400 lines
16 KiB
Markdown
400 lines
16 KiB
Markdown
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This directory contains *CMake* files that can be used to build protobuf
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with *MSVC* on *Windows*. You can build the project from *Command Prompt*
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and using an *Visual Studio* IDE.
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You need to have [CMake](http://www.cmake.org), [Visual Studio](https://www.visualstudio.com)
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and optionally [Git](http://git-scm.com) installed on your computer before proceeding.
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Most of the instructions will be given to the *Сommand Prompt*, but the same
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actions can be performed using appropriate GUI tools.
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Environment Setup
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=================
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Open the appropriate *Command Prompt* from the *Start* menu.
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For example *x86 Native Tools Command Prompt for VS 2019*:
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C:\Program Files (x86)\Microsoft Visual Studio\2019\Professional>
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Change to your working directory:
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C:\Program Files (x86)\Microsoft Visual Studio\2019\Professional>cd C:\Path\to
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C:\Path\to>
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Where *C:\Path\to* is path to your real working directory.
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Create a folder where protobuf headers/libraries/binaries will be installed after built:
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C:\Path\to>mkdir install
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If *cmake* command is not available from *Command Prompt*, add it to system *PATH* variable:
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C:\Path\to>set PATH=%PATH%;C:\Program Files (x86)\CMake\bin
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If *git* command is not available from *Command Prompt*, add it to system *PATH* variable:
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C:\Path\to>set PATH=%PATH%;C:\Program Files\Git\cmd
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Optionally, you will want to download [ninja](https://ninja-build.org/) and add it to your *PATH* variable.
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C:\Path\to>set PATH=%PATH%;C:\tools\ninja
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Good. Now you are ready to continue.
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Getting Sources
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===============
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You can get the latest stable source packages from the release page:
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https://github.com/protocolbuffers/protobuf/releases/latest
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For example: if you only need C++, download `protobuf-cpp-[VERSION].tar.gz`; if
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you need C++ and Java, download `protobuf-java-[VERSION].tar.gz` (every package
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contains C++ source already); if you need C++ and multiple other languages,
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download `protobuf-all-[VERSION].tar.gz`.
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Or you can use git to clone from protobuf git repository.
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C:\Path\to> mkdir src & cd src
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C:\Path\to\src> git clone -b [release_tag] https://github.com/protocolbuffers/protobuf.git
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Where *[release_tag]* is a git tag like *v3.0.0-beta-1* or a branch name like *main*
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if you want to get the latest code.
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Go to the project folder:
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C:\Path\to\src> cd protobuf
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C:\Path\to\src\protobuf>
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Remember to update any submodules if you are using git clone (you can skip this
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step if you are using a release .tar.gz or .zip package):
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```console
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C:\Path\to\src\protobuf> git submodule update --init --recursive
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```
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Good. Now you are ready for *CMake* configuration.
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CMake Configuration
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===================
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*CMake* supports a lot of different
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[generators](http://www.cmake.org/cmake/help/latest/manual/cmake-generators.7.html)
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for various native build systems.
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Of most interest to Windows programmers are the following:
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* [Makefile](http://www.cmake.org/cmake/help/latest/manual/cmake-generators.7.html#makefile-generators).
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This generates NMake Makefiles for Visual Studio. These work, but they are rather slow.
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* [Visual Studio](http://www.cmake.org/cmake/help/latest/manual/cmake-generators.7.html#visual-studio-generators)
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This generates a Visual Studio solution for the project.
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* [Ninja](https://cmake.org/cmake/help/latest/manual/cmake-generators.7.html#ninja-generator)
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This uses the external tool [Ninja](https://ninja-build.org/) to build. It is the fastest solution available.
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Note that as of Visual Studio 2015, Visual Studio includes
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[support for opening directly CMake-based projects](https://docs.microsoft.com/en-us/cpp/build/cmake-projects-in-visual-studio).
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It is considered good practice not to build CMake projects in the source tree but in a separate folder.
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Create a temporary *build* folder and change your working directory to it:
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mkdir C:\Path\to\build\protobuf
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cd C:\Path\to\build\protobuf
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C:\Path\to\build\protobuf>
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The *Makefile* and *Ninja* generators can build the project in only one configuration, so you need to build
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a separate folder for each configuration.
