bazel/py_proto_library.bzl - third_party/github/protocolbuffers/protobuf - Git at Google

 """The implementation of the `py_proto_library` rule and its aspect."""

 load("@rules_python//python:py_info.bzl", "PyInfo")
 load("//bazel/common:proto_common.bzl", "proto_common")
 load("//bazel/common:proto_info.bzl", "ProtoInfo")
 load("//bazel/private:toolchain_helpers.bzl", "toolchains")

 _PY_PROTO_TOOLCHAIN = Label("//bazel/private:python_toolchain_type")

 _PyProtoInfo = provider(
     doc = "Encapsulates information needed by the Python proto rules.",
     fields = {
         "imports": """
             (depset[str]) The field forwarding PyInfo.imports coming from
             the proto language runtime dependency.""",
         "runfiles_from_proto_deps": """
             (depset[File]) Files from the transitive closure implicit proto
             dependencies""",
         "transitive_sources": """(depset[File]) The Python sources.""",
     },
 )

 def _filter_provider(provider, *attrs):
     return [dep[provider] for attr in attrs for dep in attr if provider in dep]

 def _py_proto_aspect_impl(target, ctx):
     """Generates and compiles Python code for a proto_library.

     The function runs protobuf compiler on the `proto_library` target generating
     a .py file for each .proto file.

     Args:
       target: (Target) A target providing `ProtoInfo`. Usually this means a
          `proto_library` target, but not always; you must expect to visit
          non-`proto_library` targets, too.
       ctx: (RuleContext) The rule context.

     Returns:
       ([_PyProtoInfo]) Providers collecting transitive information about
       generated files.
     """

     _proto_library = ctx.rule.attr

     # Check Proto file names
     for proto in target[ProtoInfo].direct_sources:
         if proto.is_source and "-" in proto.dirname:
             fail("Cannot generate Python code for a .proto whose path contains '-' ({}).".format(
                 proto.path,
             ))

     if proto_common.INCOMPATIBLE_ENABLE_PROTO_TOOLCHAIN_RESOLUTION:
         toolchain = ctx.toolchains[_PY_PROTO_TOOLCHAIN]
         if not toolchain:
             fail("No toolchains registered for '%s'." % _PY_PROTO_TOOLCHAIN)
         proto_lang_toolchain_info = toolchain.proto
     else:
         proto_lang_toolchain_info = getattr(ctx.attr, "_aspect_proto_toolchain")[proto_common.ProtoLangToolchainInfo]

     api_deps = [proto_lang_toolchain_info.runtime]

     generated_sources = []
     proto_info = target[ProtoInfo]
     proto_root = proto_info.proto_source_root
     if proto_info.direct_sources:
         # Generate py files
         generated_sources = proto_common.declare_generated_files(
             actions = ctx.actions,
             proto_info = proto_info,
             extension = "_pb2.py",
             name_mapper = lambda name: name.replace("-", "_").replace(".", "/"),
         )

         # Handles multiple repository and virtual import cases
         if proto_root.startswith(ctx.bin_dir.path):
             proto_root = proto_root[len(ctx.bin_dir.path) + 1:]

         plugin_output = ctx.bin_dir.path + "/" + proto_root
         proto_root = ctx.workspace_name + "/" + proto_root

         proto_common.compile(
             actions = ctx.actions,
             proto_info = proto_info,
             proto_lang_toolchain_info = proto_lang_toolchain_info,
             generated_files = generated_sources,
             plugin_output = plugin_output,
         )

     # Generated sources == Python sources
     python_sources = generated_sources

     deps = _filter_provider(_PyProtoInfo, getattr(_proto_library, "deps", []))
     runfiles_from_proto_deps = depset(
         transitive = [dep[DefaultInfo].default_runfiles.files for dep in api_deps] +
                      [dep.runfiles_from_proto_deps for dep in deps],
     )
     transitive_sources = depset(
         direct = python_sources,
         transitive = [dep.transitive_sources for dep in deps],
     )

     return [
         _PyProtoInfo(
             imports = depset(
                 # Adding to PYTHONPATH so the generated modules can be
                 # imported.  This is necessary when there is
                 # strip_import_prefix, the Python modules are generated under
                 # _virtual_imports. But it's undesirable otherwise, because it
                 # will put the repo root at the top of the PYTHONPATH, ahead of
                 # directories added through `imports` attributes.
                 [proto_root] if "_virtual_imports" in proto_root else [],
                 transitive = [dep[PyInfo].imports for dep in api_deps] + [dep.imports for dep in deps],
             ),
             runfiles_from_proto_deps = runfiles_from_proto_deps,
             transitive_sources = transitive_sources,
         ),
     ]

 _py_proto_aspect = aspect(
     implementation = _py_proto_aspect_impl,
     attrs = toolchains.if_legacy_toolchain({
         "_aspect_proto_toolchain": attr.label(
             default = "//python:python_toolchain",
         ),
     }),
     attr_aspects = ["deps"],
     required_providers = [ProtoInfo],
     provides = [_PyProtoInfo],
     toolchains = toolchains.use_toolchain(_PY_PROTO_TOOLCHAIN),
 )

 def _py_proto_library_rule(ctx):
     """Merges results of `py_proto_aspect` in `deps`.

