blob: e051161699c103fda2505345a2e2472ff6b18cdd [file] [log] [blame]
# Copyright 2021 The Pigweed Authors
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy of
# the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations under
# the License.
import("//build_overrides/pigweed.gni")
import("$dir_pw_build/input_group.gni")
import("$dir_pw_build/mirror_tree.gni")
import("$dir_pw_build/python_action.gni")
import("$dir_pw_build/python_gn_args.gni")
import("$dir_pw_protobuf_compiler/toolchain.gni")
declare_args() {
# Constraints file selection (arguments to pip install --constraint).
# See pip help install.
pw_build_PIP_CONSTRAINTS =
[ "$dir_pw_env_setup/py/pw_env_setup/virtualenv_setup/constraint.list" ]
# Default pip requirements file for all Pigweed based projects.
pw_build_PIP_REQUIREMENTS = []
# If true, GN will run each Python test using the coverage command. A separate
# coverage data file for each test will be saved. To generate reports from
# this information run: pw presubmit --step gn_python_test_coverage
pw_build_PYTHON_TEST_COVERAGE = false
}
# Python packages provide the following targets as $target_name.$subtarget.
pw_python_package_subtargets = [
"tests",
"lint",
"lint.mypy",
"lint.pylint",
"install",
"wheel",
# Internal targets that directly depend on one another.
"_run_pip_install",
"_build_wheel",
]
# Create aliases for subsargets when the target name matches the directory name.
# This allows //foo:foo.tests to be accessed as //foo:tests, for example.
template("_pw_create_aliases_if_name_matches_directory") {
not_needed([ "invoker" ])
if (get_label_info(":$target_name", "name") ==
get_path_info(get_label_info(":$target_name", "dir"), "name")) {
foreach(subtarget, pw_python_package_subtargets) {
group(subtarget) {
public_deps = [ ":${invoker.target_name}.$subtarget" ]
}
}
}
}
# Internal template that runs Mypy.
template("_pw_python_static_analysis_mypy") {
pw_python_action(target_name) {
module = "mypy"
args = [
"--pretty",
"--show-error-codes",
]
if (defined(invoker.mypy_ini)) {
args +=
[ "--config-file=" + rebase_path(invoker.mypy_ini, root_build_dir) ]
inputs = [ invoker.mypy_ini ]
}
args += rebase_path(invoker.sources, root_build_dir)
# Use this environment variable to force mypy to colorize output.
# See https://github.com/python/mypy/issues/7771
environment = [ "MYPY_FORCE_COLOR=1" ]
stamp = true
deps = invoker.deps
if (defined(invoker.python_deps)) {
python_deps = []
foreach(dep, invoker.python_deps) {
deps += [ string_replace(dep, "(", ".lint.mypy(") ]
python_deps += [ dep ]
}
}
if (defined(invoker.python_metadata_deps)) {
python_metadata_deps = invoker.python_metadata_deps
}
}
}
# Internal template that runs Pylint.
template("_pw_python_static_analysis_pylint") {
# Create a target to run pylint on each of the Python files in this
# package and its dependencies.
pw_python_action_foreach(target_name) {
module = "pylint"
args = [
rebase_path(".", root_build_dir) + "/{{source_target_relative}}",
"--jobs=1",
"--output-format=colorized",
]
if (defined(invoker.pylintrc)) {
args += [ "--rcfile=" + rebase_path(invoker.pylintrc, root_build_dir) ]
inputs = [ invoker.pylintrc ]
}
if (host_os == "win") {
# Allow CRLF on Windows, in case Git is set to switch line endings.
args += [ "--disable=unexpected-line-ending-format" ]
}
sources = invoker.sources
stamp = "$target_gen_dir/{{source_target_relative}}.pylint.passed"
public_deps = invoker.deps
if (defined(invoker.python_deps)) {
python_deps = []
foreach(dep, invoker.python_deps) {
public_deps += [ string_replace(dep, "(", ".lint.pylint(") ]
python_deps += [ dep ]
