meson
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meson | Google Test | |
---|---|---|
110 | 67 | |
5,246 | 33,041 | |
1.8% | 2.6% | |
9.8 | 8.3 | |
5 days ago | 7 days ago | |
Python | C++ | |
Apache License 2.0 | BSD 3-clause "New" or "Revised" License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
meson
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Which Build Tool for a Bootstrappable Project?
[1]: https://github.com/mesonbuild/meson/issues/8153
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Building Waybar fails
The Meson build system Version: 1.2.3 Source dir: /home/patrik/workspace/Waybar Build dir: /home/patrik/workspace/Waybar/build Build type: native build Project name: waybar Project version: 0.9.24 C compiler for the host machine: cc (gcc 13.2.0 "cc (Debian 13.2.0-5) 13.2.0") C linker for the host machine: cc ld.bfd 2.41 C++ compiler for the host machine: c++ (gcc 13.2.0 "c++ (Debian 13.2.0-5) 13.2.0") C++ linker for the host machine: c++ ld.bfd 2.41 Host machine cpu family: x86_64 Host machine cpu: x86_64 Compiler for C++ supports link arguments -lc++fs: NO Compiler for C++ supports link arguments -lc++experimental: NO Compiler for C++ supports link arguments -lstdc++fs: YES Program git found: YES (/usr/bin/git) WARNING: You should add the boolean check kwarg to the run_command call. It currently defaults to false, but it will default to true in future releases of meson. See also: https://github.com/mesonbuild/meson/issues/9300 Has header "filesystem" : YES Checking if "nl_langinfo with _NL_TIME_WEEK_1STDAY, _NL_TIME_FIRST_WEEKDAY" : links: YES Run-time dependency threads found: YES Found pkg-config: /usr/bin/pkg-config (1.8.1) Run-time dependency fmt found: YES 9.1.0 Run-time dependency spdlog found: YES 1.12.0 Run-time dependency wayland-client found: YES 1.22.0 Run-time dependency wayland-cursor found: YES 1.22.0 Run-time dependency wayland-protocols found: YES 1.32 Run-time dependency gtkmm-3.0 found: YES 3.24.8 Run-time dependency dbusmenu-gtk3-0.4 found: YES 16.04.0 Run-time dependency gio-unix-2.0 found: YES 2.78.1 Run-time dependency jsoncpp found: YES 1.9.4 Run-time dependency sigc++-2.0 found: YES 2.12.1 Found CMake: /usr/bin/cmake (3.27.7) Run-time dependency libinotify found: NO (tried pkgconfig and cmake) Run-time dependency epoll-shim found: NO (tried pkgconfig and cmake) Run-time dependency libinput found: YES 1.23.0 Run-time dependency libnl-3.0 found: YES 3.7.0 Run-time dependency libnl-genl-3.0 found: YES 3.7.0 Run-time dependency upower-glib found: YES 1.90.2 Run-time dependency libpipewire-0.3 found: YES 0.3.85 Run-time dependency playerctl found: YES 2.4.1 Run-time dependency libpulse found: YES 16.1 Run-time dependency libudev found: YES 252 Run-time dependency libevdev found: YES 1.13.1 Run-time dependency libmpdclient found: YES 2.20 Run-time dependency xkbregistry found: YES 1.6.0 Run-time dependency jack found: YES 0.126.0 Run-time dependency wireplumber-0.4 found: YES 0.4.15 Library sndio found: YES Checking for function "sioctl_open" with dependency -lsndio: YES Run-time dependency gtk-layer-shell-0 found: YES 0.8.1 Run-time dependency systemd found: YES 252 Computing int of "__cpp_lib_chrono" : 201611 Configuring waybar.service using configuration Run-time dependency cava found: NO (tried pkgconfig and cmake) Looking for a fallback subproject for the dependency cava Executing subproject cava cava| Project name: cava cava| Project version: 0.9.1 cava| C compiler for the host machine: cc (gcc 13.2.0 "cc (Debian 13.2.0-5) 13.2.0") cava| C linker for the host machine: cc ld.bfd 2.41 cava| Has header "iniparser.h" : NO cava| Has header "iniparser4/iniparser.h" : NO Message: cava is not found. Building waybar without cava subprojects/cava-0.9.1/meson.build:65:3: ERROR: Problem encountered: iniparser library is required A full log can be found at /home/patrik/workspace/Waybar/build/meson-logs/meson-log.txt WARNING: Running the setup command as `meson [options]` instead of `meson setup [options]` is ambiguous and deprecated.