     Args:
       ctx: (RuleContext) The rule context.
     Returns:
       ([PyInfo, DefaultInfo, OutputGroupInfo])
     """
     if not ctx.attr.deps:
         fail("'deps' attribute mustn't be empty.")

     pyproto_infos = _filter_provider(_PyProtoInfo, ctx.attr.deps)
     default_outputs = depset(
         transitive = [info.transitive_sources for info in pyproto_infos],
     )

     return [
         DefaultInfo(
             files = default_outputs,
             default_runfiles = ctx.runfiles(transitive_files = depset(
                 transitive =
                     [default_outputs] +
                     [info.runfiles_from_proto_deps for info in pyproto_infos],
             )),
         ),
         OutputGroupInfo(
             default = depset(),
         ),
         PyInfo(
             transitive_sources = default_outputs,
             imports = depset(transitive = [info.imports for info in pyproto_infos]),
             # Proto always produces 2- and 3- compatible source files
             has_py2_only_sources = False,
             has_py3_only_sources = False,
         ),
     ]

 py_proto_library = rule(
     implementation = _py_proto_library_rule,
     doc = """
       Use `py_proto_library` to generate Python libraries from `.proto` files.

       The convention is to name the `py_proto_library` rule `foo_py_pb2`,
       when it is wrapping `proto_library` rule `foo_proto`.

       `deps` must point to a `proto_library` rule.

       Example:

 ```starlark
 py_library(
     name = "lib",
     deps = [":foo_py_pb2"],
 )

 py_proto_library(
     name = "foo_py_pb2",
     deps = [":foo_proto"],
 )

 proto_library(
     name = "foo_proto",
     srcs = ["foo.proto"],
 )
 ```""",
     attrs = {
         "deps": attr.label_list(
             doc = """
               The list of `proto_library` rules to generate Python libraries for.

               Usually this is just the one target: the proto library of interest.
               It can be any target providing `ProtoInfo`.""",
             providers = [ProtoInfo],
             aspects = [_py_proto_aspect],
         ),
     },
     provides = [PyInfo],
 )
	"""The implementation of the `py_proto_library` rule and its aspect."""

	load("@rules_python//python:py_info.bzl", "PyInfo")
	load("//bazel/common:proto_common.bzl", "proto_common")
	load("//bazel/common:proto_info.bzl", "ProtoInfo")
	load("//bazel/private:toolchain_helpers.bzl", "toolchains")

	_PY_PROTO_TOOLCHAIN = Label("//bazel/private:python_toolchain_type")

	_PyProtoInfo = provider(
	doc = "Encapsulates information needed by the Python proto rules.",
	fields = {
	"imports": """
	(depset[str]) The field forwarding PyInfo.imports coming from
	the proto language runtime dependency.""",
	"runfiles_from_proto_deps": """
	(depset[File]) Files from the transitive closure implicit proto
	dependencies""",
	"transitive_sources": """(depset[File]) The Python sources.""",
	},
	)

	def _filter_provider(provider, *attrs):
	return [dep[provider] for attr in attrs for dep in attr if provider in dep]

	def _py_proto_aspect_impl(target, ctx):
	"""Generates and compiles Python code for a proto_library.

	The function runs protobuf compiler on the `proto_library` target generating
	a .py file for each .proto file.

	Args:
	target: (Target) A target providing `ProtoInfo`. Usually this means a
	`proto_library` target, but not always; you must expect to visit
	non-`proto_library` targets, too.
	ctx: (RuleContext) The rule context.

	Returns:
	([_PyProtoInfo]) Providers collecting transitive information about
	generated files.
	"""

	_proto_library = ctx.rule.attr

	# Check Proto file names
	for proto in target[ProtoInfo].direct_sources:
	if proto.is_source and "-" in proto.dirname:
	fail("Cannot generate Python code for a .proto whose path contains '-' ({}).".format(
	proto.path,
	))

	if proto_common.INCOMPATIBLE_ENABLE_PROTO_TOOLCHAIN_RESOLUTION:
	toolchain = ctx.toolchains[_PY_PROTO_TOOLCHAIN]
	if not toolchain:
	fail("No toolchains registered for '%s'." % _PY_PROTO_TOOLCHAIN)
	proto_lang_toolchain_info = toolchain.proto
	else:
	proto_lang_toolchain_info = getattr(ctx.attr, "_aspect_proto_toolchain")[proto_common.ProtoLangToolchainInfo]

	api_deps = [proto_lang_toolchain_info.runtime]

	generated_sources = []
	proto_info = target[ProtoInfo]
	proto_root = proto_info.proto_source_root
	if proto_info.direct_sources:
	# Generate py files
	generated_sources = proto_common.declare_generated_files(
	actions = ctx.actions,
	proto_info = proto_info,
	extension = "_pb2.py",
	name_mapper = lambda name: name.replace("-", "_").replace(".", "/"),
	)