}
}
if (defined(invoker.python_metadata_deps)) {
python_metadata_deps = invoker.python_metadata_deps
}
}
}
# Defines a Python package. GN Python packages contain several GN targets:
#
# - $name - Provides the Python files in the build, but does not take any
# actions. All subtargets depend on this target.
# - $name.lint - Runs static analyis tools on the Python code. This is a group
# of two subtargets:
# - $name.lint.mypy - Runs mypy (if enabled).
# - $name.lint.pylint - Runs pylint (if enabled).
# - $name.tests - Runs all tests for this package.
# - $name.install - Installs the package in a venv.
# - $name.wheel - Builds a Python wheel for the package.
#
# All Python packages are instantiated with in pw_build_PYTHON_TOOLCHAIN,
# regardless of the current toolchain. This prevents Python-specific work, like
# running Pylint, from occurring multiple times in a build.
#
# Args:
# setup: List of setup file paths (setup.py or pyproject.toml & setup.cfg),
# which must all be in the same directory.
# generate_setup: As an alternative to 'setup', generate setup files with the
# keywords in this scope. 'name' is required.
# sources: Python sources files in the package.
# tests: Test files for this Python package.
# python_deps: Dependencies on other pw_python_packages in the GN build.
# python_test_deps: Test-only pw_python_package dependencies.
# other_deps: Dependencies on GN targets that are not pw_python_packages.
# inputs: Other files to track, such as package_data.
# proto_library: A pw_proto_library target to embed in this Python package.
# generate_setup is required in place of setup if proto_library is used.
# static_analysis: List of static analysis tools to run; "*" (default) runs
# all tools. The supported tools are "mypy" and "pylint".
# pylintrc: Path to a pylintrc configuration file to use. If not
# provided, Pylint's default rcfile search is used. As this may
# use the the local user's configuration file, it is highly
# recommended to pass this option to specify the rcfile explicitly.
# mypy_ini: Optional path to a mypy configuration file to use. If not
# provided, mypy's default configuration file search is used. mypy is
# executed from the package's setup directory, so mypy.ini files in that
# directory will take precedence over others.
#
template("pw_python_package") {
# The Python targets are always instantiated in pw_build_PYTHON_TOOLCHAIN. Use
# fully qualified labels so that the toolchain is not lost.
_other_deps = []
if (defined(invoker.other_deps)) {
foreach(dep, invoker.other_deps) {
_other_deps += [ get_label_info(dep, "label_with_toolchain") ]
}
}
_python_deps = []
if (defined(invoker.python_deps)) {
foreach(dep, invoker.python_deps) {
_python_deps += [ get_label_info(dep, "label_with_toolchain") ]
}
}
# pw_python_script uses pw_python_package, but with a limited set of features.
# _pw_standalone signals that this target is actually a pw_python_script.
_is_package = !(defined(invoker._pw_standalone) && invoker._pw_standalone)
_generate_package = false
_pydeplabel = get_label_info(":$target_name", "label_with_toolchain")
# If a package does not run static analysis or if it does but doesn't have
# any tests then this variable is not used.
not_needed([ "_pydeplabel" ])
# Check the generate_setup and import_protos args to determine if this package
# is generated.
if (_is_package) {
assert(defined(invoker.generate_setup) != defined(invoker.setup),
"Either 'setup' or 'generate_setup' (but not both) must provided")
if (defined(invoker.proto_library)) {
assert(invoker.proto_library != "", "'proto_library' cannot be empty")
assert(defined(invoker.generate_setup),
"Python packages that import protos with 'proto_library' must " +
"use 'generate_setup' instead of 'setup'")
_import_protos = [ invoker.proto_library ]
# Depend on the dependencies of the proto library.
_proto = get_label_info(invoker.proto_library, "label_no_toolchain")
_toolchain = get_label_info(invoker.proto_library, "toolchain")
_python_deps += [ "$_proto.python._deps($_toolchain)" ]
} else if (defined(invoker.generate_setup)) {
_import_protos = []
}
if (defined(invoker.generate_setup)) {
_generate_package = true
_setup_dir = "$target_gen_dir/$target_name.generated_python_package"
if (defined(invoker.strip_prefix)) {
_source_root = invoker.strip_prefix
} else {
_source_root = "."