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To start using a *Release* configuration via the *NMmake* generator:
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C:\Path\to\build\protobuf>mkdir release & cd release
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C:\Path\to\build\protobuf\release>cmake -G "NMake Makefiles" ^
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-DCMAKE_BUILD_TYPE=Release ^
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-DCMAKE_INSTALL_PREFIX=C:\Path\to\install ^
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C:\Path\to\src\protobuf
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It will generate a *NMake* *Makefile* in the current directory.
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To use *Debug* configuration using *Ninja*:
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C:\Path\to\build\protobuf>mkdir debug & cd debug
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C:\Path\to\build\protobuf\debug>cmake -G "Ninja" ^
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-DCMAKE_BUILD_TYPE=Debug ^
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-DCMAKE_INSTALL_PREFIX=C:\Path\to\install ^
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C:\Path\to\src\protobuf
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It will generate *Ninja* build scripts in current directory.
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The *Visual Studio* generator is multi-configuration: it will generate a single *.sln* file that can be used for both *Debug* and *Release*:
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C:\Path\to\build\protobuf>mkdir solution & cd solution
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C:\Path\to\build\protobuf\solution>cmake -G "Visual Studio 16 2019" ^
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-DCMAKE_INSTALL_PREFIX=C:\Path\to\install ^
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C:\Path\to\src\protobuf
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It will generate *Visual Studio* solution file *protobuf.sln* in current directory.
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Unit Tests
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----------
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Unit tests are being built along with the rest of protobuf. The unit tests require Google Mock (now a part of Google Test).
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A copy of [Google Test](https://github.com/google/googletest) is included as a Git submodule in the `third-party/googletest` folder.
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(You do need to initialize the Git submodules as explained above.)
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Alternately, you may want to use protobuf in a larger set-up, you may want to use that standard CMake approach where
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you build and install a shared copy of Google Test.
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After you've built and installed your Google Test copy, you need add the following definition to your *cmake* command line
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during the configuration step: `-Dprotobuf_USE_EXTERNAL_GTEST=ON`.
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This will cause the standard CMake `find_package(GTest REQUIRED)` to be used.
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[find_package](https://cmake.org/cmake/help/latest/command/find_package.html) will search in a default location,
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which on Windows is *C:\Program Files*. This is most likely not what you want. You will want instead to search for
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Google Test in your project's root directory (i.e. the same directory you've passed to `CMAKE_INSTALL_PREFIX` when
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building Google Test). For this, you need to set the `CMAKE_PREFIX_PATH` CMake variable. (There are other ways in CMake,
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see the [manual](https://cmake.org/cmake/help/latest/command/find_package.html) for details.)
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For example:
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C:\Path\to\build\protobuf>mkdir solution & cd solution
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C:\Path\to\build\protobuf\solution>cmake -G "Visual Studio 16 2019" ^
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-DCMAKE_INSTALL_PREFIX=C:\Path\to\install ^
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-DCMAKE_PREFIX_PATH=C:\Path\to\my_big_project ^
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-Dprotobuf_USE_EXTERNAL_GTEST=ON ^
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C:\Path\to\src\protobuf
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In most cases, `CMAKE_PREFIX_PATH` and `CMAKE_INSTALL_PREFIX` will point to the same directory.
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To disable testing completely, you need to add the following argument to you *cmake* command line: `-Dprotobuf_BUILD_TESTS=OFF`.
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For example:
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C:\Path\to\build\protobuf\solution>cmake -G "Visual Studio 16 2019" ^
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-DCMAKE_INSTALL_PREFIX=C:\Path\to\install ^
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-Dprotobuf_BUILD_TESTS=OFF ^
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C:\Path\to\src\protobuf
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Compiling
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=========
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The standard way to compile a *CMake* project is `cmake --build <directory>`.
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Note that if your generator supports multiple configurations, you will probably want to specify which one to build:
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cmake --build C:\Path\to\build\protobuf\solution --config Release
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You can also run directly the build tool you've configured:
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C:\Path\to\build\protobuf\release>nmake
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or
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C:\Path\to\build\protobuf\debug>ninja
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And wait for the compilation to finish.
