MyGreatMatcher { - public: - ... - bool MatchAndExplain(MyType value, - MatchResultListener* listener) const { - // Returns true if value matches. - return value.GetBar() < 42; - } - ... -}; -... MakePolymorphicMatcher(MyGreatMatcher()) ... -``` - -If your polymorphic matcher uses `ExplainMatchResultTo()` for better -failure messages: -```cpp -// Old matcher definition that doesn't work with the latest -// Google Mock. -using ::testing::MakePolymorphicMatcher; -... -class MyGreatMatcher { - public: - ... - bool Matches(MyType value) const { - // Returns true if value matches. - return value.GetBar() < 42; - } - ... -}; -void ExplainMatchResultTo(const MyGreatMatcher& matcher, - MyType value, - ::std::ostream* os) { - // Prints some helpful information to os to help - // a user understand why value matches (or doesn't match). - *os << "the Bar property is " << value.GetBar(); -} -... MakePolymorphicMatcher(MyGreatMatcher()) ... -``` - -you'll need to move the logic inside `ExplainMatchResultTo()` to -`MatchAndExplain()`: -```cpp -// New matcher definition that works with the latest Google Mock. -using ::testing::MakePolymorphicMatcher; -using ::testing::MatchResultListener; -... -class MyGreatMatcher { - public: - ... - bool MatchAndExplain(MyType value, - MatchResultListener* listener) const { - // Returns true if value matches. - *listener << "the Bar property is " << value.GetBar(); - return value.GetBar() < 42; - } - ... -}; -... MakePolymorphicMatcher(MyGreatMatcher()) ... -``` - -For more information, you can read these -[two](CookBook.md#writing-new-monomorphic-matchers) -[recipes](CookBook.md#writing-new-polymorphic-matchers) -from the cookbook. As always, you -are welcome to post questions on `googlemock@googlegroups.com` if you -need any help. - -## When using Google Mock, do I have to use Google Test as the testing framework? I have my favorite testing framework and don't want to switch. ## - -Google Mock works out of the box with Google Test. However, it's easy -to configure it to work with any testing framework of your choice. -[Here](ForDummies.md#using-google-mock-with-any-testing-framework) is how. - -## How am I supposed to make sense of these horrible template errors? ## - -If you are confused by the compiler errors gcc threw at you, -try consulting the _Google Mock Doctor_ tool first. What it does is to -scan stdin for gcc error messages, and spit out diagnoses on the -problems (we call them diseases) your code has. - -To "install", run command: -``` -alias gmd='<path to googlemock>/scripts/gmock_doctor.py' -``` - -To use it, do: -``` -<your-favorite-build-command> <your-test> 2>&1 | gmd -``` - -For example: -``` -make my_test 2>&1 | gmd -``` - -Or you can run `gmd` and copy-n-paste gcc's error messages to it. - -## Can I mock a variadic function? ## - -You cannot mock a variadic function (i.e. a function taking ellipsis -(`...`) arguments) directly in Google Mock. - -The problem is that in general, there is _no way_ for a mock object to -know how many arguments are passed to the variadic method, and what -the arguments' types are. Only the _author of the base class_ knows -the protocol, and we cannot look into their head. - -Therefore, to mock such a function, the _user_ must teach the mock -object how to figure out the number of arguments and their types. One -way to do it is to provide overloaded versions of the function. - -Ellipsis arguments are inherited from C and not really a C++ feature. -They are unsafe to use and don't work with arguments that have -constructors or destructors. Therefore we recommend to avoid them in -C++ as much as possible. - -## MSVC gives me warning C4301 or C4373 when I define a mock method with a const parameter. Why? ## - -If you compile this using Microsoft Visual C++ 2005 SP1: -```cpp -class Foo { - ... - virtual void Bar(const int i) = 0; -}; - -class MockFoo : public Foo { - ... - MOCK_METHOD1(Bar, void(const int i)); -}; -``` -You may get the following warning: -``` -warning C4301: 'MockFoo::Bar': overriding virtual function only differs from 'Foo::Bar' by const/volatile qualifier -``` - -This is a MSVC bug. The same code compiles fine with gcc ,for -example. If you use Visual C++ 2008 SP1, you would get the warning: -``` -warning C4373: 'MockFoo::Bar': virtual function overrides 'Foo::Bar', previous versions of the compiler did not override when parameters only differed by const/volatile qualifiers -``` - -In C++, if you _declare_ a function with a `const` parameter, the -`const` modifier is _ignored_. Therefore, the `Foo` base class above -is equivalent to: -```cpp -class Foo { - ... - virtual void Bar(int i) = 0; // int or const int? Makes no difference. -}; -``` - -In fact, you can _declare_ Bar() with an `int` parameter, and _define_ -it with a `const int` parameter. The compiler will still match them -up. - -Since making a parameter `const` is meaningless in the method -_declaration_, we recommend to remove it in both `Foo` and `MockFoo`. -That should workaround the VC bug. - -Note that we are talking about the _top-level_ `const` modifier here. -If the function parameter is passed by pointer or reference, declaring -the _pointee_ or _referee_ as `const` is still meaningful. For -example, the following two declarations are _not_ equivalent: -```cpp -void Bar(int* p); // Neither p nor *p is const. -void Bar(const int* p); // p is not const, but *p is. -``` - -## I have a huge mock class, and Microsoft Visual C++ runs out of memory when compiling it. What can I do? ## - -We've noticed that when the `/clr` compiler flag is used, Visual C++ -uses 5~6 times as much memory when compiling a mock class. We suggest -to avoid `/clr` when compiling native C++ mocks. - -## I can't figure out why Google Mock thinks my expectations are not satisfied. What should I do? ## - -You might want to run your test with -`--gmock_verbose=info`. This flag lets Google Mock print a trace -of every mock function call it receives. By studying the trace, -you'll gain insights on why the expectations you set are not met. - -## How can I assert that a function is NEVER called? ## - -```cpp -EXPECT_CALL(foo, Bar(_)) - .Times(0); -``` - -## I have a failed test where Google Mock tells me TWICE that a particular expectation is not satisfied. Isn't this redundant? ## - -When Google Mock detects a failure, it prints relevant information -(the mock function arguments, the state of relevant expectations, and -etc) to help the user debug. If another failure is detected, Google -Mock will do the same, including printing the state of relevant -expectations. - -Sometimes an expectation's state didn't change between two failures, -and you'll see the same description of the state twice. They are -however _not_ redundant, as they refer to _different points in time_. -The fact they are the same _is_ interesting information. - -## I get a heap check failure when using a mock object, but using a real object is fine. What can be wrong? ## - -Does the class (hopefully a pure interface) you are mocking have a -virtual destructor? - -Whenever you derive from a base class, make sure its destructor is -virtual. Otherwise Bad Things will happen. Consider the following -code: - -```cpp -class Base { - public: - // Not virtual, but should be. - ~Base() { ... } - ... -}; - -class Derived : public Base { - public: - ... - private: - std::string value_; -}; - -... - Base* p = new Derived; - ... - delete p; // Surprise! ~Base() will be called, but ~Derived() will not - // - value_ is leaked. -``` - -By changing `~Base()` to virtual, `~Derived()` will be correctly -called when `delete p` is executed, and the heap checker -will be happy. - -## The "newer expectations override older ones" rule makes writing expectations awkward. Why does Google Mock do that? ## - -When people complain about this, often they are referring to code like: - -```cpp -// foo.Bar() should be called twice, return 1 the first time, and return -// 2 the second time. However, I have to write the expectations in the -// reverse order. This sucks big time!!! -EXPECT_CALL(foo, Bar()) - .WillOnce(Return(2)) - .RetiresOnSaturation(); -EXPECT_CALL(foo, Bar()) - .WillOnce(Return(1)) - .RetiresOnSaturation(); -``` - -The problem is that they didn't pick the **best** way to express the test's -intent. - -By default, expectations don't have to be matched in _any_ particular -order. If you want them to match in a certain order, you need to be -explicit. This is Google Mock's (and jMock's) fundamental philosophy: it's -easy to accidentally over-specify your tests, and we want to make it -harder to do so. - -There are two better ways to write the test spec. You could either -put the expectations in sequence: - -```cpp -// foo.Bar() should be called twice, return 1 the first time, and return -// 2 the second time. Using a sequence, we can write the expectations -// in their natural order. -{ - InSequence s; - EXPECT_CALL(foo, Bar()) - .WillOnce(Return(1)) - .RetiresOnSaturation(); - EXPECT_CALL(foo, Bar()) - .WillOnce(Return(2)) - .RetiresOnSaturation(); -} -``` - -or you can put the sequence of actions in the same expectation: - -```cpp -// foo.Bar() should be called twice, return 1 the first time, and return -// 2 the second time. -EXPECT_CALL(foo, Bar()) - .WillOnce(Return(1)) - .WillOnce(Return(2)) - .RetiresOnSaturation(); -``` - -Back to the original questions: why does Google Mock search the -expectations (and `ON_CALL`s) from back to front? Because this -allows a user to set up a mock's behavior for the common case early -(e.g. in the mock's constructor or the test fixture's set-up phase) -and customize it with more specific rules later. If Google Mock -searches from front to back, this very useful pattern won't be -possible. - -## Google Mock prints a warning when a function without EXPECT\_CALL is called, even if I have set its behavior using ON\_CALL. Would it be reasonable not to show the warning in this case? ## - -When choosing between being neat and being safe, we lean toward the -latter. So the answer is that we think it's better to show the -warning. - -Often people write `ON_CALL`s in the mock object's -constructor or `SetUp()`, as the default behavior rarely changes from -test to test. Then in the test body they set the expectations, which -are often different for each test. Having an `ON_CALL` in the set-up -part of a test doesn't mean that the calls are expected. If there's -no `EXPECT_CALL` and the method is called, it's possibly an error. If -we quietly let the call go through without notifying the user, bugs -may creep in unnoticed. - -If, however, you are sure that the calls are OK, you can write - -```cpp -EXPECT_CALL(foo, Bar(_)) - .WillRepeatedly(...); -``` - -instead of - -```cpp -ON_CALL(foo, Bar(_)) - .WillByDefault(...); -``` - -This tells Google Mock that you do expect the calls and no warning should be -printed. - -Also, you can control the verbosity using the `--gmock_verbose` flag. -If you find the output too noisy when debugging, just choose a less -verbose level. - -## How can I delete the mock function's argument in an action? ## - -If you find yourself needing to perform some action that's not -supported by Google Mock directly, remember that you can define your own -actions using -[MakeAction()](CookBook.md#writing-new-actions-quickly) or -[MakePolymorphicAction()](CookBook.md#writing-new-polymorphic-actions), -or you can write a stub function and invoke it using -[Invoke()](CookBook.md#using-functionsmethodsfunctors-as-actions). - -## MOCK\_METHODn()'s second argument looks funny. Why don't you use the MOCK\_METHODn(Method, return\_type, arg\_1, ..., arg\_n) syntax? ## - -What?! I think it's beautiful. :-) - -While which syntax looks more natural is a subjective matter to some -extent, Google Mock's syntax was chosen for several practical advantages it -has. - -Try to mock a function that takes a map as an argument: -```cpp -virtual int GetSize(const map<int, std::string>& m); -``` - -Using the proposed syntax, it would be: -```cpp -MOCK_METHOD1(GetSize, int, const map<int, std::string>& m); -``` - -Guess what? You'll get a compiler error as the compiler thinks that -`const map<int, std::string>& m` are **two**, not one, arguments. To work -around this you can use `typedef` to give the map type a name, but -that gets in the way of your work. Google Mock's syntax avoids this -problem as the function's argument types are protected inside a pair -of parentheses: -```cpp -// This compiles fine. -MOCK_METHOD1(GetSize, int(const map<int, std::string>& m)); -``` - -You still need a `typedef` if the return type contains an unprotected -comma, but that's much rarer. - -Other advantages include: - 1. `MOCK_METHOD1(Foo, int, bool)` can leave a reader wonder whether the method returns `int` or `bool`, while there won't be such confusion using Google Mock's syntax. - 1. The way Google Mock describes a function type is nothing new, although many people may not be familiar with it. The same syntax was used in C, and the `function` library in `tr1` uses this syntax extensively. Since `tr1` will become a part of the new version of STL, we feel very comfortable to be consistent with it. - 1. The function type syntax is also used in other parts of Google Mock's API (e.g. the action interface) in order to make the implementation tractable. A user needs to learn it anyway in order to utilize Google Mock's more advanced features. We'd as well stick to the same syntax in `MOCK_METHOD*`! - -## My code calls a static/global function. Can I mock it? ## - -You can, but you need to make some changes. - -In general, if you find yourself needing to mock a static function, -it's a sign that your modules are too tightly coupled (and less -flexible, less reusable, less testable, etc). You are probably better -off defining a small interface and call the function through that -interface, which then can be easily mocked. It's a bit of work -initially, but usually pays for itself quickly. - -This Google Testing Blog -[post](https://testing.googleblog.com/2008/06/defeat-static-cling.html) -says it excellently. Check it out. - -## My mock object needs to do complex stuff. It's a lot of pain to specify the actions. Google Mock sucks! ## - -I know it's not a question, but you get an answer for free any way. :-) - -With Google Mock, you can create mocks in C++ easily. And people might be -tempted to use them everywhere. Sometimes they work great, and -sometimes you may find them, well, a pain to use. So, what's wrong in -the latter case? - -When you write a test without using mocks, you exercise the code and -assert that it returns the correct value or that the system is in an -expected state. This is sometimes called "state-based testing". - -Mocks are great for what some call "interaction-based" testing: -instead of checking the system state at the very end, mock objects -verify that they are invoked the right way and report an error as soon -as it arises, giving you a handle on the precise context in which the -error was triggered. This is often more effective and economical to -do than state-based testing. - -If you are doing state-based testing and using a test double just to -simulate the real object, you are probably better off using a fake. -Using a mock in this case causes pain, as it's not a strong point for -mocks to perform complex actions. If you experience this and think -that mocks suck, you are just not using the right tool for your -problem. Or, you might be trying to solve the wrong problem. :-) - -## I got a warning "Uninteresting function call encountered - default action taken.." Should I panic? ## - -By all means, NO! It's just an FYI. - -What it means is that you have a mock function, you haven't set any -expectations on it (by Google Mock's rule this means that you are not -interested in calls to this function and therefore it can be called -any number of times), and it is called. That's OK - you didn't say -it's not OK to call the function! - -What if you actually meant to disallow this function to be called, but -forgot to write `EXPECT_CALL(foo, Bar()).Times(0)`? While -one can argue that it's the user's fault, Google Mock tries to be nice and -prints you a note. - -So, when you see the message and believe that there shouldn't be any -uninteresting calls, you should investigate what's going on. To make -your life easier, Google Mock prints the function name and arguments -when an uninteresting call is encountered. - -## I want to define a custom action. Should I use Invoke() or implement the action interface? ## - -Either way is fine - you want to choose the one that's more convenient -for your circumstance. - -Usually, if your action is for a particular function type, defining it -using `Invoke()` should be easier; if your action can be used in -functions of different types (e.g. if you are defining -`Return(value)`), `MakePolymorphicAction()` is -easiest. Sometimes you want precise control on what types of -functions the action can be used in, and implementing -`ActionInterface` is the way to go here. See the implementation of -`Return()` in `include/gmock/gmock-actions.h` for an example. - -## I'm using the set-argument-pointee action, and the compiler complains about "conflicting return type specified". What does it mean? ## - -You got this error as Google Mock has no idea what value it should return -when the mock method is called. `SetArgPointee()` says what the -side effect is, but doesn't say what the return value should be. You -need `DoAll()` to chain a `SetArgPointee()` with a `Return()`. - -See this [recipe](CookBook.md#mocking-side-effects) for more details and an example. - - -## My question is not in your FAQ! ## - -If you cannot find the answer to your question in this FAQ, there are -some other resources you can use: - - 1. search the mailing list [archive](http://groups.google.com/group/googlemock/topics), - 1. ask it on [googlemock@googlegroups.com](mailto:googlemock@googlegroups.com) and someone will answer it (to prevent spam, we require you to join the [discussion group](http://groups.google.com/group/googlemock) before you can post.). - -Please note that creating an issue in the -[issue tracker](https://github.com/google/googletest/issues) is _not_ -a good way to get your answer, as it is monitored infrequently by a -very small number of people. - -When asking a question, it's helpful to provide as much of the -following information as possible (people cannot help you if there's -not enough information in your question): - - * the version (or the revision number if you check out from SVN directly) of Google Mock you use (Google Mock is under active development, so it's possible that your problem has been solved in a later version), - * your operating system, - * the name and version of your compiler, - * the complete command line flags you give to your compiler, - * the complete compiler error messages (if the question is about compilation), - * the _actual_ code (ideally, a minimal but complete program) that has the problem you encounter. diff --git a/googlemock/docs/KnownIssues.md b/googlemock/docs/KnownIssues.md deleted file mode 100644 index adadf51..0000000 --- a/googlemock/docs/KnownIssues.md +++ /dev/null @@ -1,19 +0,0 @@ -As any non-trivial software system, Google Mock has some known limitations and problems. We are working on improving it, and welcome your help! The follow is a list of issues we know about. - - - -## README contains outdated information on Google Mock's compatibility with other testing frameworks ## - -The `README` file in release 1.1.0 still says that Google Mock only works with Google Test. Actually, you can configure Google Mock to work with any testing framework you choose. - -## Tests failing on machines using Power PC CPUs (e.g. some Macs) ## - -`gmock_output_test` and `gmock-printers_test` are known to fail with Power PC CPUs. This is due to portability issues with these tests, and is not an indication of problems in Google Mock itself. You can safely ignore them. - -## Failed to resolve libgtest.so.0 in tests when built against installed Google Test ## - -This only applies if you manually built and installed Google Test, and then built a Google Mock against it (either explicitly, or because gtest-config was in your path post-install). In this situation, Libtool has a known issue with certain systems' ldconfig setup: - -http://article.gmane.org/gmane.comp.sysutils.automake.general/9025 - -This requires a manual run of "sudo ldconfig" after the "sudo make install" for Google Test before any binaries which link against it can be executed. This isn't a bug in our install, but we should at least have documented it or hacked a work-around into our install. We should have one of these solutions in our next release.
\ No newline at end of file diff --git a/googlemock/docs/cheat_sheet.md b/googlemock/docs/cheat_sheet.md new file mode 100644 index 0000000..37c808f --- /dev/null +++ b/googlemock/docs/cheat_sheet.md @@ -0,0 +1,769 @@ +## gMock Cheat Sheet + +<!-- GOOGLETEST_CM0019 DO NOT DELETE --> + +<!-- GOOGLETEST_CM0033 DO NOT DELETE --> + +### Defining a Mock Class + +#### Mocking a Normal Class {#MockClass} + +Given + +```cpp +class Foo { + ... + virtual ~Foo(); + virtual int GetSize() const = 0; + virtual string Describe(const char* name) = 0; + virtual string Describe(int type) = 0; + virtual bool Process(Bar elem, int count) = 0; +}; +``` + +(note that `~Foo()` **must** be virtual) we can define its mock as + +```cpp +#include "gmock/gmock.h" + +class MockFoo : public Foo { + ... + MOCK_METHOD(int, GetSize, (), (const, override)); + MOCK_METHOD(string, Describe, (const char* name), (override)); + MOCK_METHOD(string, Describe, (int type), (override)); + MOCK_METHOD(bool, Process, (Bar elem, int count), (override)); +}; +``` + +To create a "nice" mock, which ignores all uninteresting calls, a "naggy" mock, +which warns on all uninteresting calls, or a "strict" mock, which treats them as +failures: + +```cpp +using ::testing::NiceMock; +using ::testing::NaggyMock; +using ::testing::StrictMock; + +NiceMock<MockFoo> nice_foo; // The type is a subclass of MockFoo. +NaggyMock<MockFoo> naggy_foo; // The type is a subclass of MockFoo. +StrictMock<MockFoo> strict_foo; // The type is a subclass of MockFoo. +``` + +**Note:** A mock object is currently naggy by default. We may make it nice by +default in the future. + +#### Mocking a Class Template {#MockTemplate} + +Class templates can be mocked just like any class. + +To mock + +```cpp +template <typename Elem> +class StackInterface { + ... + virtual ~StackInterface(); + virtual int GetSize() const = 0; + virtual void Push(const Elem& x) = 0; +}; +``` + +(note that all member functions that are mocked, including `~StackInterface()` +**must** be virtual). + +```cpp +template <typename Elem> +class MockStack : public StackInterface<Elem> { + ... + MOCK_METHOD(int, GetSize, (), (const, override)); + MOCK_METHOD(void, Push, (const Elem& x), (override)); +}; +``` + +#### Specifying Calling Conventions for Mock Functions + +If your mock function doesn't use the default calling convention, you can +specify it by adding `Calltype(convention)` to `MOCK_METHOD`'s 4th parameter. +For example, + +```cpp + MOCK_METHOD(bool, Foo, (int n), (Calltype(STDMETHODCALLTYPE))); + MOCK_METHOD(int, Bar, (double x, double y), + (const, Calltype(STDMETHODCALLTYPE))); +``` + +where `STDMETHODCALLTYPE` is defined by `<objbase.h>` on Windows. + +### Using Mocks in Tests {#UsingMocks} + +The typical work flow is: + +1. Import the gMock names you need to use. All gMock symbols are in the + `testing` namespace unless they are macros or otherwise noted. +2. Create the mock objects. +3. Optionally, set the default actions of the mock objects. +4. Set your expectations on the mock objects (How will they be called? What + will they do?). +5. Exercise code that uses the mock objects; if necessary, check the result + using googletest assertions. +6. When a mock object is destructed, gMock automatically verifies that all + expectations on it have been satisfied. + +Here's an example: + +```cpp +using ::testing::Return; // #1 + +TEST(BarTest, DoesThis) { + MockFoo foo; // #2 + + ON_CALL(foo, GetSize()) // #3 + .WillByDefault(Return(1)); + // ... other default actions ... + + EXPECT_CALL(foo, Describe(5)) // #4 + .Times(3) + .WillRepeatedly(Return("Category 5")); + // ... other expectations ... + + EXPECT_EQ("good", MyProductionFunction(&foo)); // #5 +} // #6 +``` + +### Setting Default Actions {#OnCall} + +gMock has a **built-in default action** for any function that returns `void`, +`bool`, a numeric value, or a pointer. In C++11, it will additionally returns +the default-constructed value, if one exists for the given type. + +To customize the default action for functions with return type *`T`*: + +```cpp +using ::testing::DefaultValue; + +// Sets the default value to be returned. T must be CopyConstructible. +DefaultValue<T>::Set(value); +// Sets a factory. Will be invoked on demand. T must be MoveConstructible. +// T MakeT(); +DefaultValue<T>::SetFactory(&MakeT); +// ... use the mocks ... +// Resets the default value. +DefaultValue<T>::Clear(); +``` + +Example usage: + +```cpp + // Sets the default action for return type std::unique_ptr<Buzz> to + // creating a new Buzz every time. + DefaultValue<std::unique_ptr<Buzz>>::SetFactory( + [] { return MakeUnique<Buzz>(AccessLevel::kInternal); }); + + // When this fires, the default action of MakeBuzz() will run, which + // will return a new Buzz object. + EXPECT_CALL(mock_buzzer_, MakeBuzz("hello")).Times(AnyNumber()); + + auto buzz1 = mock_buzzer_.MakeBuzz("hello"); + auto buzz2 = mock_buzzer_.MakeBuzz("hello"); + EXPECT_NE(nullptr, buzz1); + EXPECT_NE(nullptr, buzz2); + EXPECT_NE(buzz1, buzz2); + + // Resets the default action for return type std::unique_ptr<Buzz>, + // to avoid interfere with other tests. + DefaultValue<std::unique_ptr<Buzz>>::Clear(); +``` + +To customize the default action for a particular method of a specific mock +object, use `ON_CALL()`. `ON_CALL()` has a similar syntax to `EXPECT_CALL()`, +but it is used for setting default behaviors (when you do not require that the +mock method is called). See [here](cook_book.md#UseOnCall) for a more detailed +discussion. + +```cpp +ON_CALL(mock-object, method(matchers)) + .With(multi-argument-matcher) ? + .WillByDefault(action); +``` + +### Setting Expectations {#ExpectCall} + +`EXPECT_CALL()` sets **expectations** on a mock method (How will it be called? +What will it do?): + +```cpp +EXPECT_CALL(mock-object, method (matchers)?) + .With(multi-argument-matcher) ? + .Times(cardinality) ? + .InSequence(sequences) * + .After(expectations) * + .WillOnce(action) * + .WillRepeatedly(action) ? + .RetiresOnSaturation(); ? +``` + +If `(matchers)` is omitted, the expectation is the same as if the matchers were +set to anything matchers (for example, `(_, _, _, _)` for a four-arg method). + +If `Times()` is omitted, the cardinality is assumed to be: + +* `Times(1)` when there is neither `WillOnce()` nor `WillRepeatedly()`; +* `Times(n)` when there are `n` `WillOnce()`s but no `WillRepeatedly()`, where + `n` >= 1; or +* `Times(AtLeast(n))` when there are `n` `WillOnce()`s and a + `WillRepeatedly()`, where `n` >= 0. + +A method with no `EXPECT_CALL()` is free to be invoked *any number of times*, +and the default action will be taken each time. + +### Matchers {#MatcherList} + +<!-- GOOGLETEST_CM0020 DO NOT DELETE --> + +A **matcher** matches a *single* argument. You can use it inside `ON_CALL()` or +`EXPECT_CALL()`, or use it to validate a value directly: + +<!-- mdformat off(github rendering does not support multiline tables) --> +| Matcher | Description | +| :----------------------------------- | :------------------------------------ | +| `EXPECT_THAT(actual_value, matcher)` | Asserts that `actual_value` matches `matcher`. | +| `ASSERT_THAT(actual_value, matcher)` | The same as `EXPECT_THAT(actual_value, matcher)`, except that it generates a **fatal** failure. | +<!-- mdformat on --> + +Built-in matchers (where `argument` is the function argument) are divided into +several categories: + +#### Wildcard + +Matcher | Description +:-------------------------- | :----------------------------------------------- +`_` | `argument` can be any value of the correct type. +`A<type>()` or `An<type>()` | `argument` can be any value of type `type`. + +#### Generic Comparison + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :--------------------- | :-------------------------------------------------- | +| `Eq(value)` or `value` | `argument == value` | +| `Ge(value)` | `argument >= value` | +| `Gt(value)` | `argument > value` | +| `Le(value)` | `argument <= value` | +| `Lt(value)` | `argument < value` | +| `Ne(value)` | `argument != value` | +| `IsNull()` | `argument` is a `NULL` pointer (raw or smart). | +| `NotNull()` | `argument` is a non-null pointer (raw or smart). | +| `Optional(m)` | `argument` is `optional<>` that contains a value matching `m`. | +| `VariantWith<T>(m)` | `argument` is `variant<>` that holds the alternative of type T with a value matching `m`. | +| `Ref(variable)` | `argument` is a reference to `variable`. | +| `TypedEq<type>(value)` | `argument` has type `type` and is equal to `value`. You may need to use this instead of `Eq(value)` when the mock function is overloaded. | +<!-- mdformat on --> + +Except `Ref()`, these matchers make a *copy* of `value` in case it's modified or +destructed later. If the compiler complains that `value` doesn't have a public +copy constructor, try wrap it in `ByRef()`, e.g. +`Eq(ByRef(non_copyable_value))`. If you do that, make sure `non_copyable_value` +is not changed afterwards, or the meaning of your matcher will be changed. + +#### Floating-Point Matchers {#FpMatchers} + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------------------------- | :--------------------------------- | +| `DoubleEq(a_double)` | `argument` is a `double` value approximately equal to `a_double`, treating two NaNs as unequal. | +| `FloatEq(a_float)` | `argument` is a `float` value approximately equal to `a_float`, treating two NaNs as unequal. | +| `NanSensitiveDoubleEq(a_double)` | `argument` is a `double` value approximately equal to `a_double`, treating two NaNs as equal. | +| `NanSensitiveFloatEq(a_float)` | `argument` is a `float` value approximately equal to `a_float`, treating two NaNs as equal. | +<!-- mdformat on --> + +The above matchers use ULP-based comparison (the same as used in googletest). +They automatically pick a reasonable error bound based on the absolute value of +the expected value. `DoubleEq()` and `FloatEq()` conform to the IEEE standard, +which requires comparing two NaNs for equality to return false. The +`NanSensitive*` version instead treats two NaNs as equal, which is often what a +user wants. + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------------------------------------------ | :----------------------- | +| `DoubleNear(a_double, max_abs_error)` | `argument` is a `double` value close to `a_double` (absolute error <= `max_abs_error`), treating two NaNs as unequal. | +| `FloatNear(a_float, max_abs_error)` | `argument` is a `float` value close to `a_float` (absolute error <= `max_abs_error`), treating two NaNs as unequal. | +| `NanSensitiveDoubleNear(a_double, max_abs_error)` | `argument` is a `double` value close to `a_double` (absolute error <= `max_abs_error`), treating two NaNs as equal. | +| `NanSensitiveFloatNear(a_float, max_abs_error)` | `argument` is a `float` value close to `a_float` (absolute error <= `max_abs_error`), treating two NaNs as equal. | +<!-- mdformat on --> + +#### String Matchers + +The `argument` can be either a C string or a C++ string object: + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :---------------------- | :------------------------------------------------- | +| `ContainsRegex(string)` | `argument` matches the given regular expression. | +| `EndsWith(suffix)` | `argument` ends with string `suffix`. | +| `HasSubstr(string)` | `argument` contains `string` as a sub-string. | +| `MatchesRegex(string)` | `argument` matches the given regular expression with the match starting at the first character and ending at the last character. | +| `StartsWith(prefix)` | `argument` starts with string `prefix`. | +| `StrCaseEq(string)` | `argument` is equal to `string`, ignoring case. | +| `StrCaseNe(string)` | `argument` is not equal to `string`, ignoring case. | +| `StrEq(string)` | `argument` is equal to `string`. | +| `StrNe(string)` | `argument` is not equal to `string`. | +<!-- mdformat on --> + +`ContainsRegex()` and `MatchesRegex()` take ownership of the `RE` object. They +use the regular expression syntax defined +[here](advanced.md#regular-expression-syntax). `StrCaseEq()`, `StrCaseNe()`, +`StrEq()`, and `StrNe()` work for wide strings as well. + +#### Container Matchers + +Most STL-style containers support `==`, so you can use `Eq(expected_container)` +or simply `expected_container` to match a container exactly. If you want to +write the elements in-line, match them more flexibly, or get more informative +messages, you can use: + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :---------------------------------------- | :------------------------------- | +| `BeginEndDistanceIs(m)` | `argument` is a container whose `begin()` and `end()` iterators are separated by a number of increments matching `m`. E.g. `BeginEndDistanceIs(2)` or `BeginEndDistanceIs(Lt(2))`. For containers that define a `size()` method, `SizeIs(m)` may be more efficient. | +| `ContainerEq(container)` | The same as `Eq(container)` except that the failure message also includes which elements are in one container but not the other. | +| `Contains(e)` | `argument` contains an element that matches `e`, which can be either a value or a matcher. | +| `Each(e)` | `argument` is a container where *every* element matches `e`, which can be either a value or a matcher. | +| `ElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, where the *i*-th element matches `ei`, which can be a value or a matcher. | +| `ElementsAreArray({e0, e1, ..., en})`, `ElementsAreArray(a_container)`, `ElementsAreArray(begin, end)`, `ElementsAreArray(array)`, or `ElementsAreArray(array, count)` | The same as `ElementsAre()` except that the expected element values/matchers come from an initializer list, STL-style container, iterator range, or C-style array. | +| `IsEmpty()` | `argument` is an empty container (`container.empty()`). | +| `IsFalse()` | `argument` evaluates to `false` in a Boolean context. | +| `IsSubsetOf({e0, e1, ..., en})`, `IsSubsetOf(a_container)`, `IsSubsetOf(begin, end)`, `IsSubsetOf(array)`, or `IsSubsetOf(array, count)` | `argument` matches `UnorderedElementsAre(x0, x1, ..., xk)` for some subset `{x0, x1, ..., xk}` of the expected matchers. | +| `IsSupersetOf({e0, e1, ..., en})`, `IsSupersetOf(a_container)`, `IsSupersetOf(begin, end)`, `IsSupersetOf(array)`, or `IsSupersetOf(array, count)` | Some subset of `argument` matches `UnorderedElementsAre(`expected matchers`)`. | +| `IsTrue()` | `argument` evaluates to `true` in a Boolean context. | +| `Pointwise(m, container)`, `Pointwise(m, {e0, e1, ..., en})` | `argument` contains the same number of elements as in `container`, and for all i, (the i-th element in `argument`, the i-th element in `container`) match `m`, which is a matcher on 2-tuples. E.g. `Pointwise(Le(), upper_bounds)` verifies that each element in `argument` doesn't exceed the corresponding element in `upper_bounds`. See more detail below. | +| `SizeIs(m)` | `argument` is a container whose size matches `m`. E.g. `SizeIs(2)` or `SizeIs(Lt(2))`. | +| `UnorderedElementsAre(e0, e1, ..., en)` | `argument` has `n + 1` elements, and under *some* permutation of the elements, each element matches an `ei` (for a different `i`), which can be a value or a matcher. | +| `UnorderedElementsAreArray({e0, e1, ..., en})`, `UnorderedElementsAreArray(a_container)`, `UnorderedElementsAreArray(begin, end)`, `UnorderedElementsAreArray(array)`, or `UnorderedElementsAreArray(array, count)` | The same as `UnorderedElementsAre()` except that the expected element values/matchers come from an initializer list, STL-style container, iterator range, or C-style array. | +| `UnorderedPointwise(m, container)`, `UnorderedPointwise(m, {e0, e1, ..., en})` | Like `Pointwise(m, container)`, but ignores the order of elements. | +| `WhenSorted(m)` | When `argument` is sorted using the `<` operator, it matches container matcher `m`. E.g. `WhenSorted(ElementsAre(1, 2, 3))` verifies that `argument` contains elements 1, 2, and 3, ignoring order. | +| `WhenSortedBy(comparator, m)` | The same as `WhenSorted(m)`, except that the given comparator instead of `<` is used to sort `argument`. E.g. `WhenSortedBy(std::greater(), ElementsAre(3, 2, 1))`. | +<!