}
} else {
# Non-generated packages with sources provided need an __init__.py.
assert(!defined(invoker.sources) || invoker.sources == [] ||
filter_include(invoker.sources, [ "*\b__init__.py" ]) != [],
"Python packages must have at least one __init__.py file")
# Get the directories of the setup files. All must be in the same dir.
_setup_dirs = get_path_info(invoker.setup, "dir")
_setup_dir = _setup_dirs[0]
foreach(dir, _setup_dirs) {
assert(dir == _setup_dir,
"All files in 'setup' must be in the same directory")
}
assert(!defined(invoker.strip_prefix),
"'strip_prefix' may only be given if 'generate_setup' is provided")
}
}
# Process arguments defaults and set defaults.
_supported_static_analysis_tools = [
"mypy",
"pylint",
]
not_needed([ "_supported_static_analysis_tools" ])
# Argument: static_analysis (list of tool names or "*"); default = "*" (all)
if (!defined(invoker.static_analysis) || invoker.static_analysis == "*") {
_static_analysis = _supported_static_analysis_tools
} else {
_static_analysis = invoker.static_analysis
}
foreach(_tool, _static_analysis) {
assert(_supported_static_analysis_tools + [ _tool ] - [ _tool ] !=
_supported_static_analysis_tools,
"'$_tool' is not a supported static analysis tool")
}
# Argument: sources (list)
_sources = []
if (defined(invoker.sources)) {
if (_generate_package) {
foreach(source, rebase_path(invoker.sources, _source_root)) {
_sources += [ "$_setup_dir/$source" ]
}
} else {
_sources += invoker.sources
}
}
# Argument: tests (list)
_test_sources = []
if (defined(invoker.tests)) {
if (_generate_package) {
foreach(source, rebase_path(invoker.tests, _source_root)) {
_test_sources += [ "$_setup_dir/$source" ]
}
} else {
_test_sources += invoker.tests
}
}
# Argument: setup (list)
_setup_sources = []
if (defined(invoker.setup)) {
_setup_sources = invoker.setup
} else if (_generate_package) {
_setup_sources = [
"$_setup_dir/pyproject.toml",
"$_setup_dir/setup.cfg",
]
}
# Argument: python_test_deps (list)
_python_test_deps = _python_deps # include all deps in test deps
if (defined(invoker.python_test_deps)) {
foreach(dep, invoker.python_test_deps) {
_python_test_deps += [ get_label_info(dep, "label_with_toolchain") ]
}
}
if (_test_sources == []) {
assert(!defined(invoker.python_test_deps),
"python_test_deps was provided, but there are no tests in " +
get_label_info(":$target_name", "label_no_toolchain"))
not_needed([ "_python_test_deps" ])
}
_all_py_files =
_sources + _test_sources + filter_include(_setup_sources, [ "*.py" ])
# The pw_python_package subtargets are only instantiated in
# pw_build_PYTHON_TOOLCHAIN. Targets in other toolchains just refer to the
# targets in this toolchain.
if (current_toolchain == pw_build_PYTHON_TOOLCHAIN) {
# Create the package_metadata.json file. This is used by the
# pw_python_distribution template.
_package_metadata_json_file =
"$target_gen_dir/$target_name/package_metadata.json"
