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re-master particle module -- setup mpi-io for particles #661

re-master particle module -- setup mpi-io for particles

re-master particle module -- setup mpi-io for particles #661

Workflow file for this run

# This is a basic workflow to help you get started with Actions
name: Build
# Controls when the action will run. Triggers the workflow on push or pull request
# events but only for the master branch
on:
push:
branches: [ master ]
pull_request:
branches: [ master ]
# A workflow run is made up of one or more jobs that can run sequentially or in parallel
jobs:
# This workflow contains a single job called "build"
build:
# 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:
# Checks-out your repository under $GITHUB_WORKSPACE, so your job can access it
- uses: actions/checkout@v4
# We don't want to build openmpi each time this workflow is
# run. Setup caching of OpenMPI after it is built and installed.
# See "Caching dependencies to speed up workflows" on the GH
# actions docs.
- name: Cache OpenMPI
id: cache-openmpi
uses: actions/cache@v4
with:
path: openmpi-4.1.4/installed
key: openmpi-4.1.4
- name: Build openmpi
if: steps.cache-openmpi.outputs.cache-hit != 'true'
run: |
wget https://download.open-mpi.org/release/open-mpi/v4.1/openmpi-4.1.4.tar.gz
tar -xf openmpi-4.1.4.tar.gz
cd openmpi-4.1.4/ && mkdir installed
./configure --prefix=$(pwd)/installed
make all install
- name: Build Xcompact3d
run: |
export PATH=$(pwd)/openmpi-4.1.4/installed/bin/:$PATH
export FC=mpif90
cmake -S . -B build
cmake --build build -j 2
cmake --install build
ctest --test-dir build
- name: Compare output time evolution to reference output
run: |
pip install numpy
cd build/RunTests/TGV-Taylor-Green-vortex
python compare_TGV_time_evolution.py \
--input time_evol.dat \
--reference reference_time_evol.dat