-- mdformat on --> + +**Notes:** + +* These matchers can also match: + 1. a native array passed by reference (e.g. in `Foo(const int (&a)[5])`), + and + 2. an array passed as a pointer and a count (e.g. in `Bar(const T* buffer, + int len)` -- see [Multi-argument Matchers](#MultiArgMatchers)). +* The array being matched may be multi-dimensional (i.e. its elements can be + arrays). +* `m` in `Pointwise(m, ...)` should be a matcher for `::std::tuple<T, U>` + where `T` and `U` are the element type of the actual container and the + expected container, respectively. For example, to compare two `Foo` + containers where `Foo` doesn't support `operator==`, one might write: + + ```cpp + using ::std::get; + MATCHER(FooEq, "") { + return std::get<0>(arg).Equals(std::get<1>(arg)); + } + ... + EXPECT_THAT(actual_foos, Pointwise(FooEq(), expected_foos)); + ``` + +#### Member Matchers + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------------------------ | :----------------------------------------- | +| `Field(&class::field, m)` | `argument.field` (or `argument->field` when `argument` is a plain pointer) matches matcher `m`, where `argument` is an object of type _class_. | +| `Key(e)` | `argument.first` matches `e`, which can be either a value or a matcher. E.g. `Contains(Key(Le(5)))` can verify that a `map` contains a key `<= 5`. | +| `Pair(m1, m2)` | `argument` is an `std::pair` whose `first` field matches `m1` and `second` field matches `m2`. | +| `Property(&class::property, m)` | `argument.property()` (or `argument->property()` when `argument` is a plain pointer) matches matcher `m`, where `argument` is an object of type _class_. | +<!-- mdformat on --> + +#### Matching the Result of a Function, Functor, or Callback + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :--------------- | :------------------------------------------------ | +| `ResultOf(f, m)` | `f(argument)` matches matcher `m`, where `f` is a function or functor. | +<!-- mdformat on --> + +#### Pointer Matchers + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------------------ | :---------------------------------------------- | +| `Pointee(m)` | `argument` (either a smart pointer or a raw pointer) points to a value that matches matcher `m`. | +| `WhenDynamicCastTo<T>(m)` | when `argument` is passed through `dynamic_cast<T>()`, it matches matcher `m`. | +<!-- mdformat on --> + +<!-- GOOGLETEST_CM0026 DO NOT DELETE --> + +<!-- GOOGLETEST_CM0027 DO NOT DELETE --> + +#### Multi-argument Matchers {#MultiArgMatchers} + +Technically, all matchers match a *single* value. A "multi-argument" matcher is +just one that matches a *tuple*. The following matchers can be used to match a +tuple `(x, y)`: + +Matcher | Description +:------ | :---------- +`Eq()` | `x == y` +`Ge()` | `x >= y` +`Gt()` | `x > y` +`Le()` | `x <= y` +`Lt()` | `x < y` +`Ne()` | `x != y` + +You can use the following selectors to pick a subset of the arguments (or +reorder them) to participate in the matching: + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------------------- | :---------------------------------------------- | +| `AllArgs(m)` | Equivalent to `m`. Useful as syntactic sugar in `.With(AllArgs(m))`. | +| `Args<N1, N2, ..., Nk>(m)` | The tuple of the `k` selected (using 0-based indices) arguments matches `m`, e.g. `Args<1, 2>(Eq())`. | +<!-- mdformat on --> + +#### Composite Matchers + +You can make a matcher from one or more other matchers: + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------------------------- | :-------------------------------------- | +| `AllOf(m1, m2, ..., mn)` | `argument` matches all of the matchers `m1` to `mn`. | +| `AllOfArray({m0, m1, ..., mn})`, `AllOfArray(a_container)`, `AllOfArray(begin, end)`, `AllOfArray(array)`, or `AllOfArray(array, count)` | The same as `AllOf()` except that the matchers come from an initializer list, STL-style container, iterator range, or C-style array. | +| `AnyOf(m1, m2, ..., mn)` | `argument` matches at least one of the matchers `m1` to `mn`. | +| `AnyOfArray({m0, m1, ..., mn})`, `AnyOfArray(a_container)`, `AnyOfArray(begin, end)`, `AnyOfArray(array)`, or `AnyOfArray(array, count)` | The same as `AnyOf()` except that the matchers come from an initializer list, STL-style container, iterator range, or C-style array. | +| `Not(m)` | `argument` doesn't match matcher `m`. | +<!-- mdformat on --> + +<!-- GOOGLETEST_CM0028 DO NOT DELETE --> + +#### Adapters for Matchers + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :---------------------- | :------------------------------------ | +| `MatcherCast<T>(m)` | casts matcher `m` to type `Matcher<T>`. | +| `SafeMatcherCast<T>(m)` | [safely casts](cook_book.md#casting-matchers) matcher `m` to type `Matcher<T>`. | +| `Truly(predicate)` | `predicate(argument)` returns something considered by C++ to be true, where `predicate` is a function or functor. | +<!-- mdformat on --> + +`AddressSatisfies(callback)` and `Truly(callback)` take ownership of `callback`, +which must be a permanent callback. + +#### Using Matchers as Predicates {#MatchersAsPredicatesCheat} + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :---------------------------- | :------------------------------------------ | +| `Matches(m)(value)` | evaluates to `true` if `value` matches `m`. You can use `Matches(m)` alone as a unary functor. | +| `ExplainMatchResult(m, value, result_listener)` | evaluates to `true` if `value` matches `m`, explaining the result to `result_listener`. | +| `Value(value, m)` | evaluates to `true` if `value` matches `m`. | +<!-- mdformat on --> + +#### Defining Matchers + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :----------------------------------- | :------------------------------------ | +| `MATCHER(IsEven, "") { return (arg % 2) == 0; }` | Defines a matcher `IsEven()` to match an even number. | +| `MATCHER_P(IsDivisibleBy, n, "") { *result_listener << "where the remainder is " << (arg % n); return (arg % n) == 0; }` | Defines a macher `IsDivisibleBy(n)` to match a number divisible by `n`. | +| `MATCHER_P2(IsBetween, a, b, std::string(negation ? "isn't" : "is") + " between " + PrintToString(a) + " and " + PrintToString(b)) { return a <= arg && arg <= b; }` | Defines a matcher `IsBetween(a, b)` to match a value in the range [`a`, `b`]. | +<!-- mdformat on --> + +**Notes:** + +1. The `MATCHER*` macros cannot be used inside a function or class. +2. The matcher body must be *purely functional* (i.e. it cannot have any side + effect, and the result must not depend on anything other than the value + being matched and the matcher parameters). +3. You can use `PrintToString(x)` to convert a value `x` of any type to a + string. + +### Actions {#ActionList} + +**Actions** specify what a mock function should do when invoked. + +#### Returning a Value + +<!-- mdformat off(no multiline tables) --> +| | | +| :-------------------------- | :-------------------------------------------- | +| `Return()` | Return from a `void` mock function. | +| `Return(value)` | Return `value`. If the type of `value` is different to the mock function's return type, `value` is converted to the latter type <i>at the time the expectation is set</i>, not when the action is executed. | +| `ReturnArg<N>()` | Return the `N`-th (0-based) argument. | +| `ReturnNew<T>(a1, ..., ak)` | Return `new T(a1, ..., ak)`; a different object is created each time. | +| `ReturnNull()` | Return a null pointer. | +| `ReturnPointee(ptr)` | Return the value pointed to by `ptr`. | +| `ReturnRef(variable)` | Return a reference to `variable`. | +| `ReturnRefOfCopy(value)` | Return a reference to a copy of `value`; the copy lives as long as the action. | +<!-- mdformat on --> + +#### Side Effects + +<!-- mdformat off(no multiline tables) --> +| | | +| :--------------------------------- | :-------------------------------------- | +| `Assign(&variable, value)` | Assign `value` to variable. | +| `DeleteArg<N>()` | Delete the `N`-th (0-based) argument, which must be a pointer. | +| `SaveArg<N>(pointer)` | Save the `N`-th (0-based) argument to `*pointer`. | +| `SaveArgPointee<N>(pointer)` | Save the value pointed to by the `N`-th (0-based) argument to `*pointer`. | +| `SetArgReferee<N>(value)` | Assign value to the variable referenced by the `N`-th (0-based) argument. | +| `SetArgPointee<N>(value)` | Assign `value` to the variable pointed by the `N`-th (0-based) argument. | +| `SetArgumentPointee<N>(value)` | Same as `SetArgPointee<N>(value)`. Deprecated. Will be removed in v1.7.0. | +| `SetArrayArgument<N>(first, last)` | Copies the elements in source range [`first`, `last`) to the array pointed to by the `N`-th (0-based) argument, which can be either a pointer or an iterator. The action does not take ownership of the elements in the source range. | +| `SetErrnoAndReturn(error, value)` | Set `errno` to `error` and return `value`. | +| `Throw(exception)` | Throws the given exception, which can be any copyable value. Available since v1.1.0. | +<!-- mdformat on --> + +#### Using a Function, Functor, or Lambda as an Action + +In the following, by "callable" we mean a free function, `std::function`, +functor, or lambda. + +<!-- mdformat off(no multiline tables) --> +| | | +| :---------------------------------- | :------------------------------------- | +| `f` | Invoke f with the arguments passed to the mock function, where f is a callable. | +| `Invoke(f)` | Invoke `f` with the arguments passed to the mock function, where `f` can be a global/static function or a functor. | +| `Invoke(object_pointer, &class::method)` | Invoke the method on the object with the arguments passed to the mock function. | +| `InvokeWithoutArgs(f)` | Invoke `f`, which can be a global/static function or a functor. `f` must take no arguments. | +| `InvokeWithoutArgs(object_pointer, &class::method)` | Invoke the method on the object, which takes no arguments. | +| `InvokeArgument<N>(arg1, arg2, ..., argk)` | Invoke the mock function's `N`-th (0-based) argument, which must be a function or a functor, with the `k` arguments. | +<!-- mdformat on --> + +The return value of the invoked function is used as the return value of the +action. + +When defining a callable to be used with `Invoke*()`, you can declare any unused +parameters as `Unused`: + +```cpp +using ::testing::Invoke; +double Distance(Unused, double x, double y) { return sqrt(x*x + y*y); } +... +EXPECT_CALL(mock, Foo("Hi", _, _)).WillOnce(Invoke(Distance)); +``` + +`Invoke(callback)` and `InvokeWithoutArgs(callback)` take ownership of +`callback`, which must be permanent. The type of `callback` must be a base +callback type instead of a derived one, e.g. + +```cpp + BlockingClosure* done = new BlockingClosure; + ... Invoke(done) ...; // This won't compile! + + Closure* done2 = new BlockingClosure; + ... Invoke(done2) ...; // This works. +``` + +In `InvokeArgument<N>(...)`, if an argument needs to be passed by reference, +wrap it inside `ByRef()`. For example, + +```cpp +using ::testing::ByRef; +using ::testing::InvokeArgument; +... +InvokeArgument<2>(5, string("Hi"), ByRef(foo)) +``` + +calls the mock function's #2 argument, passing to it `5` and `string("Hi")` by +value, and `foo` by reference. + +#### Default Action + +<!-- mdformat off(no multiline tables) --> +| Matcher | Description | +| :------------ | :----------------------------------------------------- | +| `DoDefault()` | Do the default action (specified by `ON_CALL()` or the built-in one). | +<!-- mdformat on --> + +**Note:** due to technical reasons, `DoDefault()` cannot be used inside a +composite action - trying to do so will result in a run-time error. + +<!-- GOOGLETEST_CM0032 DO NOT DELETE --> + +#### Composite Actions + +<!-- mdformat off(no multiline tables) --> +| | | +| :----------------------------- | :------------------------------------------ | +| `DoAll(a1, a2, ..., an)` | Do all actions `a1` to `an` and return the result of `an` in each invocation. The first `n - 1` sub-actions must return void. | +| `IgnoreResult(a)` | Perform action `a` and ignore its result. `a` must not return void. | +| `WithArg<N>(a)` | Pass the `N`-th (0-based) argument of the mock function to action `a` and perform it. | +| `WithArgs<N1, N2, ..., Nk>(a)` | Pass the selected (0-based) arguments of the mock function to action `a` and perform it. | +| `WithoutArgs(a)` | Perform action `a` without any arguments. | +<!-- mdformat on --> + +#### Defining Actions + +<table border="1" cellspacing="0" cellpadding="1"> + <tr> + <td>`struct SumAction {` <br> +  `template <typename T>` <br> +  `T operator()(T x, Ty) { return x + y; }` <br> + `};` + </td> + <td> Defines a generic functor that can be used as an action summing its + arguments. </td> </tr> + <tr> + </tr> +</table> + +<!-- mdformat off(no multiline tables) --> +| | | +| :--------------------------------- | :-------------------------------------- | +| `ACTION(Sum) { return arg0 + arg1; }` | Defines an action `Sum()` to return the sum of the mock function's argument #0 and #1. | +| `ACTION_P(Plus, n) { return arg0 + n; }` | Defines an action `Plus(n)` to return the sum of the mock function's argument #0 and `n`. | +| `ACTION_Pk(Foo, p1, ..., pk) { statements; }` | Defines a parameterized action `Foo(p1, ..., pk)` to execute the given `statements`. | +<!-- mdformat on --> + +The `ACTION*` macros cannot be used inside a function or class. + +### Cardinalities {#CardinalityList} + +These are used in `Times()` to specify how many times a mock function will be +called: + +<!-- mdformat off(no multiline tables) --> +| | | +| :---------------- | :----------------------------------------------------- | +| `AnyNumber()` | The function can be called any number of times. | +| `AtLeast(n)` | The call is expected at least `n` times. | +| `AtMost(n)` | The call is expected at most `n` times. | +| `Between(m, n)` | The call is expected between `m` and `n` (inclusive) times. | +| `Exactly(n) or n` | The call is expected exactly `n` times. In particular, the call should never happen when `n` is 0. | +<!-- mdformat on --> + +### Expectation Order + +By default, the expectations can be matched in *any* order. If some or all +expectations must be matched in a given order, there are two ways to specify it. +They can be used either independently or together. + +#### The After Clause {#AfterClause} + +```cpp +using ::testing::Expectation; +... +Expectation init_x = EXPECT_CALL(foo, InitX()); +Expectation init_y = EXPECT_CALL(foo, InitY()); +EXPECT_CALL(foo, Bar()) + .After(init_x, init_y); +``` + +says that `Bar()` can be called only after both `InitX()` and `InitY()` have +been called. + +If you don't know how many pre-requisites an expectation has when you write it, +you can use an `ExpectationSet` to collect them: + +```cpp +using ::testing::ExpectationSet; +... +ExpectationSet all_inits; +for (int i = 0; i < element_count; i++) { + all_inits += EXPECT_CALL(foo, InitElement(i)); +} +EXPECT_CALL(foo, Bar()) + .After(all_inits); +``` + +says that `Bar()` can be called only after all elements have been initialized +(but we don't care about which elements get initialized before the others). + +Modifying an `ExpectationSet` after using it in an `.After()` doesn't affect the +meaning of the `.After()`. + +#### Sequences {#UsingSequences} + +When you have a long chain of sequential expectations, it's easier to specify +the order using **sequences**, which don't require you to given each expectation +in the chain a different name. *All expected calls* in the same sequence must +occur in the order they are specified. + +```cpp +using ::testing::Return; +using ::testing::Sequence; +Sequence s1, s2; +... +EXPECT_CALL(foo, Reset()) + .InSequence(s1, s2) + .WillOnce(Return(true)); +EXPECT_CALL(foo, GetSize()) + .InSequence(s1) + .WillOnce(Return(1)); +EXPECT_CALL(foo, Describe(A<const char*>())) + .InSequence(s2) + .WillOnce(Return("dummy")); +``` + +says that `Reset()` must be called before *both* `GetSize()` *and* `Describe()`, +and the latter two can occur in any order. + +To put many expectations in a sequence conveniently: + +```cpp +using ::testing::InSequence; +{ + InSequence seq; + + EXPECT_CALL(...)...; + EXPECT_CALL(...)...; + ... + EXPECT_CALL(...)...; +} +``` + +says that all expected calls in the scope of `seq` must occur in strict order. +The name `seq` is irrelevant. + +### Verifying and Resetting a Mock + +gMock will verify the expectations on a mock object when it is destructed, or +you can do it earlier: + +```cpp +using ::testing::Mock; +... +// Verifies and removes the expectations on mock_obj; +// returns true if successful. +Mock::VerifyAndClearExpectations(&mock_obj); +... +// Verifies and removes the expectations on mock_obj; +// also removes the default actions set by ON_CALL(); +// returns true if successful. +Mock::VerifyAndClear(&mock_obj); +``` + +You can also tell gMock that a mock object can be leaked and doesn't need to be +verified: + +```cpp +Mock::AllowLeak(&mock_obj); +``` + +### Mock Classes + +gMock defines a convenient mock class template + +```cpp +class MockFunction<R(A1, ..., An)> { + public: + MOCK_METHOD(R, Call, (A1, ..., An)); +}; +``` + +See this [recipe](cook_book.md#using-check-points) for one application of it. + +### Flags + +<!-- mdformat off(no multiline tables) --> +| Flag | Description | +| :----------------------------- | :---------------------------------------- | +| `--gmock_catch_leaked_mocks=0` | Don't report leaked mock objects as failures. | +| `--gmock_verbose=LEVEL` | Sets the default verbosity level (`info`, `warning`, or `error`) of Google Mock messages. | +<!-- mdformat on --> diff --git a/googlemock/docs/cook_book.md b/googlemock/docs/cook_book.md new file mode 100644 index 0000000..0352ef6 --- /dev/null +++ b/googlemock/docs/cook_book.md @@ -0,0 +1,4245 @@ +## gMock Cookbook + +<!-- GOOGLETEST_CM0012 DO NOT DELETE --> + +You can find recipes for using gMock here. If you haven't yet, please read +[this](for_dummies.md) first to make sure you understand the basics. + +**Note:** gMock lives in the `testing` name space. For readability, it is +recommended to write `using ::testing::Foo;` once in your file before using the +name `Foo` defined by gMock. We omit such `using` statements in this section for +brevity, but you should do it in your own code. + +### Creating Mock Classes + +#### Dealing with unprotected commas + +Unprotected commas, i.e. commas which are not surrounded by parentheses, prevent +`MOCK_METHOD` from parsing its arguments correctly: + +```cpp +class MockFoo { + public: + MOCK_METHOD(std::pair<bool, int>, GetPair, ()); // Won't compile! + MOCK_METHOD(bool, CheckMap, (std::map<int, double>, bool)); // Won't compile! +}; +``` + +Solution 1 - wrap with parentheses: + +```cpp +class MockFoo { + public: + MOCK_METHOD((std::pair<bool, int>), GetPair, ()); + MOCK_METHOD(bool, CheckMap, ((std::map<int, double>), bool)); +}; +``` + +Note that wrapping a return or argument type with parentheses is, in general, +invalid C++. `MOCK_METHOD` removes the parentheses. + +Solution 2 - define an alias: + +```cpp +class MockFoo { + public: + using BoolAndInt = std::pair<bool, int>; + MOCK_METHOD(BoolAndInt, GetPair, ()); + using MapIntDouble = std::map<int, double>; + MOCK_METHOD(bool, CheckMap, (MapIntDouble, bool)); +}; +``` + +#### Mocking Private or Protected Methods + +You must always put a mock method definition (`MOCK_METHOD`) in a `public:` +section of the mock class, regardless of the method being mocked being `public`, +`protected`, or `private` in the base class. This allows `ON_CALL` and +`EXPECT_CALL` to reference the mock function from outside of the mock class. +(Yes, C++ allows a subclass to change the access level of a virtual function in +the base class.) Example: + +```cpp +class Foo { + public: + ... + virtual bool Transform(Gadget* g) = 0; + + protected: + virtual void Resume(); + + private: + virtual int GetTimeOut(); +}; + +class MockFoo : public Foo { + public: + ... + MOCK_METHOD(bool, Transform, (Gadget* g), (override)); + + // The following must be in the public section, even though the + // methods are protected or private in the base class. + MOCK_METHOD(void, Resume, (), (override)); + MOCK_METHOD(int, GetTimeOut, (), (override)); +}; +``` + +#### Mocking Overloaded Methods + +You can mock overloaded functions as usual. No special attention is required: + +```cpp +class Foo { + ... + + // Must be virtual as we'll inherit from Foo. + virtual ~Foo(); + + // Overloaded on the types and/or numbers of arguments. + virtual int Add(Element x); + virtual int Add(int times, Element x); + + // Overloaded on the const-ness of this object. + virtual Bar& GetBar(); + virtual const Bar& GetBar() const; +}; + +class MockFoo : public Foo { + ... + MOCK_METHOD(int, Add, (Element x), (override)); + MOCK_METHOD(int, Add, (int times, Element x), (override)); + + MOCK_METHOD(Bar&, GetBar, (), (override)); + MOCK_METHOD(const Bar&, GetBar, (), (const, override)); +}; +``` + +**Note:** if you don't mock all versions of the overloaded method, the compiler +will give you a warning about some methods in the base class being hidden. To +fix that, use `using` to bring them in scope: + +```cpp +class MockFoo : public Foo { + ... + using Foo::Add; + MOCK_METHOD(int, Add, (Element x), (override)); + // We don't want to mock int Add(int times, Element x); + ... +}; +``` + +#### Mocking Class Templates + +You can mock class templates just like any class. + +```cpp +template <typename Elem> +class StackInterface { + ... + // Must be virtual as we'll inherit from StackInterface. + virtual ~StackInterface(); + + virtual int GetSize() const = 0; + virtual void Push(const Elem& x) = 0; +}; + +template <typename Elem> +class MockStack : public StackInterface<Elem> { + ... + MOCK_METHOD(int, GetSize, (), (override)); + MOCK_METHOD(void, Push, (const Elem& x), (override)); +}; +``` + +#### Mocking Non-virtual Methods {#MockingNonVirtualMethods} + +gMock can mock non-virtual functions to be used in Hi-perf dependency +injection.<!-- GOOGLETEST_CM0017 DO NOT DELETE -->. + +In this case, instead of sharing a common base class with the real class, your +mock class will be *unrelated* to the real class, but contain methods with the +same signatures. The syntax for mocking non-virtual methods is the *same* as +mocking virtual methods (just don't add `override`): + +```cpp +// A simple packet stream class. None of its members is virtual. +class ConcretePacketStream { + public: + void AppendPacket(Packet* new_packet); + const Packet* GetPacket(size_t packet_number) const; + size_t NumberOfPackets() const; + ... +}; + +// A mock packet stream class. It inherits from no other, but defines +// GetPacket() and NumberOfPackets(). +class MockPacketStream { + public: + MOCK_METHOD(const Packet*, GetPacket, (size_t packet_number), (const)); + MOCK_METHOD(size_t, NumberOfPackets, (), (const)); + ... +}; +``` + +Note that the mock class doesn't define `AppendPacket()`, unlike the real class. +That's fine as long as the test doesn't need to call it. + +Next, you need a way to say that you want to use `ConcretePacketStream` in +production code, and use `MockPacketStream` in tests. Since the functions are +not virtual and the two classes are unrelated, you must specify your choice at +*compile time* (as opposed to run time). + +One way to do it is to templatize your code that needs to use a packet stream. +More specifically, you will give your code a template type argument for the type +of the packet stream. In production, you will instantiate your template with +`ConcretePacketStream` as the type argument. In tests, you will instantiate the +same template with `MockPacketStream`. For example, you may write: + +```cpp +template <class PacketStream> +void CreateConnection(PacketStream* stream) { ... } + +template <class PacketStream> +class PacketReader { + public: + void ReadPackets(PacketStream* stream, size_t packet_num); +}; +``` + +Then you can use `CreateConnection<ConcretePacketStream>()` and +`PacketReader<ConcretePacketStream>` in production code, and use +`CreateConnection<MockPacketStream>()` and `PacketReader<MockPacketStream>` in +tests. + +```cpp + MockPacketStream mock_stream; + EXPECT_CALL(mock_stream, ...)...; + .. set more expectations on mock_stream ... + PacketReader<MockPacketStream> reader(&mock_stream); + ... exercise reader ... +``` + +#### Mocking Free Functions + +It's possible to use gMock to mock a free function (i.e. a C-style function or a +static method). You just need to rewrite your code to use an interface (abstract +class). + +Instead of calling a free function (say, `OpenFile`) directly, introduce an +interface for it and have a concrete subclass that calls the free function: + +```cpp +class FileInterface { + public: + ... + virtual bool Open(const char* path, const char* mode) = 0; +}; + +class File : public FileInterface { + public: + ... + virtual bool Open(const char* path, const char* mode) { + return OpenFile(path, mode); + } +}; +``` + +Your code should talk to `FileInterface` to open a file. Now it's easy to mock +out the function. + +This may seem like a lot of hassle, but in practice you often have multiple +related functions that you can put in the same interface, so the per-function +syntactic overhead will be much lower. + +If you are concerned about the performance overhead incurred by virtual +functions, and profiling confirms your concern, you can combine this with the +recipe for [mocking non-virtual methods](#MockingNonVirtualMethods). + +#### Old-Style `MOCK_METHODn` Macros + +Before the generic `MOCK_METHOD` macro was introduced, mocks where created using +a family of macros collectively called `MOCK_METHODn`. These macros are still +supported, though migration to the new `MOCK_METHOD` is recommended. + +The macros in the `MOCK_METHODn` family differ from `MOCK_METHOD`: + +* The general structure is `MOCK_METHODn(MethodName, ReturnType(Args))`, + instead of `MOCK_METHOD(ReturnType, MethodName, (Args))`. +* The number `n` must equal the number of arguments. +* When mocking a const method, one must use `MOCK_CONST_METHODn`. +* When mocking a class template, the macro name must be suffixed with `_T`. +* In order to specify the call type, the macro name must be suffixed with + `_WITH_CALLTYPE`, and the call type is the first macro argument. + +Old macros and their new equivalents: + +<a name="table99"></a> +<table border="1" cellspacing="0" cellpadding="1"> +<tr> <th colspan=2> Simple </th></tr> +<tr> <td> Old </td> <td> `MOCK_METHOD1(Foo, bool(int))` </td> </tr> +<tr> <td> New </td> <td> `MOCK_METHOD(bool, Foo, (int))` </td> </tr> + +<tr> <th colspan=2> Const Method </th></tr> <tr> <td> Old </td> <td> +`MOCK_CONST_METHOD1(Foo, bool(int))` </td> </tr> <tr> <td> New </td> <td> +`MOCK_METHOD(bool, Foo, (int), (const))` </td> </tr> + +<tr> <th colspan=2> Method in a Class Template </th></tr> <tr> <td> Old </td> +<td> `MOCK_METHOD1_T(Foo, bool(int))` </td> </tr> <tr> <td> New </td> <td> +`MOCK_METHOD(bool, Foo, (int))` </td> </tr> + +<tr> <th colspan=2> Const Method in a Class Template </th></tr> <tr> <td> Old +</td> <td> `MOCK_CONST_METHOD1_T(Foo, bool(int))` </td> </tr> <tr> <td> New +</td> <td> `MOCK_METHOD(bool, Foo, (int), (const))` </td> </tr> + +<tr> <th colspan=2> Method with Call Type </th></tr> <tr> <td> Old </td> <td> +`MOCK_METHOD1_WITH_CALLTYPE(STDMETHODCALLTYPE, Foo, bool(int))` </td> </tr> <tr> +<td> New </td> <td> `MOCK_METHOD(bool, Foo, (int), +(Calltype(STDMETHODCALLTYPE)))` </td> </tr> + +<tr> <th colspan=2> Const Method with Call Type </th></tr> <tr> <td> Old</td> +<td> `MOCK_CONST_METHOD1_WITH_CALLTYPE(STDMETHODCALLTYPE, Foo, bool(int))` </td> +</tr> <tr> <td> New </td> <td> `MOCK_METHOD(bool, Foo, (int), (const, +Calltype(STDMETHODCALLTYPE)))` </td> </tr> + +<tr> <th colspan=2> Method with Call Type in a Class Template </th></tr> <tr> +<td> Old </td> <td> `MOCK_METHOD1_T_WITH_CALLTYPE(STDMETHODCALLTYPE, Foo, +bool(int))` </td> </tr> <tr> <td> New </td> <td> `MOCK_METHOD(bool, Foo, (int), +(Calltype(STDMETHODCALLTYPE)))` </td> </tr> + +<tr> <th colspan=2> Const Method with Call Type in a Class Template </th></tr> +<tr> <td> Old </td> <td> `MOCK_CONST_METHOD1_T_WITH_CALLTYPE(STDMETHODCALLTYPE, +Foo, bool(int))` </td> </tr> <tr> <td> New </td> <td> `MOCK_METHOD(bool, Foo, +(int), (const, Calltype(STDMETHODCALLTYPE)))` </td> </tr> + +</table> + +#### The Nice, the Strict, and the Naggy {#NiceStrictNaggy} + +If a mock method has no `EXPECT_CALL` spec but is called, we say that it's an +"uninteresting call", and the default action (which can be specified using +`ON_CALL()`) of the method will be taken. Currently, an uninteresting call will +also by default cause gMock to print a warning. (In the future, we might remove +this warning by default.) + +However, sometimes you may want to ignore these uninteresting calls, and +sometimes you may want to treat them as errors. gMock lets you make the decision +on a per-mock-object basis. + +Suppose your test uses a mock class `MockFoo`: + +```cpp +TEST(...) { + MockFoo mock_foo; + EXPECT_CALL(mock_foo, DoThis()); + ... code that uses mock_foo ... +} +``` + +If a method of `mock_foo` other than `DoThis()` is called, you will get a +warning. However, if you rewrite your test to use `NiceMock<MockFoo>` instead, +you can suppress the warning: + +```cpp +using ::testing::NiceMock; + +TEST(...) { + NiceMock<MockFoo> mock_foo; + EXPECT_CALL(mock_foo, DoThis()); + ... code that uses mock_foo ... +} +``` + +`NiceMock<MockFoo>` is a subclass of `MockFoo`, so it can be used wherever +`MockFoo` is accepted. + +It also works if `MockFoo`'s constructor takes some arguments, as +`NiceMock<MockFoo>` "inherits" `MockFoo`'s constructors: + +```cpp +using ::testing::NiceMock; + +TEST(...) { + NiceMock<MockFoo> mock_foo(5, "hi"); // Calls MockFoo(5, "hi"). + EXPECT_CALL(mock_foo, DoThis()); + ... code that uses mock_foo ... +} +``` + +The usage of `StrictMock` is similar, except that it makes all uninteresting +calls failures: + +```cpp +using ::testing::StrictMock; + +TEST(...) { + StrictMock<MockFoo> mock_foo; + EXPECT_CALL(mock_foo, DoThis()); + ... code that uses mock_foo ... + + // The test will fail if a method of mock_foo other than DoThis() + // is called. +} +``` + +NOTE: `NiceMock` and `StrictMock` only affects *uninteresting* calls (calls of +*methods* with no expectations); they do not affect *unexpected* calls (calls of +methods with expectations, but they don't match). See +[Understanding Uninteresting vs Unexpected Calls](#uninteresting-vs-unexpected). + +There are some caveats though (I dislike them just as much as the next guy, but +sadly they are side effects of C++'s limitations): + +1. `NiceMock<MockFoo>` and `StrictMock<MockFoo>` only work for mock methods + defined using the `MOCK_METHOD` macro **directly** in the `MockFoo` class. + If a mock method is defined in a **base class** of `MockFoo`, the "nice" or + "strict" modifier may not affect it, depending on the compiler. In + particular, nesting `NiceMock` and `StrictMock` (e.g. + `NiceMock<StrictMock<MockFoo> >`) is **not** supported. +2. `NiceMock<MockFoo>` and `StrictMock<MockFoo>` may not work correctly if the + destructor of `MockFoo` is not virtual. We would like to fix this, but it + requires cleaning up existing tests. http://b/28934720 tracks the issue. +3. During the constructor or destructor of `MockFoo`, the mock object is *not* + nice or strict. This may cause surprises if the constructor or destructor + calls a mock method on `this` object. (This behavior, however, is consistent + with C++'s general rule: if a constructor or destructor calls a virtual + method of `this` object, that method is treated as non-virtual. In other + words, to the base class's constructor or destructor, `this` object behaves + like an instance of the base class, not the derived class. This rule is + required for safety. Otherwise a base constructor may use members of a + derived class before they are initialized, or a base destructor may use + members of a derived class after they have been destroyed.) + +Finally, you should be **very cautious** about when to use naggy or strict +mocks, as they tend to make tests more brittle and harder to maintain. When you +refactor your code without changing its externally visible behavior, ideally you +shouldn't need to update any tests. If your code interacts with a naggy mock, +however, you may start to get spammed with warnings as the result of your +change. Worse, if your code interacts with a strict mock, your tests may start +to fail and you'll be forced to fix them. Our general recommendation is to use +nice mocks (not yet the default) most of the time, use naggy mocks (the current +default) when developing or debugging tests, and use strict mocks only as the +last resort. + +#### Simplifying the Interface without Breaking Existing Code {#SimplerInterfaces} + +Sometimes a method has a long list of arguments that is mostly uninteresting. +For example: + +```cpp +class LogSink { + public: + ... + virtual void send(LogSeverity severity, const char* full_filename, + const char* base_filename, int line, + const struct tm* tm_time, + const char* message, size_t message_len) = 0; +}; +``` + +This method's argument list is lengthy and hard to work with (the `message` +argument is not even 0-terminated). If we mock it as is, using the mock will be +awkward. If, however, we try to simplify this interface, we'll need to fix all +clients depending on it, which is often infeasible. + +The trick is to redispatch the method in the mock class: + +```cpp +class ScopedMockLog : public LogSink { + public: + ... + virtual void send(LogSeverity severity, const char* full_filename, + const char* base_filename, int line, const tm* tm_time, + const char* message, size_t message_len) { + // We are only interested in the log severity, full file name, and + // log message. + Log(severity, full_filename, std::string(message, message_len)); + } + + // Implements the mock method: + // + // void Log(LogSeverity severity, + // const string& file_path, + // const string& message); + MOCK_METHOD(void, Log, + (LogSeverity severity, const string& file_path, + const string& message)); +}; +``` + +By defining a new mock method with a trimmed argument list, we make the mock +class more user-friendly. + +This technique may also be applied to make overloaded methods more amenable to +mocking. For example, when overloads have been used to implement default +arguments: + +```cpp +class MockTurtleFactory : public TurtleFactory { + public: + Turtle* MakeTurtle(int length, int weight) override { ... } + Turtle* MakeTurtle(int length, int weight, int speed) override { ... } + + // the above methods delegate to this one: + MOCK_METHOD(Turtle*, DoMakeTurtle, ()); +}; +``` + +This allows tests that don't care which overload was invoked to avoid specifying +argument matchers: + +```cpp +ON_CALL(factory, DoMakeTurtle) + .WillByDefault(MakeMockTurtle()); +``` + +#### Alternative to Mocking Concrete Classes + +Often you may find yourself using classes that don't implement interfaces. In +order to test your code that uses such a class (let's call it `Concrete`), you +may be tempted to make the methods of `Concrete` virtual and then mock it. + +Try not to do that. + +Making a non-virtual function virtual is a big decision. It creates an extension +point where subclasses can tweak your class' behavior. This weakens your control +on the class because now it's harder to maintain the class invariants. You +should make a function virtual only when there is a valid reason for a