# Get Python package metadata and write to disk as JSON.
_package_metadata = {
gn_target_name =
get_label_info(":${invoker.target_name}", "label_no_toolchain")
# Get package source files
sources = rebase_path(_sources, root_build_dir)
# Get setup.cfg, pyproject.toml, or setup.py file
setup_sources = rebase_path(_setup_sources, root_build_dir)
# Get test source files
tests = rebase_path(_test_sources, root_build_dir)
# Get package input files (package data)
inputs = []
if (defined(invoker.inputs)) {
inputs = rebase_path(invoker.inputs, root_build_dir)
}
# Get generate_setup
if (defined(invoker.generate_setup)) {
generate_setup = invoker.generate_setup
}
}
# Finally, write out the json
write_file(_package_metadata_json_file, _package_metadata, "json")
# Create a target group for the Python package metadata only. This is a
# python_action so the setup sources can be included as inputs.
pw_python_action("$target_name._package_metadata") {
metadata = {
pw_python_package_metadata_json = [ _package_metadata_json_file ]
}
script = "$dir_pw_build/py/pw_build/nop.py"
if (_generate_package) {
inputs = [ "$_setup_dir/setup.json" ]
} else {
inputs = _setup_sources
}
_pw_internal_run_in_venv = false
stamp = true
# Forward the package_metadata subtarget for all python_deps.
public_deps = []
foreach(dep, _python_deps) {
public_deps += [ get_label_info(dep, "label_no_toolchain") +
"._package_metadata($pw_build_PYTHON_TOOLCHAIN)" ]
}
}
# Declare the main Python package group. This represents the Python files,
# but does not take any actions. GN targets can depend on the package name
# to run when any files in the package change.
if (_generate_package) {
# If this package is generated, mirror the sources to the final directory.
pw_mirror_tree("$target_name._mirror_sources_to_out_dir") {
directory = _setup_dir
sources = []
if (defined(invoker.sources)) {
sources += invoker.sources
}
if (defined(invoker.tests)) {
sources += invoker.tests
}
if (defined(invoker.inputs)) {
sources += invoker.inputs
}
source_root = _source_root
public_deps = _python_deps + _other_deps
}
# Get generated_setup scope and write it to disk as JSON.
# Expected setup.cfg structure:
# https://setuptools.readthedocs.io/en/latest/userguide/declarative_config.html
_gen_setup = invoker.generate_setup
assert(defined(_gen_setup.metadata),
"'metadata = {}' is required in generate_package")
# Get metadata which should contain at least name.
_gen_metadata = {
}
_gen_metadata = _gen_setup.metadata
assert(
defined(_gen_metadata.name),
"metadata = { name = 'package_name' } is required in generate_package")
# Get options which should not have packages or package_data.
if (defined(_gen_setup.options)) {
_gen_options = {
}
_gen_options = _gen_setup.options
assert(!defined(_gen_options.packages) &&
!defined(_gen_options.package_data),
"'packages' and 'package_data' may not be provided " +
"in 'generate_package' options.")
}
write_file("$_setup_dir/setup.json", _gen_setup, "json")
# Generate the setup.py, py.typed, and __init__.py files as needed.
action(target_name) {
metadata = {
pw_python_package_metadata_json = [ _package_metadata_json_file ]
}
script = "$dir_pw_build/py/pw_build/generate_python_package.py"
args = [
"--label",
get_label_info(":$target_name", "label_no_toolchain"),
"--generated-root",
rebase_path(_setup_dir, root_build_dir),
"--setup-json",
rebase_path("$_setup_dir/setup.json", root_build_dir),
] + rebase_path(_sources, root_build_dir)
