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Improvement/tesla advanced battery #3045

Improvement/tesla advanced battery

Improvement/tesla advanced battery #3045

# This is the name of the workflow, visible on GitHub UI.
name: Compile All Batteries
# Here we tell GitHub when to run the workflow.
on:
# The workflow is run when a commit is pushed or for a
# Pull Request.
- push
- pull_request
# This is the list of jobs that will be run concurrently.
jobs:
# This pre-job is run to skip workflows in case a workflow is already run, i.e. because the workflow is triggered by both push and pull_request
skip-duplicate-actions:
runs-on: ubuntu-latest
# Map a step output to a job output
outputs:
should_skip: ${{ steps.skip_check.outputs.should_skip }}
steps:
- id: skip_check
uses: fkirc/skip-duplicate-actions@v5
with:
# All of these options are optional, so you can remove them if you are happy with the defaults
concurrent_skipping: 'never'
skip_after_successful_duplicate: 'true'
do_not_skip: '["pull_request", "workflow_dispatch", "schedule"]'
# Since we use a build matrix, the actual number of jobs
# started depends on how many configurations the matrix
# will produce.
build-batteries:
needs: skip-duplicate-actions
if: needs.skip-duplicate-actions.outputs.should_skip != 'true'
# Here we tell GitHub that the jobs must be determined
# dynamically depending on a matrix configuration.
strategy:
# The matrix will produce one job for each combination of parameters.
matrix:
# This is the development board hardware for which the code will be compiled.
# FBQN stands for "fully qualified board name", and is used by Arduino to define the hardware to compile for.
fqbn:
- esp32:esp32:esp32
# further ESP32 chips
#- esp32:esp32:esp32c3
#- esp32:esp32:esp32c2
#- esp32:esp32:esp32c6
#- esp32:esp32:esp32h2
#- esp32:esp32:esp32s3
# These are the batteries for which the code will be compiled.
battery:
- BMW_I3_BATTERY
- BMW_IX_BATTERY
- BYD_ATTO_3_BATTERY
- CELLPOWER_BMS
- CHADEMO_BATTERY
- IMIEV_CZERO_ION_BATTERY
- JAGUAR_IPACE_BATTERY
- KIA_E_GMP_BATTERY
- KIA_HYUNDAI_64_BATTERY
- KIA_HYUNDAI_HYBRID_BATTERY
- MEB_BATTERY
- MG_5_BATTERY
- NISSAN_LEAF_BATTERY
- PYLON_BATTERY
- RJXZS_BMS
- RANGE_ROVER_PHEV_BATTERY
- RENAULT_KANGOO_BATTERY
- RENAULT_TWIZY_BATTERY
- RENAULT_ZOE_GEN1_BATTERY
- RENAULT_ZOE_GEN2_BATTERY
- SANTA_FE_PHEV_BATTERY
- TESLA_MODEL_3Y_BATTERY
- TESLA_MODEL_SX_BATTERY
- VOLVO_SPA_BATTERY
- TEST_FAKE_BATTERY
- SERIAL_LINK_RECEIVER
# These are the emulated inverter communication protocols for which the code will be compiled.
inverter:
- BYD_CAN
# This is the platform GitHub will use to run our workflow.
runs-on: ubuntu-latest
# This is the list of steps this job will run.
steps:
# First we clone the repo using the `checkout` action.
- name: Checkout
uses: actions/checkout@v4
# Copy USER_SECRETS.TEMPLATE.h to USER_SECRETS.h
- name: Copy USER_SECRETS.TEMPLATE.h to USER_SECRETS.h
run: cp ./Software/USER_SECRETS.TEMPLATE.h ./Software/USER_SECRETS.h
# We use the `arduino/setup-arduino-cli` action to install and
# configure the Arduino CLI on the system.
- name: Setup Arduino CLI
uses: arduino/setup-arduino-cli@v2
# We then install the platform.
- name: Install platform
run: |
arduino-cli core update-index
arduino-cli core install esp32:esp32
# Finally, we compile the sketch, using the FQBN that was set
# in the build matrix, and using build flags to define the
# battery and inverter set in the build matrix.
- name: Compile Sketch
run: arduino-cli compile --fqbn ${{ matrix.fqbn }} --build-property "build.extra_flags=-Wall -DESP32 -D${{ matrix.battery}} -D${{ matrix.inverter}}" ./Software