subclass +to override it. + +Mocking concrete classes directly is problematic as it creates a tight coupling +between the class and the tests - any small change in the class may invalidate +your tests and make test maintenance a pain. + +To avoid such problems, many programmers have been practicing "coding to +interfaces": instead of talking to the `Concrete` class, your code would define +an interface and talk to it. Then you implement that interface as an adaptor on +top of `Concrete`. In tests, you can easily mock that interface to observe how +your code is doing. + +This technique incurs some overhead: + +* You pay the cost of virtual function calls (usually not a problem). +* There is more abstraction for the programmers to learn. + +However, it can also bring significant benefits in addition to better +testability: + +* `Concrete`'s API may not fit your problem domain very well, as you may not + be the only client it tries to serve. By designing your own interface, you + have a chance to tailor it to your need - you may add higher-level + functionalities, rename stuff, etc instead of just trimming the class. This + allows you to write your code (user of the interface) in a more natural way, + which means it will be more readable, more maintainable, and you'll be more + productive. +* If `Concrete`'s implementation ever has to change, you don't have to rewrite + everywhere it is used. Instead, you can absorb the change in your + implementation of the interface, and your other code and tests will be + insulated from this change. + +Some people worry that if everyone is practicing this technique, they will end +up writing lots of redundant code. This concern is totally understandable. +However, there are two reasons why it may not be the case: + +* Different projects may need to use `Concrete` in different ways, so the best + interfaces for them will be different. Therefore, each of them will have its + own domain-specific interface on top of `Concrete`, and they will not be the + same code. +* If enough projects want to use the same interface, they can always share it, + just like they have been sharing `Concrete`. You can check in the interface + and the adaptor somewhere near `Concrete` (perhaps in a `contrib` + sub-directory) and let many projects use it. + +You need to weigh the pros and cons carefully for your particular problem, but +I'd like to assure you that the Java community has been practicing this for a +long time and it's a proven effective technique applicable in a wide variety of +situations. :-) + +#### Delegating Calls to a Fake {#DelegatingToFake} + +Some times you have a non-trivial fake implementation of an interface. For +example: + +```cpp +class Foo { + public: + virtual ~Foo() {} + virtual char DoThis(int n) = 0; + virtual void DoThat(const char* s, int* p) = 0; +}; + +class FakeFoo : public Foo { + public: + char DoThis(int n) override { + return (n > 0) ? '+' : + (n < 0) ? '-' : '0'; + } + + void DoThat(const char* s, int* p) override { + *p = strlen(s); + } +}; +``` + +Now you want to mock this interface such that you can set expectations on it. +However, you also want to use `FakeFoo` for the default behavior, as duplicating +it in the mock object is, well, a lot of work. + +When you define the mock class using gMock, you can have it delegate its default +action to a fake class you already have, using this pattern: + +```cpp +class MockFoo : public Foo { + public: + // Normal mock method definitions using gMock. + MOCK_METHOD(char, DoThis, (int n), (override)); + MOCK_METHOD(void, DoThat, (const char* s, int* p), (override)); + + // Delegates the default actions of the methods to a FakeFoo object. + // This must be called *before* the custom ON_CALL() statements. + void DelegateToFake() { + ON_CALL(*this, DoThis).WillByDefault([this](int n) { + return fake_.DoThis(n); + }); + ON_CALL(*this, DoThat).WillByDefault([this](const char* s, int* p) { + fake_.DoThat(s, p); + }); + } + + private: + FakeFoo fake_; // Keeps an instance of the fake in the mock. +}; +``` + +With that, you can use `MockFoo` in your tests as usual. Just remember that if +you don't explicitly set an action in an `ON_CALL()` or `EXPECT_CALL()`, the +fake will be called upon to do it.: + +```cpp +using ::testing::_; + +TEST(AbcTest, Xyz) { + MockFoo foo; + + foo.DelegateToFake(); // Enables the fake for delegation. + + // Put your ON_CALL(foo, ...)s here, if any. + + // No action specified, meaning to use the default action. + EXPECT_CALL(foo, DoThis(5)); + EXPECT_CALL(foo, DoThat(_, _)); + + int n = 0; + EXPECT_EQ('+', foo.DoThis(5)); // FakeFoo::DoThis() is invoked. + foo.DoThat("Hi", &n); // FakeFoo::DoThat() is invoked. + EXPECT_EQ(2, n); +} +``` + +**Some tips:** + +* If you want, you can still override the default action by providing your own + `ON_CALL()` or using `.WillOnce()` / `.WillRepeatedly()` in `EXPECT_CALL()`. +* In `DelegateToFake()`, you only need to delegate the methods whose fake + implementation you intend to use. + +* The general technique discussed here works for overloaded methods, but + you'll need to tell the compiler which version you mean. To disambiguate a + mock function (the one you specify inside the parentheses of `ON_CALL()`), + use [this technique](#SelectOverload); to disambiguate a fake function (the + one you place inside `Invoke()`), use a `static_cast` to specify the + function's type. For instance, if class `Foo` has methods `char DoThis(int + n)` and `bool DoThis(double x) const`, and you want to invoke the latter, + you need to write `Invoke(&fake_, static_cast<bool (FakeFoo::*)(double) + const>(&FakeFoo::DoThis))` instead of `Invoke(&fake_, &FakeFoo::DoThis)` + (The strange-looking thing inside the angled brackets of `static_cast` is + the type of a function pointer to the second `DoThis()` method.). + +* Having to mix a mock and a fake is often a sign of something gone wrong. + Perhaps you haven't got used to the interaction-based way of testing yet. Or + perhaps your interface is taking on too many roles and should be split up. + Therefore, **don't abuse this**. We would only recommend to do it as an + intermediate step when you are refactoring your code. + +Regarding the tip on mixing a mock and a fake, here's an example on why it may +be a bad sign: Suppose you have a class `System` for low-level system +operations. In particular, it does file and I/O operations. And suppose you want +to test how your code uses `System` to do I/O, and you just want the file +operations to work normally. If you mock out the entire `System` class, you'll +have to provide a fake implementation for the file operation part, which +suggests that `System` is taking on too many roles. + +Instead, you can define a `FileOps` interface and an `IOOps` interface and split +`System`'s functionalities into the two. Then you can mock `IOOps` without +mocking `FileOps`. + +#### Delegating Calls to a Real Object + +When using testing doubles (mocks, fakes, stubs, and etc), sometimes their +behaviors will differ from those of the real objects. This difference could be +either intentional (as in simulating an error such that you can test the error +handling code) or unintentional. If your mocks have different behaviors than the +real objects by mistake, you could end up with code that passes the tests but +fails in production. + +You can use the *delegating-to-real* technique to ensure that your mock has the +same behavior as the real object while retaining the ability to validate calls. +This technique is very similar to the [delegating-to-fake](#DelegatingToFake) +technique, the difference being that we use a real object instead of a fake. +Here's an example: + +```cpp +using ::testing::AtLeast; + +class MockFoo : public Foo { + public: + MockFoo() { + // By default, all calls are delegated to the real object. + ON_CALL(*this, DoThis).WillByDefault([this](int n) { + return real_.DoThis(n); + }); + ON_CALL(*this, DoThat).WillByDefault([this](const char* s, int* p) { + real_.DoThat(s, p); + }); + ... + } + MOCK_METHOD(char, DoThis, ...); + MOCK_METHOD(void, DoThat, ...); + ... + private: + Foo real_; +}; + +... + MockFoo mock; + EXPECT_CALL(mock, DoThis()) + .Times(3); + EXPECT_CALL(mock, DoThat("Hi")) + .Times(AtLeast(1)); + ... use mock in test ... +``` + +With this, gMock will verify that your code made the right calls (with the right +arguments, in the right order, called the right number of times, etc), and a +real object will answer the calls (so the behavior will be the same as in +production). This gives you the best of both worlds. + +#### Delegating Calls to a Parent Class + +Ideally, you should code to interfaces, whose methods are all pure virtual. In +reality, sometimes you do need to mock a virtual method that is not pure (i.e, +it already has an implementation). For example: + +```cpp +class Foo { + public: + virtual ~Foo(); + + virtual void Pure(int n) = 0; + virtual int Concrete(const char* str) { ... } +}; + +class MockFoo : public Foo { + public: + // Mocking a pure method. + MOCK_METHOD(void, Pure, (int n), (override)); + // Mocking a concrete method. Foo::Concrete() is shadowed. + MOCK_METHOD(int, Concrete, (const char* str), (override)); +}; +``` + +Sometimes you may want to call `Foo::Concrete()` instead of +`MockFoo::Concrete()`. Perhaps you want to do it as part of a stub action, or +perhaps your test doesn't need to mock `Concrete()` at all (but it would be +oh-so painful to have to define a new mock class whenever you don't need to mock +one of its methods). + +The trick is to leave a back door in your mock class for accessing the real +methods in the base class: + +```cpp +class MockFoo : public Foo { + public: + // Mocking a pure method. + MOCK_METHOD(void, Pure, (int n), (override)); + // Mocking a concrete method. Foo::Concrete() is shadowed. + MOCK_METHOD(int, Concrete, (const char* str), (override)); + + // Use this to call Concrete() defined in Foo. + int FooConcrete(const char* str) { return Foo::Concrete(str); } +}; +``` + +Now, you can call `Foo::Concrete()` inside an action by: + +```cpp +... + EXPECT_CALL(foo, Concrete).WillOnce([&foo](const char* str) { + return foo.FooConcrete(str); + }); +``` + +or tell the mock object that you don't want to mock `Concrete()`: + +```cpp +... + ON_CALL(foo, Concrete).WillByDefault([&foo](const char* str) { + return foo.FooConcrete(str); + }); +``` + +(Why don't we just write `{ return foo.Concrete(str); }`? If you do that, +`MockFoo::Concrete()` will be called (and cause an infinite recursion) since +`Foo::Concrete()` is virtual. That's just how C++ works.) + +### Using Matchers + +#### Matching Argument Values Exactly + +You can specify exactly which arguments a mock method is expecting: + +```cpp +using ::testing::Return; +... + EXPECT_CALL(foo, DoThis(5)) + .WillOnce(Return('a')); + EXPECT_CALL(foo, DoThat("Hello", bar)); +``` + +#### Using Simple Matchers + +You can use matchers to match arguments that have a certain property: + +```cpp +using ::testing::NotNull; +using ::testing::Return; +... + EXPECT_CALL(foo, DoThis(Ge(5))) // The argument must be >= 5. + .WillOnce(Return('a')); + EXPECT_CALL(foo, DoThat("Hello", NotNull())); + // The second argument must not be NULL. +``` + +A frequently used matcher is `_`, which matches anything: + +```cpp + EXPECT_CALL(foo, DoThat(_, NotNull())); +``` +<!-- GOOGLETEST_CM0022 DO NOT DELETE --> + +#### Combining Matchers {#CombiningMatchers} + +You can build complex matchers from existing ones using `AllOf()`, +`AllOfArray()`, `AnyOf()`, `AnyOfArray()` and `Not()`: + +```cpp +using ::testing::AllOf; +using ::testing::Gt; +using ::testing::HasSubstr; +using ::testing::Ne; +using ::testing::Not; +... + // The argument must be > 5 and != 10. + EXPECT_CALL(foo, DoThis(AllOf(Gt(5), + Ne(10)))); + + // The first argument must not contain sub-string "blah". + EXPECT_CALL(foo, DoThat(Not(HasSubstr("blah")), + NULL)); +``` + +#### Casting Matchers {#SafeMatcherCast} + +gMock matchers are statically typed, meaning that the compiler can catch your +mistake if you use a matcher of the wrong type (for example, if you use `Eq(5)` +to match a `string` argument). Good for you! + +Sometimes, however, you know what you're doing and want the compiler to give you +some slack. One example is that you have a matcher for `long` and the argument +you want to match is `int`. While the two types aren't exactly the same, there +is nothing really wrong with using a `Matcher<long>` to match an `int` - after +all, we can first convert the `int` argument to a `long` losslessly before +giving it to the matcher. + +To support this need, gMock gives you the `SafeMatcherCast<T>(m)` function. It +casts a matcher `m` to type `Matcher<T>`. To ensure safety, gMock checks that +(let `U` be the type `m` accepts : + +1. Type `T` can be *implicitly* cast to type `U`; +2. When both `T` and `U` are built-in arithmetic types (`bool`, integers, and + floating-point numbers), the conversion from `T` to `U` is not lossy (in + other words, any value representable by `T` can also be represented by `U`); + and +3. When `U` is a reference, `T` must also be a reference (as the underlying + matcher may be interested in the address of the `U` value). + +The code won't compile if any of these conditions isn't met. + +Here's one example: + +```cpp +using ::testing::SafeMatcherCast; + +// A base class and a child class. +class Base { ... }; +class Derived : public Base { ... }; + +class MockFoo : public Foo { + public: + MOCK_METHOD(void, DoThis, (Derived* derived), (override)); +}; + +... + MockFoo foo; + // m is a Matcher<Base*> we got from somewhere. + EXPECT_CALL(foo, DoThis(SafeMatcherCast<Derived*>(m))); +``` + +If you find `SafeMatcherCast<T>(m)` too limiting, you can use a similar function +`MatcherCast<T>(m)`. The difference is that `MatcherCast` works as long as you +can `static_cast` type `T` to type `U`. + +`MatcherCast` essentially lets you bypass C++'s type system (`static_cast` isn't +always safe as it could throw away information, for example), so be careful not +to misuse/abuse it. + +#### Selecting Between Overloaded Functions {#SelectOverload} + +If you expect an overloaded function to be called, the compiler may need some +help on which overloaded version it is. + +To disambiguate functions overloaded on the const-ness of this object, use the +`Const()` argument wrapper. + +```cpp +using ::testing::ReturnRef; + +class MockFoo : public Foo { + ... + MOCK_METHOD(Bar&, GetBar, (), (override)); + MOCK_METHOD(const Bar&, GetBar, (), (const, override)); +}; + +... + MockFoo foo; + Bar bar1, bar2; + EXPECT_CALL(foo, GetBar()) // The non-const GetBar(). + .WillOnce(ReturnRef(bar1)); + EXPECT_CALL(Const(foo), GetBar()) // The const GetBar(). + .WillOnce(ReturnRef(bar2)); +``` + +(`Const()` is defined by gMock and returns a `const` reference to its argument.) + +To disambiguate overloaded functions with the same number of arguments but +different argument types, you may need to specify the exact type of a matcher, +either by wrapping your matcher in `Matcher<type>()`, or using a matcher whose +type is fixed (`TypedEq<type>`, `An<type>()`, etc): + +```cpp +using ::testing::An; +using ::testing::Matcher; +using ::testing::TypedEq; + +class MockPrinter : public Printer { + public: + MOCK_METHOD(void, Print, (int n), (override)); + MOCK_METHOD(void, Print, (char c), (override)); +}; + +TEST(PrinterTest, Print) { + MockPrinter printer; + + EXPECT_CALL(printer, Print(An<int>())); // void Print(int); + EXPECT_CALL(printer, Print(Matcher<int>(Lt(5)))); // void Print(int); + EXPECT_CALL(printer, Print(TypedEq<char>('a'))); // void Print(char); + + printer.Print(3); + printer.Print(6); + printer.Print('a'); +} +``` + +#### Performing Different Actions Based on the Arguments + +When a mock method is called, the *last* matching expectation that's still +active will be selected (think "newer overrides older"). So, you can make a +method do different things depending on its argument values like this: + +```cpp +using ::testing::_; +using ::testing::Lt; +using ::testing::Return; +... + // The default case. + EXPECT_CALL(foo, DoThis(_)) + .WillRepeatedly(Return('b')); + // The more specific case. + EXPECT_CALL(foo, DoThis(Lt(5))) + .WillRepeatedly(Return('a')); +``` + +Now, if `foo.DoThis()` is called with a value less than 5, `'a'` will be +returned; otherwise `'b'` will be returned. + +#### Matching Multiple Arguments as a Whole + +Sometimes it's not enough to match the arguments individually. For example, we +may want to say that the first argument must be less than the second argument. +The `With()` clause allows us to match all arguments of a mock function as a +whole. For example, + +```cpp +using ::testing::_; +using ::testing::Ne; +using ::testing::Lt; +... + EXPECT_CALL(foo, InRange(Ne(0), _)) + .With(Lt()); +``` + +says that the first argument of `InRange()` must not be 0, and must be less than +the second argument. + +The expression inside `With()` must be a matcher of type +`Matcher< ::std::tuple<A1, ..., An> >`, where `A1`, ..., `An` are the types of +the function arguments. + +You can also write `AllArgs(m)` instead of `m` inside `.With()`. The two forms +are equivalent, but `.With(AllArgs(Lt()))` is more readable than `.With(Lt())`. + +You can use `Args<k1, ..., kn>(m)` to match the `n` selected arguments (as a +tuple) against `m`. For example, + +```cpp +using ::testing::_; +using ::testing::AllOf; +using ::testing::Args; +using ::testing::Lt; +... + EXPECT_CALL(foo, Blah) + .With(AllOf(Args<0, 1>(Lt()), Args<1, 2>(Lt()))); +``` + +says that `Blah` will be called with arguments `x`, `y`, and `z` where `x < y < +z`. Note that in this example, it wasn't necessary specify the positional +matchers. + +As a convenience and example, gMock provides some matchers for 2-tuples, +including the `Lt()` matcher above. See [here](#MultiArgMatchers) for the +complete list. + +Note that if you want to pass the arguments to a predicate of your own (e.g. +`.With(Args<0, 1>(Truly(&MyPredicate)))`), that predicate MUST be written to +take a `::std::tuple` as its argument; gMock will pass the `n` selected +arguments as *one* single tuple to the predicate. + +#### Using Matchers as Predicates + +Have you noticed that a matcher is just a fancy predicate that also knows how to +describe itself? Many existing algorithms take predicates as arguments (e.g. +those defined in STL's `<algorithm>` header), and it would be a shame if gMock +matchers were not allowed to participate. + +Luckily, you can use a matcher where a unary predicate functor is expected by +wrapping it inside the `Matches()` function. For example, + +```cpp +#include <algorithm> +#include <vector> + +using ::testing::Matches; +using ::testing::Ge; + +vector<int> v; +... +// How many elements in v are >= 10? +const int count = count_if(v.begin(), v.end(), Matches(Ge(10))); +``` + +Since you can build complex matchers from simpler ones easily using gMock, this +gives you a way to conveniently construct composite predicates (doing the same +using STL's `<functional>` header is just painful). For example, here's a +predicate that's satisfied by any number that is >= 0, <= 100, and != 50: + +```cpp +using testing::AllOf; +using testing::Ge; +using testing::Le; +using testing::Matches; +using testing::Ne; +... +Matches(AllOf(Ge(0), Le(100), Ne(50))) +``` + +#### Using Matchers in googletest Assertions + +Since matchers are basically predicates that also know how to describe +themselves, there is a way to take advantage of them in googletest assertions. +It's called `ASSERT_THAT` and `EXPECT_THAT`: + +```cpp + ASSERT_THAT(value, matcher); // Asserts that value matches matcher. + EXPECT_THAT(value, matcher); // The non-fatal version. +``` + +For example, in a googletest test you can write: + +```cpp +#include "gmock/gmock.h" + +using ::testing::AllOf; +using ::testing::Ge; +using ::testing::Le; +using ::testing::MatchesRegex; +using ::testing::StartsWith; + +... + EXPECT_THAT(Foo(), StartsWith("Hello")); + EXPECT_THAT(Bar(), MatchesRegex("Line \\d+")); + ASSERT_THAT(Baz(), AllOf(Ge(5), Le(10))); +``` + +which (as you can probably guess) executes `Foo()`, `Bar()`, and `Baz()`, and +verifies that: + +* `Foo()` returns a string that starts with `"Hello"`. +* `Bar()` returns a string that matches regular expression `"Line \\d+"`. +* `Baz()` returns a number in the range [5, 10]. + +The nice thing about these macros is that *they read like English*. They +generate informative messages too. For example, if the first `EXPECT_THAT()` +above fails, the message will be something like: + +```cpp +Value of: Foo() + Actual: "Hi, world!" +Expected: starts with "Hello" +``` + +**Credit:** The idea of `(ASSERT|EXPECT)_THAT` was borrowed from Joe Walnes' +Hamcrest project, which adds `assertThat()` to JUnit. + +#### Using Predicates as Matchers + +gMock provides a [built-in set](#MatcherList) of matchers. In case you find them +lacking, you can use an arbitrary unary predicate function or functor as a +matcher - as long as the predicate accepts a value of the type you want. You do +this by wrapping the predicate inside the `Truly()` function, for example: + +```cpp +using ::testing::Truly; + +int IsEven(int n) { return (n % 2) == 0 ? 1 : 0; } +... + // Bar() must be called with an even number. + EXPECT_CALL(foo, Bar(Truly(IsEven))); +``` + +Note that the predicate function / functor doesn't have to return `bool`. It +works as long as the return value can be used as the condition in in statement +`if (condition) ...`. + +<!-- GOOGLETEST_CM0023 DO NOT DELETE --> + +#### Matching Arguments that Are Not Copyable + +When you do an `EXPECT_CALL(mock_obj, Foo(bar))`, gMock saves away a copy of +`bar`. When `Foo()` is called later, gMock compares the argument to `Foo()` with +the saved copy of `bar`. This way, you don't need to worry about `bar` being +modified or destroyed after the `EXPECT_CALL()` is executed. The same is true +when you use matchers like `Eq(bar)`, `Le(bar)`, and so on. + +But what if `bar` cannot be copied (i.e. has no copy constructor)? You could +define your own matcher function or callback and use it with `Truly()`, as the +previous couple of recipes have shown. Or, you may be able to get away from it +if you can guarantee that `bar` won't be changed after the `EXPECT_CALL()` is +executed. Just tell gMock that it should save a reference to `bar`, instead of a +copy of it. Here's how: + +```cpp +using ::testing::ByRef; +using ::testing::Eq; +using ::testing::Lt; +... + // Expects that Foo()'s argument == bar. + EXPECT_CALL(mock_obj, Foo(Eq(ByRef(bar)))); + + // Expects that Foo()'s argument < bar. + EXPECT_CALL(mock_obj, Foo(Lt(ByRef(bar)))); +``` + +Remember: if you do this, don't change `bar` after the `EXPECT_CALL()`, or the +result is undefined. + +#### Validating a Member of an Object + +Often a mock function takes a reference to object as an argument. When matching +the argument, you may not want to compare the entire object against a fixed +object, as that may be over-specification. Instead, you may need to validate a +certain member variable or the result of a certain getter method of the object. +You can do this with `Field()` and `Property()`. More specifically, + +```cpp +Field(&Foo::bar, m) +``` + +is a matcher that matches a `Foo` object whose `bar` member variable satisfies +matcher `m`. + +```cpp +Property(&Foo::baz, m) +``` + +is a matcher that matches a `Foo` object whose `baz()` method returns a value +that satisfies matcher `m`. + +For example: + +<!-- mdformat off(github rendering does not support multiline tables) --> +| Expression | Description | +| :--------------------------- | :--------------------------------------- | +| `Field(&Foo::number, Ge(3))` | Matches `x` where `x.number >= 3`. | +| `Property(&Foo::name, StartsWith("John "))` | Matches `x` where `x.name()` starts with `"John "`. | +<!-- mdformat on --> + +Note that in `Property(&Foo::baz, ...)`, method `baz()` must take no argument +and be declared as `const`. + +BTW, `Field()` and `Property()` can also match plain pointers to objects. For +instance, + +```cpp +using ::testing::Field; +using ::testing::Ge; +... +Field(&Foo::number, Ge(3)) +``` + +matches a plain pointer `p` where `p->number >= 3`. If `p` is `NULL`, the match +will always fail regardless of the inner matcher. + +What if you want to validate more than one members at the same time? Remember +that there are [`AllOf()` and `AllOfArray()`](#CombiningMatchers). + +Finally `Field()` and `Property()` provide overloads that take the field or +property names as the first argument to include it in the error message. This +can be useful when creating combined matchers. + +```cpp +using ::testing::AllOf; +using ::testing::Field; +using ::testing::Matcher; +using ::testing::SafeMatcherCast; + +Matcher<Foo> IsFoo(const Foo& foo) { + return AllOf(Field("some_field", &Foo::some_field, foo.some_field), + Field("other_field", &Foo::other_field, foo.other_field), + Field("last_field", &Foo::last_field, foo.last_field)); +} +``` + +#### Validating the Value Pointed to by a Pointer Argument + +C++ functions often take pointers as arguments. You can use matchers like +`IsNull()`, `NotNull()`, and other comparison matchers to match a pointer, but +what if you want to make sure the value *pointed to* by the pointer, instead of +the pointer itself, has a certain property? Well, you can use the `Pointee(m)` +matcher. + +`Pointee(m)` matches a pointer if `m` matches the value the pointer points to. +For example: + +```cpp +using ::testing::Ge; +using ::testing::Pointee; +... + EXPECT_CALL(foo, Bar(Pointee(Ge(3)))); +``` + +expects `foo.Bar()` to be called with a pointer that points to a value greater +than or equal to 3. + +One nice thing about `Pointee()` is that it treats a `NULL` pointer as a match +failure, so you can write `Pointee(m)` instead of + +```cpp +using ::testing::AllOf; +using ::testing::NotNull; +using ::testing::Pointee; +... + AllOf(NotNull(), Pointee(m)) +``` + +without worrying that a `NULL` pointer will crash your test. + +Also, did we tell you that `Pointee()` works with both raw pointers **and** +smart pointers (`std::unique_ptr`, `std::shared_ptr`, etc)? + +What if you have a pointer to pointer? You guessed it - you can use nested +`Pointee()` to probe deeper inside the value. For example, +`Pointee(Pointee(Lt(3)))` matches a pointer that points to a pointer that points +to a number less than 3 (what a mouthful...). + +#### Testing a Certain Property of an Object + +Sometimes you want to specify that an object argument has a certain property, +but there is no existing matcher that does this. If you want good error +messages, you should [define a matcher](#NewMatchers). If you want to do it +quick and dirty, you could get away with writing an ordinary function. + +Let's say you have a mock function that takes an object of type `Foo`, which has +an `int bar()` method and an `int baz()` method, and you want to constrain that +the argument's `bar()` value plus its `baz()` value is a given number. Here's +how you can define a matcher to do it: + +```cpp +using ::testing::Matcher; +using ::testing::MatcherInterface; +using ::testing::MatchResultListener; + +class BarPlusBazEqMatcher : public MatcherInterface<const Foo&> { + public: + explicit BarPlusBazEqMatcher(int expected_sum) + : expected_sum_(expected_sum) {} + + bool MatchAndExplain(const Foo& foo, + MatchResultListener* /* listener */) const override { + return (foo.bar() + foo.baz()) == expected_sum_; + } + + void DescribeTo(::std::ostream* os) const override { + *os << "bar() + baz() equals " << expected_sum_; + } + + void DescribeNegationTo(::std::ostream* os) const override { + *os << "bar() + baz() does not equal " << expected_sum_; + } + private: + const int expected_sum_; +}; + +Matcher<const Foo&> BarPlusBazEq(int expected_sum) { + return MakeMatcher(new BarPlusBazEqMatcher(expected_sum)); +} + +... + EXPECT_CALL(..., DoThis(BarPlusBazEq(5)))...; +``` + +#### Matching Containers + +Sometimes an STL container (e.g. list, vector, map, ...) is passed to a mock +function and you may want to validate it. Since most STL containers support the +`==` operator, you can write `Eq(expected_container)` or simply +`expected_container` to match a container exactly. + +Sometimes, though, you may want to be more flexible (for example, the first +element must be an exact match, but the second element can be any positive +number, and so on). Also, containers used in tests often have a small number of +elements, and having to define the expected container out-of-line is a bit of a +hassle. + +You can use the `ElementsAre()` or `UnorderedElementsAre()` matcher in such +cases: + +```cpp +using ::testing::_; +using ::testing::ElementsAre; +using ::testing::Gt; +... + MOCK_METHOD(void, Foo, (const vector<int>& numbers), (override)); +... + EXPECT_CALL(mock, Foo(ElementsAre(1, Gt(0), _, 5))); +``` + +The above matcher says that the container must have 4 elements, which must be 1, +greater than 0, anything, and 5 respectively. + +If you instead write: + +```cpp +using ::testing::_; +using ::testing::Gt; +using ::testing::UnorderedElementsAre; +... + MOCK_METHOD(void, Foo, (const vector<int>& numbers), (override)); +... + EXPECT_CALL(mock, Foo(UnorderedElementsAre(1, Gt(0), _, 5))); +``` + +It means that the container must have 4 elements, which (under some permutation) +must be 1, greater than 0, anything, and 5 respectively. + +As an alternative you can place the arguments in a C-style array and use +`ElementsAreArray()` or `UnorderedElementsAreArray()` instead: + +```cpp +using ::testing::ElementsAreArray; +... + // ElementsAreArray accepts an array of element values. + const int expected_vector1[] = {1, 5, 2, 4, ...}; + EXPECT_CALL(mock, Foo(ElementsAreArray(expected_vector1))); + + // Or, an array of element matchers. + Matcher<int> expected_vector2[] = {1, Gt(2), _, 3, ...}; + EXPECT_CALL(mock, Foo(ElementsAreArray(expected_vector2))); +``` + +In case the array needs to be dynamically created (and therefore the array size +cannot be inferred by the compiler), you can give `ElementsAreArray()` an +additional argument to specify the array size: + +```cpp +using ::testing::ElementsAreArray; +... + int* const expected_vector3 = new int[count]; + ... fill expected_vector3 with values ... + EXPECT_CALL(mock, Foo(ElementsAreArray(expected_vector3, count))); +``` + +Use `Pair` when comparing maps or other associative containers. + +```cpp +using testing::ElementsAre; +using testing::Pair; +... + std::map<string, int> m = {{"a", 1}, {"b", 2}, {"c", 3}}; + EXPECT_THAT(m, ElementsAre(Pair("a", 1), Pair("b", 2), Pair("c", 3))); +``` + +**Tips:** + +* `ElementsAre*()` can be used to match *any* container that implements the + STL iterator pattern (i.e. it has a `const_iterator` type and supports + `begin()/end()`), not just the ones defined in STL. It will even work with + container types yet to be written - as long as they follows the above + pattern. +* You can use nested `ElementsAre*()` to match nested (multi-dimensional) + containers. +* If the container is passed by pointer instead of by reference, just write + `Pointee(ElementsAre*(...))`. +* The order of elements *matters* for `ElementsAre*()`. If you are using it + with containers whose element order are undefined (e.g. `hash_map`) you + should use `WhenSorted` around `ElementsAre`. + +#### Sharing Matchers + +Under the hood, a gMock matcher object consists of a pointer to a ref-counted +implementation object. Copying matchers is allowed and very efficient, as only +the pointer is copied. When the last matcher that references the implementation +object dies, the implementation object will be deleted. + +Therefore, if you have some complex matcher that you want to use again and +again, there is no need to build it everytime. Just assign it to a matcher +variable and use that variable repeatedly! For example, + +```cpp +using ::testing::AllOf; +using ::testing::Gt; +using ::testing::Le; +using ::testing::Matcher; +... + Matcher<int> in_range = AllOf(Gt(5), Le(10)); + ... use in_range as a matcher in multiple EXPECT_CALLs ... +``` + +#### Matchers must have no side-effects {#PureMatchers} + +WARNING: gMock does not guarantee when or how many times a matcher will be +invoked. Therefore, all matchers must be *purely functional*: they cannot have +any side effects, and the match result must not depend on anything other than +the matcher's parameters and the value being matched. + +This requirement must be satisfied no matter how a matcher is defined (e.g., if +it is one of the standard matchers, or a custom matcher). In particular, a +matcher can never call a mock function, as that will affect the state of the +mock object and gMock. + +### Setting Expectations + +#### Knowing When to Expect {#UseOnCall} + +<!-- GOOGLETEST_CM0018 DO NOT DELETE --> + +**`ON_CALL`** is likely the *single most under-utilized construct* in gMock. + +There are basically two constructs for defining the behavior of a mock object: +`ON_CALL` and `EXPECT_CALL`. The difference? `ON_CALL` defines what happens when +a mock method is called, but <em>doesn't imply any expectation on the method +being called</em>. `EXPECT_CALL` not only defines the behavior, but also sets an +expectation that <em>the method will be called with the given arguments, for the +given number of times</em> (and *in the given order* when you specify the order +too). + +Since `EXPECT_CALL` does more, isn't it better than `ON_CALL`? Not really. Every +`EXPECT_CALL` adds a constraint on the behavior of the code under test. Having +more constraints than necessary is *baaad* - even worse than not having enough +constraints. + +This may be counter-intuitive. How could tests that verify more be worse than +tests that verify less? Isn't verification the whole point of tests? + +The answer lies in *what* a test should verify. **A good test verifies the +contract of the code.** If a test over-specifies, it doesn't leave enough +freedom to the implementation. As a result, changing the implementation without +breaking the contract (e.g. refactoring and optimization), which should be +perfectly fine to do, can break such tests. Then you have to spend time fixing +them, only to see them broken again the next time the implementation is changed. + +Keep in mind that one doesn't have to verify more than one property in one test. +In fact, **it's a good style to verify only one thing in one test.** If you do +that, a bug will likely break only one or two tests instead of dozens (which +case would you rather debug?). If you are also in the habit of giving tests +descriptive names that tell what they verify, you can often easily guess what's +wrong just from the test log itself. + +So use `ON_CALL` by default, and only use `EXPECT_CALL` when you actually intend +to verify that the call is made. For example, you may have a bunch of `ON_CALL`s +in your test fixture to set the common mock behavior shared by all tests in the +same group, and write (scarcely) different `EXPECT_CALL`s in different `TEST_F`s +to verify different aspects of the code's behavior. Compared with the style +where each `TEST` has many `EXPECT_CALL`s, this leads to tests that are more +resilient to implementational changes (and thus less likely to require +maintenance) and makes the intent of the tests more obvious (so they are easier +to maintain when you do need to maintain them). + +If you are bothered by the "Uninteresting mock function call" message printed +when a mock method without an `EXPECT_CALL` is called, you may use a `NiceMock` +instead to suppress all such messages for the mock object, or suppress the +message for specific methods by adding `EXPECT_CALL(...).Times(AnyNumber())`. DO +NOT suppress it by blindly adding an `EXPECT_CALL(...)