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How to find a list of all gcc errors/warnings?
As it happens, I recently landed a PR in meson to add a clang-like Weverything mode that includes all of that, so you can get a minimal list of more or less all GCC warnings, organized by version, from the meson source here: https://github.com/mesonbuild/meson/blob/710a753c78077220b13a9f7e999dcdb61339efb1/mesonbuild/compilers/mixins/gnu.py
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Makefile Tutorial
Came here to post the same. The answer for How to build software? is Meson[1] for C and C++ and also other languages. Works well on Windows and Mac, too.
I’ve written a small Makefile to learn the basic and backgrounds. Make is fine. But the next high-level would have been Autotools, which is an intimidating and weird set of tools. Most new stuff written in C/C++ use now Meson and it feels sane.
[1] https://mesonbuild.com
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CMake x make?
If you are very fortunate, you'll be able to choose something else. I like meson myself: it looks a bit like python, it's popular, small, simple, well-documented, easy to install and update, and it works well everywhere.
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C++ Papercuts
I suggest changing the build tool. Meson improved C and C++ a lot:
https://mesonbuild.com/
The dependency declaration and auto-detection is nice. But the hidden extra is WrapDB, built-in package management (if wanted):
https://mesonbuild.com/Wrap-dependency-system-manual.html
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A Modern C Development Environment
> C's only REAL problem (in my opinion) which is the lack of dependency management. Most everything else can be done with a makefile and a half decent editor.
Care to hear about our lord and saviour Meson?
Both of your quoted problems are mutually incompatible: dependency management isn't the job of the compiler, it's a job for the build or host system. If you want to keep writing makefiles, be prepared to write your own `wget` and `git` invocations to download subprojects.
Meanwhile, Meson solves the dependency management problem in a way that makes both developers and system integrators/distributions happy. It forces you to make a project that doesn't have broken inter-file or header dependency chains and cleans up all the clutter and cruft of a makefile written for any non-trivial project, while making it trivial to integrate other meson projects into your build, let other people integrate your project into theirs, and provides all of the toggles and environment variables distribution developers need to package your library properly. You can really have your cake and eat it too.
https://mesonbuild.com/
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cgen: another declarative CMake configuration generator
Other people going down this route seem to end up writing cmake replacements instead. I'm thinking of something like meson here except that meson never intended to transpile to cmake.
- Makefile vs Cmake - Objective comparison ?
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Installer script for CMake, Ninja, and Meson
I thought I would share my custom installer script for the latest GitHub versions of CMake, Ninja, and Meson.
Google Test
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Creating k-NN with C++ (from Scratch)
cmake_minimum_required(VERSION 3.5) project(knn_cpp CXX) include(FetchContent) FetchContent_Declare( googletest GIT_REPOSITORY https://github.com/google/googletest.git GIT_TAG release-1.11.0 ) FetchContent_MakeAvailable(googletest) FetchContent_Declare(matplotplusplus GIT_REPOSITORY https://github.com/alandefreitas/matplotplusplus GIT_TAG origin/master) FetchContent_GetProperties(matplotplusplus) if(NOT matplotplusplus_POPULATED) FetchContent_Populate(matplotplusplus) add_subdirectory(${matplotplusplus_SOURCE_DIR} ${matplotplusplus_BINARY_DIR} EXCLUDE_FROM_ALL) endif() function(knn_cpp_test TEST_NAME TEST_SOURCE) add_executable(${TEST_NAME} ${TEST_SOURCE}) target_link_libraries(${TEST_NAME} PUBLIC matplot) aux_source_directory(${CMAKE_CURRENT_SOURCE_DIR}/../lib LIB_SOURCES) target_link_libraries(${TEST_NAME} PRIVATE gtest gtest_main gmock gmock_main) target_include_directories(${TEST_NAME} PRIVATE ${CMAKE_CURRENT_SOURCE_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/../) target_sources(${TEST_NAME} PRIVATE ${LIB_SOURCES} ) include(GoogleTest) gtest_discover_tests(${TEST_NAME}) endfunction() knn_cpp_test(LinearAlgebraTest la_test.cc) knn_cpp_test(KnnTest knn_test.cc) knn_cpp_test(UtilsTest utils_test.cc)
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Starting with C
Okay, time to start unit tests!!! We will use Unity Test Framework to do unit testing. It is one of widely used testing frameworks alongside with Check, Google Test etc. Just downloading source code, and putting it to the project folder is enough to make it work (that is also why it is portable).