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If you prefer to use the IDE:
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* Open the generated protobuf.sln file in Microsoft Visual Studio.
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* Choose "Debug" or "Release" configuration as desired.
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* From the Build menu, choose "Build Solution".
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And wait for the compilation to finish.
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Testing
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=======
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To run unit-tests, first you must compile protobuf as described above.
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Then run:
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C:\Path\to\protobuf\cmake\build\release>ctest --progress --output-on-failure
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You can also build the `check` target (not idiomatic CMake usage, though):
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C:\Path\to\protobuf\cmake\build\release>cmake --build . --target check
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or
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C:\Path\to\build\protobuf\release>ninja check
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You can also build project *check* from Visual Studio solution.
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Yes, it may sound strange, but it works.
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You should see output similar to:
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Running main() from gmock_main.cc
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[==========] Running 1546 tests from 165 test cases.
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...
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[==========] 1546 tests from 165 test cases ran. (2529 ms total)
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[ PASSED ] 1546 tests.
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To run specific tests, you need to pass some command line arguments to the test program itself:
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C:\Path\to\build\protobuf\release>tests.exe --gtest_filter=AnyTest*
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Running main() from gmock_main.cc
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Note: Google Test filter = AnyTest*
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[==========] Running 3 tests from 1 test case.
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[----------] Global test environment set-up.
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[----------] 3 tests from AnyTest
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[ RUN ] AnyTest.TestPackAndUnpack
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[ OK ] AnyTest.TestPackAndUnpack (0 ms)
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[ RUN ] AnyTest.TestPackAndUnpackAny
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[ OK ] AnyTest.TestPackAndUnpackAny (0 ms)
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[ RUN ] AnyTest.TestIs
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[ OK ] AnyTest.TestIs (0 ms)
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[----------] 3 tests from AnyTest (1 ms total)
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[----------] Global test environment tear-down
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[==========] 3 tests from 1 test case ran. (2 ms total)
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[ PASSED ] 3 tests.
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Note that the tests must be run from the source folder.
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If all tests are passed, safely continue.
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Installing
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==========
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To install protobuf to the *install* folder you've specified in the configuration step, you need to build the `install` target:
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cmake --build C:\Path\to\build\protobuf\solution --config Release --target install
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Or if you prefer:
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C:\Path\to\build\protobuf\release>nmake install
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or
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C:\Path\to\build\protobuf\debug>ninja install
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You can also build project *INSTALL* from Visual Studio solution.
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It sounds not so strange and it works.
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This will create the following folders under the *install* location:
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* bin - that contains protobuf *protoc.exe* compiler;
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* include - that contains C++ headers and protobuf *.proto files;
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* lib - that contains linking libraries and *CMake* configuration files for *protobuf* package.
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Now you can if needed:
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* Copy the contents of the include directory to wherever you want to put headers.
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* Copy protoc.exe wherever you put build tools (probably somewhere in your PATH).
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* Copy linking libraries libprotobuf[d].lib, libprotobuf-lite[d].lib, and libprotoc[d].lib wherever you put libraries.
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To avoid conflicts between the MSVC debug and release runtime libraries, when
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compiling a debug build of your application, you may need to link against a
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debug build of libprotobufd.lib with "d" postfix. Similarly, release builds should link against
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release libprotobuf.lib library.
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DLLs vs. static linking
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=======================
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Static linking is now the default for the Protocol Buffer libraries. Due to
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issues with Win32's use of a separate heap for each DLL, as well as binary
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compatibility issues between different versions of MSVC's STL library, it is
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recommended that you use static linkage only. However, it is possible to
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build libprotobuf and libprotoc as DLLs if you really want. To do this,
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do the following:
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* Add an additional flag `-Dprotobuf_BUILD_SHARED_LIBS=ON` when invoking cmake
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* Follow the same steps as described in the above section.
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* When compiling your project, make sure to `#define PROTOBUF_USE_DLLS`.
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When distributing your software to end users, we strongly recommend that you
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do NOT install libprotobuf.dll or libprotoc.dll to any shared location.