# Pass in the .json information files for the imported proto libraries.
foreach(proto, _import_protos) {
_label = get_label_info(proto, "label_no_toolchain") +
".python($pw_protobuf_compiler_TOOLCHAIN)"
_file = get_label_info(_label, "target_gen_dir") + "/" +
get_label_info(_label, "name") + ".json"
args += [
"--proto-library",
rebase_path(_file, root_build_dir),
]
}
if (defined(invoker._pw_module_as_package) &&
invoker._pw_module_as_package) {
args += [ "--module-as-package" ]
}
inputs = [ "$_setup_dir/setup.json" ]
public_deps = [ ":$target_name._mirror_sources_to_out_dir" ]
outputs = _setup_sources
}
} else {
# If the package is not generated, use an input group for the sources.
pw_input_group(target_name) {
metadata = {
pw_python_package_metadata_json = [ _package_metadata_json_file ]
}
inputs = _all_py_files
if (defined(invoker.inputs)) {
inputs += invoker.inputs
}
deps = _python_deps + _other_deps
}
}
if (_is_package) {
# Stubs for non-package targets.
group("$target_name._run_pip_install") {
}
# Builds a Python wheel for this package. Records the output directory
# in the pw_python_package_wheels metadata key.
pw_python_action("$target_name._build_wheel") {
metadata = {
pw_python_package_wheels = [ "$target_out_dir/$target_name" ]
}
module = "build"
args =
[
rebase_path(_setup_dir, root_build_dir),
"--wheel",
"--no-isolation",
"--outdir",
] + rebase_path(metadata.pw_python_package_wheels, root_build_dir)
deps = [ ":${invoker.target_name}" ]
foreach(dep, _python_deps) {
deps += [ string_replace(dep, "(", ".wheel(") ]
}
stamp = true
}
} else {
# Stubs for non-package targets.
group("$target_name._run_pip_install") {
}
group("$target_name._build_wheel") {
}
}
# Create the .install and .wheel targets. To limit unnecessary pip
# executions, non-generated packages are only reinstalled when their
# setup.py changes. However, targets that depend on the .install subtarget
# re-run whenever any source files change.
#
# These targets just represent the source files if this isn't a package.
group("$target_name.install") {
public_deps = [ ":${invoker.target_name}" ]
if (_is_package) {
public_deps += [ ":${invoker.target_name}._run_pip_install" ]
}
foreach(dep, _python_deps) {
public_deps += [ string_replace(dep, "(", ".install(") ]
}
}
group("$target_name.wheel") {
public_deps = [ ":${invoker.target_name}.install" ]
if (_is_package) {
public_deps += [ ":${invoker.target_name}._build_wheel" ]
}
foreach(dep, _python_deps) {
public_deps += [ string_replace(dep, "(", ".wheel(") ]
}
}
# Define the static analysis targets for this package.
group("$target_name.lint") {
deps = []
foreach(_tool, _supported_static_analysis_tools) {
deps += [ ":${invoker.target_name}.lint.$_tool" ]
}
}
if (_static_analysis != [] || _test_sources != []) {
# All packages to install for either general use or test running.
_test_install_deps = [ ":$target_name.install" ]
foreach(dep, _python_test_deps) {
_test_install_deps += [ string_replace(dep, "(", ".install(") ]
_test_install_deps += [ dep ]
}
}
# For packages that are not generated, create targets to run mypy and pylint.
foreach(_tool, _static_analysis) {
# Run lint tools from the setup or target directory so that the tools detect
# config files (e.g. pylintrc or mypy.ini) in that directory. Config files
# may be explicitly specified with the pylintrc or mypy_ini arguments.
target("_pw_python_static_analysis_$_tool", "$target_name.lint.$_tool") {
sources = _all_py_files
deps = _test_install_deps
python_deps = _python_deps + _python_test_deps
if (_is_package) {
python_metadata_deps = [ _pydeplabel ]
}
_optional_variables = [
"mypy_ini",
"pylintrc",
]
forward_variables_from(invoker, _optional_variables)
not_needed(_optional_variables)
}
}
foreach(_unused_tool, _supported_static_analysis_tools - _static_analysis) {
pw_input_group("$target_name.lint.$_unused_tool") {
inputs = []
if (defined(invoker.pylintrc)) {
inputs += [ invoker.pylintrc ]
}
if (defined(invoker.mypy_ini)) {
inputs += [ invoker.mypy_ini ]
}
}
# Generated packages with linting disabled never need the whole file list.
not_needed([ "_all_py_files" ])