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Just in case: Debian Bookworm comes with a buggy GCC
Updating GCC (it happened to GoogleTest).
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Automatically run tests, formatters & linters with CI!
Roy's project uses Google Test, a C++ testing framework. His testing setup is similar to mine as we both keep source files in one directory and tests in another. The key difference is that I can run the tests using the Visual Studios run button. It was fairly easy to write the new tests as there were existing ones that I could reference to check the syntax!
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C++ Unit Testing Using Google Test - My Experience
The Google Test Documentation provides a primer for first-time users. The primer introduces some basic concepts and terminology, some of which I've been able to learn for this lab exercise.
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Basic C++ Unit Testing with GTest, CMake, and Submodules
> git submodule add https://github.com/google/googletest.git > git submodule update --init --recursive
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VS code + cmake + gtest?
cmake_minimum_required(VERSION 3.14) project(my_project) # GoogleTest requires at least C++14 set(CMAKE_CXX_STANDARD 14) set(CMAKE_CXX_STANDARD_REQUIRED ON) include(FetchContent) FetchContent_Declare( googletest URL https://github.com/google/googletest/archive/03597a01ee50ed33e9dfd640b249b4be3799d395.zip ) # For Windows: Prevent overriding the parent project's compiler/linker settings set(gtest_force_shared_crt ON CACHE BOOL "" FORCE) FetchContent_MakeAvailable(googletest) enable_testing() add_executable( hello_test hello_test.cpp ) target_link_libraries( hello_test GTest::gtest_main ) include(GoogleTest) gtest_discover_tests(hello_test)
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FetchContent with Multiple URLs
FetchContent\_Declare(googletestGIT\_REPOSITORY [[email protected]](mailto:[email protected]):googletest.git [https://github.com/google/googletest.git](https://github.com/google/googletest.git)GIT\_TAG release-1.12.1)FetchContent\_MakeAvailable(googletest)
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CI/CD pipelines for embedded
Not sure about CppUnit but I can speak to my previous experience using the googletest framework which compiles your tests to an executable, and since it's a very simple framework we were able to cross-compile and run directly on our device. We just had to hook up a device to the server that was running the CI so it could flash it when needed. That basically meant that our process was:
- Basic CMake question regarding subdirectories
What are some alternatives?
CMake - Mirror of CMake upstream repository
Catch - A modern, C++-native, test framework for unit-tests, TDD and BDD - using C++14, C++17 and later (C++11 support is in v2.x branch, and C++03 on the Catch1.x branch)
ninja - a small build system with a focus on speed
Boost.Test - The reference C++ unit testing framework (TDD, xUnit, C++03/11/14/17)
SCons
CppUTest - CppUTest unit testing and mocking framework for C/C++
Bazel - a fast, scalable, multi-language and extensible build system
CppUnit - C++ port of JUnit
cmake-init - The missing CMake project initializer
doctest - The fastest feature-rich C++11/14/17/20/23 single-header testing framework
BitBake - The official bitbake Git is at https://git.openembedded.org/bitbake/. Do not open issues or file pull requests here.
Unity Test API - Simple Unit Testing for C