`, or you'll have a test +that's a pain to maintain. + +#### Ignoring Uninteresting Calls + +If you are not interested in how a mock method is called, just don't say +anything about it. In this case, if the method is ever called, gMock will +perform its default action to allow the test program to continue. If you are not +happy with the default action taken by gMock, you can override it using +`DefaultValue<T>::Set()` (described [here](#DefaultValue)) or `ON_CALL()`. + +Please note that once you expressed interest in a particular mock method (via +`EXPECT_CALL()`), all invocations to it must match some expectation. If this +function is called but the arguments don't match any `EXPECT_CALL()` statement, +it will be an error. + +#### Disallowing Unexpected Calls + +If a mock method shouldn't be called at all, explicitly say so: + +```cpp +using ::testing::_; +... + EXPECT_CALL(foo, Bar(_)) + .Times(0); +``` + +If some calls to the method are allowed, but the rest are not, just list all the +expected calls: + +```cpp +using ::testing::AnyNumber; +using ::testing::Gt; +... + EXPECT_CALL(foo, Bar(5)); + EXPECT_CALL(foo, Bar(Gt(10))) + .Times(AnyNumber()); +``` + +A call to `foo.Bar()` that doesn't match any of the `EXPECT_CALL()` statements +will be an error. + +#### Understanding Uninteresting vs Unexpected Calls {#uninteresting-vs-unexpected} + +*Uninteresting* calls and *unexpected* calls are different concepts in gMock. +*Very* different. + +A call `x.Y(...)` is **uninteresting** if there's *not even a single* +`EXPECT_CALL(x, Y(...))` set. In other words, the test isn't interested in the +`x.Y()` method at all, as evident in that the test doesn't care to say anything +about it. + +A call `x.Y(...)` is **unexpected** if there are *some* `EXPECT_CALL(x, +Y(...))`s set, but none of them matches the call. Put another way, the test is +interested in the `x.Y()` method (therefore it explicitly sets some +`EXPECT_CALL` to verify how it's called); however, the verification fails as the +test doesn't expect this particular call to happen. + +**An unexpected call is always an error,** as the code under test doesn't behave +the way the test expects it to behave. + +**By default, an uninteresting call is not an error,** as it violates no +constraint specified by the test. (gMock's philosophy is that saying nothing +means there is no constraint.) However, it leads to a warning, as it *might* +indicate a problem (e.g. the test author might have forgotten to specify a +constraint). + +In gMock, `NiceMock` and `StrictMock` can be used to make a mock class "nice" or +"strict". How does this affect uninteresting calls and unexpected calls? + +A **nice mock** suppresses uninteresting call *warnings*. It is less chatty than +the default mock, but otherwise is the same. If a test fails with a default +mock, it will also fail using a nice mock instead. And vice versa. Don't expect +making a mock nice to change the test's result. + +A **strict mock** turns uninteresting call warnings into errors. So making a +mock strict may change the test's result. + +Let's look at an example: + +```cpp +TEST(...) { + NiceMock<MockDomainRegistry> mock_registry; + EXPECT_CALL(mock_registry, GetDomainOwner("google.com")) + .WillRepeatedly(Return("Larry Page")); + + // Use mock_registry in code under test. + ... &mock_registry ... +} +``` + +The sole `EXPECT_CALL` here says that all calls to `GetDomainOwner()` must have +`"google.com"` as the argument. If `GetDomainOwner("yahoo.com")` is called, it +will be an unexpected call, and thus an error. *Having a nice mock doesn't +change the severity of an unexpected call.* + +So how do we tell gMock that `GetDomainOwner()` can be called with some other +arguments as well? The standard technique is to add a "catch all" `EXPECT_CALL`: + +```cpp + EXPECT_CALL(mock_registry, GetDomainOwner(_)) + .Times(AnyNumber()); // catches all other calls to this method. + EXPECT_CALL(mock_registry, GetDomainOwner("google.com")) + .WillRepeatedly(Return("Larry Page")); +``` + +Remember that `_` is the wildcard matcher that matches anything. With this, if +`GetDomainOwner("google.com")` is called, it will do what the second +`EXPECT_CALL` says; if it is called with a different argument, it will do what +the first `EXPECT_CALL` says. + +Note that the order of the two `EXPECT_CALL`s is important, as a newer +`EXPECT_CALL` takes precedence over an older one. + +For more on uninteresting calls, nice mocks, and strict mocks, read +["The Nice, the Strict, and the Naggy"](#NiceStrictNaggy). + +#### Ignoring Uninteresting Arguments {#ParameterlessExpectations} + +If your test doesn't care about the parameters (it only cares about the number +or order of calls), you can often simply omit the parameter list: + +```cpp + // Expect foo.Bar( ... ) twice with any arguments. + EXPECT_CALL(foo, Bar).Times(2); + + // Delegate to the given method whenever the factory is invoked. + ON_CALL(foo_factory, MakeFoo) + .WillByDefault(&BuildFooForTest); +``` + +This functionality is only available when a method is not overloaded; to prevent +unexpected behavior it is a compilation error to try to set an expectation on a +method where the specific overload is ambiguous. You can work around this by +supplying a [simpler mock interface](#SimplerInterfaces) than the mocked class +provides. + +This pattern is also useful when the arguments are interesting, but match logic +is substantially complex. You can leave the argument list unspecified and use +SaveArg actions to [save the values for later verification](#SaveArgVerify). If +you do that, you can easily differentiate calling the method the wrong number of +times from calling it with the wrong arguments. + +#### Expecting Ordered Calls {#OrderedCalls} + +Although an `EXPECT_CALL()` statement defined earlier takes precedence when +gMock tries to match a function call with an expectation, by default calls don't +have to happen in the order `EXPECT_CALL()` statements are written. For example, +if the arguments match the matchers in the third `EXPECT_CALL()`, but not those +in the first two, then the third expectation will be used. + +If you would rather have all calls occur in the order of the expectations, put +the `EXPECT_CALL()` statements in a block where you define a variable of type +`InSequence`: + +```cpp +using ::testing::_; +using ::testing::InSequence; + + { + InSequence s; + + EXPECT_CALL(foo, DoThis(5)); + EXPECT_CALL(bar, DoThat(_)) + .Times(2); + EXPECT_CALL(foo, DoThis(6)); + } +``` + +In this example, we expect a call to `foo.DoThis(5)`, followed by two calls to +`bar.DoThat()` where the argument can be anything, which are in turn followed by +a call to `foo.DoThis(6)`. If a call occurred out-of-order, gMock will report an +error. + +#### Expecting Partially Ordered Calls {#PartialOrder} + +Sometimes requiring everything to occur in a predetermined order can lead to +brittle tests. For example, we may care about `A` occurring before both `B` and +`C`, but aren't interested in the relative order of `B` and `C`. In this case, +the test should reflect our real intent, instead of being overly constraining. + +gMock allows you to impose an arbitrary DAG (directed acyclic graph) on the +calls. One way to express the DAG is to use the [After](#AfterClause) clause of +`EXPECT_CALL`. + +Another way is via the `InSequence()` clause (not the same as the `InSequence` +class), which we borrowed from jMock 2. It's less flexible than `After()`, but +more convenient when you have long chains of sequential calls, as it doesn't +require you to come up with different names for the expectations in the chains. +Here's how it works: + +If we view `EXPECT_CALL()` statements as nodes in a graph, and add an edge from +node A to node B wherever A must occur before B, we can get a DAG. We use the +term "sequence" to mean a directed path in this DAG. Now, if we decompose the +DAG into sequences, we just need to know which sequences each `EXPECT_CALL()` +belongs to in order to be able to reconstruct the original DAG. + +So, to specify the partial order on the expectations we need to do two things: +first to define some `Sequence` objects, and then for each `EXPECT_CALL()` say +which `Sequence` objects it is part of. + +Expectations in the same sequence must occur in the order they are written. For +example, + +```cpp +using ::testing::Sequence; +... + Sequence s1, s2; + + EXPECT_CALL(foo, A()) + .InSequence(s1, s2); + EXPECT_CALL(bar, B()) + .InSequence(s1); + EXPECT_CALL(bar, C()) + .InSequence(s2); + EXPECT_CALL(foo, D()) + .InSequence(s2); +``` + +specifies the following DAG (where `s1` is `A -> B`, and `s2` is `A -> C -> D`): + +```text + +---> B + | + A ---| + | + +---> C ---> D +``` + +This means that A must occur before B and C, and C must occur before D. There's +no restriction about the order other than these. + +#### Controlling When an Expectation Retires + +When a mock method is called, gMock only considers expectations that are still +active. An expectation is active when created, and becomes inactive (aka +*retires*) when a call that has to occur later has occurred. For example, in + +```cpp +using ::testing::_; +using ::testing::Sequence; +... + Sequence s1, s2; + + EXPECT_CALL(log, Log(WARNING, _, "File too large.")) // #1 + .Times(AnyNumber()) + .InSequence(s1, s2); + EXPECT_CALL(log, Log(WARNING, _, "Data set is empty.")) // #2 + .InSequence(s1); + EXPECT_CALL(log, Log(WARNING, _, "User not found.")) // #3 + .InSequence(s2); +``` + +as soon as either #2 or #3 is matched, #1 will retire. If a warning `"File too +large."` is logged after this, it will be an error. + +Note that an expectation doesn't retire automatically when it's saturated. For +example, + +```cpp +using ::testing::_; +... + EXPECT_CALL(log, Log(WARNING, _, _)); // #1 + EXPECT_CALL(log, Log(WARNING, _, "File too large.")); // #2 +``` + +says that there will be exactly one warning with the message `"File too +large."`. If the second warning contains this message too, #2 will match again +and result in an upper-bound-violated error. + +If this is not what you want, you can ask an expectation to retire as soon as it +becomes saturated: + +```cpp +using ::testing::_; +... + EXPECT_CALL(log, Log(WARNING, _, _)); // #1 + EXPECT_CALL(log, Log(WARNING, _, "File too large.")) // #2 + .RetiresOnSaturation(); +``` + +Here #2 can be used only once, so if you have two warnings with the message +`"File too large."`, the first will match #2 and the second will match #1 - +there will be no error. + +### Using Actions + +#### Returning References from Mock Methods + +If a mock function's return type is a reference, you need to use `ReturnRef()` +instead of `Return()` to return a result: + +```cpp +using ::testing::ReturnRef; + +class MockFoo : public Foo { + public: + MOCK_METHOD(Bar&, GetBar, (), (override)); +}; +... + MockFoo foo; + Bar bar; + EXPECT_CALL(foo, GetBar()) + .WillOnce(ReturnRef(bar)); +... +``` + +#### Returning Live Values from Mock Methods + +The `Return(x)` action saves a copy of `x` when the action is created, and +always returns the same value whenever it's executed. Sometimes you may want to +instead return the *live* value of `x` (i.e. its value at the time when the +action is *executed*.). Use either `ReturnRef()` or `ReturnPointee()` for this +purpose. + +If the mock function's return type is a reference, you can do it using +`ReturnRef(x)`, as shown in the previous recipe ("Returning References from Mock +Methods"). However, gMock doesn't let you use `ReturnRef()` in a mock function +whose return type is not a reference, as doing that usually indicates a user +error. So, what shall you do? + +Though you may be tempted, DO NOT use `ByRef()`: + +```cpp +using testing::ByRef; +using testing::Return; + +class MockFoo : public Foo { + public: + MOCK_METHOD(int, GetValue, (), (override)); +}; +... + int x = 0; + MockFoo foo; + EXPECT_CALL(foo, GetValue()) + .WillRepeatedly(Return(ByRef(x))); // Wrong! + x = 42; + EXPECT_EQ(42, foo.GetValue()); +``` + +Unfortunately, it doesn't work here. The above code will fail with error: + +```text +Value of: foo.GetValue() + Actual: 0 +Expected: 42 +``` + +The reason is that `Return(*value*)` converts `value` to the actual return type +of the mock function at the time when the action is *created*, not when it is +*executed*. (This behavior was chosen for the action to be safe when `value` is +a proxy object that references some temporary objects.) As a result, `ByRef(x)` +is converted to an `int` value (instead of a `const int&`) when the expectation +is set, and `Return(ByRef(x))` will always return 0. + +`ReturnPointee(pointer)` was provided to solve this problem specifically. It +returns the value pointed to by `pointer` at the time the action is *executed*: + +```cpp +using testing::ReturnPointee; +... + int x = 0; + MockFoo foo; + EXPECT_CALL(foo, GetValue()) + .WillRepeatedly(ReturnPointee(&x)); // Note the & here. + x = 42; + EXPECT_EQ(42, foo.GetValue()); // This will succeed now. +``` + +#### Combining Actions + +Want to do more than one thing when a function is called? That's fine. `DoAll()` +allow you to do sequence of actions every time. Only the return value of the +last action in the sequence will be used. + +```cpp +using ::testing::_; +using ::testing::DoAll; + +class MockFoo : public Foo { + public: + MOCK_METHOD(bool, Bar, (int n), (override)); +}; +... + EXPECT_CALL(foo, Bar(_)) + .WillOnce(DoAll(action_1, + action_2, + ... + action_n)); +``` + +#### Verifying Complex Arguments {#SaveArgVerify} + +If you want to verify that a method is called with a particular argument but the +match criteria is complex, it can be difficult to distinguish between +cardinality failures (calling the method the wrong number of times) and argument +match failures. Similarly, if you are matching multiple parameters, it may not +be easy to distinguishing which argument failed to match. For example: + +```cpp + // Not ideal: this could fail because of a problem with arg1 or arg2, or maybe + // just the method wasn't called. + EXPECT_CALL(foo, SendValues(_, ElementsAre(1, 4, 4, 7), EqualsProto( ... ))); +``` + +You can instead save the arguments and test them individually: + +```cpp + EXPECT_CALL(foo, SendValues) + .WillOnce(DoAll(SaveArg<1>(&actual_array), SaveArg<2>(&actual_proto))); + ... run the test + EXPECT_THAT(actual_array, ElementsAre(1, 4, 4, 7)); + EXPECT_THAT(actual_proto, EqualsProto( ... )); +``` + +#### Mocking Side Effects {#MockingSideEffects} + +Sometimes a method exhibits its effect not via returning a value but via side +effects. For example, it may change some global state or modify an output +argument. To mock side effects, in general you can define your own action by +implementing `::testing::ActionInterface`. + +If all you need to do is to change an output argument, the built-in +`SetArgPointee()` action is convenient: + +```cpp +using ::testing::_; +using ::testing::SetArgPointee; + +class MockMutator : public Mutator { + public: + MOCK_METHOD(void, Mutate, (bool mutate, int* value), (override)); + ... +} +... + MockMutator mutator; + EXPECT_CALL(mutator, Mutate(true, _)) + .WillOnce(SetArgPointee<1>(5)); +``` + +In this example, when `mutator.Mutate()` is called, we will assign 5 to the +`int` variable pointed to by argument #1 (0-based). + +`SetArgPointee()` conveniently makes an internal copy of the value you pass to +it, removing the need to keep the value in scope and alive. The implication +however is that the value must have a copy constructor and assignment operator. + +If the mock method also needs to return a value as well, you can chain +`SetArgPointee()` with `Return()` using `DoAll()`, remembering to put the +`Return()` statement last: + +```cpp +using ::testing::_; +using ::testing::Return; +using ::testing::SetArgPointee; + +class MockMutator : public Mutator { + public: + ... + MOCK_METHOD(bool, MutateInt, (int* value), (override)); +} +... + MockMutator mutator; + EXPECT_CALL(mutator, MutateInt(_)) + .WillOnce(DoAll(SetArgPointee<0>(5), + Return(true))); +``` + +Note, however, that if you use the `ReturnOKWith()` method, it will override the +values provided by `SetArgPointee()` in the response parameters of your function +call. + +If the output argument is an array, use the `SetArrayArgument<N>(first, last)` +action instead. It copies the elements in source range `[first, last)` to the +array pointed to by the `N`-th (0-based) argument: + +```cpp +using ::testing::NotNull; +using ::testing::SetArrayArgument; + +class MockArrayMutator : public ArrayMutator { + public: + MOCK_METHOD(void, Mutate, (int* values, int num_values), (override)); + ... +} +... + MockArrayMutator mutator; + int values[5] = {1, 2, 3, 4, 5}; + EXPECT_CALL(mutator, Mutate(NotNull(), 5)) + .WillOnce(SetArrayArgument<0>(values, values + 5)); +``` + +This also works when the argument is an output iterator: + +```cpp +using ::testing::_; +using ::testing::SetArrayArgument; + +class MockRolodex : public Rolodex { + public: + MOCK_METHOD(void, GetNames, (std::back_insert_iterator<vector<string>>), + (override)); + ... +} +... + MockRolodex rolodex; + vector<string> names; + names.push_back("George"); + names.push_back("John"); + names.push_back("Thomas"); + EXPECT_CALL(rolodex, GetNames(_)) + .WillOnce(SetArrayArgument<0>(names.begin(), names.end())); +``` + +#### Changing a Mock Object's Behavior Based on the State + +If you expect a call to change the behavior of a mock object, you can use +`::testing::InSequence` to specify different behaviors before and after the +call: + +```cpp +using ::testing::InSequence; +using ::testing::Return; + +... + { + InSequence seq; + EXPECT_CALL(my_mock, IsDirty()) + .WillRepeatedly(Return(true)); + EXPECT_CALL(my_mock, Flush()); + EXPECT_CALL(my_mock, IsDirty()) + .WillRepeatedly(Return(false)); + } + my_mock.FlushIfDirty(); +``` + +This makes `my_mock.IsDirty()` return `true` before `my_mock.Flush()` is called +and return `false` afterwards. + +If the behavior change is more complex, you can store the effects in a variable +and make a mock method get its return value from that variable: + +```cpp +using ::testing::_; +using ::testing::SaveArg; +using ::testing::Return; + +ACTION_P(ReturnPointee, p) { return *p; } +... + int previous_value = 0; + EXPECT_CALL(my_mock, GetPrevValue) + .WillRepeatedly(ReturnPointee(&previous_value)); + EXPECT_CALL(my_mock, UpdateValue) + .WillRepeatedly(SaveArg<0>(&previous_value)); + my_mock.DoSomethingToUpdateValue(); +``` + +Here `my_mock.GetPrevValue()` will always return the argument of the last +`UpdateValue()` call. + +#### Setting the Default Value for a Return Type {#DefaultValue} + +If a mock method's return type is a built-in C++ type or pointer, by default it +will return 0 when invoked. Also, in C++ 11 and above, a mock method whose +return type has a default constructor will return a default-constructed value by +default. You only need to specify an action if this default value doesn't work +for you. + +Sometimes, you may want to change this default value, or you may want to specify +a default value for types gMock doesn't know about. You can do this using the +`::testing::DefaultValue` class template: + +```cpp +using ::testing::DefaultValue; + +class MockFoo : public Foo { + public: + MOCK_METHOD(Bar, CalculateBar, (), (override)); +}; + + +... + Bar default_bar; + // Sets the default return value for type Bar. + DefaultValue<Bar>::Set(default_bar); + + MockFoo foo; + + // We don't need to specify an action here, as the default + // return value works for us. + EXPECT_CALL(foo, CalculateBar()); + + foo.CalculateBar(); // This should return default_bar. + + // Unsets the default return value. + DefaultValue<Bar>::Clear(); +``` + +Please note that changing the default value for a type can make you tests hard +to understand. We recommend you to use this feature judiciously. For example, +you may want to make sure the `Set()` and `Clear()` calls are right next to the +code that uses your mock. + +#### Setting the Default Actions for a Mock Method + +You've learned how to change the default value of a given type. However, this +may be too coarse for your purpose: perhaps you have two mock methods with the +same return type and you want them to have different behaviors. The `ON_CALL()` +macro allows you to customize your mock's behavior at the method level: + +```cpp +using ::testing::_; +using ::testing::AnyNumber; +using ::testing::Gt; +using ::testing::Return; +... + ON_CALL(foo, Sign(_)) + .WillByDefault(Return(-1)); + ON_CALL(foo, Sign(0)) + .WillByDefault(Return(0)); + ON_CALL(foo, Sign(Gt(0))) + .WillByDefault(Return(1)); + + EXPECT_CALL(foo, Sign(_)) + .Times(AnyNumber()); + + foo.Sign(5); // This should return 1. + foo.Sign(-9); // This should return -1. + foo.Sign(0); // This should return 0. +``` + +As you may have guessed, when there are more than one `ON_CALL()` statements, +the newer ones in the order take precedence over the older ones. In other words, +the **last** one that matches the function arguments will be used. This matching +order allows you to set up the common behavior in a mock object's constructor or +the test fixture's set-up phase and specialize the mock's behavior later. + +Note that both `ON_CALL` and `EXPECT_CALL` have the same "later statements take +precedence" rule, but they don't interact. That is, `EXPECT_CALL`s have their +own precedence order distinct from the `ON_CALL` precedence order. + +#### Using Functions/Methods/Functors/Lambdas as Actions {#FunctionsAsActions} + +If the built-in actions don't suit you, you can use an existing callable +(function, `std::function`, method, functor, lambda as an action. + +<!-- GOOGLETEST_CM0024 DO NOT DELETE --> + +```cpp +using ::testing::_; using ::testing::Invoke; + +class MockFoo : public Foo { + public: + MOCK_METHOD(int, Sum, (int x, int y), (override)); + MOCK_METHOD(bool, ComplexJob, (int x), (override)); +}; + +int CalculateSum(int x, int y) { return x + y; } +int Sum3(int x, int y, int z) { return x + y + z; } + +class Helper { + public: + bool ComplexJob(int x); +}; + +... + MockFoo foo; + Helper helper; + EXPECT_CALL(foo, Sum(_, _)) + .WillOnce(&CalculateSum) + .WillRepeatedly(Invoke(NewPermanentCallback(Sum3, 1))); + EXPECT_CALL(foo, ComplexJob(_)) + .WillOnce(Invoke(&helper, &Helper::ComplexJob)); + .WillRepeatedly([](int x) { return x > 0; }); + + foo.Sum(5, 6); // Invokes CalculateSum(5, 6). + foo.Sum(2, 3); // Invokes Sum3(1, 2, 3). + foo.ComplexJob(10); // Invokes helper.ComplexJob(10). + foo.ComplexJob(-1); // Invokes the inline lambda. +``` + +The only requirement is that the type of the function, etc must be *compatible* +with the signature of the mock function, meaning that the latter's arguments can +be implicitly converted to the corresponding arguments of the former, and the +former's return type can be implicitly converted to that of the latter. So, you +can invoke something whose type is *not* exactly the same as the mock function, +as long as it's safe to do so - nice, huh? + +**`Note:`{.escaped}** + +* The action takes ownership of the callback and will delete it when the + action itself is destructed. +* If the type of a callback is derived from a base callback type `C`, you need + to implicitly cast it to `C` to resolve the overloading, e.g. + + ```cpp + using ::testing::Invoke; + ... + ResultCallback<bool>* is_ok = ...; + ... Invoke(is_ok) ...; // This works. + + BlockingClosure* done = new BlockingClosure; + ... Invoke(implicit_cast<Closure*>(done)) ...; // The cast is necessary. + ``` + +#### Using Functions with Extra Info as Actions + +The function or functor you call using `Invoke()` must have the same number of +arguments as the mock function you use it for. Sometimes you may have a function +that takes more arguments, and you are willing to pass in the extra arguments +yourself to fill the gap. You can do this in gMock using callbacks with +pre-bound arguments. Here's an example: + +```cpp +using ::testing::Invoke; + +class MockFoo : public Foo { + public: + MOCK_METHOD(char, DoThis, (int n), (override)); +}; + +char SignOfSum(int x, int y) { + const int sum = x + y; + return (sum > 0) ? '+' : (sum < 0) ? '-' : '0'; +} + +TEST_F(FooTest, Test) { + MockFoo foo; + + EXPECT_CALL(foo, DoThis(2)) + .WillOnce(Invoke(NewPermanentCallback(SignOfSum, 5))); + EXPECT_EQ('+', foo.DoThis(2)); // Invokes SignOfSum(5, 2). +} +``` + +#### Invoking a Function/Method/Functor/Lambda/Callback Without Arguments + +`Invoke()` is very useful for doing actions that are more complex. It passes the +mock function's arguments to the function, etc being invoked such that the +callee has the full context of the call to work with. If the invoked function is +not interested in some or all of the arguments, it can simply ignore them. + +Yet, a common pattern is that a test author wants to invoke a function without +the arguments of the mock function. `Invoke()` allows her to do that using a +wrapper function that throws away the arguments before invoking an underlining +nullary function. Needless to say, this can be tedious and obscures the intent +of the test. + +`InvokeWithoutArgs()` solves this problem. It's like `Invoke()` except that it +doesn't pass the mock function's arguments to the callee. Here's an example: + +```cpp +using ::testing::_; +using ::testing::InvokeWithoutArgs; + +class MockFoo : public Foo { + public: + MOCK_METHOD(bool, ComplexJob, (int n), (override)); +}; + +bool Job1() { ... } +bool Job2(int n, char c) { ... } + +... + MockFoo foo; + EXPECT_CALL(foo, ComplexJob(_)) + .WillOnce(InvokeWithoutArgs(Job1)) + .WillOnce(InvokeWithoutArgs(NewPermanentCallback(Job2, 5, 'a'))); + + foo.ComplexJob(10); // Invokes Job1(). + foo.ComplexJob(20); // Invokes Job2(5, 'a'). +``` + +**`Note:`{.escaped}** + +* The action takes ownership of the callback and will delete it when the + action itself is destructed. +* If the type of a callback is derived from a base callback type `C`, you need + to implicitly cast it to `C` to resolve the overloading, e.g. + + ```cpp + using ::testing::InvokeWithoutArgs; + ... + ResultCallback<bool>* is_ok = ...; + ... InvokeWithoutArgs(is_ok) ...; // This works. + + BlockingClosure* done = ...; + ... InvokeWithoutArgs(implicit_cast<Closure*>(done)) ...; + // The cast is necessary. + ``` + +#### Invoking an Argument of the Mock Function + +Sometimes a mock function will receive a function pointer, a functor (in other +words, a "callable") as an argument, e.g. + +```cpp +class MockFoo : public Foo { + public: + MOCK_METHOD(bool, DoThis, (int n, (ResultCallback1<bool, int>* callback)), + (override)); +}; +``` + +and you may want to invoke this callable argument: + +```cpp +using ::testing::_; +... + MockFoo foo; + EXPECT_CALL(foo, DoThis(_, _)) + .WillOnce(...); + // Will execute callback->Run(5), where callback is the + // second argument DoThis() receives. +``` + +NOTE: The section below is legacy documentation from before C++ had lambdas: + +Arghh, you need to refer to a mock function argument but C++ has no lambda +(yet), so you have to define your own action. :-( Or do you really? + +Well, gMock has an action to solve *exactly* this problem: + +```cpp +InvokeArgument<N>(arg_1, arg_2, ..., arg_m) +``` + +will invoke the `N`-th (0-based) argument the mock function receives, with +`arg_1`, `arg_2`, ..., and `arg_m`. No matter if the argument is a function +pointer, a functor, or a callback. gMock handles them all. + +With that, you could write: + +```cpp +using ::testing::_; +using ::testing::InvokeArgument; +... + EXPECT_CALL(foo, DoThis(_, _)) + .WillOnce(InvokeArgument<1>(5)); + // Will execute callback->Run(5), where callback is the + // second argument DoThis() receives. +``` + +What if the callable takes an argument by reference? No problem - just wrap it +inside `ByRef()`: + +```cpp + ... + MOCK_METHOD(bool, Bar, + ((ResultCallback2<bool, int, const Helper&>* callback)), + (override)); + ... + using ::testing::_; + using ::testing::ByRef; + using ::testing::InvokeArgument; + ... + MockFoo foo; + Helper helper; + ... + EXPECT_CALL(foo, Bar(_)) + .WillOnce(InvokeArgument<0>(5, ByRef(helper))); + // ByRef(helper) guarantees that a reference to helper, not a copy of it, + // will be passed to the callback. +``` + +What if the callable takes an argument by reference and we do **not** wrap the +argument in `ByRef()`? Then `InvokeArgument()` will *make a copy* of the +argument, and pass a *reference to the copy*, instead of a reference to the +original value, to the callable. This is especially handy when the argument is a +temporary value: + +```cpp + ... + MOCK_METHOD(bool, DoThat, (bool (*f)(const double& x, const string& s)), + (override)); + ... + using ::testing::_; + using ::testing::InvokeArgument; + ... + MockFoo foo; + ... + EXPECT_CALL(foo, DoThat(_)) + .WillOnce(InvokeArgument<0>(5.0, string("Hi"))); + // Will execute (*f)(5.0, string("Hi")), where f is the function pointer + // DoThat() receives. Note that the values 5.0 and string("Hi") are + // temporary and dead once the EXPECT_CALL() statement finishes. Yet + // it's fine to perform this action later, since a copy of the values + // are kept inside the InvokeArgument action. +``` + +#### Ignoring an Action's Result + +Sometimes you have an action that returns *something*, but you need an action +that returns `void` (perhaps you want to use it in a mock function that returns +`void`, or perhaps it needs to be used in `DoAll()` and it's not the last in the +list). `IgnoreResult()` lets you do that. For example: + +```cpp +using ::testing::_; +using ::testing::DoAll; +using ::testing::IgnoreResult; +using ::testing::Return; + +int Process(const MyData& data); +string DoSomething(); + +class MockFoo : public Foo { + public: + MOCK_METHOD(void, Abc, (const MyData& data), (override)); + MOCK_METHOD(bool, Xyz, (), (override)); +}; + + ... + MockFoo foo; + EXPECT_CALL(foo, Abc(_)) + // .WillOnce(Invoke(Process)); + // The above line won't compile as Process() returns int but Abc() needs + // to return void. + .WillOnce(IgnoreResult(Process)); + EXPECT_CALL(foo, Xyz()) + .WillOnce(DoAll(IgnoreResult(DoSomething), + // Ignores the string DoSomething() returns. + Return(true))); +``` + +Note that you **cannot** use `IgnoreResult()` on an action that already returns +`void`. Doing so will lead to ugly compiler errors. + +#### Selecting an Action's Arguments {#SelectingArgs} + +Say you have a mock function `Foo()` that takes seven arguments, and you have a +custom action that you want to invoke when `Foo()` is called. Trouble is, the +custom action only wants three arguments: + +```cpp +using ::testing::_; +using ::testing::Invoke; +... + MOCK_METHOD(bool, Foo, + (bool visible, const string& name, int x, int y, + (const map<pair<int, int>>), double& weight, double min_weight, + double max_wight)); +... +bool IsVisibleInQuadrant1(bool visible, int x, int y) { + return visible && x >= 0 && y >= 0; +} +... + EXPECT_CALL(mock, Foo) + .WillOnce(Invoke(IsVisibleInQuadrant1)); // Uh, won't compile. :-( +``` + +To please the compiler God, you need to define an "adaptor" that has the same +signature as `Foo()` and calls the custom action with the right arguments: + +```cpp +using ::testing::_; +using ::testing::Invoke; +... +bool MyIsVisibleInQuadrant1(bool visible, const string& name, int x, int y, + const map<pair<int, int>, double>& weight, + double min_weight, double max_wight) { + return IsVisibleInQuadrant1(visible, x, y); +} +... + EXPECT_CALL(mock, Foo) + .WillOnce(Invoke(MyIsVisibleInQuadrant1)); // Now it works. +``` + +But isn't this awkward? + +gMock provides a generic *action adaptor*, so you can spend your time minding +more important business than writing your own adaptors. Here's the syntax: + +```cpp +WithArgs<N1, N2, ..., Nk>(action) +``` + +creates an action that passes the arguments of the mock function at the given +indices (0-based) to the inner `action` and performs it. Using `WithArgs`, our +original example can be written as: + +```cpp +using ::testing::_; +using ::testing::Invoke; +using ::testing::WithArgs; +... + EXPECT_CALL(mock, Foo) + .WillOnce(WithArgs<0, 2, 3>(Invoke(IsVisibleInQuadrant1))); // No need to define your own adaptor. +``` + +For better readability, gMock also gives you: + +* `WithoutArgs(action)` when the inner `action` takes *no* argument, and +* `WithArg<N>(action)` (no `s` after `Arg`) when the inner `action` takes + *one* argument. + +As you may have realized, `InvokeWithoutArgs(...)` is just syntactic sugar for +`WithoutArgs(Invoke(...))`. + +Here are more tips: + +* The inner action used in `WithArgs` and friends does not have to be + `Invoke()` -- it can be anything. +* You can repeat an argument in the argument list if necessary, e.g. + `WithArgs<2, 3, 3, 5>(...)`. +* You can change the order of the arguments, e.g. `WithArgs<3, 2, 1>(...)`. +* The types of the selected arguments do *not* have to match the signature of + the inner action exactly. It works as long as they can be implicitly + converted to the corresponding arguments of the inner action. For example, + if the 4-th argument of the mock function is an `int` and `my_action` takes + a `double`, `WithArg<4>(my_action)` will work. + +#### Ignoring Arguments in Action Functions + +The [selecting-an-action's-arguments](#SelectingArgs) recipe showed us one way +to make a mock function and an action with incompatible argument lists fit +together. The downside is that wrapping the action in `WithArgs<...