	# Handles multiple repository and virtual import cases
	if proto_root.startswith(ctx.bin_dir.path):
	proto_root = proto_root[len(ctx.bin_dir.path) + 1:]

	plugin_output = ctx.bin_dir.path + "/" + proto_root
	proto_root = ctx.workspace_name + "/" + proto_root

	proto_common.compile(
	actions = ctx.actions,
	proto_info = proto_info,
	proto_lang_toolchain_info = proto_lang_toolchain_info,
	generated_files = generated_sources,
	plugin_output = plugin_output,
	)

	# Generated sources == Python sources
	python_sources = generated_sources

	deps = _filter_provider(_PyProtoInfo, getattr(_proto_library, "deps", []))
	runfiles_from_proto_deps = depset(
	transitive = [dep[DefaultInfo].default_runfiles.files for dep in api_deps] +
	[dep.runfiles_from_proto_deps for dep in deps],
	)
	transitive_sources = depset(
	direct = python_sources,
	transitive = [dep.transitive_sources for dep in deps],
	)

	return [
	_PyProtoInfo(
	imports = depset(
	# Adding to PYTHONPATH so the generated modules can be
	# imported. This is necessary when there is
	# strip_import_prefix, the Python modules are generated under
	# _virtual_imports. But it's undesirable otherwise, because it
	# will put the repo root at the top of the PYTHONPATH, ahead of
	# directories added through `imports` attributes.
	[proto_root] if "_virtual_imports" in proto_root else [],
	transitive = [dep[PyInfo].imports for dep in api_deps] + [dep.imports for dep in deps],
	),
	runfiles_from_proto_deps = runfiles_from_proto_deps,
	transitive_sources = transitive_sources,
	),
	]

	_py_proto_aspect = aspect(
	implementation = _py_proto_aspect_impl,
	attrs = toolchains.if_legacy_toolchain({
	"_aspect_proto_toolchain": attr.label(
	default = "//python:python_toolchain",
	),
	}),
	attr_aspects = ["deps"],
	required_providers = [ProtoInfo],
	provides = [_PyProtoInfo],
	toolchains = toolchains.use_toolchain(_PY_PROTO_TOOLCHAIN),
	)

	def _py_proto_library_rule(ctx):
	"""Merges results of `py_proto_aspect` in `deps`.

	Args:
	ctx: (RuleContext) The rule context.
	Returns:
	([PyInfo, DefaultInfo, OutputGroupInfo])
	"""
	if not ctx.attr.deps:
	fail("'deps' attribute mustn't be empty.")

	pyproto_infos = _filter_provider(_PyProtoInfo, ctx.attr.deps)
	default_outputs = depset(
	transitive = [info.transitive_sources for info in pyproto_infos],
	)

	return [
	DefaultInfo(
	files = default_outputs,
	default_runfiles = ctx.runfiles(transitive_files = depset(
	transitive =
	[default_outputs] +
	[info.runfiles_from_proto_deps for info in pyproto_infos],
	)),
	),
	OutputGroupInfo(
	default = depset(),
	),
	PyInfo(
	transitive_sources = default_outputs,
	imports = depset(transitive = [info.imports for info in pyproto_infos]),
	# Proto always produces 2- and 3- compatible source files
	has_py2_only_sources = False,
	has_py3_only_sources = False,
	),
	]

	py_proto_library = rule(
	implementation = _py_proto_library_rule,
	doc = """
	Use `py_proto_library` to generate Python libraries from `.proto` files.

	The convention is to name the `py_proto_library` rule `foo_py_pb2`,
	when it is wrapping `proto_library` rule `foo_proto`.

	`deps` must point to a `proto_library` rule.

	Example:

	```starlark
	py_library(
	name = "lib",
	deps = [":foo_py_pb2"],
	)

	py_proto_library(
	name = "foo_py_pb2",
	deps = [":foo_proto"],
	)

	proto_library(
	name = "foo_proto",
	srcs = ["foo.proto"],
	)
	```""",
	attrs = {
	"deps": attr.label_list(
	doc = """
	The list of `proto_library` rules to generate Python libraries for.

	Usually this is just the one target: the proto library of interest.
	It can be any target providing `ProtoInfo`.""",
	providers = [ProtoInfo],
	aspects = [_py_proto_aspect],
	),
	},
	provides = [PyInfo],
	)