name: hdf5 dev CMake CI # Controls when the action will run. Triggers the workflow on a call on: workflow_call: inputs: thread_safety: description: "thread-safety on/off" required: true type: boolean build_mode: description: "release vs. debug build" required: true type: string permissions: contents: read # A workflow run is made up of one or more jobs that can run sequentially or # in parallel. We just have one job, but the matrix items defined below will # run in parallel. jobs: # A workflow that builds the library and runs all the tests CMake_build_and_test: strategy: # The current matrix has one dimensions: # # * config name # # Most configuration information is added via the 'include' mechanism, # which will append the key-value pairs in the configuration where the # names match. matrix: name: - "Windows MSVC" - "Ubuntu gcc" - "MacOS Clang" # This is where we list the bulk of the options for each configuration. # The key-value pair values are usually appropriate for being CMake or # Autotools configure values, so be aware of that. include: # Windows w/ MSVC + CMake # # No Fortran, parallel, or VFDs that rely on POSIX things - name: "Windows MSVC" os: windows-2022 toolchain: "" cpp: ON fortran: OFF java: ON docs: OFF libaecfc: ON localaec: OFF zlibfc: ON localzlib: OFF parallel: OFF mirror_vfd: OFF direct_vfd: OFF ros3_vfd: OFF generator: "-G \"Visual Studio 17 2022\" -A x64" run_tests: true # Linux (Ubuntu) w/ gcc + CMake # # We might think about adding Clang, but MacOS already tests that # so it's not critical - name: "Ubuntu gcc" os: ubuntu-latest cpp: ON fortran: ON java: ON docs: ON libaecfc: ON localaec: OFF zlibfc: ON localzlib: OFF parallel: OFF mirror_vfd: ON direct_vfd: ON ros3_vfd: ON toolchain: "config/toolchain/gcc.cmake" generator: "-G Ninja" run_tests: true # MacOS w/ Clang + CMake # # We could also build with the Autotools via brew installing them, # but that seems unnecessary - name: "MacOS Clang" os: macos-13 cpp: ON fortran: OFF java: ON docs: OFF libaecfc: ON localaec: OFF zlibfc: ON localzlib: OFF parallel: OFF mirror_vfd: ON direct_vfd: OFF ros3_vfd: OFF toolchain: "config/toolchain/clang.cmake" generator: "-G Ninja" run_tests: true # Sets the job's name from the properties name: "${{ matrix.name }}-${{ inputs.build_mode }}-TS=${{ inputs.thread_safety }}" # Don't run the action if the commit message says to skip CI if: "!contains(github.event.head_commit.message, 'skip-ci')" # The type of runner that the job will run on runs-on: ${{ matrix.os }} # Steps represent a sequence of tasks that will be executed as part of the job steps: # # SETUP # #Useful for debugging - name: Dump matrix context run: echo '${{ toJSON(matrix) }}' # Only CMake need ninja-build, but we just install it unilaterally # libssl, etc. are needed for the ros3 VFD - name: Install Linux Dependencies run: | sudo apt update sudo apt-get install ninja-build doxygen graphviz sudo apt install libssl3 libssl-dev libcurl4 libcurl4-openssl-dev sudo apt install gcc-12 g++-12 gfortran-12 echo "CC=gcc-12" >> $GITHUB_ENV echo "CXX=g++-12" >> $GITHUB_ENV echo "FC=gfortran-12" >> $GITHUB_ENV if: matrix.os == 'ubuntu-latest' # CMake gets libaec from fetchcontent - name: Install Dependencies (Windows) run: choco install ninja if: matrix.os == 'windows-latest' - name: Install Dependencies (macOS) run: brew install ninja doxygen if: matrix.os == 'macos-13' - name: Set environment for MSVC (Windows) run: | # Set these environment variables so CMake picks the correct compiler echo "CXX=cl.exe" >> $GITHUB_ENV echo "CC=cl.exe" >> $GITHUB_ENV if: matrix.os == 'windows-latest' # Checks-out your repository under $GITHUB_WORKSPACE, so your job can access it - name: Get Sources uses: actions/checkout@v4 # # CMAKE CONFIGURE # - name: CMake Configure run: | mkdir "${{ runner.workspace }}/build" cd "${{ runner.workspace }}/build" cmake -C $GITHUB_WORKSPACE/config/cmake/cacheinit.cmake \ ${{ matrix.generator }} \ -DCMAKE_BUILD_TYPE=${{ inputs.build_mode }} \ -DCMAKE_TOOLCHAIN_FILE=${{ matrix.toolchain }} \ -DBUILD_SHARED_LIBS=ON \ -DHDF5_ENABLE_ALL_WARNINGS=ON \ -DHDF5_ENABLE_PARALLEL:BOOL=${{ matrix.parallel }} \ -DHDF5_BUILD_CPP_LIB:BOOL=${{ matrix.cpp }} \ -DHDF5_BUILD_FORTRAN=${{ matrix.fortran }} \ -DHDF5_BUILD_JAVA=${{ matrix.java }} \ -DHDF5_BUILD_DOC=${{ matrix.docs }} \ -DLIBAEC_USE_LOCALCONTENT=${{ matrix.localaec }} \ -DZLIB_USE_LOCALCONTENT=${{ matrix.localzlib }} \ -DHDF5_ENABLE_MIRROR_VFD:BOOL=${{ matrix.mirror_vfd }} \ -DHDF5_ENABLE_DIRECT_VFD:BOOL=${{ matrix.direct_vfd }} \ -DHDF5_ENABLE_ROS3_VFD:BOOL=${{ matrix.ros3_vfd }} \ $GITHUB_WORKSPACE shell: bash if: "! (matrix.thread_safety)" - name: CMake Configure (Thread-Safe) run: | mkdir "${{ runner.workspace }}/build" cd "${{ runner.workspace }}/build" cmake -C $GITHUB_WORKSPACE/config/cmake/cacheinit.cmake \ ${{ matrix.generator }} \ -DCMAKE_BUILD_TYPE=${{ inputs.build_mode }} \ -DCMAKE_TOOLCHAIN_FILE=${{ matrix.toolchain }} \ -DBUILD_SHARED_LIBS=ON \ -DHDF5_ENABLE_ALL_WARNINGS=ON \ -DHDF5_ENABLE_THREADSAFE:BOOL=ON \ -DHDF5_ENABLE_PARALLEL:BOOL=${{ matrix.parallel }} \ -DHDF5_BUILD_CPP_LIB:BOOL=OFF \ -DHDF5_BUILD_FORTRAN:BOOL=OFF \ -DHDF5_BUILD_JAVA:BOOL=OFF \ -DHDF5_BUILD_HL_LIB:BOOL=OFF \ -DHDF5_BUILD_DOC=OFF \ -DLIBAEC_USE_LOCALCONTENT=${{ matrix.localaec }} \ -DZLIB_USE_LOCALCONTENT=${{ matrix.localzlib }} \ -DHDF5_ENABLE_MIRROR_VFD:BOOL=${{ matrix.mirror_vfd }} \ -DHDF5_ENABLE_DIRECT_VFD:BOOL=${{ matrix.direct_vfd }} \ -DHDF5_ENABLE_ROS3_VFD:BOOL=${{ matrix.ros3_vfd }} \ $GITHUB_WORKSPACE shell: bash if: (matrix.thread_safety) # # BUILD # - name: CMake Build run: cmake --build . --parallel 3 --config ${{ inputs.build_mode }} working-directory: ${{ runner.workspace }}/build # # RUN TESTS # # NORMAL - name: CMake Run Tests run: ctest . --parallel 2 -C ${{ inputs.build_mode }} -V working-directory: ${{ runner.workspace }}/build if: (matrix.run_tests) && ! (matrix.thread_safety) # THREAD-SAFE - name: CMake Run Thread-Safe Tests run: ctest . --parallel 2 -C ${{ inputs.build_mode }} -V -R ttsafe working-directory: ${{ runner.workspace }}/build if: (matrix.run_tests) && (matrix.thread_safety) # # INSTALL (note that this runs even when we don't run the tests) # # # The GitHub runners are inadequate for running parallel HDF5 tests, # so we catch most issues in daily testing. What we have here is just # a compile check to make sure nothing obvious is broken. # A workflow that builds the library # Parallel Linux (Ubuntu) w/ gcc + Autotools # CMake_build_parallel: name: "Parallel GCC-${{ inputs.build_mode }}-TS=${{ inputs.thread_safety }}" # Don't run the action if the commit message says to skip CI if: "!contains(github.event.head_commit.message, 'skip-ci')" # The type of runner that the job will run on runs-on: ubuntu-latest # Steps represent a sequence of tasks that will be executed as part of the job steps: # SETUP - name: Install Linux Dependencies run: | sudo apt update sudo apt-get install ninja-build doxygen graphviz sudo apt install libssl3 libssl-dev libcurl4 libcurl4-openssl-dev sudo apt install gcc-12 g++-12 gfortran-12 sudo apt install libaec0 libaec-dev sudo apt install openmpi-bin openmpi-common mpi-default-dev echo "CC=mpicc" >> $GITHUB_ENV echo "FC=mpif90" >> $GITHUB_ENV # Checks-out your repository under $GITHUB_WORKSPACE, so your job can access it - name: Get Sources uses: actions/checkout@v4 # CMAKE CONFIGURE - name: CMake Configure run: | mkdir "${{ runner.workspace }}/build" cd "${{ runner.workspace }}/build" CC=mpicc cmake -C $GITHUB_WORKSPACE/config/cmake/cacheinit.cmake \ -DCMAKE_BUILD_TYPE=${{ inputs.build_mode }} \ -DCMAKE_TOOLCHAIN_FILE=${{ matrix.toolchain }} \ -DBUILD_SHARED_LIBS=ON \ -DHDF5_ENABLE_ALL_WARNINGS=ON \ -DHDF5_ENABLE_PARALLEL:BOOL=ON \ -DHDF5_BUILD_CPP_LIB:BOOL=OFF \ -DHDF5_BUILD_FORTRAN=ON \ -DHDF5_BUILD_JAVA=OFF \ -DLIBAEC_USE_LOCALCONTENT=OFF \ -DZLIB_USE_LOCALCONTENT=OFF \ -DHDF5_ENABLE_MIRROR_VFD:BOOL=OFF \ -DHDF5_ENABLE_DIRECT_VFD:BOOL=OFF \ -DHDF5_ENABLE_ROS3_VFD:BOOL=OFF \ $GITHUB_WORKSPACE shell: bash # BUILD - name: CMake Build run: cmake --build . --parallel 3 --config ${{ inputs.build_mode }} working-directory: ${{ runner.workspace }}/build