>()` can get +tedious for people writing the tests. + +If you are defining a function (or method, functor, lambda, callback) to be used +with `Invoke*()`, and you are not interested in some of its arguments, an +alternative to `WithArgs` is to declare the uninteresting arguments as `Unused`. +This makes the definition less cluttered and less fragile in case the types of +the uninteresting arguments change. It could also increase the chance the action +function can be reused. For example, given + +```cpp + public: + MOCK_METHOD(double, Foo, double(const string& label, double x, double y), + (override)); + MOCK_METHOD(double, Bar, (int index, double x, double y), (override)); +``` + +instead of + +```cpp +using ::testing::_; +using ::testing::Invoke; + +double DistanceToOriginWithLabel(const string& label, double x, double y) { + return sqrt(x*x + y*y); +} +double DistanceToOriginWithIndex(int index, double x, double y) { + return sqrt(x*x + y*y); +} +... + EXPECT_CALL(mock, Foo("abc", _, _)) + .WillOnce(Invoke(DistanceToOriginWithLabel)); + EXPECT_CALL(mock, Bar(5, _, _)) + .WillOnce(Invoke(DistanceToOriginWithIndex)); +``` + +you could write + +```cpp +using ::testing::_; +using ::testing::Invoke; +using ::testing::Unused; + +double DistanceToOrigin(Unused, double x, double y) { + return sqrt(x*x + y*y); +} +... + EXPECT_CALL(mock, Foo("abc", _, _)) + .WillOnce(Invoke(DistanceToOrigin)); + EXPECT_CALL(mock, Bar(5, _, _)) + .WillOnce(Invoke(DistanceToOrigin)); +``` + +#### Sharing Actions + +Just like matchers, a gMock action object consists of a pointer to a ref-counted +implementation object. Therefore copying actions is also allowed and very +efficient. When the last action that references the implementation object dies, +the implementation object will be deleted. + +If you have some complex action that you want to use again and again, you may +not have to build it from scratch everytime. If the action doesn't have an +internal state (i.e. if it always does the same thing no matter how many times +it has been called), you can assign it to an action variable and use that +variable repeatedly. For example: + +```cpp +using ::testing::Action; +using ::testing::DoAll; +using ::testing::Return; +using ::testing::SetArgPointee; +... + Action<bool(int*)> set_flag = DoAll(SetArgPointee<0>(5), + Return(true)); + ... use set_flag in .WillOnce() and .WillRepeatedly() ... +``` + +However, if the action has its own state, you may be surprised if you share the +action object. Suppose you have an action factory `IncrementCounter(init)` which +creates an action that increments and returns a counter whose initial value is +`init`, using two actions created from the same expression and using a shared +action will exhibit different behaviors. Example: + +```cpp + EXPECT_CALL(foo, DoThis()) + .WillRepeatedly(IncrementCounter(0)); + EXPECT_CALL(foo, DoThat()) + .WillRepeatedly(IncrementCounter(0)); + foo.DoThis(); // Returns 1. + foo.DoThis(); // Returns 2. + foo.DoThat(); // Returns 1 - Blah() uses a different + // counter than Bar()'s. +``` + +versus + +```cpp +using ::testing::Action; +... + Action<int()> increment = IncrementCounter(0); + EXPECT_CALL(foo, DoThis()) + .WillRepeatedly(increment); + EXPECT_CALL(foo, DoThat()) + .WillRepeatedly(increment); + foo.DoThis(); // Returns 1. + foo.DoThis(); // Returns 2. + foo.DoThat(); // Returns 3 - the counter is shared. +``` + +#### Testing Asynchronous Behavior + +One oft-encountered problem with gMock is that it can be hard to test +asynchronous behavior. Suppose you had a `EventQueue` class that you wanted to +test, and you created a separate `EventDispatcher` interface so that you could +easily mock it out. However, the implementation of the class fired all the +events on a background thread, which made test timings difficult. You could just +insert `sleep()` statements and hope for the best, but that makes your test +behavior nondeterministic. A better way is to use gMock actions and +`Notification` objects to force your asynchronous test to behave synchronously. + +```cpp +using ::testing::DoAll; +using ::testing::InvokeWithoutArgs; +using ::testing::Return; + +class MockEventDispatcher : public EventDispatcher { + MOCK_METHOD(bool, DispatchEvent, (int32), (override)); +}; + +ACTION_P(Notify, notification) { + notification->Notify(); +} + +TEST(EventQueueTest, EnqueueEventTest) { + MockEventDispatcher mock_event_dispatcher; + EventQueue event_queue(&mock_event_dispatcher); + + const int32 kEventId = 321; + Notification done; + EXPECT_CALL(mock_event_dispatcher, DispatchEvent(kEventId)) + .WillOnce(Notify(&done)); + + event_queue.EnqueueEvent(kEventId); + done.WaitForNotification(); +} +``` + +In the example above, we set our normal gMock expectations, but then add an +additional action to notify the `Notification` object. Now we can just call +`Notification::WaitForNotification()` in the main thread to wait for the +asynchronous call to finish. After that, our test suite is complete and we can +safely exit. + +Note: this example has a downside: namely, if the expectation is not satisfied, +our test will run forever. It will eventually time-out and fail, but it will +take longer and be slightly harder to debug. To alleviate this problem, you can +use `WaitForNotificationWithTimeout(ms)` instead of `WaitForNotification()`. + +### Misc Recipes on Using gMock + +#### Mocking Methods That Use Move-Only Types + +C++11 introduced *move-only types*. A move-only-typed value can be moved from +one object to another, but cannot be copied. `std::unique_ptr<T>` is probably +the most commonly used move-only type. + +Mocking a method that takes and/or returns move-only types presents some +challenges, but nothing insurmountable. This recipe shows you how you can do it. +Note that the support for move-only method arguments was only introduced to +gMock in April 2017; in older code, you may find more complex +[workarounds](#LegacyMoveOnly) for lack of this feature. + +Let’s say we are working on a fictional project that lets one post and share +snippets called “buzzes”. Your code uses these types: + +```cpp +enum class AccessLevel { kInternal, kPublic }; + +class Buzz { + public: + explicit Buzz(AccessLevel access) { ... } + ... +}; + +class Buzzer { + public: + virtual ~Buzzer() {} + virtual std::unique_ptr<Buzz> MakeBuzz(StringPiece text) = 0; + virtual bool ShareBuzz(std::unique_ptr<Buzz> buzz, int64_t timestamp) = 0; + ... +}; +``` + +A `Buzz` object represents a snippet being posted. A class that implements the +`Buzzer` interface is capable of creating and sharing `Buzz`es. Methods in +`Buzzer` may return a `unique_ptr<Buzz>` or take a `unique_ptr<Buzz>`. Now we +need to mock `Buzzer` in our tests. + +To mock a method that accepts or returns move-only types, you just use the +familiar `MOCK_METHOD` syntax as usual: + +```cpp +class MockBuzzer : public Buzzer { + public: + MOCK_METHOD(std::unique_ptr<Buzz>, MakeBuzz, (StringPiece text), (override)); + MOCK_METHOD(bool, ShareBuzz, (std::unique_ptr<Buzz> buzz, int64_t timestamp), + (override)); +}; +``` + +Now that we have the mock class defined, we can use it in tests. In the +following code examples, we assume that we have defined a `MockBuzzer` object +named `mock_buzzer_`: + +```cpp + MockBuzzer mock_buzzer_; +``` + +First let’s see how we can set expectations on the `MakeBuzz()` method, which +returns a `unique_ptr<Buzz>`. + +As usual, if you set an expectation without an action (i.e. the `.WillOnce()` or +`.WillRepeatedly()` clause), when that expectation fires, the default action for +that method will be taken. Since `unique_ptr<>` has a default constructor that +returns a null `unique_ptr`, that’s what you’ll get if you don’t specify an +action: + +```cpp + // Use the default action. + EXPECT_CALL(mock_buzzer_, MakeBuzz("hello")); + + // Triggers the previous EXPECT_CALL. + EXPECT_EQ(nullptr, mock_buzzer_.MakeBuzz("hello")); +``` + +If you are not happy with the default action, you can tweak it as usual; see +[Setting Default Actions](#OnCall). + +If you just need to return a pre-defined move-only value, you can use the +`Return(ByMove(...))` action: + +```cpp + // When this fires, the unique_ptr<> specified by ByMove(...) will + // be returned. + EXPECT_CALL(mock_buzzer_, MakeBuzz("world")) + .WillOnce(Return(ByMove(MakeUnique<Buzz>(AccessLevel::kInternal)))); + + EXPECT_NE(nullptr, mock_buzzer_.MakeBuzz("world")); +``` + +Note that `ByMove()` is essential here - if you drop it, the code won’t compile. + +Quiz time! What do you think will happen if a `Return(ByMove(...))` action is +performed more than once (e.g. you write `... +.WillRepeatedly(Return(ByMove(...)));`)? Come think of it, after the first time +the action runs, the source value will be consumed (since it’s a move-only +value), so the next time around, there’s no value to move from -- you’ll get a +run-time error that `Return(ByMove(...))` can only be run once. + +If you need your mock method to do more than just moving a pre-defined value, +remember that you can always use a lambda or a callable object, which can do +pretty much anything you want: + +```cpp + EXPECT_CALL(mock_buzzer_, MakeBuzz("x")) + .WillRepeatedly([](StringPiece text) { + return MakeUnique<Buzz>(AccessLevel::kInternal); + }); + + EXPECT_NE(nullptr, mock_buzzer_.MakeBuzz("x")); + EXPECT_NE(nullptr, mock_buzzer_.MakeBuzz("x")); +``` + +Every time this `EXPECT_CALL` fires, a new `unique_ptr<Buzz>` will be created +and returned. You cannot do this with `Return(ByMove(...))`. + +That covers returning move-only values; but how do we work with methods +accepting move-only arguments? The answer is that they work normally, although +some actions will not compile when any of method's arguments are move-only. You +can always use `Return`, or a [lambda or functor](#FunctionsAsActions): + +```cpp + using ::testing::Unused; + + EXPECT_CALL(mock_buzzer_, ShareBuzz(NotNull(), _)).WillOnce(Return(true)); + EXPECT_TRUE(mock_buzzer_.ShareBuzz(MakeUnique<Buzz>(AccessLevel::kInternal)), + 0); + + EXPECT_CALL(mock_buzzer_, ShareBuzz(_, _)).WillOnce( + [](std::unique_ptr<Buzz> buzz, Unused) { return buzz != nullptr; }); + EXPECT_FALSE(mock_buzzer_.ShareBuzz(nullptr, 0)); +``` + +Many built-in actions (`WithArgs`, `WithoutArgs`,`DeleteArg`, `SaveArg`, ...) +could in principle support move-only arguments, but the support for this is not +implemented yet. If this is blocking you, please file a bug. + +A few actions (e.g. `DoAll`) copy their arguments internally, so they can never +work with non-copyable objects; you'll have to use functors instead. + +##### Legacy workarounds for move-only types {#LegacyMoveOnly} + +Support for move-only function arguments was only introduced to gMock in April +2017. In older code, you may encounter the following workaround for the lack of +this feature (it is no longer necessary - we're including it just for +reference): + +```cpp +class MockBuzzer : public Buzzer { + public: + MOCK_METHOD(bool, DoShareBuzz, (Buzz* buzz, Time timestamp)); + bool ShareBuzz(std::unique_ptr<Buzz> buzz, Time timestamp) override { + return DoShareBuzz(buzz.get(), timestamp); + } +}; +``` + +The trick is to delegate the `ShareBuzz()` method to a mock method (let’s call +it `DoShareBuzz()`) that does not take move-only parameters. Then, instead of +setting expectations on `ShareBuzz()`, you set them on the `DoShareBuzz()` mock +method: + +```cpp + MockBuzzer mock_buzzer_; + EXPECT_CALL(mock_buzzer_, DoShareBuzz(NotNull(), _)); + + // When one calls ShareBuzz() on the MockBuzzer like this, the call is + // forwarded to DoShareBuzz(), which is mocked. Therefore this statement + // will trigger the above EXPECT_CALL. + mock_buzzer_.ShareBuzz(MakeUnique<Buzz>(AccessLevel::kInternal), 0); +``` + +#### Making the Compilation Faster + +Believe it or not, the *vast majority* of the time spent on compiling a mock +class is in generating its constructor and destructor, as they perform +non-trivial tasks (e.g. verification of the expectations). What's more, mock +methods with different signatures have different types and thus their +constructors/destructors need to be generated by the compiler separately. As a +result, if you mock many different types of methods, compiling your mock class +can get really slow. + +If you are experiencing slow compilation, you can move the definition of your +mock class' constructor and destructor out of the class body and into a `.cc` +file. This way, even if you `#include` your mock class in N files, the compiler +only needs to generate its constructor and destructor once, resulting in a much +faster compilation. + +Let's illustrate the idea using an example. Here's the definition of a mock +class before applying this recipe: + +```cpp +// File mock_foo.h. +... +class MockFoo : public Foo { + public: + // Since we don't declare the constructor or the destructor, + // the compiler will generate them in every translation unit + // where this mock class is used. + + MOCK_METHOD(int, DoThis, (), (override)); + MOCK_METHOD(bool, DoThat, (const char* str), (override)); + ... more mock methods ... +}; +``` + +After the change, it would look like: + +```cpp +// File mock_foo.h. +... +class MockFoo : public Foo { + public: + // The constructor and destructor are declared, but not defined, here. + MockFoo(); + virtual ~MockFoo(); + + MOCK_METHOD(int, DoThis, (), (override)); + MOCK_METHOD(bool, DoThat, (const char* str), (override)); + ... more mock methods ... +}; +``` + +and + +```cpp +// File mock_foo.cc. +#include "path/to/mock_foo.h" + +// The definitions may appear trivial, but the functions actually do a +// lot of things through the constructors/destructors of the member +// variables used to implement the mock methods. +MockFoo::MockFoo() {} +MockFoo::~MockFoo() {} +``` + +#### Forcing a Verification + +When it's being destroyed, your friendly mock object will automatically verify +that all expectations on it have been satisfied, and will generate googletest +failures if not. This is convenient as it leaves you with one less thing to +worry about. That is, unless you are not sure if your mock object will be +destroyed. + +How could it be that your mock object won't eventually be destroyed? Well, it +might be created on the heap and owned by the code you are testing. Suppose +there's a bug in that code and it doesn't delete the mock object properly - you +could end up with a passing test when there's actually a bug. + +Using a heap checker is a good idea and can alleviate the concern, but its +implementation is not 100% reliable. So, sometimes you do want to *force* gMock +to verify a mock object before it is (hopefully) destructed. You can do this +with `Mock::VerifyAndClearExpectations(&mock_object)`: + +```cpp +TEST(MyServerTest, ProcessesRequest) { + using ::testing::Mock; + + MockFoo* const foo = new MockFoo; + EXPECT_CALL(*foo, ...)...; + // ... other expectations ... + + // server now owns foo. + MyServer server(foo); + server.ProcessRequest(...); + + // In case that server's destructor will forget to delete foo, + // this will verify the expectations anyway. + Mock::VerifyAndClearExpectations(foo); +} // server is destroyed when it goes out of scope here. +``` + +**Tip:** The `Mock::VerifyAndClearExpectations()` function returns a `bool` to +indicate whether the verification was successful (`true` for yes), so you can +wrap that function call inside a `ASSERT_TRUE()` if there is no point going +further when the verification has failed. + +#### Using Check Points {#UsingCheckPoints} + +Sometimes you may want to "reset" a mock object at various check points in your +test: at each check point, you verify that all existing expectations on the mock +object have been satisfied, and then you set some new expectations on it as if +it's newly created. This allows you to work with a mock object in "phases" whose +sizes are each manageable. + +One such scenario is that in your test's `SetUp()` function, you may want to put +the object you are testing into a certain state, with the help from a mock +object. Once in the desired state, you want to clear all expectations on the +mock, such that in the `TEST_F` body you can set fresh expectations on it. + +As you may have figured out, the `Mock::VerifyAndClearExpectations()` function +we saw in the previous recipe can help you here. Or, if you are using +`ON_CALL()` to set default actions on the mock object and want to clear the +default actions as well, use `Mock::VerifyAndClear(&mock_object)` instead. This +function does what `Mock::VerifyAndClearExpectations(&mock_object)` does and +returns the same `bool`, **plus** it clears the `ON_CALL()` statements on +`mock_object` too. + +Another trick you can use to achieve the same effect is to put the expectations +in sequences and insert calls to a dummy "check-point" function at specific +places. Then you can verify that the mock function calls do happen at the right +time. For example, if you are exercising code: + +```cpp + Foo(1); + Foo(2); + Foo(3); +``` + +and want to verify that `Foo(1)` and `Foo(3)` both invoke `mock.Bar("a")`, but +`Foo(2)` doesn't invoke anything. You can write: + +```cpp +using ::testing::MockFunction; + +TEST(FooTest, InvokesBarCorrectly) { + MyMock mock; + // Class MockFunction<F> has exactly one mock method. It is named + // Call() and has type F. + MockFunction<void(string check_point_name)> check; + { + InSequence s; + + EXPECT_CALL(mock, Bar("a")); + EXPECT_CALL(check, Call("1")); + EXPECT_CALL(check, Call("2")); + EXPECT_CALL(mock, Bar("a")); + } + Foo(1); + check.Call("1"); + Foo(2); + check.Call("2"); + Foo(3); +} +``` + +The expectation spec says that the first `Bar("a")` must happen before check +point "1", the second `Bar("a")` must happen after check point "2", and nothing +should happen between the two check points. The explicit check points make it +easy to tell which `Bar("a")` is called by which call to `Foo()`. + +#### Mocking Destructors + +Sometimes you want to make sure a mock object is destructed at the right time, +e.g. after `bar->A()` is called but before `bar->B()` is called. We already know +that you can specify constraints on the [order](#OrderedCalls) of mock function +calls, so all we need to do is to mock the destructor of the mock function. + +This sounds simple, except for one problem: a destructor is a special function +with special syntax and special semantics, and the `MOCK_METHOD` macro doesn't +work for it: + +```cpp +MOCK_METHOD(void, ~MockFoo, ()); // Won't compile! +``` + +The good news is that you can use a simple pattern to achieve the same effect. +First, add a mock function `Die()` to your mock class and call it in the +destructor, like this: + +```cpp +class MockFoo : public Foo { + ... + // Add the following two lines to the mock class. + MOCK_METHOD(void, Die, ()); + virtual ~MockFoo() { Die(); } +}; +``` + +(If the name `Die()` clashes with an existing symbol, choose another name.) Now, +we have translated the problem of testing when a `MockFoo` object dies to +testing when its `Die()` method is called: + +```cpp + MockFoo* foo = new MockFoo; + MockBar* bar = new MockBar; + ... + { + InSequence s; + + // Expects *foo to die after bar->A() and before bar->B(). + EXPECT_CALL(*bar, A()); + EXPECT_CALL(*foo, Die()); + EXPECT_CALL(*bar, B()); + } +``` + +And that's that. + +#### Using gMock and Threads {#UsingThreads} + +In a **unit** test, it's best if you could isolate and test a piece of code in a +single-threaded context. That avoids race conditions and dead locks, and makes +debugging your test much easier. + +Yet most programs are multi-threaded, and sometimes to test something we need to +pound on it from more than one thread. gMock works for this purpose too. + +Remember the steps for using a mock: + +1. Create a mock object `foo`. +2. Set its default actions and expectations using `ON_CALL()` and + `EXPECT_CALL()`. +3. The code under test calls methods of `foo`. +4. Optionally, verify and reset the mock. +5. Destroy the mock yourself, or let the code under test destroy it. The + destructor will automatically verify it. + +If you follow the following simple rules, your mocks and threads can live +happily together: + +* Execute your *test code* (as opposed to the code being tested) in *one* + thread. This makes your test easy to follow. +* Obviously, you can do step #1 without locking. +* When doing step #2 and #5, make sure no other thread is accessing `foo`. + Obvious too, huh? +* #3 and #4 can be done either in one thread or in multiple threads - anyway + you want. gMock takes care of the locking, so you don't have to do any - + unless required by your test logic. + +If you violate the rules (for example, if you set expectations on a mock while +another thread is calling its methods), you get undefined behavior. That's not +fun, so don't do it. + +gMock guarantees that the action for a mock function is done in the same thread +that called the mock function. For example, in + +```cpp + EXPECT_CALL(mock, Foo(1)) + .WillOnce(action1); + EXPECT_CALL(mock, Foo(2)) + .WillOnce(action2); +``` + +if `Foo(1)` is called in thread 1 and `Foo(2)` is called in thread 2, gMock will +execute `action1` in thread 1 and `action2` in thread 2. + +gMock does *not* impose a sequence on actions performed in different threads +(doing so may create deadlocks as the actions may need to cooperate). This means +that the execution of `action1` and `action2` in the above example *may* +interleave. If this is a problem, you should add proper synchronization logic to +`action1` and `action2` to make the test thread-safe. + +Also, remember that `DefaultValue<T>` is a global resource that potentially +affects *all* living mock objects in your program. Naturally, you won't want to +mess with it from multiple threads or when there still are mocks in action. + +#### Controlling How Much Information gMock Prints + +When gMock sees something that has the potential of being an error (e.g. a mock +function with no expectation is called, a.k.a. an uninteresting call, which is +allowed but perhaps you forgot to explicitly ban the call), it prints some +warning messages, including the arguments of the function, the return value, and +the stack trace. Hopefully this will remind you to take a look and see if there +is indeed a problem. + +Sometimes you are confident that your tests are correct and may not appreciate +such friendly messages. Some other times, you are debugging your tests or +learning about the behavior of the code you are testing, and wish you could +observe every mock call that happens (including argument values, the return +value, and the stack trace). Clearly, one size doesn't fit all. + +You can control how much gMock tells you using the `--gmock_verbose=LEVEL` +command-line flag, where `LEVEL` is a string with three possible values: + +* `info`: gMock will print all informational messages, warnings, and errors + (most verbose). At this setting, gMock will also log any calls to the + `ON_CALL/EXPECT_CALL` macros. It will include a stack trace in + "uninteresting call" warnings. +* `warning`: gMock will print both warnings and errors (less verbose); it will + omit the stack traces in "uninteresting call" warnings. This is the default. +* `error`: gMock will print errors only (least verbose). + +Alternatively, you can adjust the value of that flag from within your tests like +so: + +```cpp + ::testing::FLAGS_gmock_verbose = "error"; +``` + +If you find gMock printing too many stack frames with its informational or +warning messages, remember that you can control their amount with the +`--gtest_stack_trace_depth=max_depth` flag. + +Now, judiciously use the right flag to enable gMock serve you better! + +#### Gaining Super Vision into Mock Calls + +You have a test using gMock. It fails: gMock tells you some expectations aren't +satisfied. However, you aren't sure why: Is there a typo somewhere in the +matchers? Did you mess up the order of the `EXPECT_CALL`s? Or is the code under +test doing something wrong? How can you find out the cause? + +Won't it be nice if you have X-ray vision and can actually see the trace of all +`EXPECT_CALL`s and mock method calls as they are made? For each call, would you +like to see its actual argument values and which `EXPECT_CALL` gMock thinks it +matches? If you still need some help to figure out who made these calls, how +about being able to see the complete stack trace at each mock call? + +You can unlock this power by running your test with the `--gmock_verbose=info` +flag. For example, given the test program: + +```cpp +#include "gmock/gmock.h" + +using testing::_; +using testing::HasSubstr; +using testing::Return; + +class MockFoo { + public: + MOCK_METHOD(void, F, (const string& x, const string& y)); +}; + +TEST(Foo, Bar) { + MockFoo mock; + EXPECT_CALL(mock, F(_, _)).WillRepeatedly(Return()); + EXPECT_CALL(mock, F("a", "b")); + EXPECT_CALL(mock, F("c", HasSubstr("d"))); + + mock.F("a", "good"); + mock.F("a", "b"); +} +``` + +if you run it with `--gmock_verbose=info`, you will see this output: + +```shell +[ RUN ] Foo.Bar + +foo_test.cc:14: EXPECT_CALL(mock, F(_, _)) invoked +Stack trace: ... + +foo_test.cc:15: EXPECT_CALL(mock, F("a", "b")) invoked +Stack trace: ... + +foo_test.cc:16: EXPECT_CALL(mock, F("c", HasSubstr("d"))) invoked +Stack trace: ... + +foo_test.cc:14: Mock function call matches EXPECT_CALL(mock, F(_, _))... + Function call: F(@0x7fff7c8dad40"a",@0x7fff7c8dad10"good") +Stack trace: ... + +foo_test.cc:15: Mock function call matches EXPECT_CALL(mock, F("a", "b"))... + Function call: F(@0x7fff7c8dada0"a",@0x7fff7c8dad70"b") +Stack trace: ... + +foo_test.cc:16: Failure +Actual function call count doesn't match EXPECT_CALL(mock, F("c", HasSubstr("d")))... + Expected: to be called once + Actual: never called - unsatisfied and active +[ FAILED ] Foo.Bar +``` + +Suppose the bug is that the `"c"` in the third `EXPECT_CALL` is a typo and +should actually be `"a"`. With the above message, you should see that the actual +`F("a", "good")` call is matched by the first `EXPECT_CALL`, not the third as +you thought. From that it should be obvious that the third `EXPECT_CALL` is +written wrong. Case solved. + +If you are interested in the mock call trace but not the stack traces, you can +combine `--gmock_verbose=info` with `--gtest_stack_trace_depth=0` on the test +command line. + +<!-- GOOGLETEST_CM0025 DO NOT DELETE --> + +#### Running Tests in Emacs + +If you build and run your tests in Emacs using the `M-x google-compile` command +(as many googletest users do), the source file locations of gMock and googletest +errors will be highlighted. Just press `<Enter>` on one of them and you'll be +taken to the offending line. Or, you can just type `C-x`` to jump to the next +error. + +To make it even easier, you can add the following lines to your `~/.emacs` file: + +```text +(global-set-key "\M-m" 'google-compile) ; m is for make +(global-set-key [M-down] 'next-error) +(global-set-key [M-up] '(lambda () (interactive) (next-error -1))) +``` + +Then you can type `M-m` to start a build (if you want to run the test as well, +just make sure `foo_test.run` or `runtests` is in the build command you supply +after typing `M-m`), or `M-up`/`M-down` to move back and forth between errors. + +### Extending gMock + +#### Writing New Matchers Quickly {#NewMatchers} + +WARNING: gMock does not guarantee when or how many times a matcher will be +invoked. Therefore, all matchers must be functionally pure. See +[this section](#PureMatchers) for more details. + +The `MATCHER*` family of macros can be used to define custom matchers easily. +The syntax: + +```cpp +MATCHER(name, description_string_expression) { statements; } +``` + +will define a matcher with the given name that executes the statements, which +must return a `bool` to indicate if the match succeeds. Inside the statements, +you can refer to the value being matched by `arg`, and refer to its type by +`arg_type`. + +The *description string* is a `string`-typed expression that documents what the +matcher does, and is used to generate the failure message when the match fails. +It can (and should) reference the special `bool` variable `negation`, and should +evaluate to the description of the matcher when `negation` is `false`, or that +of the matcher's negation when `negation` is `true`. + +For convenience, we allow the description string to be empty (`""`), in which +case gMock will use the sequence of words in the matcher name as the +description. + +For example: + +```cpp +MATCHER(IsDivisibleBy7, "") { return (arg % 7) == 0; } +``` + +allows you to write + +```cpp + // Expects mock_foo.Bar(n) to be called where n is divisible by 7. + EXPECT_CALL(mock_foo, Bar(IsDivisibleBy7())); +``` + +or, + +```cpp + using ::testing::Not; + ... + // Verifies that two values are divisible by 7. + EXPECT_THAT(some_expression, IsDivisibleBy7()); + EXPECT_THAT(some_other_expression, Not(IsDivisibleBy7())); +``` + +If the above assertions fail, they will print something like: + +```shell + Value of: some_expression + Expected: is divisible by 7 + Actual: 27 + ... + Value of: some_other_expression + Expected: not (is divisible by 7) + Actual: 21 +``` + +where the descriptions `"is divisible by 7"` and `"not (is divisible by 7)"` are +automatically calculated from the matcher name `IsDivisibleBy7`. + +As you may have noticed, the auto-generated descriptions (especially those for +the negation) may not be so great. You can always override them with a `string` +expression of your own: + +```cpp +MATCHER(IsDivisibleBy7, + absl::StrCat(negation ? "isn't" : "is", " divisible by 7")) { + return (arg % 7) == 0; +} +``` + +Optionally, you can stream additional information to a hidden argument named +`result_listener` to explain the match result. For example, a better definition +of `IsDivisibleBy7` is: + +```cpp +MATCHER(IsDivisibleBy7, "") { + if ((arg % 7) == 0) + return true; + + *result_listener << "the remainder is " << (arg % 7); + return false; +} +``` + +With this definition, the above assertion will give a better message: + +```shell + Value of: some_expression + Expected: is divisible by 7 + Actual: 27 (the remainder is 6) +``` + +You should let `MatchAndExplain()` print *any additional information* that can +help a user understand the match result. Note that it should explain why the +match succeeds in case of a success (unless it's obvious) - this is useful when +the matcher is used inside `Not()`. There is no need to print the argument value +itself, as gMock already prints it for you. + +NOTE: The type of the value being matched (`arg_type`) is determined by the +context in which you use the matcher and is supplied to you by the compiler, so +you don't need to worry about declaring it (nor can you). This allows the +matcher to be polymorphic. For example, `IsDivisibleBy7()` can be used to match +any type where the value of `(arg % 7) == 0` can be implicitly converted to a +`bool`. In the `Bar(IsDivisibleBy7())` example above, if method `Bar()` takes an +`int`, `arg_type` will be `int`; if it takes an `unsigned long`, `arg_type` will +be `unsigned long`; and so on. + +#### Writing New Parameterized Matchers Quickly + +Sometimes you'll want to define a matcher that has parameters. For that you can +use the macro: + +```cpp +MATCHER_P(name, param_name, description_string) { statements; } +``` + +where the description string can be either `""` or a `string` expression that +references `negation` and `param_name`. + +For example: + +```cpp +MATCHER_P(HasAbsoluteValue, value, "") { return abs(arg) == value; } +``` + +will allow you to write: + +```cpp + EXPECT_THAT(Blah("a"), HasAbsoluteValue(n)); +``` + +which may lead to this message (assuming `n` is 10): + +```shell + Value of: Blah("a") + Expected: has absolute value 10 + Actual: -9 +``` + +Note that both the matcher description and its parameter are printed, making the +message human-friendly. + +In the matcher definition body, you can write `foo_type` to reference the type +of a parameter named `foo`. For example, in the body of +`MATCHER_P(HasAbsoluteValue, value)` above, you can write `value_type` to refer +to the type of `value`. + +gMock also provides `MATCHER_P2`, `MATCHER_P3`, ..., up to `MATCHER_P10` to +support multi-parameter matchers: + +```cpp +MATCHER_Pk(name, param_1, ..., param_k, description_string) { statements; } +``` + +Please note that the custom description string is for a particular *instance* of +the matcher, where the parameters have been bound to actual values. Therefore +usually you'll want the parameter values to be part of the description. gMock +lets you do that by referencing the matcher parameters in the description string +expression. + +For example, + +```cpp +using ::testing::PrintToString; +MATCHER_P2(InClosedRange, low, hi, + absl::StrFormat("%s in range [%s, %s]", negation ? "isn't" : "is", + PrintToString(low), PrintToString(hi))) { + return low <= arg && arg <= hi; +} +... +EXPECT_THAT(3, InClosedRange(4, 6)); +``` + +would generate a failure that contains the message: + +```shell + Expected: is in range [4, 6] +``` + +If you specify `""` as the description, the failure message will contain the +sequence of words in the matcher name followed by the parameter values printed +as a tuple. For example, + +```cpp + MATCHER_P2(InClosedRange, low, hi, "") { ... } + ... + EXPECT_THAT(3, InClosedRange(4, 6)); +``` + +would generate a failure that contains the text: + +```shell + Expected: in closed range (4, 6) +``` + +For the purpose of typing, you can view + +```cpp +MATCHER_Pk(Foo, p1, ..., pk, description_string) { ... } +``` + +as shorthand for + +```cpp +template <typename p1_type, ..., typename pk_type> +FooMatcherPk<p1_type, ..., pk_type> +Foo(p1_type p1, ..., pk_type pk) { ... } +``` + +When you write `Foo(v1, ..., vk)`, the compiler infers the types of the +parameters `v1`, ..., and `vk` for you. If you are not happy with the result of +the type inference, you can specify the types by explicitly instantiating the +template, as in `Foo<long, bool>(5, false)`. As said earlier, you don't get to +(or need to) specify `arg_type` as that's determined by the context in which the +matcher is used. + +You can assign the result of expression `Foo(p1, ..., pk)` to a variable of type +`FooMatcherPk<p1_type, ..., pk_type>`. This can be useful when composing +matchers. Matchers that don't have a parameter or have only one parameter have +special types: you can assign `Foo()` to a `FooMatcher`-typed variable, and +assign `Foo(p)` to a `FooMatcherP<p_type>`-typed variable. + +While you can instantiate a matcher template with reference types, passing the +parameters by pointer usually makes your code more readable. If, however, you +still want to pass a parameter by reference, be aware that in the failure +message generated by the matcher you will see the value of the referenced object +but not its address. + +You can overload matchers with different numbers of parameters: + +```cpp +MATCHER_P(Blah, a, description_string_1) { ... } +MATCHER_P2(Blah, a, b, description_string_2) { ... } +``` + +While it's tempting to always use the `MATCHER*` macros when defining a new +matcher, you should also consider implementing `MatcherInterface` or using +`MakePolymorphicMatcher()` instead (see the recipes that follow), especially if +you need to use the matcher a lot. While these approaches require more work, +they give you more control on the types of the value being matched and the +matcher parameters, which in general leads to better compiler error messages +that pay off in the long run. They also allow overloading matchers based on +parameter types (as opposed to just based on the number of parameters). + +#### Writing New Monomorphic Matchers + +A matcher of argument type `T` implements `::testing::MatcherInterface<T>` and +does two things: it tests whether a value of type `T` matches the matcher, and +can describe what kind of values it matches. The latter ability is used for +generating readable error messages when expectations are violated. + +The interface looks like this: + +```cpp +class MatchResultListener { + public: + ... + // Streams x to the underlying ostream; does nothing if the ostream + // is NULL. + template <typename T> + MatchResultListener& operator<<(const T& x); + + // Returns the underlying ostream. + ::std::ostream* stream(); +}; + +template <typename T> +class MatcherInterface { + public: + virtual ~MatcherInterface(); + + // Returns true if the matcher matches x; also explains the match + // result to 'listener'. + virtual bool MatchAndExplain(T x, MatchResultListener* listener) const = 0; + + // Describes this matcher to an ostream. + virtual void DescribeTo(::std::ostream* os) const = 0; + + // Describes the negation of this matcher to an ostream. + virtual void DescribeNegationTo(::std::ostream* os) const; +}; +``` + +If you need a custom matcher but `Truly()` is not a good option (for example, +you may not be happy with the way `Truly(predicate)` describes itself, or you +may want your matcher to be polymorphic as `Eq(value)` is), you can define a +matcher to do whatever you want in two steps: first implement the matcher +interface, and then define a factory function to create a matcher instance. The +second step is not strictly needed but it makes the syntax of using the matcher +nicer. + +For example, you can define a matcher to test whether an `int` is divisible by 7 +and then use it like this: + +```cpp +using ::testing::MakeMatcher; +using ::testing::Matcher; +using ::testing::MatcherInterface; +using ::testing::MatchResultListener; + +class DivisibleBy7Matcher : public MatcherInterface<int> { + public: + bool MatchAndExplain(int n, + MatchResultListener* /* listener */) const override { + return (n % 7) == 0; + } + + void DescribeTo(::std::ostream* os) const override { + *os << "is divisible by 7"; + } + + void DescribeNegationTo(::std::ostream* os) const override { + *os << "is not divisible by 7"; + } +}; + +Matcher<int> DivisibleBy7() { + return MakeMatcher(new DivisibleBy7Matcher); +} + +... + EXPECT_CALL(foo, Bar(DivisibleBy7())); +``` + +You may improve the matcher message by streaming additional information to the +`listener` argument in `MatchAndExplain()`: + +```cpp +class DivisibleBy7Matcher : public MatcherInterface<int> { + public: + bool MatchAndExplain(int n, + MatchResultListener* listener) const override { + const int remainder = n % 7; + if (remainder != 0) { + *listener << "the remainder is " << remainder; + } + return remainder == 0; + } + ... +}; +``` + +Then, `EXPECT_THAT(x, DivisibleBy7());` may generate a message like this: + +```shell +Value of: x +Expected: is divisible by 7 + Actual: 23 (the remainder is 2) +``` + +#### Writing New Polymorphic Matchers + +You've learned how to write your own matchers in the previous recipe. Just one +problem: a matcher created using `MakeMatcher()` only works for one particular +type of arguments. If you want a *polymorphic* matcher that works with arguments +of several types (for instance, `Eq(x)` can be used to match a *`value`* as long +as `value == x` compiles -- *`value`* and `x` don't have to share the same +type), you can learn the trick from `testing/base/public/gmock-matchers.h` but +it's a bit involved. + +Fortunately, most of the time you