}
} else {
# Create groups with the public target names ($target_name, $target_name.lint,
# $target_name.install, etc.). These are actually wrappers around internal
# Python actions instantiated with the default toolchain. This ensures there
# is only a single copy of each Python action in the build.
#
# The $target_name.tests group is created separately below.
group("$target_name") {
deps = [ ":$target_name($pw_build_PYTHON_TOOLCHAIN)" ]
}
foreach(subtarget, pw_python_package_subtargets - [ "tests" ]) {
group("$target_name.$subtarget") {
deps =
[ ":${invoker.target_name}.$subtarget($pw_build_PYTHON_TOOLCHAIN)" ]
}
}
# Everything Python-related is only instantiated in the default toolchain.
# Silence not-needed warnings except for in the default toolchain.
not_needed("*")
not_needed(invoker, "*")
}
# Create a target for each test file.
_test_targets = []
foreach(test, _test_sources) {
if (_is_package) {
_name = rebase_path(test, _setup_dir)
} else {
_name = test
}
_test_target = "$target_name.tests." + string_replace(_name, "/", "_")
if (current_toolchain == pw_build_PYTHON_TOOLCHAIN) {
pw_python_action(_test_target) {
if (pw_build_PYTHON_TEST_COVERAGE) {
module = "coverage"
working_directory =
rebase_path(get_path_info(test, "dir"), root_build_dir)
args = [
"run",
"--branch",
# Include all source files in the working_directory when calculating coverage.
"--source=.",
# Test file to run.
get_path_info(test, "file"),
]
# Set the coverage file to a location in out/python/gen/
_coverage_data_file = "$target_gen_dir/$target_name.coverage"
outputs = [ _coverage_data_file ]
# The coverage tool only allows setting the output with an environment variable.
environment =
[ "COVERAGE_FILE=" +
rebase_path(_coverage_data_file, get_path_info(test, "dir")) ]
} else {
script = test
}
stamp = true
# Make sure the python test deps are added to the PYTHONPATH.
python_metadata_deps = _python_test_deps
# If this is a test for a package, add it to PYTHONPATH as well. This is
# required if the test source file isn't in the same directory as the
# folder containing the package sources to allow local Python imports.
if (_is_package) {
python_metadata_deps += [ _pydeplabel ]
}
deps = _test_install_deps
foreach(dep, _python_test_deps) {
deps += [ string_replace(dep, "(", ".tests(") ]
}
}
} else {
# Create a public version of each test target, so tests can be executed as
# //path/to:package.tests.foo.py.
group(_test_target) {
deps = [ ":$_test_target($pw_build_PYTHON_TOOLCHAIN)" ]
}
}
_test_targets += [ ":$_test_target" ]
}
group("$target_name.tests") {
deps = _test_targets
}
_pw_create_aliases_if_name_matches_directory(target_name) {
}
}
# Declares a group of Python packages or other Python groups. pw_python_groups
# expose the same set of subtargets as pw_python_package (e.g.
# "$group_name.lint" and "$group_name.tests"), but these apply to all packages
# in deps and their dependencies.
template("pw_python_group") {
if (defined(invoker.python_deps)) {
_python_deps = invoker.python_deps
} else {
_python_deps = []
not_needed([ "invoker" ]) # Allow empty groups.
