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build_release.py
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build_release.py
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#!/usr/bin/env python3
# Copyright (c) 2022. JetBrains s.r.o.
# Use of this source code is governed by the MIT license that can be found in the LICENSE file.
"""
This python script runs Lets-Plot release artifacts build.
It must be placed and executed inside the project root directory.
Before script run install PyYAML python package:
pip install pyyaml
Script requires YAML-formatted settings file with paths to host Python installations.
Settings file must have the next format (EXAMPLE):
python37:
bin_path: "/home/username/miniconda3/envs/python37env/bin"
include_path: "/home/username/miniconda3/envs/python37env/include/python3.7m"
python38:
bin_path: "/home/username/miniconda3/envs/python38env/bin"
include_path: "/home/username/miniconda3/envs/python38env/include/python3.8"
...
You can place it anywhere you want, but do not push it to the project repository.
Run script in terminal by its name and do not forget to pass a path to the settings
file as argument (EXAMPLE):
./build_release.py path/to/settings_file.yml
"""
import platform
import sys
import subprocess
import yaml # PyYAML package is required. `pip install pyyaml`
def print_message(message):
# Prints info message.
print("================================\n")
print(f"{message} \n")
print("================================\n")
def print_error_and_exit(error_message):
# Prints error message and exits.
print("! ERROR !\n", error_message)
sys.exit()
def read_settings_file():
# Reads settings file name from commandline arguments.
if len(sys.argv) != 2:
print_error_and_exit(f"Wrong number of arguments. {len(sys.argv)}\n"
f"Pass the settings filename.")
try:
py_settings_file = open(sys.argv[1])
py_settings = yaml.load(py_settings_file, Loader=yaml.SafeLoader)
except Exception as exception:
print_error_and_exit("Cannot read settings file!\n"
f"{exception}")
else:
return py_settings
def run_command(command):
# Runs shell-command and handles its exit code.
print(" ".join(command), "\n ")
process = subprocess.run(command, stderr=subprocess.STDOUT)
if process.returncode != 0:
print_error_and_exit("Build failed. Check output.")
def build_python_packages(build_command, arch=None):
# Runs Python artifacts build commands. If 'arch' argument was passed, adds it to shell command.
python_extension_build_command = [gradle_script_name, "python-extension:build"]
if arch is not None:
python_extension_build_command += [f"-Parchitecture={arch}"]
command = build_command + [arch]
else:
command = build_command
print_message(f"Building Python Extension...")
run_command(python_extension_build_command + build_parameters)
print_message(f"Building Python Package...")
run_command(command)
def get_python_arch(python_bin_path):
get_python_arch_command = [f"{python_bin_path}/python", "-c", "import platform; print(platform.machine())"]
process = subprocess.check_output(get_python_arch_command, stderr=None)
current_python_arch = process.decode().strip()
if current_python_arch == "arm64" or current_python_arch == "x86_64":
return current_python_arch
else:
print_error_and_exit(f"Got wrong Python architecture for {python_bin_path}!\n"
f"Check your settings file or Python installation.")
# Read Python settings file from script argument.
# Paths to Python binaries and include directories will be got from here:
python_settings = read_settings_file()
# Get current OS platform:
system = platform.system()
# Define basic gradle commands for project build:
if system == "Windows":
# For Windows Gradle scipt should be called with another path and name:
gradle_script_name = ".\gradlew.bat"
elif system == "Linux" or system == "Darwin":
# For Linux and Mac the standard name:
gradle_script_name = "./gradlew"
else:
print_error_and_exit(f"Unsupported platform: {system}")
python_extension_clean_command = [gradle_script_name, "python-extension:clean"]
# Run Python artifacts build.
if system == "Linux":
# Define Linux-specific parameters.
# Python linux packages will be built inside Docker 'manylinux' containers (PEP 599).
# Docker containers will be run by the external shell script, depending on target arch.
python_package_build_command = ["./tools/run_manylinux_docker.sh"]
# So the only one Python host installation, defined in the settings file, is needed:
python_paths = list(python_settings.values())[0]
# Enable Python package to build Python extension module.
enable_python_package = "true"
# Collect all predefined parameters:
build_parameters = [
"-Pbuild_release=true",
"-Ppython.bin_path=%s" % (python_paths["bin_path"]),
"-Ppython.include_path=%s" % (python_paths["include_path"]),
f"-Penable_python_package={enable_python_package}"
]
# Run JS artifact build first:
gradle_js_build_command = [gradle_script_name, "js-package:jsBrowserProductionWebpack", "-Parchitecture=x86_64"]
run_command(gradle_js_build_command + build_parameters)
# Run Python 'manylinux' packages build for x64 arch:
build_python_packages(python_package_build_command, "x86_64")
# Clean Python Extension artifacts before next Python packages build.
# Clean is required due to the fact that only one Native target can be built at once.
print_message("Clean Python extension artifacts before next build...")
run_command(python_extension_clean_command)
# Run Python 'manylinux' packages build for arm64 arch:
build_python_packages(python_package_build_command, "arm64")
elif system == "Darwin" or system == "Windows":
# For another systems (Windows, Mac), Python package will be built by Gradle task
# for all Python binaries, defined in the settings file.
# Enable Python Extension and packages build by Gradle:
enable_python_package = "true"
# Define Gradle command for Python packages build:
python_package_build_command = [gradle_script_name, "python-package-build:build"]
# Run Python packages build for all Python host installations, defined in the settings file:
for python_paths in python_settings.values():
# Collect all predefined parameters:
build_parameters = [
"-Pbuild_release=true",
"-Ppython.bin_path=%s" % (python_paths["bin_path"]),
"-Ppython.include_path=%s" % (python_paths["include_path"]),
f"-Penable_python_package={enable_python_package}"
]
# Add architecture parameter for Mac:
if system == "Darwin":
build_parameters += ["-Parchitecture=%s" % (get_python_arch(python_paths["bin_path"]))]
# Run Python package build:
build_python_packages(python_package_build_command + build_parameters)
# And clean Python Extension artifacts before the next iteration:
run_command(python_extension_clean_command)
# Print final message and exit:
print_message("Release build finished!")
sys.exit()