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Instead, keep these libraries next to your binaries, in your application's
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own install directory. C++ makes it very difficult to maintain binary
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compatibility between releases, so it is likely that future versions of these
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libraries will *not* be usable as drop-in replacements.
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If your project is itself a DLL intended for use by third-party software, we
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recommend that you do NOT expose protocol buffer objects in your library's
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public interface, and that you statically link protocol buffers into your
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library.
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ZLib support
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============
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If you want to include GzipInputStream and GzipOutputStream
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(google/protobuf/io/gzip_stream.h) in libprotobuf, you will need to do a few
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additional steps.
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Obtain a copy of the zlib library. The pre-compiled DLL at zlib.net works.
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You need prepare it:
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* Make sure zlib's two headers are in your `C:\Path\to\install\include` path
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* Make sure zlib's linking libraries (*.lib file) is in your
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`C:\Path\to\install\lib` library path.
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You can also compile it from source by yourself.
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Getting sources:
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C:\Path\to\src>git clone -b v1.2.8 https://github.com/madler/zlib.git
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C:\Path\to\src>cd zlib
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Compiling and Installing:
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C:\Path\to\src\zlib>mkdir C:\Path\to\build\zlib & cd C:\Path\to\build\zlib
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C:\Path\to\build\zlib>mkdir release & cd release
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C:\Path\to\build\zlib\release>cmake -G "Ninja" -DCMAKE_BUILD_TYPE=Release ^
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-DCMAKE_INSTALL_PREFIX=C:\Path\to\install C:\Path\to\src\zlib
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C:\Path\to\src\zlib\build\release>cmake --build . --target install
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You can make *debug* version or use *Visual Studio* generator also as before for the
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protobuf project.
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Now add *bin* folder from *install* to system *PATH*:
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C:\Path\to>set PATH=%PATH%;C:\Path\to\install\bin
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You need reconfigure protobuf with flag `-Dprotobuf_WITH_ZLIB=ON` when invoking cmake.
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Note that if you have compiled ZLIB yourself, as stated above,
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further disable the option `-Dprotobuf_MSVC_STATIC_RUNTIME=OFF`.
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If it reports NOTFOUND for zlib_include or zlib_lib, you might haven't put
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the headers or the .lib file in the right directory.
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If you already have ZLIB library and headers at some other location on your system then alternatively you can define following configuration flags to locate them:
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-DZLIB_INCLUDE_DIR=<path to dir containing zlib headers>
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-DZLIB_LIB=<path to dir containing zlib>
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Build and testing protobuf as usual.
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Notes on Compiler Warnings
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==========================
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The following warnings have been disabled while building the protobuf libraries
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and compiler. You may have to disable some of them in your own project as
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well, or live with them.
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* C4244 - Conversion from 'type1' to 'type2', possible loss of data.
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* C4251 - 'identifier' : class 'type' needs to have dll-interface to be used by
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clients of class 'type2'
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* C4267 - Conversion from 'size_t' to 'type', possible loss of data.
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* C4305 - 'identifier' : truncation from 'type1' to 'type2'
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* C4355 - 'this' : used in base member initializer list
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|
* C4800 - 'type' : forcing value to bool 'true' or 'false' (performance warning)
|
|||
|
* C4996 - 'function': was declared deprecated
|
|||
|
|
|||
|
C4251 is of particular note, if you are compiling the Protocol Buffer library
|
|||
|
as a DLL (see previous section). The protocol buffer library uses templates in
|
|||
|
its public interfaces. MSVC does not provide any reasonable way to export
|
|||
|
template classes from a DLL. However, in practice, it appears that exporting
|
|||
|
templates is not necessary anyway. Since the complete definition of any
|
|||
|
template is available in the header files, anyone importing the DLL will just
|
|||
|
end up compiling instances of the templates into their own binary. The
|
|||
|
Protocol Buffer implementation does not rely on static template members being
|
|||
|
unique, so there should be no problem with this, but MSVC prints warning
|
|||
|
nevertheless. So, we disable it. Unfortunately, this warning will also be
|
|||
|
produced when compiling code which merely uses protocol buffers, meaning you
|
|||
|
may have to disable it in your code too.
|