can define a polymorphic matcher easily with +the help of `MakePolymorphicMatcher()`. Here's how you can define `NotNull()` as +an example: + +```cpp +using ::testing::MakePolymorphicMatcher; +using ::testing::MatchResultListener; +using ::testing::PolymorphicMatcher; + +class NotNullMatcher { + public: + // To implement a polymorphic matcher, first define a COPYABLE class + // that has three members MatchAndExplain(), DescribeTo(), and + // DescribeNegationTo(), like the following. + + // In this example, we want to use NotNull() with any pointer, so + // MatchAndExplain() accepts a pointer of any type as its first argument. + // In general, you can define MatchAndExplain() as an ordinary method or + // a method template, or even overload it. + template <typename T> + bool MatchAndExplain(T* p, + MatchResultListener* /* listener */) const { + return p != NULL; + } + + // Describes the property of a value matching this matcher. + void DescribeTo(::std::ostream* os) const { *os << "is not NULL"; } + + // Describes the property of a value NOT matching this matcher. + void DescribeNegationTo(::std::ostream* os) const { *os << "is NULL"; } +}; + +// To construct a polymorphic matcher, pass an instance of the class +// to MakePolymorphicMatcher(). Note the return type. +PolymorphicMatcher<NotNullMatcher> NotNull() { + return MakePolymorphicMatcher(NotNullMatcher()); +} + +... + + EXPECT_CALL(foo, Bar(NotNull())); // The argument must be a non-NULL pointer. +``` + +**Note:** Your polymorphic matcher class does **not** need to inherit from +`MatcherInterface` or any other class, and its methods do **not** need to be +virtual. + +Like in a monomorphic matcher, you may explain the match result by streaming +additional information to the `listener` argument in `MatchAndExplain()`. + +#### Writing New Cardinalities + +A cardinality is used in `Times()` to tell gMock how many times you expect a +call to occur. It doesn't have to be exact. For example, you can say +`AtLeast(5)` or `Between(2, 4)`. + +If the [built-in set](#CardinalityList) of cardinalities doesn't suit you, you +are free to define your own by implementing the following interface (in +namespace `testing`): + +```cpp +class CardinalityInterface { + public: + virtual ~CardinalityInterface(); + + // Returns true if call_count calls will satisfy this cardinality. + virtual bool IsSatisfiedByCallCount(int call_count) const = 0; + + // Returns true if call_count calls will saturate this cardinality. + virtual bool IsSaturatedByCallCount(int call_count) const = 0; + + // Describes self to an ostream. + virtual void DescribeTo(::std::ostream* os) const = 0; +}; +``` + +For example, to specify that a call must occur even number of times, you can +write + +```cpp +using ::testing::Cardinality; +using ::testing::CardinalityInterface; +using ::testing::MakeCardinality; + +class EvenNumberCardinality : public CardinalityInterface { + public: + bool IsSatisfiedByCallCount(int call_count) const override { + return (call_count % 2) == 0; + } + + bool IsSaturatedByCallCount(int call_count) const override { + return false; + } + + void DescribeTo(::std::ostream* os) const { + *os << "called even number of times"; + } +}; + +Cardinality EvenNumber() { + return MakeCardinality(new EvenNumberCardinality); +} + +... + EXPECT_CALL(foo, Bar(3)) + .Times(EvenNumber()); +``` + +#### Writing New Actions Quickly {#QuickNewActions} + +If the built-in actions don't work for you, you can easily define your own one. +Just define a functor class with a (possibly templated) call operator, matching +the signature of your action. + +```cpp +struct Increment { + template <typename T> + T operator()(T* arg) { + return ++(*arg); + } +} +``` + +The same approach works with stateful functors (or any callable, really): + +``` +struct MultiplyBy { + template <typename T> + T operator()(T arg) { return arg * multiplier; } + + int multiplier; +} + +// Then use: +// EXPECT_CALL(...).WillOnce(MultiplyBy{7}); +``` + +##### Legacy macro-based Actions + +Before C++11, the functor-based actions were not supported; the old way of +writing actions was through a set of `ACTION*` macros. We suggest to avoid them +in new code; they hide a lot of logic behind the macro, potentially leading to +harder-to-understand compiler errors. Nevertheless, we cover them here for +completeness. + +By writing + +```cpp +ACTION(name) { statements; } +``` + +in a namespace scope (i.e. not inside a class or function), you will define an +action with the given name that executes the statements. The value returned by +`statements` will be used as the return value of the action. Inside the +statements, you can refer to the K-th (0-based) argument of the mock function as +`argK`. For example: + +```cpp +ACTION(IncrementArg1) { return ++(*arg1); } +``` + +allows you to write + +```cpp +... WillOnce(IncrementArg1()); +``` + +Note that you don't need to specify the types of the mock function arguments. +Rest assured that your code is type-safe though: you'll get a compiler error if +`*arg1` doesn't support the `++` operator, or if the type of `++(*arg1)` isn't +compatible with the mock function's return type. + +Another example: + +```cpp +ACTION(Foo) { + (*arg2)(5); + Blah(); + *arg1 = 0; + return arg0; +} +``` + +defines an action `Foo()` that invokes argument #2 (a function pointer) with 5, +calls function `Blah()`, sets the value pointed to by argument #1 to 0, and +returns argument #0. + +For more convenience and flexibility, you can also use the following pre-defined +symbols in the body of `ACTION`: + +`argK_type` | The type of the K-th (0-based) argument of the mock function +:-------------- | :----------------------------------------------------------- +`args` | All arguments of the mock function as a tuple +`args_type` | The type of all arguments of the mock function as a tuple +`return_type` | The return type of the mock function +`function_type` | The type of the mock function + +For example, when using an `ACTION` as a stub action for mock function: + +```cpp +int DoSomething(bool flag, int* ptr); +``` + +we have: + +Pre-defined Symbol | Is Bound To +------------------ | --------------------------------- +`arg0` | the value of `flag` +`arg0_type` | the type `bool` +`arg1` | the value of `ptr` +`arg1_type` | the type `int*` +`args` | the tuple `(flag, ptr)` +`args_type` | the type `std::tuple<bool, int*>` +`return_type` | the type `int` +`function_type` | the type `int(bool, int*)` + +##### Legacy macro-based parameterized Actions + +Sometimes you'll want to parameterize an action you define. For that we have +another macro + +```cpp +ACTION_P(name, param) { statements; } +``` + +For example, + +```cpp +ACTION_P(Add, n) { return arg0 + n; } +``` + +will allow you to write + +```cpp +// Returns argument #0 + 5. +... WillOnce(Add(5)); +``` + +For convenience, we use the term *arguments* for the values used to invoke the +mock function, and the term *parameters* for the values used to instantiate an +action. + +Note that you don't need to provide the type of the parameter either. Suppose +the parameter is named `param`, you can also use the gMock-defined symbol +`param_type` to refer to the type of the parameter as inferred by the compiler. +For example, in the body of `ACTION_P(Add, n)` above, you can write `n_type` for +the type of `n`. + +gMock also provides `ACTION_P2`, `ACTION_P3`, and etc to support multi-parameter +actions. For example, + +```cpp +ACTION_P2(ReturnDistanceTo, x, y) { + double dx = arg0 - x; + double dy = arg1 - y; + return sqrt(dx*dx + dy*dy); +} +``` + +lets you write + +```cpp +... WillOnce(ReturnDistanceTo(5.0, 26.5)); +``` + +You can view `ACTION` as a degenerated parameterized action where the number of +parameters is 0. + +You can also easily define actions overloaded on the number of parameters: + +```cpp +ACTION_P(Plus, a) { ... } +ACTION_P2(Plus, a, b) { ... } +``` + +#### Restricting the Type of an Argument or Parameter in an ACTION + +For maximum brevity and reusability, the `ACTION*` macros don't ask you to +provide the types of the mock function arguments and the action parameters. +Instead, we let the compiler infer the types for us. + +Sometimes, however, we may want to be more explicit about the types. There are +several tricks to do that. For example: + +```cpp +ACTION(Foo) { + // Makes sure arg0 can be converted to int. + int n = arg0; + ... use n instead of arg0 here ... +} + +ACTION_P(Bar, param) { + // Makes sure the type of arg1 is const char*. + ::testing::StaticAssertTypeEq<const char*, arg1_type>(); + + // Makes sure param can be converted to bool. + bool flag = param; +} +``` + +where `StaticAssertTypeEq` is a compile-time assertion in googletest that +verifies two types are the same. + +#### Writing New Action Templates Quickly + +Sometimes you want to give an action explicit template parameters that cannot be +inferred from its value parameters. `ACTION_TEMPLATE()` supports that and can be +viewed as an extension to `ACTION()` and `ACTION_P*()`. + +The syntax: + +```cpp +ACTION_TEMPLATE(ActionName, + HAS_m_TEMPLATE_PARAMS(kind1, name1, ..., kind_m, name_m), + AND_n_VALUE_PARAMS(p1, ..., p_n)) { statements; } +``` + +defines an action template that takes *m* explicit template parameters and *n* +value parameters, where *m* is in [1, 10] and *n* is in [0, 10]. `name_i` is the +name of the *i*-th template parameter, and `kind_i` specifies whether it's a +`typename`, an integral constant, or a template. `p_i` is the name of the *i*-th +value parameter. + +Example: + +```cpp +// DuplicateArg<k, T>(output) converts the k-th argument of the mock +// function to type T and copies it to *output. +ACTION_TEMPLATE(DuplicateArg, + // Note the comma between int and k: + HAS_2_TEMPLATE_PARAMS(int, k, typename, T), + AND_1_VALUE_PARAMS(output)) { + *output = T(::std::get<k>(args)); +} +``` + +To create an instance of an action template, write: + +```cpp +ActionName<t1, ..., t_m>(v1, ..., v_n) +``` + +where the `t`s are the template arguments and the `v`s are the value arguments. +The value argument types are inferred by the compiler. For example: + +```cpp +using ::testing::_; +... + int n; + EXPECT_CALL(mock, Foo).WillOnce(DuplicateArg<1, unsigned char>(&n)); +``` + +If you want to explicitly specify the value argument types, you can provide +additional template arguments: + +```cpp +ActionName<t1, ..., t_m, u1, ..., u_k>(v1, ..., v_n) +``` + +where `u_i` is the desired type of `v_i`. + +`ACTION_TEMPLATE` and `ACTION`/`ACTION_P*` can be overloaded on the number of +value parameters, but not on the number of template parameters. Without the +restriction, the meaning of the following is unclear: + +```cpp + OverloadedAction<int, bool>(x); +``` + +Are we using a single-template-parameter action where `bool` refers to the type +of `x`, or a two-template-parameter action where the compiler is asked to infer +the type of `x`? + +#### Using the ACTION Object's Type + +If you are writing a function that returns an `ACTION` object, you'll need to +know its type. The type depends on the macro used to define the action and the +parameter types. The rule is relatively simple: + +| Given Definition | Expression | Has Type | +| ----------------------------- | ------------------- | --------------------- | +| `ACTION(Foo)` | `Foo()` | `FooAction` | +| `ACTION_TEMPLATE(Foo,` | `Foo<t1, ..., | `FooAction<t1, ..., | +: `HAS_m_TEMPLATE_PARAMS(...),` : t_m>()` : t_m>` : +: `AND_0_VALUE_PARAMS())` : : : +| `ACTION_P(Bar, param)` | `Bar(int_value)` | `BarActionP<int>` | +| `ACTION_TEMPLATE(Bar,` | `Bar<t1, ..., t_m>` | `FooActionP<t1, ..., | +: `HAS_m_TEMPLATE_PARAMS(...),` : `(int_value)` : t_m, int>` : +: `AND_1_VALUE_PARAMS(p1))` : : : +| `ACTION_P2(Baz, p1, p2)` | `Baz(bool_value,` | `BazActionP2<bool, | +: : `int_value)` : int>` : +| `ACTION_TEMPLATE(Baz,` | `Baz<t1, ..., t_m>` | `FooActionP2<t1, ..., | +: `HAS_m_TEMPLATE_PARAMS(...),` : `(bool_value,` : t_m,` `bool, int>` : +: `AND_2_VALUE_PARAMS(p1, p2))` : `int_value)` : : +| ... | ... | ... | + +Note that we have to pick different suffixes (`Action`, `ActionP`, `ActionP2`, +and etc) for actions with different numbers of value parameters, or the action +definitions cannot be overloaded on the number of them. + +#### Writing New Monomorphic Actions {#NewMonoActions} + +While the `ACTION*` macros are very convenient, sometimes they are +inappropriate. For example, despite the tricks shown in the previous recipes, +they don't let you directly specify the types of the mock function arguments and +the action parameters, which in general leads to unoptimized compiler error +messages that can baffle unfamiliar users. They also don't allow overloading +actions based on parameter types without jumping through some hoops. + +An alternative to the `ACTION*` macros is to implement +`::testing::ActionInterface<F>`, where `F` is the type of the mock function in +which the action will be used. For example: + +```cpp +template <typename F> +class ActionInterface { + public: + virtual ~ActionInterface(); + + // Performs the action. Result is the return type of function type + // F, and ArgumentTuple is the tuple of arguments of F. + // + + // For example, if F is int(bool, const string&), then Result would + // be int, and ArgumentTuple would be ::std::tuple<bool, const string&>. + virtual Result Perform(const ArgumentTuple& args) = 0; +}; +``` + +```cpp +using ::testing::_; +using ::testing::Action; +using ::testing::ActionInterface; +using ::testing::MakeAction; + +typedef int IncrementMethod(int*); + +class IncrementArgumentAction : public ActionInterface<IncrementMethod> { + public: + int Perform(const ::std::tuple<int*>& args) override { + int* p = ::std::get<0>(args); // Grabs the first argument. + return *p++; + } +}; + +Action<IncrementMethod> IncrementArgument() { + return MakeAction(new IncrementArgumentAction); +} + +... + EXPECT_CALL(foo, Baz(_)) + .WillOnce(IncrementArgument()); + + int n = 5; + foo.Baz(&n); // Should return 5 and change n to 6. +``` + +#### Writing New Polymorphic Actions {#NewPolyActions} + +The previous recipe showed you how to define your own action. This is all good, +except that you need to know the type of the function in which the action will +be used. Sometimes that can be a problem. For example, if you want to use the +action in functions with *different* types (e.g. like `Return()` and +`SetArgPointee()`). + +If an action can be used in several types of mock functions, we say it's +*polymorphic*. The `MakePolymorphicAction()` function template makes it easy to +define such an action: + +```cpp +namespace testing { +template <typename Impl> +PolymorphicAction<Impl> MakePolymorphicAction(const Impl& impl); +} // namespace testing +``` + +As an example, let's define an action that returns the second argument in the +mock function's argument list. The first step is to define an implementation +class: + +```cpp +class ReturnSecondArgumentAction { + public: + template <typename Result, typename ArgumentTuple> + Result Perform(const ArgumentTuple& args) const { + // To get the i-th (0-based) argument, use ::std::get(args). + return ::std::get<1>(args); + } +}; +``` + +This implementation class does *not* need to inherit from any particular class. +What matters is that it must have a `Perform()` method template. This method +template takes the mock function's arguments as a tuple in a **single** +argument, and returns the result of the action. It can be either `const` or not, +but must be invokable with exactly one template argument, which is the result +type. In other words, you must be able to call `Perform<R>(args)` where `R` is +the mock function's return type and `args` is its arguments in a tuple. + +Next, we use `MakePolymorphicAction()` to turn an instance of the implementation +class into the polymorphic action we need. It will be convenient to have a +wrapper for this: + +```cpp +using ::testing::MakePolymorphicAction; +using ::testing::PolymorphicAction; + +PolymorphicAction<ReturnSecondArgumentAction> ReturnSecondArgument() { + return MakePolymorphicAction(ReturnSecondArgumentAction()); +} +``` + +Now, you can use this polymorphic action the same way you use the built-in ones: + +```cpp +using ::testing::_; + +class MockFoo : public Foo { + public: + MOCK_METHOD(int, DoThis, (bool flag, int n), (override)); + MOCK_METHOD(string, DoThat, (int x, const char* str1, const char* str2), + (override)); +}; + + ... + MockFoo foo; + EXPECT_CALL(foo, DoThis).WillOnce(ReturnSecondArgument()); + EXPECT_CALL(foo, DoThat).WillOnce(ReturnSecondArgument()); + ... + foo.DoThis(true, 5); // Will return 5. + foo.DoThat(1, "Hi", "Bye"); // Will return "Hi". +``` + +#### Teaching gMock How to Print Your Values + +When an uninteresting or unexpected call occurs, gMock prints the argument +values and the stack trace to help you debug. Assertion macros like +`EXPECT_THAT` and `EXPECT_EQ` also print the values in question when the +assertion fails. gMock and googletest do this using googletest's user-extensible +value printer. + +This printer knows how to print built-in C++ types, native arrays, STL +containers, and any type that supports the `<<` operator. For other types, it +prints the raw bytes in the value and hopes that you the user can figure it out. +[googletest's advanced guide](../../googletest/docs/advanced.md#teaching-googletest-how-to-print-your-values) +explains how to extend the printer to do a better job at printing your +particular type than to dump the bytes. + +### Useful Mocks Created Using gMock + +<!--#include file="includes/g3_testing_LOGs.md"--> +<!--#include file="includes/g3_mock_callbacks.md"--> + +#### Mock std::function {#MockFunction} + +`std::function` is a general function type introduced in C++11. It is a +preferred way of passing callbacks to new interfaces. Functions are copiable, +and are not usually passed around by pointer, which makes them tricky to mock. +But fear not - `MockFunction` can help you with that. + +`MockFunction<R(T1, ..., Tn)>` has a mock method `Call()` with the signature: + +```cpp + R Call(T1, ..., Tn); +``` + +It also has a `AsStdFunction()` method, which creates a `std::function` proxy +forwarding to Call: + +```cpp + std::function<R(T1, ..., Tn)> AsStdFunction(); +``` + +To use `MockFunction`, first create `MockFunction` object and set up +expectations on its `Call` method. Then pass proxy obtained from +`AsStdFunction()` to the code you are testing. For example: + +```cpp +TEST(FooTest, RunsCallbackWithBarArgument) { + // 1. Create a mock object. + MockFunction<int(string)> mock_function; + + // 2. Set expectations on Call() method. + EXPECT_CALL(mock_function, Call("bar")).WillOnce(Return(1)); + + // 3. Exercise code that uses std::function. + Foo(mock_function.AsStdFunction()); + // Foo's signature can be either of: + // void Foo(const std::function<int(string)>& fun); + // void Foo(std::function<int(string)> fun); + + // 4. All expectations will be verified when mock_function + // goes out of scope and is destroyed. +} +``` + +Remember that function objects created with `AsStdFunction()` are just +forwarders. If you create multiple of them, they will share the same set of +expectations. + +Although `std::function` supports unlimited number of arguments, `MockFunction` +implementation is limited to ten. If you ever hit that limit... well, your +callback has bigger problems than being mockable. :-) + +<!-- GOOGLETEST_CM0034 DO NOT DELETE --> diff --git a/googlemock/docs/for_dummies.md b/googlemock/docs/for_dummies.md new file mode 100644 index 0000000..3bccd2b --- /dev/null +++ b/googlemock/docs/for_dummies.md @@ -0,0 +1,698 @@ +## gMock for Dummies {#GMockForDummies} + +<!-- GOOGLETEST_CM0013 DO NOT DELETE --> + +### What Is gMock? + +When you write a prototype or test, often it's not feasible or wise to rely on +real objects entirely. A **mock object** implements the same interface as a real +object (so it can be used as one), but lets you specify at run time how it will +be used and what it should do (which methods will be called? in which order? how +many times? with what arguments? what will they return? etc). + +**Note:** It is easy to confuse the term *fake objects* with mock objects. Fakes +and mocks actually mean very different things in the Test-Driven Development +(TDD) community: + +* **Fake** objects have working implementations, but usually take some + shortcut (perhaps to make the operations less expensive), which makes them + not suitable for production. An in-memory file system would be an example of + a fake. +* **Mocks** are objects pre-programmed with *expectations*, which form a + specification of the calls they are expected to receive. + +If all this seems too abstract for you, don't worry - the most important thing +to remember is that a mock allows you to check the *interaction* between itself +and code that uses it. The difference between fakes and mocks shall become much +clearer once you start to use mocks. + +**gMock** is a library (sometimes we also call it a "framework" to make it sound +cool) for creating mock classes and using them. It does to C++ what +jMock/EasyMock does to Java (well, more or less). + +When using gMock, + +1. first, you use some simple macros to describe the interface you want to + mock, and they will expand to the implementation of your mock class; +2. next, you create some mock objects and specify its expectations and behavior + using an intuitive syntax; +3. then you exercise code that uses the mock objects. gMock will catch any + violation to the expectations as soon as it arises. + +### Why gMock? + +While mock objects help you remove unnecessary dependencies in tests and make +them fast and reliable, using mocks manually in C++ is *hard*: + +* Someone has to implement the mocks. The job is usually tedious and + error-prone. No wonder people go great distance to avoid it. +* The quality of those manually written mocks is a bit, uh, unpredictable. You + may see some really polished ones, but you may also see some that were + hacked up in a hurry and have all sorts of ad hoc restrictions. +* The knowledge you gained from using one mock doesn't transfer to the next + one. + +In contrast, Java and Python programmers have some fine mock frameworks (jMock, +EasyMock, [Mox](http://wtf/mox), etc), which automate the creation of mocks. As +a result, mocking is a proven effective technique and widely adopted practice in +those communities. Having the right tool absolutely makes the difference. + +gMock was built to help C++ programmers. It was inspired by jMock and EasyMock, +but designed with C++'s specifics in mind. It is your friend if any of the +following problems is bothering you: + +* You are stuck with a sub-optimal design and wish you had done more + prototyping before it was too late, but prototyping in C++ is by no means + "rapid". +* Your tests are slow as they depend on too many libraries or use expensive + resources (e.g. a database). +* Your tests are brittle as some resources they use are unreliable (e.g. the + network). +* You want to test how your code handles a failure (e.g. a file checksum + error), but it's not easy to cause one. +* You need to make sure that your module interacts with other modules in the + right way, but it's hard to observe the interaction; therefore you resort to + observing the side effects at the end of the action, but it's awkward at + best. +* You want to "mock out" your dependencies, except that they don't have mock + implementations yet; and, frankly, you aren't thrilled by some of those + hand-written mocks. + +We encourage you to use gMock as + +* a *design* tool, for it lets you experiment with your interface design early + and often. More iterations lead to better designs! +* a *testing* tool to cut your tests' outbound dependencies and probe the + interaction between your module and its collaborators. + +### Getting Started + +gMock is bundled with googletest. + +### A Case for Mock Turtles + +Let's look at an example. Suppose you are developing a graphics program that +relies on a [LOGO](http://en.wikipedia.org/wiki/Logo_programming_language)-like +API for drawing. How would you test that it does the right thing? Well, you can +run it and compare the screen with a golden screen snapshot, but let's admit it: +tests like this are expensive to run and fragile (What if you just upgraded to a +shiny new graphics card that has better anti-aliasing? Suddenly you have to +update all your golden images.). It would be too painful if all your tests are +like this. Fortunately, you learned about +[Dependency Injection](http://en.wikipedia.org/wiki/Dependency_injection) and know the right thing +to do: instead of having your application talk to the system API directly, wrap +the API in an interface (say, `Turtle`) and code to that interface: + +```cpp +class Turtle { + ... + virtual ~Turtle() {}; + virtual void PenUp() = 0; + virtual void PenDown() = 0; + virtual void Forward(int distance) = 0; + virtual void Turn(int degrees) = 0; + virtual void GoTo(int x, int y) = 0; + virtual int GetX() const = 0; + virtual int GetY() const = 0; +}; +``` + +(Note that the destructor of `Turtle` **must** be virtual, as is the case for +**all** classes you intend to inherit from - otherwise the destructor of the +derived class will not be called when you delete an object through a base +pointer, and you'll get corrupted program states like memory leaks.) + +You can control whether the turtle's movement will leave a trace using `PenUp()` +and `PenDown()`, and control its movement using `Forward()`, `Turn()`, and +`GoTo()`. Finally, `GetX()` and `GetY()` tell you the current position of the +turtle. + +Your program will normally use a real implementation of this interface. In +tests, you can use a mock implementation instead. This allows you to easily +check what drawing primitives your program is calling, with what arguments, and +in which order. Tests written this way are much more robust (they won't break +because your new machine does anti-aliasing differently), easier to read and +maintain (the intent of a test is expressed in the code, not in some binary +images), and run *much, much faster*. + +### Writing the Mock Class + +If you are lucky, the mocks you need to use have already been implemented by +some nice people. If, however, you find yourself in the position to write a mock +class, relax - gMock turns this task into a fun game! (Well, almost.) + +#### How to Define It + +Using the `Turtle` interface as example, here are the simple steps you need to +follow: + +* Derive a class `MockTurtle` from `Turtle`. +* Take a *virtual* function of `Turtle` (while it's possible to + [mock non-virtual methods using templates](#MockingNonVirtualMethods), it's + much more involved). +* In the `public:` section of the child class, write `MOCK_METHOD();` +* Now comes the fun part: you take the function signature, cut-and-paste it + into the macro, and add two commas - one between the return type and the + name, another between the name and the argument list. +* If you're mocking a const method, add a 4th parameter containing `(const)` + (the parentheses are required). +* Since you're overriding a virtual method, we suggest adding the `override` + keyword. For const methods the 4th parameter becomes `(const, override)`, + for non-const methods just `(override)`. This isn't mandatory. +* Repeat until all virtual functions you want to mock are done. (It goes + without saying that *all* pure virtual methods in your abstract class must + be either mocked or overridden.) + +After the process, you should have something like: + +```cpp +#include "gmock/gmock.h" // Brings in gMock. + +class MockTurtle : public Turtle { + public: + ... + MOCK_METHOD(void, PenUp, (), (override)); + MOCK_METHOD(void, PenDown, (), (override)); + MOCK_METHOD(void, Forward, (int distance), (override)); + MOCK_METHOD(void, Turn, (int degrees), (override)); + MOCK_METHOD(void, GoTo, (int x, int y), (override)); + MOCK_METHOD(int, GetX, (), (const, override)); + MOCK_METHOD(int, GetY, (), (const, override)); +}; +``` + +You don't need to define these mock methods somewhere else - the `MOCK_METHOD` +macro will generate the definitions for you. It's that simple! + +#### Where to Put It + +When you define a mock class, you need to decide where to put its definition. +Some people put it in a `_test.cc`. This is fine when the interface being mocked +(say, `Foo`) is owned by the same person or team. Otherwise, when the owner of +`Foo` changes it, your test could break. (You can't really expect `Foo`'s +maintainer to fix every test that uses `Foo`, can you?) + +So, the rule of thumb is: if you need to mock `Foo` and it's owned by others, +define the mock class in `Foo`'s package (better, in a `testing` sub-package +such that you can clearly separate production code and testing utilities), put +it in a `.h` and a `cc_library`. Then everyone can reference them from their +tests. If `Foo` ever changes, there is only one copy of `MockFoo` to change, and +only tests that depend on the changed methods need to be fixed. + +Another way to do it: you can introduce a thin layer `FooAdaptor` on top of +`Foo` and code to this new interface. Since you own `FooAdaptor`, you can absorb +changes in `Foo` much more easily. While this is more work initially, carefully +choosing the adaptor interface can make your code easier to write and more +readable (a net win in the long run), as you can choose `FooAdaptor` to fit your +specific domain much better than `Foo` does. + +<!-- GOOGLETEST_CM0029 DO NOT DELETE --> + +### Using Mocks in Tests + +Once you have a mock class, using it is easy. The typical work flow is: + +1. Import the gMock names from the `testing` namespace such that you can use + them unqualified (You only have to do it once per file. Remember that + namespaces are a good idea. +2. Create some mock objects. +3. Specify your expectations on them (How many times will a method be called? + With what arguments? What should it do? etc.). +4. Exercise some code that uses the mocks; optionally, check the result using + googletest assertions. If a mock method is called more than expected or with + wrong arguments, you'll get an error immediately. +5. When a mock is destructed, gMock will automatically check whether all + expectations on it have been satisfied. + +Here's an example: + +```cpp +#include "path/to/mock-turtle.h" +#include "gmock/gmock.h" +#include "gtest/gtest.h" + +using ::testing::AtLeast; // #1 + +TEST(PainterTest, CanDrawSomething) { + MockTurtle turtle; // #2 + EXPECT_CALL(turtle, PenDown()) // #3 + .Times(AtLeast(1)); + + Painter painter(&turtle); // #4 + + EXPECT_TRUE(painter.DrawCircle(0, 0, 10)); // #5 +} +``` + +As you might have guessed, this test checks that `PenDown()` is called at least +once. If the `painter` object didn't call this method, your test will fail with +a message like this: + +```text +path/to/my_test.cc:119: Failure +Actual function call count doesn't match this expectation: +Actually: never called; +Expected: called at least once. +Stack trace: +... +``` + +**Tip 1:** If you run the test from an Emacs buffer, you can hit <Enter> on the +line number to jump right to the failed expectation. + +**Tip 2:** If your mock objects are never deleted, the final verification won't +happen. Therefore it's a good idea to turn on the heap checker in your tests +when you allocate mocks on the heap. You get that automatically if you use the +`gtest_main` library already. + +**Important note:** gMock requires expectations to be set **before** the mock +functions are called, otherwise the behavior is **undefined**. In particular, +you mustn't interleave `EXPECT_CALL()s` and calls to the mock functions. + +This means `EXPECT_CALL()` should be read as expecting that a call will occur +*in the future*, not that a call has occurred. Why does gMock work like that? +Well, specifying the expectation beforehand allows gMock to report a violation +as soon as it rises, when the context (stack trace, etc) is still available. +This makes debugging much easier. + +Admittedly, this test is contrived and doesn't do much. You can easily achieve +the same effect without using gMock. However, as we shall reveal soon, gMock +allows you to do *so much more* with the mocks. + +### Setting Expectations + +The key to using a mock object successfully is to set the *right expectations* +on it. If you set the expectations too strict, your test will fail as the result +of unrelated changes. If you set them too loose, bugs can slip through. You want +to do it just right such that your test can catch exactly the kind of bugs you +intend it to catch. gMock provides the necessary means for you to do it "just +right." + +#### General Syntax + +In gMock we use the `EXPECT_CALL()` macro to set an expectation on a mock +method. The general syntax is: + +```cpp +EXPECT_CALL(mock_object, method(matchers)) + .Times(cardinality) + .WillOnce(action) + .WillRepeatedly(action); +``` + +The macro has two arguments: first the mock object, and then the method and its +arguments. Note that the two are separated by a comma (`,`), not a period (`.`). +(Why using a comma? The answer is that it was necessary for technical reasons.) +If the method is not overloaded, the macro can also be called without matchers: + +```cpp +EXPECT_CALL(mock_object, non-overloaded-method) + .Times(cardinality) + .WillOnce(action) + .WillRepeatedly(action); +``` + +This syntax allows the test writer to specify "called with any arguments" +without explicitly specifying the number or types of arguments. To avoid +unintended ambiguity, this syntax may only be used for methods which are not +overloaded + +Either form of the macro can be followed by some optional *clauses* that provide +more information about the expectation. We'll discuss how each clause works in +the coming sections. + +This syntax is designed to make an expectation read like English. For example, +you can probably guess that + +```cpp +using ::testing::Return; +... +EXPECT_CALL(turtle, GetX()) + .Times(5) + .WillOnce(Return(100)) + .WillOnce(Return(150)) + .WillRepeatedly(Return(200)); +``` + +says that the `turtle` object's `GetX()` method will be called five times, it +will return 100 the first time, 150 the second time, and then 200 every time. +Some people like to call this style of syntax a Domain-Specific Language (DSL). + +**Note:** Why do we use a macro to do this? Well it serves two purposes: first +it makes expectations easily identifiable (either by `gsearch` or by a human +reader), and second it allows gMock to include the source file location of a +failed expectation in messages, making debugging easier. + +#### Matchers: What Arguments Do We Expect? + +When a mock function takes arguments, we may specify what arguments we are +expecting, for example: + +```cpp +// Expects the turtle to move forward by 100 units. +EXPECT_CALL(turtle, Forward(100)); +``` + +Oftentimes you do not want to be too specific. Remember that talk about tests +being too rigid? Over specification leads to brittle tests and obscures the +intent of tests. Therefore we encourage you to specify only what's necessary—no +more, no less. If you aren't interested in the value of an argument, write `_` +as the argument, which means "anything goes": + +```cpp +using ::testing::_; +... +// Expects that the turtle jumps to somewhere on the x=50 line. +EXPECT_CALL(turtle, GoTo(50, _)); +``` + +`_` is an instance of what we call **matchers**. A matcher is like a predicate +and can test whether an argument is what we'd expect. You can use a matcher +inside `EXPECT_CALL()` wherever a function argument is expected. `_` is a +convenient way of saying "any value". + +In the above examples, `100` and `50` are also matchers; implicitly, they are +the same as `Eq(100)` and `Eq(50)`, which specify that the argument must be +equal (using `operator==`) to the matcher argument. There are many +[built-in matchers](#MatcherList) for common types (as well as +[custom matchers](#NewMatchers)); for example: + +```cpp +using ::testing::Ge; +... +// Expects the turtle moves forward by at least 100. +EXPECT_CALL(turtle, Forward(Ge(100))); +``` + +If you don't care about *any* arguments, rather than specify `_` for each of +them you may instead omit the parameter list: + +```cpp +// Expects the turtle to move forward. +EXPECT_CALL(turtle, Forward); +// Expects the turtle to jump somewhere. +EXPECT_CALL(turtle, GoTo); +``` + +This works for all non-overloaded methods; if a method is overloaded, you need +to help gMock resolve which overload is expected by specifying the number of +arguments and possibly also the [types of the arguments](#SelectOverload). + +#### Cardinalities: How Many Times Will It Be Called? + +The first clause we can specify following an `EXPECT_CALL()` is `Times()`. We +call its argument a **cardinality** as it tells *how many times* the call should +occur. It allows us to repeat an expectation many times without actually writing +it as many times. More importantly, a cardinality can be "fuzzy", just like a +matcher can be. This allows a user to express the intent of a test exactly. + +An interesting special case is when we say `Times(0)`. You may have guessed - it +means that the function shouldn't be called with the given arguments at all, and +gMock will report a googletest failure whenever the function is (wrongfully) +called. + +We've seen `AtLeast(n)` as an example of fuzzy cardinalities earlier. For the +list of built-in cardinalities you can use, see [here](#CardinalityList). + +The `Times()` clause can be omitted. **If you omit `Times()`, gMock will infer +the cardinality for you.