}
group(target_name) {
deps = _python_deps
if (defined(invoker.other_deps)) {
deps += invoker.other_deps
}
}
# Create a target group for the Python package metadata only.
group("$target_name._package_metadata") {
# Forward the package_metadata subtarget for all python_deps.
public_deps = []
foreach(dep, _python_deps) {
public_deps += [ get_label_info(dep, "label_no_toolchain") +
"._package_metadata($pw_build_PYTHON_TOOLCHAIN)" ]
}
}
foreach(subtarget, pw_python_package_subtargets) {
group("$target_name.$subtarget") {
public_deps = []
foreach(dep, _python_deps) {
# Split out the toolchain to support deps with a toolchain specified.
_target = get_label_info(dep, "label_no_toolchain")
_toolchain = get_label_info(dep, "toolchain")
public_deps += [ "$_target.$subtarget($_toolchain)" ]
}
}
}
_pw_create_aliases_if_name_matches_directory(target_name) {
}
}
# Declares Python scripts or tests that are not part of a Python package.
# Similar to pw_python_package, but only supports a subset of its features.
#
# pw_python_script accepts the same arguments as pw_python_package, except
# `setup` cannot be provided.
#
# pw_python_script provides the same subtargets as pw_python_package, but
# $target_name.install and $target_name.wheel only affect the python_deps of
# this GN target, not the target itself.
#
# pw_python_script allows creating a pw_python_action associated with the
# script. This is provided by passing an 'action' scope to pw_python_script.
# This functions like a normal action, with a few additions: the action uses the
# pw_python_script's python_deps and defaults to using the source file as its
# 'script' argument, if there is only a single source file.
template("pw_python_script") {
_package_variables = [
"sources",
"tests",
"python_deps",
"python_test_deps",
"python_metadata_deps",
"other_deps",
"inputs",
"pylintrc",
"mypy_ini",
"static_analysis",
]
pw_python_package(target_name) {
_pw_standalone = true
forward_variables_from(invoker, _package_variables)
}
_pw_create_aliases_if_name_matches_directory(target_name) {
}
if (defined(invoker.action)) {
pw_python_action("$target_name.action") {
forward_variables_from(invoker.action, "*", [ "python_deps" ])
python_deps = [ ":${invoker.target_name}" ]
if (!defined(script) && !defined(module) && defined(invoker.sources)) {
_sources = invoker.sources
assert(_sources != [] && _sources == [ _sources[0] ],
"'script' must be specified unless there is only one source " +
"in 'sources'")
script = _sources[0]
}
}
}
}
# Represents a list of Python requirements, as in a requirements.txt.
#
# Args:
# files: One or more requirements.txt files.
# requirements: A list of requirements.txt-style requirements.
template("pw_python_requirements") {
assert(defined(invoker.files) || defined(invoker.requirements),
"pw_python_requirements requires a list of requirements.txt files " +
"in the 'files' arg or requirements in 'requirements'")
_requirements_files = []
if (defined(invoker.files)) {
_requirements_files += invoker.files
}
if (defined(invoker.requirements)) {
_requirements_file = "$target_gen_dir/$target_name.requirements.txt"
write_file(_requirements_file, invoker.requirements)
_requirements_files += [ _requirements_file ]
}
# The default target represents the requirements themselves.
pw_input_group(target_name) {
inputs = _requirements_files
}
# Use the same subtargets as pw_python_package so these targets can be listed
# as python_deps of pw_python_packages.
group("$target_name.install") {
# TODO(b/232800695): Remove reliance on this subtarget existing.
}
# Create stubs for the unused subtargets so that pw_python_requirements can be
# used as python_deps.
foreach(subtarget, pw_python_package_subtargets - [ "install" ]) {
group("$target_name.$subtarget") {
}
}
# Create a target group for the Python package metadata only.
group("$target_name._package_metadata") {
# Forward the package_metadata subtarget for all python_deps.
public_deps = []
if (defined(invoker.python_deps)) {
foreach(dep, invoker.python_deps) {
public_deps += [ get_label_info(dep, "label_no_toolchain") +
"._package_metadata($pw_build_PYTHON_TOOLCHAIN)" ]
}
}
}
_pw_create_aliases_if_name_matches_directory(target_name) {
}
}