** The rules are easy to remember: + +* If **neither** `WillOnce()` **nor** `WillRepeatedly()` is in the + `EXPECT_CALL()`, the inferred cardinality is `Times(1)`. +* If there are *n* `WillOnce()`'s but **no** `WillRepeatedly()`, where *n* >= + 1, the cardinality is `Times(n)`. +* If there are *n* `WillOnce()`'s and **one** `WillRepeatedly()`, where *n* >= + 0, the cardinality is `Times(AtLeast(n))`. + +**Quick quiz:** what do you think will happen if a function is expected to be +called twice but actually called four times? + +#### Actions: What Should It Do? + +Remember that a mock object doesn't really have a working implementation? We as +users have to tell it what to do when a method is invoked. This is easy in +gMock. + +First, if the return type of a mock function is a built-in type or a pointer, +the function has a **default action** (a `void` function will just return, a +`bool` function will return `false`, and other functions will return 0). In +addition, in C++ 11 and above, a mock function whose return type is +default-constructible (i.e. has a default constructor) has a default action of +returning a default-constructed value. If you don't say anything, this behavior +will be used. + +Second, if a mock function doesn't have a default action, or the default action +doesn't suit you, you can specify the action to be taken each time the +expectation matches using a series of `WillOnce()` clauses followed by an +optional `WillRepeatedly()`. For example, + +```cpp +using ::testing::Return; +... +EXPECT_CALL(turtle, GetX()) + .WillOnce(Return(100)) + .WillOnce(Return(200)) + .WillOnce(Return(300)); +``` + +says that `turtle.GetX()` will be called *exactly three times* (gMock inferred +this from how many `WillOnce()` clauses we've written, since we didn't +explicitly write `Times()`), and will return 100, 200, and 300 respectively. + +```cpp +using ::testing::Return; +... +EXPECT_CALL(turtle, GetY()) + .WillOnce(Return(100)) + .WillOnce(Return(200)) + .WillRepeatedly(Return(300)); +``` + +says that `turtle.GetY()` will be called *at least twice* (gMock knows this as +we've written two `WillOnce()` clauses and a `WillRepeatedly()` while having no +explicit `Times()`), will return 100 and 200 respectively the first two times, +and 300 from the third time on. + +Of course, if you explicitly write a `Times()`, gMock will not try to infer the +cardinality itself. What if the number you specified is larger than there are +`WillOnce()` clauses? Well, after all `WillOnce()`s are used up, gMock will do +the *default* action for the function every time (unless, of course, you have a +`WillRepeatedly()`.). + +What can we do inside `WillOnce()` besides `Return()`? You can return a +reference using `ReturnRef(*variable*)`, or invoke a pre-defined function, among +[others](#ActionList). + +**Important note:** The `EXPECT_CALL()` statement evaluates the action clause +only once, even though the action may be performed many times. Therefore you +must be careful about side effects. The following may not do what you want: + +```cpp +using ::testing::Return; +... +int n = 100; +EXPECT_CALL(turtle, GetX()) + .Times(4) + .WillRepeatedly(Return(n++)); +``` + +Instead of returning 100, 101, 102, ..., consecutively, this mock function will +always return 100 as `n++` is only evaluated once. Similarly, `Return(new Foo)` +will create a new `Foo` object when the `EXPECT_CALL()` is executed, and will +return the same pointer every time. If you want the side effect to happen every +time, you need to define a custom action, which we'll teach in the +[cook book](http://<!-- GOOGLETEST_CM0012 DO NOT DELETE -->). + +Time for another quiz! What do you think the following means? + +```cpp +using ::testing::Return; +... +EXPECT_CALL(turtle, GetY()) + .Times(4) + .WillOnce(Return(100)); +``` + +Obviously `turtle.GetY()` is expected to be called four times. But if you think +it will return 100 every time, think twice! Remember that one `WillOnce()` +clause will be consumed each time the function is invoked and the default action +will be taken afterwards. So the right answer is that `turtle.GetY()` will +return 100 the first time, but **return 0 from the second time on**, as +returning 0 is the default action for `int` functions. + +#### Using Multiple Expectations {#MultiExpectations} + +So far we've only shown examples where you have a single expectation. More +realistically, you'll specify expectations on multiple mock methods which may be +from multiple mock objects. + +By default, when a mock method is invoked, gMock will search the expectations in +the **reverse order** they are defined, and stop when an active expectation that +matches the arguments is found (you can think of it as "newer rules override +older ones."). If the matching expectation cannot take any more calls, you will +get an upper-bound-violated failure. Here's an example: + +```cpp +using ::testing::_; +... +EXPECT_CALL(turtle, Forward(_)); // #1 +EXPECT_CALL(turtle, Forward(10)) // #2 + .Times(2); +``` + +If `Forward(10)` is called three times in a row, the third time it will be an +error, as the last matching expectation (#2) has been saturated. If, however, +the third `Forward(10)` call is replaced by `Forward(20)`, then it would be OK, +as now #1 will be the matching expectation. + +**Note:** Why does gMock search for a match in the *reverse* order of the +expectations? The reason is that this allows a user to set up the default +expectations in a mock object's constructor or the test fixture's set-up phase +and then customize the mock by writing more specific expectations in the test +body. So, if you have two expectations on the same method, you want to put the +one with more specific matchers **after** the other, or the more specific rule +would be shadowed by the more general one that comes after it. + +**Tip:** It is very common to start with a catch-all expectation for a method +and `Times(AnyNumber())` (omitting arguments, or with `_` for all arguments, if +overloaded). This makes any calls to the method expected. This is not necessary +for methods that are not mentioned at all (these are "uninteresting"), but is +useful for methods that have some expectations, but for which other calls are +ok. See +[Understanding Uninteresting vs Unexpected Calls](#uninteresting-vs-unexpected). + +#### Ordered vs Unordered Calls {#OrderedCalls} + +By default, an expectation can match a call even though an earlier expectation +hasn't been satisfied. In other words, the calls don't have to occur in the +order the expectations are specified. + +Sometimes, you may want all the expected calls to occur in a strict order. To +say this in gMock is easy: + +```cpp +using ::testing::InSequence; +... +TEST(FooTest, DrawsLineSegment) { + ... + { + InSequence seq; + + EXPECT_CALL(turtle, PenDown()); + EXPECT_CALL(turtle, Forward(100)); + EXPECT_CALL(turtle, PenUp()); + } + Foo(); +} +``` + +By creating an object of type `InSequence`, all expectations in its scope are +put into a *sequence* and have to occur *sequentially*. Since we are just +relying on the constructor and destructor of this object to do the actual work, +its name is really irrelevant. + +In this example, we test that `Foo()` calls the three expected functions in the +order as written. If a call is made out-of-order, it will be an error. + +(What if you care about the relative order of some of the calls, but not all of +them? Can you specify an arbitrary partial order? The answer is ... yes! The +details can be found [here](cook_book.md#OrderedCalls).) + +#### All Expectations Are Sticky (Unless Said Otherwise) {#StickyExpectations} + +Now let's do a quick quiz to see how well you can use this mock stuff already. +How would you test that the turtle is asked to go to the origin *exactly twice* +(you want to ignore any other instructions it receives)? + +After you've come up with your answer, take a look at ours and compare notes +(solve it yourself first - don't cheat!): + +```cpp +using ::testing::_; +using ::testing::AnyNumber; +... +EXPECT_CALL(turtle, GoTo(_, _)) // #1 + .Times(AnyNumber()); +EXPECT_CALL(turtle, GoTo(0, 0)) // #2 + .Times(2); +``` + +Suppose `turtle.GoTo(0, 0)` is called three times. In the third time, gMock will +see that the arguments match expectation #2 (remember that we always pick the +last matching expectation). Now, since we said that there should be only two +such calls, gMock will report an error immediately. This is basically what we've +told you in the [Using Multiple Expectations](#MultiExpectations) section above. + +This example shows that **expectations in gMock are "sticky" by default**, in +the sense that they remain active even after we have reached their invocation +upper bounds. This is an important rule to remember, as it affects the meaning +of the spec, and is **different** to how it's done in many other mocking +frameworks (Why'd we do that? Because we think our rule makes the common cases +easier to express and understand.). + +Simple? Let's see if you've really understood it: what does the following code +say? + +```cpp +using ::testing::Return; +... +for (int i = n; i > 0; i--) { + EXPECT_CALL(turtle, GetX()) + .WillOnce(Return(10*i)); +} +``` + +If you think it says that `turtle.GetX()` will be called `n` times and will +return 10, 20, 30, ..., consecutively, think twice! The problem is that, as we +said, expectations are sticky. So, the second time `turtle.GetX()` is called, +the last (latest) `EXPECT_CALL()` statement will match, and will immediately +lead to an "upper bound violated" error - this piece of code is not very useful! + +One correct way of saying that `turtle.GetX()` will return 10, 20, 30, ..., is +to explicitly say that the expectations are *not* sticky. In other words, they +should *retire* as soon as they are saturated: + +```cpp +using ::testing::Return; +... +for (int i = n; i > 0; i--) { + EXPECT_CALL(turtle, GetX()) + .WillOnce(Return(10*i)) + .RetiresOnSaturation(); +} +``` + +And, there's a better way to do it: in this case, we expect the calls to occur +in a specific order, and we line up the actions to match the order. Since the +order is important here, we should make it explicit using a sequence: + +```cpp +using ::testing::InSequence; +using ::testing::Return; +... +{ + InSequence s; + + for (int i = 1; i <= n; i++) { + EXPECT_CALL(turtle, GetX()) + .WillOnce(Return(10*i)) + .RetiresOnSaturation(); + } +} +``` + +By the way, the other situation where an expectation may *not* be sticky is when +it's in a sequence - as soon as another expectation that comes after it in the +sequence has been used, it automatically retires (and will never be used to +match any call). + +#### Uninteresting Calls + +A mock object may have many methods, and not all of them are that interesting. +For example, in some tests we may not care about how many times `GetX()` and +`GetY()` get called. + +In gMock, if you are not interested in a method, just don't say anything about +it. If a call to this method occurs, you'll see a warning in the test output, +but it won't be a failure. This is called "naggy" behavior; to change, see +[The Nice, the Strict, and the Naggy](cook_book.md#NiceStrictNaggy). diff --git a/googlemock/docs/gmock_faq.md b/googlemock/docs/gmock_faq.md new file mode 100644 index 0000000..214aabf --- /dev/null +++ b/googlemock/docs/gmock_faq.md @@ -0,0 +1,396 @@ +## Legacy gMock FAQ {#GMockFaq} + +<!-- GOOGLETEST_CM0021 DO NOT DELETE --> + +### When I call a method on my mock object, the method for the real object is invoked instead. What's the problem? + +In order for a method to be mocked, it must be *virtual*, unless you use the +[high-perf dependency injection technique](#MockingNonVirtualMethods). + +### Can I mock a variadic function? + +You cannot mock a variadic function (i.e. a function taking ellipsis (`...`) +arguments) directly in gMock. + +The problem is that in general, there is *no way* for a mock object to know how +many arguments are passed to the variadic method, and what the arguments' types +are. Only the *author of the base class* knows the protocol, and we cannot look +into his or her head. + +Therefore, to mock such a function, the *user* must teach the mock object how to +figure out the number of arguments and their types. One way to do it is to +provide overloaded versions of the function. + +Ellipsis arguments are inherited from C and not really a C++ feature. They are +unsafe to use and don't work with arguments that have constructors or +destructors. Therefore we recommend to avoid them in C++ as much as possible. + +### MSVC gives me warning C4301 or C4373 when I define a mock method with a const parameter. Why? + +If you compile this using Microsoft Visual C++ 2005 SP1: + +```cpp +class Foo { + ... + virtual void Bar(const int i) = 0; +}; + +class MockFoo : public Foo { + ... + MOCK_METHOD(void, Bar, (const int i), (override)); +}; +``` + +You may get the following warning: + +```shell +warning C4301: 'MockFoo::Bar': overriding virtual function only differs from 'Foo::Bar' by const/volatile qualifier +``` + +This is a MSVC bug. The same code compiles fine with gcc, for example. If you +use Visual C++ 2008 SP1, you would get the warning: + +```shell +warning C4373: 'MockFoo::Bar': virtual function overrides 'Foo::Bar', previous versions of the compiler did not override when parameters only differed by const/volatile qualifiers +``` + +In C++, if you *declare* a function with a `const` parameter, the `const` +modifier is ignored. Therefore, the `Foo` base class above is equivalent to: + +```cpp +class Foo { + ... + virtual void Bar(int i) = 0; // int or const int? Makes no difference. +}; +``` + +In fact, you can *declare* `Bar()` with an `int` parameter, and define it with a +`const int` parameter. The compiler will still match them up. + +Since making a parameter `const` is meaningless in the method declaration, we +recommend to remove it in both `Foo` and `MockFoo`. That should workaround the +VC bug. + +Note that we are talking about the *top-level* `const` modifier here. If the +function parameter is passed by pointer or reference, declaring the pointee or +referee as `const` is still meaningful. For example, the following two +declarations are *not* equivalent: + +```cpp +void Bar(int* p); // Neither p nor *p is const. +void Bar(const int* p); // p is not const, but *p is. +``` + +<!-- GOOGLETEST_CM0030 DO NOT DELETE --> + +### I can't figure out why gMock thinks my expectations are not satisfied. What should I do? + +You might want to run your test with `--gmock_verbose=info`. This flag lets +gMock print a trace of every mock function call it receives. By studying the +trace, you'll gain insights on why the expectations you set are not met. + +If you see the message "The mock function has no default action set, and its +return type has no default value set.", then try +[adding a default action](for_dummies.md#DefaultValue). Due to a known issue, +unexpected calls on mocks without default actions don't print out a detailed +comparison between the actual arguments and the expected arguments. + +### My program crashed and `ScopedMockLog` spit out tons of messages. Is it a gMock bug? + +gMock and `ScopedMockLog` are likely doing the right thing here. + +When a test crashes, the failure signal handler will try to log a lot of +information (the stack trace, and the address map, for example). The messages +are compounded if you have many threads with depth stacks. When `ScopedMockLog` +intercepts these messages and finds that they don't match any expectations, it +prints an error for each of them. + +You can learn to ignore the errors, or you can rewrite your expectations to make +your test more robust, for example, by adding something like: + +```cpp +using ::testing::AnyNumber; +using ::testing::Not; +... + // Ignores any log not done by us. + EXPECT_CALL(log, Log(_, Not(EndsWith("/my_file.cc")), _)) + .Times(AnyNumber()); +``` + +### How can I assert that a function is NEVER called? + +```cpp +using ::testing::_; +... + EXPECT_CALL(foo, Bar(_)) + .Times(0); +``` + +<!-- GOOGLETEST_CM0031 DO NOT DELETE --> + +### I have a failed test where gMock tells me TWICE that a particular expectation is not satisfied. Isn't this redundant? + +When gMock detects a failure, it prints relevant information (the mock function +arguments, the state of relevant expectations, and etc) to help the user debug. +If another failure is detected, gMock will do the same, including printing the +state of relevant expectations. + +Sometimes an expectation's state didn't change between two failures, and you'll +see the same description of the state twice. They are however *not* redundant, +as they refer to *different points in time*. The fact they are the same *is* +interesting information. + +### I get a heapcheck failure when using a mock object, but using a real object is fine. What can be wrong? + +Does the class (hopefully a pure interface) you are mocking have a virtual +destructor? + +Whenever you derive from a base class, make sure its destructor is virtual. +Otherwise Bad Things will happen. Consider the following code: + +```cpp +class Base { + public: + // Not virtual, but should be. + ~Base() { ... } + ... +}; + +class Derived : public Base { + public: + ... + private: + std::string value_; +}; + +... + Base* p = new Derived; + ... + delete p; // Surprise! ~Base() will be called, but ~Derived() will not + // - value_ is leaked. +``` + +By changing `~Base()` to virtual, `~Derived()` will be correctly called when +`delete p` is executed, and the heap checker will be happy. + +### The "newer expectations override older ones" rule makes writing expectations awkward. Why does gMock do that? + +When people complain about this, often they are referring to code like: + +```cpp +using ::testing::Return; +... + // foo.Bar() should be called twice, return 1 the first time, and return + // 2 the second time. However, I have to write the expectations in the + // reverse order. This sucks big time!!! + EXPECT_CALL(foo, Bar()) + .WillOnce(Return(2)) + .RetiresOnSaturation(); + EXPECT_CALL(foo, Bar()) + .WillOnce(Return(1)) + .RetiresOnSaturation(); +``` + +The problem, is that they didn't pick the **best** way to express the test's +intent. + +By default, expectations don't have to be matched in *any* particular order. If +you want them to match in a certain order, you need to be explicit. This is +gMock's (and jMock's) fundamental philosophy: it's easy to accidentally +over-specify your tests, and we want to make it harder to do so. + +There are two better ways to write the test spec. You could either put the +expectations in sequence: + +```cpp +using ::testing::Return; +... + // foo.Bar() should be called twice, return 1 the first time, and return + // 2 the second time. Using a sequence, we can write the expectations + // in their natural order. + { + InSequence s; + EXPECT_CALL(foo, Bar()) + .WillOnce(Return(1)) + .RetiresOnSaturation(); + EXPECT_CALL(foo, Bar()) + .WillOnce(Return(2)) + .RetiresOnSaturation(); + } +``` + +or you can put the sequence of actions in the same expectation: + +```cpp +using ::testing::Return; +... + // foo.Bar() should be called twice, return 1 the first time, and return + // 2 the second time. + EXPECT_CALL(foo, Bar()) + .WillOnce(Return(1)) + .WillOnce(Return(2)) + .RetiresOnSaturation(); +``` + +Back to the original questions: why does gMock search the expectations (and +`ON_CALL`s) from back to front? Because this allows a user to set up a mock's +behavior for the common case early (e.g. in the mock's constructor or the test +fixture's set-up phase) and customize it with more specific rules later. If +gMock searches from front to back, this very useful pattern won't be possible. + +### gMock prints a warning when a function without EXPECT_CALL is called, even if I have set its behavior using ON_CALL. Would it be reasonable not to show the warning in this case? + +When choosing between being neat and being safe, we lean toward the latter. So +the answer is that we think it's better to show the warning. + +Often people write `ON_CALL`s in the mock object's constructor or `SetUp()`, as +the default behavior rarely changes from test to test. Then in the test body +they set the expectations, which are often different for each test. Having an +`ON_CALL` in the set-up part of a test doesn't mean that the calls are expected. +If there's no `EXPECT_CALL` and the method is called, it's possibly an error. If +we quietly let the call go through without notifying the user, bugs may creep in +unnoticed. + +If, however, you are sure that the calls are OK, you can write + +```cpp +using ::testing::_; +... + EXPECT_CALL(foo, Bar(_)) + .WillRepeatedly(...); +``` + +instead of + +```cpp +using ::testing::_; +... + ON_CALL(foo, Bar(_)) + .WillByDefault(...); +``` + +This tells gMock that you do expect the calls and no warning should be printed. + +Also, you can control the verbosity by specifying `--gmock_verbose=error`. Other +values are `info` and `warning`. If you find the output too noisy when +debugging, just choose a less verbose level. + +### How can I delete the mock function's argument in an action? + +If your mock function takes a pointer argument and you want to delete that +argument, you can use testing::DeleteArg<N>() to delete the N'th (zero-indexed) +argument: + +```cpp +using ::testing::_; + ... + MOCK_METHOD(void, Bar, (X* x, const Y& y)); + ... + EXPECT_CALL(mock_foo_, Bar(_, _)) + .WillOnce(testing::DeleteArg<0>())); +``` + +### How can I perform an arbitrary action on a mock function's argument? + +If you find yourself needing to perform some action that's not supported by +gMock directly, remember that you can define your own actions using +[`MakeAction()`](#NewMonoActions) or +[`MakePolymorphicAction()`](#NewPolyActions), or you can write a stub function +and invoke it using [`Invoke()`](#FunctionsAsActions). + +```cpp +using ::testing::_; +using ::testing::Invoke; + ... + MOCK_METHOD(void, Bar, (X* p)); + ... + EXPECT_CALL(mock_foo_, Bar(_)) + .WillOnce(Invoke(MyAction(...))); +``` + +### My code calls a static/global function. Can I mock it? + +You can, but you need to make some changes. + +In general, if you find yourself needing to mock a static function, it's a sign +that your modules are too tightly coupled (and less flexible, less reusable, +less testable, etc). You are probably better off defining a small interface and +call the function through that interface, which then can be easily mocked. It's +a bit of work initially, but usually pays for itself quickly. + +This Google Testing Blog +[post](https://testing.googleblog.com/2008/06/defeat-static-cling.html) says it +excellently. Check it out. + +### My mock object needs to do complex stuff. It's a lot of pain to specify the actions. gMock sucks! + +I know it's not a question, but you get an answer for free any way. :-) + +With gMock, you can create mocks in C++ easily. And people might be tempted to +use them everywhere. Sometimes they work great, and sometimes you may find them, +well, a pain to use. So, what's wrong in the latter case? + +When you write a test without using mocks, you exercise the code and assert that +it returns the correct value or that the system is in an expected state. This is +sometimes called "state-based testing". + +Mocks are great for what some call "interaction-based" testing: instead of +checking the system state at the very end, mock objects verify that they are +invoked the right way and report an error as soon as it arises, giving you a +handle on the precise context in which the error was triggered. This is often +more effective and economical to do than state-based testing. + +If you are doing state-based testing and using a test double just to simulate +the real object, you are probably better off using a fake. Using a mock in this +case causes pain, as it's not a strong point for mocks to perform complex +actions. If you experience this and think that mocks suck, you are just not +using the right tool for your problem. Or, you might be trying to solve the +wrong problem. :-) + +### I got a warning "Uninteresting function call encountered - default action taken.." Should I panic? + +By all means, NO! It's just an FYI. :-) + +What it means is that you have a mock function, you haven't set any expectations +on it (by gMock's rule this means that you are not interested in calls to this +function and therefore it can be called any number of times), and it is called. +That's OK - you didn't say it's not OK to call the function! + +What if you actually meant to disallow this function to be called, but forgot to +write `EXPECT_CALL(foo, Bar()).Times(0)`? While one can argue that it's the +user's fault, gMock tries to be nice and prints you a note. + +So, when you see the message and believe that there shouldn't be any +uninteresting calls, you should investigate what's going on. To make your life +easier, gMock dumps the stack trace when an uninteresting call is encountered. +From that you can figure out which mock function it is, and how it is called. + +### I want to define a custom action. Should I use Invoke() or implement the ActionInterface interface? + +Either way is fine - you want to choose the one that's more convenient for your +circumstance. + +Usually, if your action is for a particular function type, defining it using +`Invoke()` should be easier; if your action can be used in functions of +different types (e.g. if you are defining `Return(*value*)`), +`MakePolymorphicAction()` is easiest. Sometimes you want precise control on what +types of functions the action can be used in, and implementing `ActionInterface` +is the way to go here. See the implementation of `Return()` in +`testing/base/public/gmock-actions.h` for an example. + +### I use SetArgPointee() in WillOnce(), but gcc complains about "conflicting return type specified". What does it mean? + +You got this error as gMock has no idea what value it should return when the +mock method is called. `SetArgPointee()` says what the side effect is, but +doesn't say what the return value should be. You need `DoAll()` to chain a +`SetArgPointee()` with a `Return()` that provides a value appropriate to the API +being mocked. + +See this [recipe](cook_book.md#mocking-side-effects) for more details and an +example. + +### I have a huge mock class, and Microsoft Visual C++ runs out of memory when compiling it. What can I do? + +We've noticed that when the `/clr` compiler flag is used, Visual C++ uses 5~6 +times as much memory when compiling a mock class. We suggest to avoid `/clr` +when compiling native C++ mocks. diff --git a/googlemock/include/gmock/gmock-actions.h b/googlemock/include/gmock/gmock-actions.h index 37727c0..e921cf4 100644 --- a/googlemock/include/gmock/gmock-actions.h +++ b/googlemock/include/gmock/gmock-actions.h @@ -99,7 +99,7 @@ struct BuiltInDefaultValueGetter<T, false> { template <typename T> class BuiltInDefaultValue { public: - // This function returns true iff type T has a built-in default value. + // This function returns true if type T has a built-in default value. static bool Exists() { return ::std::is_default_constructible<T>::value; } @@ -208,7 +208,7 @@ class DefaultValue { producer_ = nullptr; } - // Returns true iff the user has set the default value for type T. + // Returns true if the user has set the default value for type T. static bool IsSet() { return producer_ != nullptr; } // Returns true if T has a default return value set by the user or there @@ -269,7 +269,7 @@ class DefaultValue<T&> { // Unsets the default value for type T&. static void Clear() { address_ = nullptr; } - // Returns true iff the user has set the default value for type T&. + // Returns true if the user has set the default value for type T&. static bool IsSet() { return address_ != nullptr; } // Returns true if T has a default return value set by the user or there @@ -375,7 +375,7 @@ class Action { template <typename Func> explicit Action(const Action<Func>& action) : fun_(action.fun_) {} - // Returns true iff this is the DoDefault() action. + // Returns true if this is the DoDefault() action. bool IsDoDefault() const { return fun_ == nullptr; } // Performs the action. Note that this method is const even though @@ -395,7 +395,7 @@ class Action { template <typename G> friend class Action; - // fun_ is an empty function iff this is the DoDefault() action. + // fun_ is an empty function if this is the DoDefault() action. ::std::function<F> fun_; }; @@ -769,47 +769,15 @@ class SetErrnoAndReturnAction { #endif // !GTEST_OS_WINDOWS_MOBILE // Implements the SetArgumentPointee<N>(x) action for any function -// whose N-th argument (0-based) is a pointer to x's type. The -// template parameter kIsProto is true iff type A is -// proto2::Message or a sub-class of it. -template <size_t N, typename A, bool kIsProto> -class SetArgumentPointeeAction { - public: - // Constructs an action that sets the variable pointed to by the - // N-th function argument to 'value'. - explicit SetArgumentPointeeAction(const A& value) : value_(value) {} - - template <typename Result, typename ArgumentTuple> - void Perform(const ArgumentTuple& args) const { - CompileAssertTypesEqual<void, Result>(); - *::std::get<N>(args) = value_; - } - - private: - const A value_; - - GTEST_DISALLOW_ASSIGN_(SetArgumentPointeeAction); -}; - -template <size_t N, typename Proto> -class SetArgumentPointeeAction<N, Proto, true> { - public: - // Constructs an action that sets the variable pointed to by the - // N-th function argument to 'proto'. - explicit SetArgumentPointeeAction(const Proto& proto) : proto_(new Proto) { - proto_->CopyFrom(proto); - } +// whose N-th argument (0-based) is a pointer to x's type. +template <size_t N, typename A, typename = void> +struct SetArgumentPointeeAction { + A value; - template <typename Result, typename ArgumentTuple> - void Perform(const ArgumentTuple& args) const { - CompileAssertTypesEqual<void, Result>(); - ::std::get<N>(args)->CopyFrom(*proto_); + template <typename... Args> + void operator()(const Args&... args) const { + *::std::get<N>(std::tie(args...)) = value; } - - private: - const std::shared_ptr<Proto> proto_; - - GTEST_DISALLOW_ASSIGN_(SetArgumentPointeeAction); }; // Implements the Invoke(object_ptr, &Class::Method) action. @@ -1078,38 +1046,14 @@ inline internal::DoDefaultAction DoDefault() { // Creates an action that sets the variable pointed by the N-th // (0-based) function argument to 'value'. template <size_t N, typename T> -PolymorphicAction< - internal::SetArgumentPointeeAction< - N, T, internal::IsAProtocolMessage<T>::value> > -SetArgPointee(const T& x) { - return MakePolymorphicAction(internal::SetArgumentPointeeAction< - N, T, internal::IsAProtocolMessage<T>::value>(x)); -} - -template <size_t N> -PolymorphicAction< - internal::SetArgumentPointeeAction<N, const char*, false> > -SetArgPointee(const char* p) { - return MakePolymorphicAction(internal::SetArgumentPointeeAction< - N, const char*, false>(p)); -} - -template <size_t N> -PolymorphicAction< - internal::SetArgumentPointeeAction<N, const wchar_t*, false> > -SetArgPointee(const wchar_t* p) { - return MakePolymorphicAction(internal::SetArgumentPointeeAction< - N, const wchar_t*, false>(p)); +internal::SetArgumentPointeeAction<N, T> SetArgPointee(T x) { + return {std::move(x)}; } // The following version is DEPRECATED. template <size_t N, typename T> -PolymorphicAction< - internal::SetArgumentPointeeAction< - N, T, internal::IsAProtocolMessage<T>::value> > -SetArgumentPointee(const T& x) { - return MakePolymorphicAction(internal::SetArgumentPointeeAction< - N, T, internal::IsAProtocolMessage<T>::value>(x)); +internal::SetArgumentPointeeAction<N, T> SetArgumentPointee(T x) { + return {std::move(x)}; } // Creates an action that sets a pointer referent to a given value. diff --git a/googlemock/include/gmock/gmock-cardinalities.h b/googlemock/include/gmock/gmock-cardinalities.h index 8fa25eb..4b269a3 100644 --- a/googlemock/include/gmock/gmock-cardinalities.h +++ b/googlemock/include/gmock/gmock-cardinalities.h @@ -70,10 +70,10 @@ class CardinalityInterface { virtual int ConservativeLowerBound() const { return 0; } virtual int ConservativeUpperBound() const { return INT_MAX; } - // Returns true iff call_count calls will satisfy this cardinality. + // Returns true if call_count calls will satisfy this cardinality. virtual bool IsSatisfiedByCallCount(int call_count) const = 0; - // Returns true iff call_count calls will saturate this cardinality. + // Returns true if call_count calls will saturate this cardinality. virtual bool IsSaturatedByCallCount(int call_count) const = 0; // Describes self to an ostream. @@ -98,17 +98,17 @@ class GTEST_API_ Cardinality { int ConservativeLowerBound() const { return impl_->ConservativeLowerBound(); } int ConservativeUpperBound() const { return impl_->ConservativeUpperBound(); } - // Returns true iff call_count calls will satisfy this cardinality. + // Returns true if call_count calls will satisfy this cardinality. bool IsSatisfiedByCallCount(int call_count) const { return impl_->IsSatisfiedByCallCount(call_count); } - // Returns true iff call_count calls will saturate this cardinality. + // Returns true if call_count calls will saturate this cardinality. bool IsSaturatedByCallCount(int call_count) const { return impl_->IsSaturatedByCallCount(call_count); } - // Returns true iff call_count calls will over-saturate this + // Returns true if call_count calls will over-saturate this // cardinality, i.e. exceed the maximum number of allowed calls. bool IsOverSaturatedByCallCount(int call_count) const { return impl_->IsSaturatedByCallCount(call_count) && diff --git a/googlemock/include/gmock/gmock-function-mocker.h b/googlemock/include/gmock/gmock-function-mocker.h index 84a608e..cc1535c 100644 --- a/googlemock/include/gmock/gmock-function-mocker.h +++ b/googlemock/include/gmock/gmock-function-mocker.h @@ -1,3 +1,38 @@ +// Copyright 2007, Google Inc. +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or without +// modification, are permitted provided that the following conditions are +// met: +// +// * Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// * Redistributions in binary form must reproduce the above +// copyright notice, this list of conditions and the following disclaimer +// in the documentation and/or other materials provided with the +// distribution. +// * Neither the name of Google Inc. nor the names of its +// contributors may be used to endorse or promote products derived from +// this software without specific prior written permission. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +// Google Mock - a framework for writing C++ mock classes. +// +// This file implements MOCK_METHOD. + +// GOOGLETEST_CM0002 DO NOT DELETE + #ifndef THIRD_PARTY_GOOGLETEST_GOOGLEMOCK_INCLUDE_GMOCK_INTERNAL_GMOCK_FUNCTION_MOCKER_H_ // NOLINT #define THIRD_PARTY_GOOGLETEST_GOOGLEMOCK_INCLUDE_GMOCK_INTERNAL_GMOCK_FUNCTION_MOCKER_H_ // NOLINT diff --git a/googlemock/include/gmock/gmock-generated-actions.h b/googlemock/include/gmock/gmock-generated-actions.h index 409886c..981af78 100644 --- a/googlemock/include/gmock/gmock-generated-actions.h +++ b/googlemock/include/gmock/gmock-generated-actions.h @@ -259,16 +259,15 @@ class ActionHelper { // // CAVEAT: // -// ACTION*() can only be used in a namespace scope. The reason is -// that C++ doesn't yet allow function-local types to be used to -// instantiate templates. The up-coming C++0x standard will fix this. -// Once that's done, we'll consider supporting using ACTION*() inside -// a function. +// ACTION*() can only be used in a namespace scope as templates cannot be +// declared inside of a local class. +// Users can, however, define any local functors (e.g. a lambda) that +// can be used as actions. // // MORE INFORMATION: // // To learn more about using these macros, please search for 'ACTION' on -// https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md +// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md // An internal macro needed for implementing ACTION*(). #define GMOCK_ACTION_ARG_TYPES_AND_NAMES_UNUSED_\ diff --git a/googlemock/include/gmock/gmock-generated-actions.h.pump b/googlemock/include/gmock/gmock-generated-actions.h.pump index 87c580c..209603c 100644 --- a/googlemock/include/gmock/gmock-generated-actions.h.pump +++ b/googlemock/include/gmock/gmock-generated-actions.h.pump @@ -182,16 +182,15 @@ $template // // CAVEAT: // -// ACTION*() can only be used in a namespace scope. The reason is -// that C++ doesn't yet allow function-local types to be used to -// instantiate templates. The up-coming C++0x standard will fix this. -// Once that's done, we'll consider supporting using ACTION*() inside -// a function. +// ACTION*() can only be used in a namespace scope as templates cannot be +// declared inside of a local class. +// Users can, however, define any local functors (e.g. a lambda) that +// can be used as actions. // // MORE INFORMATION: // // To learn more about using these macros, please search for 'ACTION' on -// https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md +// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md $range i 0..n $range k 0..n-1 diff --git a/googlemock/include/gmock/gmock-generated-matchers.h b/googlemock/include/gmock/gmock-generated-matchers.h index f9c927c..690a57f 100644 --- a/googlemock/include/gmock/gmock-generated-matchers.h +++ b/googlemock/include/gmock/gmock-generated-matchers.h @@ -250,18 +250,15 @@ // overloading matchers based on parameter types (as opposed to just // based on the number of parameters). // -// MATCHER*() can only be used in a namespace scope. The reason is -// that C++ doesn't yet allow function-local types to be used to -// instantiate templates. The up-coming C++0x standard will fix this. -// Once that's done, we'll consider supporting using MATCHER*() inside -// a function. +// MATCHER*() can only be used in a namespace scope as templates cannot be +// declared inside of a local class. // // More Information // ================ // // To learn more about using these macros, please search for 'MATCHER' // on -// https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md +// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md #define MATCHER(name, description)\ class name##Matcher {\ diff --git a/googlemock/include/gmock/gmock-generated-matchers.h.pump b/googlemock/include/gmock/gmock-generated-matchers.h.pump index 43a0c5f..ae90917 100644 --- a/googlemock/include/gmock/gmock-generated-matchers.h.pump +++ b/googlemock/include/gmock/gmock-generated-matchers.h.pump @@ -252,18 +252,15 @@ $$ }} This line fixes auto-indentation of the following code in Emacs. // overloading matchers based on parameter types (as opposed to just // based on the number of parameters). // -// MATCHER*() can only be used in a namespace scope. The reason is -// that C++ doesn't yet allow function-local types to be used to -// instantiate templates. The up-coming C++0x standard will fix this. -// Once that's done, we'll consider supporting using MATCHER*() inside -// a function. +// MATCHER*() can only be used in a namespace scope as templates cannot be +// declared inside of a local class. // // More Information // ================ // // To learn more about using these macros, please search for 'MATCHER' // on -// https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md +// https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md $range i 0..n $for i diff --git a/googlemock/include/gmock/gmock-matchers.h b/googlemock/include/gmock/gmock-matchers.h index fcf8cf2..7075082 100644 --- a/googlemock/include/gmock/gmock-matchers.h +++ b/googlemock/include/gmock/gmock-matchers.h @@ -361,7 +361,7 @@ template <size_t N> class TuplePrefix { public: // TuplePrefix<N>::Matches(matcher_tuple, value_tuple) returns true - // iff the first N fields of matcher_tuple matches the first N + // if the first N fields of matcher_tuple matches the first N // fields of value_tuple, respectively. template <typename MatcherTuple, typename ValueTuple> static bool Matches(const MatcherTuple& matcher_tuple, @@ -420,7 +420,7 @@ class TuplePrefix<0> { ::std::ostream* /* os */) {} }; -// TupleMatches(matcher_tuple, value_tuple) returns true iff all +// TupleMatches(matcher_tuple, value_tuple) returns true if all // matchers in matcher_tuple match the corresponding fields in // value_tuple. It is a compiler error if matcher_tuple and // value_tuple have different number of fields or incompatible field @@ -2534,7 +2534,7 @@ class KeyMatcherImpl : public MatcherInterface<PairType> { testing::SafeMatcherCast<const KeyType&>(inner_matcher)) { } - // Returns true iff 'key_value.first' (the key) matches the inner matcher. + // Returns true if 'key_value.first' (the key) matches the inner matcher. bool MatchAndExplain(PairType key_value, MatchResultListener* listener) const override { StringMatchResultListener inner_listener; @@ -2616,7 +2616,7 @@ class PairMatcherImpl : public MatcherInterface<PairType> { second_matcher_.DescribeNegationTo(os); } - // Returns true iff 'a_pair.first' matches first_matcher and 'a_pair.second' + // Returns true if 'a_pair.first' matches first_matcher and 'a_pair.second' // matches second_matcher. bool MatchAndExplain(PairType a_pair, MatchResultListener* listener) const override { @@ -3152,7 +3152,7 @@ class ElementsAreArrayMatcher { // Given a 2-tuple matcher tm of type Tuple2Matcher and a value second // of type Second, BoundSecondMatcher<Tuple2Matcher, Second>(tm, -// second) is a polymorphic matcher that matches a value x iff tm +// second) is a polymorphic matcher that matches a value x if tm // matches tuple (x, second). Useful for implementing // UnorderedPointwise() in terms of UnorderedElementsAreArray(). // @@ -3217,7 +3217,7 @@ class BoundSecondMatcher { // Given a 2-tuple matcher tm and a value second, // MatcherBindSecond(tm, second) returns a matcher that matches a -// value x iff tm matches tuple (x, second). Useful for implementing +// value x if tm matches tuple (x, second). Useful for implementing // UnorderedPointwise() in terms of UnorderedElementsAreArray(). template <typename Tuple2Matcher, typename Second> BoundSecondMatcher<Tuple2Matcher, Second> MatcherBindSecond( @@ -3710,7 +3710,7 @@ WhenDynamicCastTo(const Matcher<To>& inner_matcher) { // Creates a matcher that matches an object whose given field matches // 'matcher'. For example, // Field(&Foo::number, Ge(5)) -// matches a Foo object x iff x.number >= 5. +// matches a Foo object x if x.number >= 5. template <typename Class, typename FieldType, typename FieldMatcher> inline PolymorphicMatcher< internal::FieldMatcher<Class, FieldType> > Field( @@ -3737,7 +3737,7 @@ inline PolymorphicMatcher<internal::FieldMatcher<Class, FieldType> > Field( // Creates a matcher that matches an object whose given property // matches 'matcher'. For example, // Property(&Foo::str, StartsWith("hi")) -// matches a Foo object x iff x.str() starts with "hi". +// matches a Foo object x if x.str() starts with "hi". template <typename Class, typename PropertyType, typename PropertyMatcher> inline PolymorphicMatcher<internal::PropertyMatcher< Class, PropertyType, PropertyType (Class::*)() const> > @@ -3792,11 +3792,11 @@ Property(const std::string& property_name, property_name, property, MatcherCast<const PropertyType&>(matcher))); } -// Creates a matcher that matches an object iff the result of applying +// Creates a matcher that matches an object if the result of applying // a callable to x matches 'matcher'. // For example, // ResultOf(f, StartsWith("hi")) -// matches a Foo object x iff f(x) starts with "hi". +// matches a Foo object x if f(x) starts with "hi". // `callable` parameter can be a function, function pointer, or a functor. It is // required to keep no state affecting the results of the calls on it and make // no assumptions about how many calls will be made. Any state it keeps must be @@ -4345,7 +4345,7 @@ inline internal::MatcherAsPredicate<M> Matches(M matcher) { return internal::MatcherAsPredicate<M>(matcher); } -// Returns true iff the value matches the matcher. +// Returns true if the value matches the matcher. template <typename T, typename M> inline bool Value(const T& value, M matcher) { return testing::Matches(matcher)(value); @@ -4551,7 +4551,7 @@ PolymorphicMatcher<internal::variant_matcher::VariantMatcher<T> > VariantWith( // These macros allow using matchers to check values in Google Test // tests. ASSERT_THAT(value, matcher) and EXPECT_THAT(value, matcher) -// succeed iff the value matches the matcher. If the assertion fails, +// succeed if the value matches the matcher. If the assertion fails, // the value and the description of the matcher will be printed. #define ASSERT_THAT(value, matcher) ASSERT_PRED_FORMAT1(\ ::testing::internal::MakePredicateFormatterFromMatcher(matcher), value) diff --git a/googlemock/include/gmock/gmock-spec-builders.h b/googlemock/include/gmock/gmock-spec-builders.h index 1f261bd..81ee345 100644 --- a/googlemock/include/gmock/gmock-spec-builders.h +++ b/googlemock/include/gmock/gmock-spec-builders.h @@ -61,6 +61,7 @@ #ifndef GMOCK_INCLUDE_GMOCK_GMOCK_SPEC_BUILDERS_H_ #define GMOCK_INCLUDE_GMOCK_GMOCK_SPEC_BUILDERS_H_ +#include <functional> #include <map> #include <memory> #include <set> @@ -330,7 +331,7 @@ class OnCallSpec : public UntypedOnCallSpecBase { return *this; } - // Returns true iff the given arguments match the matchers. + // Returns true if the given arguments match the matchers. bool Matches(const ArgumentTuple& args) const { return TupleMatches(matchers_, args) && extra_matcher_.Matches(args); } @@ -388,7 +389,7 @@ class GTEST_API_ Mock { GTEST_LOCK_EXCLUDED_(internal::g_gmock_mutex); // Verifies all expectations on the given mock object and clears its - // default actions and expectations. Returns true iff the + // default actions and expectations. Returns true if the // verification was successful. static bool VerifyAndClear(void* mock_obj) GTEST_LOCK_EXCLUDED_(internal::g_gmock_mutex); @@ -514,7 +515,7 @@ class GTEST_API_ Expectation { // The compiler-generated copy ctor and operator= work exactly as // intended, so we don't need to define our own. - // Returns true iff rhs references the same expectation as this object does. + // Returns true if rhs references the same expectation as this object does. bool operator==(const Expectation& rhs) const { return expectation_base_ == rhs.expectation_base_; } @@ -596,7 +597,7 @@ class ExpectationSet { // The compiler-generator ctor and operator= works exactly as // intended, so we don't need to define our own. - // Returns true iff rhs contains the same set of Expectation objects + // Returns true if rhs contains the same set of Expectation objects // as this does. bool operator==(const ExpectationSet& rhs) const { return expectations_ == rhs.expectations_; @@ -758,7 +759,7 @@ class GTEST_API_ ExpectationBase { // by the subclasses to implement the .Times() clause. void SpecifyCardinality(const Cardinality& cardinality); - // Returns true iff the user specified the cardinality explicitly + // Returns true if the user specified the cardinality explicitly // using a .Times(). bool cardinality_specified() const { return cardinality_specified_; } @@ -775,7 +776,7 @@ class GTEST_API_ ExpectationBase { void RetireAllPreRequisites() GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex); - // Returns true iff this expectation is retired. + // Returns true if this expectation is retired. bool is_retired() const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { g_gmock_mutex.AssertHeld(); @@ -789,28 +790,28 @@ class GTEST_API_ ExpectationBase { retired_ = true; } - // Returns true iff this expectation is satisfied. + // Returns true if this expectation is satisfied. bool IsSatisfied() const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { g_gmock_mutex.AssertHeld(); return cardinality().IsSatisfiedByCallCount(call_count_); } - // Returns true iff this expectation is saturated. + // Returns true if this expectation is saturated. bool IsSaturated() const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { g_gmock_mutex.AssertHeld(); return cardinality().IsSaturatedByCallCount(call_count_); } - // Returns true iff this expectation is over-saturated. + // Returns true if this expectation is over-saturated. bool IsOverSaturated() const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { g_gmock_mutex.AssertHeld(); return cardinality().IsOverSaturatedByCallCount(call_count_); } - // Returns true iff all pre-requisites of this expectation are satisfied. + // Returns true if all pre-requisites of this expectation are satisfied. bool AllPrerequisitesAreSatisfied() const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex); @@ -853,7 +854,7 @@ class GTEST_API_ ExpectationBase { const char* file_; // The file that contains the expectation. int line_; // The line number of the expectation. const std::string source_text_; // The EXPECT_CALL(...) source text. - // True iff the cardinality is specified explicitly. + // True if the cardinality is specified explicitly. bool cardinality_specified_; Cardinality cardinality_; // The cardinality of the expectation. // The immediate pre-requisites (i.e. expectations that must be @@ -867,7 +868,7 @@ class GTEST_API_ ExpectationBase { // This group of fields are the current state of the expectation, // and can change as the mock function is called. int call_count_; // How many times this expectation has been invoked. - bool retired_; // True iff this expectation has retired. + bool retired_; // True if this expectation has retired. UntypedActions untyped_actions_; bool extra_matcher_specified_; bool repeated_action_specified_; // True if a WillRepeatedly() was specified. @@ -1085,14 +1086,14 @@ class TypedExpectation : public ExpectationBase { // statement finishes and when the current thread holds // g_gmock_mutex. - // Returns true iff this expectation matches the given arguments. + // Returns true if this expectation matches the given arguments. bool Matches(const ArgumentTuple& args) const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { g_gmock_mutex.AssertHeld(); return TupleMatches(matchers_, args) && extra_matcher_.Matches(args); } - // Returns true iff this expectation should handle the given arguments. + // Returns true if this expectation should handle the given arguments. bool ShouldHandleArguments(const ArgumentTuple& args) const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { g_gmock_mutex.AssertHeld(); diff --git a/googlemock/include/gmock/gmock.h b/googlemock/include/gmock/gmock.h index 7096984..99c3d78 100644 --- a/googlemock/include/gmock/gmock.h +++ b/googlemock/include/gmock/gmock.h @@ -39,14 +39,14 @@ // This file implements the following syntax: // -// ON_CALL(mock_object.Method(...)) +// ON_CALL(mock_object, Method(...)) // .With(...) ? // .WillByDefault(...); // // where With() is optional and WillByDefault() must appear exactly // once. // -// EXPECT_CALL(mock_object.Method(...)) +// EXPECT_CALL(mock_object, Method(...)) // .With(...) ? // .Times(...) ? // .InSequence(...) * diff --git a/googlemock/include/gmock/internal/gmock-internal-utils.h b/googlemock/include/gmock/internal/gmock-internal-utils.h index 093b465..ee00479 100644 --- a/googlemock/include/gmock/internal/gmock-internal-utils.h +++ b/googlemock/include/gmock/internal/gmock-internal-utils.h @@ -115,8 +115,11 @@ inline Element* GetRawPointer(Element* p) { return p; } // // To gcc, // wchar_t == signed wchar_t != unsigned wchar_t == unsigned int +// +// gcc-9 appears to treat signed/unsigned wchar_t as ill-formed +// regardless of the signage of its underlying type. #ifdef __GNUC__ -#if !defined(__WCHAR_UNSIGNED__) +#if !defined(__WCHAR_UNSIGNED__) && (__GNUC__ < 9) // signed/unsigned wchar_t are valid types. # define GMOCK_HAS_SIGNED_WCHAR_T_ 1 #endif @@ -173,11 +176,11 @@ GMOCK_DECLARE_KIND_(long double, kFloatingPoint); static_cast< ::testing::internal::TypeKind>( \ ::testing::internal::KindOf<type>::value) -// Evaluates to true iff integer type T is signed. +// Evaluates to true if integer type T is signed. #define GMOCK_IS_SIGNED_(T) (static_cast<T>(-1) < 0) // LosslessArithmeticConvertibleImpl<kFromKind, From, kToKind, To>::value -// is true iff arithmetic type From can be losslessly converted to +// is true if arithmetic type From can be losslessly converted to // arithmetic type To. // // It's the user's responsibility to ensure that both From and To are @@ -208,7 +211,7 @@ template <typename From> struct LosslessArithmeticConvertibleImpl<kInteger, From, kBool, bool> : public false_type {}; // NOLINT -// Converting an integer to another non-bool integer is lossless iff +// Converting an integer to another non-bool integer is lossless if // the target type's range encloses the source type's range. template <typename From, typename To> struct LosslessArithmeticConvertibleImpl<kInteger, From, kInteger, To> @@ -240,13 +243,13 @@ struct LosslessArithmeticConvertibleImpl<kFloatingPoint, From, kInteger, To> : public false_type {}; // NOLINT // Converting a floating-point to another floating-point is lossless -// iff the target type is at least as big as the source type. +// if the target type is at least as big as the source type. template <typename From, typename To> struct LosslessArithmeticConvertibleImpl< kFloatingPoint, From, kFloatingPoint, To> : public bool_constant<sizeof(From) <= sizeof(To)> {}; // NOLINT -// LosslessArithmeticConvertible<From, To>::value is true iff arithmetic +// LosslessArithmeticConvertible<From, To>::value is true if arithmetic // type From can be losslessly converted to arithmetic type To. // // It's the user's responsibility to ensure that both From and To are @@ -321,11 +324,11 @@ const char kWarningVerbosity[] = "warning"; // No logs are printed. const char kErrorVerbosity[] = "error"; -// Returns true iff a log with the given severity is visible according +// Returns true if a log with the given severity is visible according // to the --gmock_verbose flag. GTEST_API_ bool LogIsVisible(LogSeverity severity); -// Prints the given message to stdout iff 'severity' >= the level +// Prints the given message to stdout if 'severity' >= the level // specified by the --gmock_verbose flag. If stack_frames_to_skip >= // 0, also prints the stack trace excluding the top // stack_frames_to_skip frames. In opt mode, any positive @@ -352,11 +355,11 @@ GTEST_API_ WithoutMatchers GetWithoutMatchers(); // Type traits. -// is_reference<T>::value is non-zero iff T is a reference type. +// is_reference<T>::value is non-zero if T is a reference type. template <typename T> struct is_reference : public false_type {}; template <typename T> struct is_reference<T&> : public true_type {}; -// type_equals<T1, T2>::value is non-zero iff T1 and T2 are the same type. +// type_equals<T1, T2>::value is non-zero if T1 and T2 are the same type. template <typename T1, typename T2> struct type_equals : public false_type {}; template <typename T> struct type_equals<T, T> : public true_type {}; diff --git a/googlemock/make/Makefile b/googlemock/make/Makefile deleted file mode 100644 index 386293a..0000000 --- a/googlemock/make/Makefile +++ /dev/null @@ -1,117 +0,0 @@ -# A sample Makefile for building both Google Mock and Google Test and -# using them in user tests. This file is self-contained, so you don't -# need to use the Makefile in Google Test's source tree. Please tweak -# it to suit your environment and project. You may want to move it to -# your project's root directory. -# -# SYNOPSIS: -# -# make [all] - makes everything. -# make TARGET - makes the given target. -# make clean - removes all files generated by make. - -# Please tweak the following variable definitions as needed by your -# project, except GMOCK_HEADERS and GTEST_HEADERS, which you can use -# in your own targets but shouldn't modify. - -# Points to the root of Google Test, relative to where this file is. -# Remember to tweak this if you move this file, or if you want to use -# a copy of Google Test at a different location. -GTEST_DIR = ../../googletest - -# Points to the location of the Google Test libraries -GTEST_LIB_DIR = . - -# Points to the root of Google Mock, relative to where this file is. -# Remember to tweak this if you move this file. -GMOCK_DIR = .. - -# Where to find user code. -USER_DIR = ../test - -# Flags passed to the preprocessor. -# Set Google Test and Google Mock's header directories as system -# directories, such that the compiler doesn't generate warnings in -# these headers. -CPPFLAGS += -isystem $(GTEST_DIR)/include -isystem $(GMOCK_DIR)/include - -# Flags passed to the C++ compiler. -CXXFLAGS += -g -Wall -Wextra -pthread -std=c++11 - -# Google Test libraries -GTEST_LIBS = libgtest.a libgtest_main.a libgmock.a libgmock_main.a - -# All tests produced by this Makefile. Remember to add new tests you -# created to the list. -TESTS = gmock_test - -# All Google Test headers. Usually you shouldn't change this -# definition. -GTEST_HEADERS = $(GTEST_DIR)/include/gtest/*.h \ - $(GTEST_DIR)/include/gtest/internal/*.h - -# All Google Mock headers. Note that all Google Test headers are -# included here too, as they are #included by Google Mock headers. -# Usually you shouldn't change this definition. -GMOCK_HEADERS = $(GMOCK_DIR)/include/gmock/*.h \ - $(GMOCK_DIR)/include/gmock/internal/*.h \ - $(GTEST_HEADERS) - -# House-keeping build targets. - -all : $(GTEST_LIBS) $(TESTS) - -clean : - rm -f $(GTEST_LIBS) $(TESTS) *.o - -# Builds gmock.a and gmock_main.a. These libraries contain both -# Google Mock and Google Test. A test should link with either gmock.a -# or gmock_main.a, depending on whether it defines its own main() -# function. It's fine if your test only uses features from Google -# Test (and not Google Mock). - -# Usually you shouldn't tweak such internal variables, indicated by a -# trailing _. -GTEST_SRCS_ = $(GTEST_DIR)/src/*.cc $(GTEST_DIR)/src/*.h $(GTEST_HEADERS) -GMOCK_SRCS_ = $(GMOCK_DIR)/src/*.cc $(GMOCK_HEADERS) - -# For simplicity and to avoid depending on implementation details of -# Google Mock and Google Test, the dependencies specified below are -# conservative and not optimized. This is fine as Google Mock and -# Google Test compile fast and for ordinary users their source rarely -# changes. -gtest-all.o : $(GTEST_SRCS_) - $(CXX) $(CPPFLAGS) -I$(GTEST_DIR) -I$(GMOCK_DIR) $(CXXFLAGS) \ - -c $(GTEST_DIR)/src/gtest-all.cc - -gtest_main.o : $(GTEST_SRCS_) - $(CXX) $(CPPFLAGS) -I$(GTEST_DIR) -I$(GMOCK_DIR) $(CXXFLAGS) \ - -c $(GTEST_DIR)/src/gtest_main.cc - -gmock-all.o : $(GMOCK_SRCS_) - $(CXX) $(CPPFLAGS) -I$(GTEST_DIR) -I$(GMOCK_DIR) $(CXXFLAGS) \ - -c $(GMOCK_DIR)/src/gmock-all.cc - -gmock_main.o : $(GMOCK_SRCS_) - $(CXX) $(CPPFLAGS) -I$(GTEST_DIR) -I$(GMOCK_DIR) $(CXXFLAGS) \ - -c $(GMOCK_DIR)/src/gmock_main.cc - -libgtest.a : gtest-all.o - $(AR) $(ARFLAGS) $@ $^ - -libgtest_main.a : gtest_main.o - $(AR) $(ARFLAGS) $@ $^ - -libgmock.a : gmock-all.o - $(AR) $(ARFLAGS) $@ $^ - -libgmock_main.a : gmock_main.o - $(AR) $(ARFLAGS) $@ $^ - -# Builds a sample test. - -gmock_test.o : $(USER_DIR)/gmock_test.cc $(GMOCK_HEADERS) - $(CXX) $(CPPFLAGS) $(CXXFLAGS) -c $(USER_DIR)/gmock_test.cc - -gmock_test : gmock_test.o $(GTEST_LIBS) - $(CXX) $(CPPFLAGS) $(CXXFLAGS) -L$(GTEST_LIB_DIR) -lgmock -lpthread $^ -o $@ diff --git a/googlemock/msvc/2005/gmock.sln b/googlemock/msvc/2005/gmock.sln deleted file mode 100644 index b752f87..0000000 --- a/googlemock/msvc/2005/gmock.sln +++ /dev/null @@ -1,32 +0,0 @@ -
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-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "gmock_test", "gmock_test.vcproj", "{F10D22F8-AC7B-4213-8720-608E7D878CD2}"
-EndProject
-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "gmock_main", "gmock_main.vcproj", "{E4EF614B-30DF-4954-8C53-580A0BF6B589}"
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- GlobalSection(SolutionConfigurationPlatforms) = preSolution
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diff --git a/googlemock/msvc/2010/gmock.sln b/googlemock/msvc/2010/gmock.sln deleted file mode 100644 index bb48f5b..0000000 --- a/googlemock/msvc/2010/gmock.sln +++ /dev/null @@ -1,46 +0,0 @@ -
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\ No newline at end of file diff --git a/googlemock/src/gmock-internal-utils.cc b/googlemock/src/gmock-internal-utils.cc index 1594662..1292e1d 100644 --- a/googlemock/src/gmock-internal-utils.cc +++ b/googlemock/src/gmock-internal-utils.cc @@ -123,7 +123,7 @@ GTEST_API_ FailureReporterInterface* GetFailureReporter() { // Protects global resources (stdout in particular) used by Log(). static GTEST_DEFINE_STATIC_MUTEX_(g_log_mutex); -// Returns true iff a log with the given severity is visible according +// Returns true if a log with the given severity is visible according // to the --gmock_verbose flag. GTEST_API_ bool LogIsVisible(LogSeverity severity) { if (GMOCK_FLAG(verbose) == kInfoVerbosity) { @@ -139,7 +139,7 @@ GTEST_API_ bool LogIsVisible(LogSeverity severity) { } } -// Prints the given message to stdout iff 'severity' >= the level +// Prints the given message to stdout if 'severity' >= the level // specified by the --gmock_verbose flag. If stack_frames_to_skip >= // 0, also prints the stack trace excluding the top // stack_frames_to_skip frames. In opt mode, any positive diff --git a/googlemock/src/gmock-spec-builders.cc b/googlemock/src/gmock-spec-builders.cc index 1971415..f6705a3 100644 --- a/googlemock/src/gmock-spec-builders.cc +++ b/googlemock/src/gmock-spec-builders.cc @@ -126,7 +126,7 @@ void ExpectationBase::RetireAllPreRequisites() } } -// Returns true iff all pre-requisites of this expectation have been +// Returns true if all pre-requisites of this expectation have been // satisfied. bool ExpectationBase::AllPrerequisitesAreSatisfied() const GTEST_EXCLUSIVE_LOCK_REQUIRED_(g_gmock_mutex) { @@ -292,7 +292,7 @@ void ReportUninterestingCall(CallReaction reaction, const std::string& msg) { "an EXPECT_CALL() if you don't mean to enforce the call. " "See " "https://github.com/google/googletest/blob/master/googlemock/" - "docs/CookBook.md#" + "docs/cook_book.md#" "knowing-when-to-expect for details.\n", stack_frames_to_skip); break; @@ -384,7 +384,7 @@ UntypedActionResultHolderBase* UntypedFunctionMockerBase::UntypedInvokeWith( const CallReaction reaction = Mock::GetReactionOnUninterestingCalls(MockObject()); - // True iff we need to print this call's arguments and return + // True if we need to print this call's arguments and return // value. This definition must be kept in sync with // the behavior of ReportUninterestingCall(). const bool need_to_report_uninteresting_call = @@ -435,7 +435,7 @@ UntypedActionResultHolderBase* UntypedFunctionMockerBase::UntypedInvokeWith( &ss, &why); const bool found = untyped_expectation != nullptr; - // True iff we need to print the call's arguments and return value. + // True if we need to print the call's arguments and return value. // This definition must be kept in sync with the uses of Expect() // and Log() in this function. const bool need_to_report_call = @@ -574,7 +574,7 @@ struct MockObjectState { int first_used_line; ::std::string first_used_test_suite; ::std::string first_used_test; - bool leakable; // true iff it's OK to leak the object. + bool leakable; // true if it's OK to leak the object. FunctionMockers function_mockers; // All registered methods of the object. }; @@ -718,7 +718,7 @@ bool Mock::VerifyAndClearExpectations(void* mock_obj) } // Verifies all expectations on the given mock object and clears its -// default actions and expectations. Returns true iff the +// default actions and expectations. Returns true if the // verification was successful. bool Mock::VerifyAndClear(void* mock_obj) GTEST_LOCK_EXCLUDED_(internal::g_gmock_mutex) { diff --git a/googlemock/src/gmock.cc b/googlemock/src/gmock.cc index 05566e2..ce926f2 100644 --- a/googlemock/src/gmock.cc +++ b/googlemock/src/gmock.cc @@ -34,7 +34,7 @@ namespace testing { GMOCK_DEFINE_bool_(catch_leaked_mocks, true, - "true iff Google Mock should report leaked mock objects " + "true if Google Mock should report leaked mock objects " "as failures."); GMOCK_DEFINE_string_(verbose, internal::kWarningVerbosity, diff --git a/googlemock/test/BUILD.bazel b/googlemock/test/BUILD.bazel index 95a6c26..e74102f 100644 --- a/googlemock/test/BUILD.bazel +++ b/googlemock/test/BUILD.bazel @@ -95,6 +95,7 @@ py_test( ":gmock_output_test_", ":gmock_output_test_golden.txt", ], + python_version = "PY2", deps = [":gmock_test_utils"], ) diff --git a/googlemock/test/gmock-cardinalities_test.cc b/googlemock/test/gmock-cardinalities_test.cc index 60fd06a..66042d4 100644 --- a/googlemock/test/gmock-cardinalities_test.cc +++ b/googlemock/test/gmock-cardinalities_test.cc @@ -395,12 +395,12 @@ TEST(ExactlyTest, HasCorrectBounds) { class EvenCardinality : public CardinalityInterface { public: - // Returns true iff call_count calls will satisfy this cardinality. + // Returns true if call_count calls will satisfy this cardinality. bool IsSatisfiedByCallCount(int call_count) const override { return (call_count % 2 == 0); } - // Returns true iff call_count calls will saturate this cardinality. + // Returns true if call_count calls will saturate this cardinality. bool IsSaturatedByCallCount(int /* call_count */) const override { return false; } diff --git a/googlemock/test/gmock-matchers_test.cc b/googlemock/test/gmock-matchers_test.cc index eb0a050..74e9294 100644 --- a/googlemock/test/gmock-matchers_test.cc +++ b/googlemock/test/gmock-matchers_test.cc @@ -956,7 +956,7 @@ TEST(TypedEqTest, CanDescribeSelf) { // Tests that TypedEq<T>(v) has type Matcher<T>. -// Type<T>::IsTypeOf(v) compiles iff the type of value v is T, where T +// Type<T>::IsTypeOf(v) compiles if the type of value v is T, where T // is a "bare" type (i.e. not in the form of const U or U&). If v's // type is not T, the compiler will generate a message about // "undefined reference". @@ -2640,7 +2640,7 @@ class IsGreaterThan { // For testing Truly(). const int foo = 0; -// This predicate returns true iff the argument references foo and has +// This predicate returns true if the argument references foo and has // a zero value. bool ReferencesFooAndIsZero(const int& n) { return (&n == &foo) && (n == 0); @@ -3594,7 +3594,7 @@ class Uncopyable { GTEST_DISALLOW_COPY_AND_ASSIGN_(Uncopyable); }; -// Returns true iff x.value() is positive. +// Returns true if x.value() is positive. bool ValueIsPositive(const Uncopyable& x) { return x.value() > 0; } MATCHER_P(UncopyableIs, inner_matcher, "") { @@ -4266,8 +4266,8 @@ TEST(ResultOfTest, WorksForFunctionReferences) { // Tests that ResultOf(f, ...) compiles and works as expected when f is a // function object. -struct Functor : public ::std::unary_function<int, std::string> { - result_type operator()(argument_type input) const { +struct Functor { + std::string operator()(int input) const { return IntToStringFunction(input); } }; diff --git a/googlemock/test/gmock-spec-builders_test.cc b/googlemock/test/gmock-spec-builders_test.cc index 10869b6..95b4b8b 100644 --- a/googlemock/test/gmock-spec-builders_test.cc +++ b/googlemock/test/gmock-spec-builders_test.cc @@ -1952,12 +1952,12 @@ TEST(DeletingMockEarlyTest, Failure2) { class EvenNumberCardinality : public CardinalityInterface { public: - // Returns true iff call_count calls will satisfy this cardinality. + // Returns true if call_count calls will satisfy this cardinality. bool IsSatisfiedByCallCount(int call_count) const override { return call_count % 2 == 0; } - // Returns true iff call_count calls will saturate this cardinality. + // Returns true if call_count calls will saturate this cardinality. bool IsSaturatedByCallCount(int /* call_count */) const override { return false; } @@ -2178,7 +2178,7 @@ class GMockVerboseFlagTest : public VerboseFlagPreservingFixture { "an EXPECT_CALL() if you don't mean to enforce the call. " "See " "https://github.com/google/googletest/blob/master/googlemock/docs/" - "CookBook.md#" + "cook_book.md#" "knowing-when-to-expect for details."; // A void-returning function. diff --git a/googlemock/test/gmock_output_test.py b/googlemock/test/gmock_output_test.py index 0527bd9..25f99f2 100755 --- a/googlemock/test/gmock_output_test.py +++ b/googlemock/test/gmock_output_test.py @@ -39,6 +39,7 @@ gmock_output_test.py """ +from io import open # pylint: disable=redefined-builtin, g-importing-member import os import re import sys @@ -152,10 +153,11 @@ def GetNormalizedCommandOutputAndLeakyTests(cmd): class GMockOutputTest(gmock_test_utils.TestCase): + def testOutput(self): (output, leaky_tests) = GetNormalizedCommandOutputAndLeakyTests(COMMAND) golden_file = open(GOLDEN_PATH, 'rb') - golden = golden_file.read() + golden = golden_file.read().decode('utf-8') golden_file.close() # The normalized output should match the golden file. diff --git a/googlemock/test/gmock_output_test_golden.txt b/googlemock/test/gmock_output_test_golden.txt index dbcb211..4c90b41 100644 --- a/googlemock/test/gmock_output_test_golden.txt +++ b/googlemock/test/gmock_output_test_golden.txt @@ -75,14 +75,14 @@ GMOCK WARNING: Uninteresting mock function call - returning default value. Function call: Bar2(0, 1) Returns: false -NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md#knowing-when-to-expect for details. +NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md#knowing-when-to-expect for details. [ OK ] GMockOutputTest.UninterestingCall [ RUN ] GMockOutputTest.UninterestingCallToVoidFunction GMOCK WARNING: Uninteresting mock function call - returning directly. Function call: Bar3(0, 1) -NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md#knowing-when-to-expect for details. +NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md#knowing-when-to-expect for details. [ OK ] GMockOutputTest.UninterestingCallToVoidFunction [ RUN ] GMockOutputTest.RetiredExpectation unknown file: Failure @@ -266,14 +266,14 @@ Uninteresting mock function call - taking default action specified at: FILE:#: Function call: Bar2(2, 2) Returns: true -NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md#knowing-when-to-expect for details. +NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md#knowing-when-to-expect for details. GMOCK WARNING: Uninteresting mock function call - taking default action specified at: FILE:#: Function call: Bar2(1, 1) Returns: false -NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/CookBook.md#knowing-when-to-expect for details. +NOTE: You can safely ignore the above warning unless this call should not happen. Do not suppress it by blindly adding an EXPECT_CALL() if you don't mean to enforce the call. See https://github.com/google/googletest/blob/master/googlemock/docs/cook_book.md#knowing-when-to-expect for details. [ OK ] GMockOutputTest.UninterestingCallWithDefaultAction [ RUN ] GMockOutputTest.ExplicitActionsRunOutWithDefaultAction |