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# Copyright 2023 The Bazel Authors. All rights reserved.
#
# 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
#
# http://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.
"""
Definition of JavaInfo and JavaPluginInfo provider.
"""
load(":common/cc/cc_common.bzl", "CcNativeLibraryInfo", "cc_common")
load(":common/cc/cc_info.bzl", "CcInfo")
# TODO(hvd): remove this when:
# - we have a general provider-type checking API
# - no longer need to check for --experimental_google_legacy_api
_java_common_internal = _builtins.internal.java_common_internal_do_not_use
_JavaOutputInfo = provider(
doc = "The outputs of Java compilation.",
fields = {
"class_jar": "(File) A classes jar file.",
"compile_jar": "(File) An interface jar file.",
"ijar": "Deprecated: Please use compile_jar.",
"compile_jdeps": "(File) Compile time dependencies information (deps.proto file).",
"generated_class_jar": "(File) A jar containing classes generated via annotation processing.",
"generated_source_jar": "(File) The source jar created as a result of annotation processing.",
"native_headers_jar": "(File) A jar of CC header files supporting native method implementation.",
"manifest_proto": "(File) The manifest protobuf file of the manifest generated from JavaBuilder.",
"jdeps": "(File) The jdeps protobuf file of the manifest generated from JavaBuilder.",
"source_jars": "(depset[File]) A depset of sources archive files.",
"source_jar": "Deprecated: Please use source_jars instead.",
},
)
_ModuleFlagsInfo = provider(
doc = "Provider for the runtime classpath contributions of a Java binary.",
fields = {
"add_exports": "(depset[str]) Add-Exports configuration.",
"add_opens": "(depset[str]) Add-Opens configuration.",
},
)
_EMPTY_MODULE_FLAGS_INFO = _ModuleFlagsInfo(add_exports = depset(), add_opens = depset())
def _create_module_flags_info(*, add_exports, add_opens):
if add_exports or add_opens:
return _ModuleFlagsInfo(add_exports = add_exports, add_opens = add_opens)
return _EMPTY_MODULE_FLAGS_INFO
_JavaRuleOutputJarsInfo = provider(
doc = "Deprecated: use java_info.java_outputs. Information about outputs of a Java rule.",
fields = {
"jdeps": "Deprecated: Use java_info.java_outputs.",
"native_headers": "Deprecated: Use java_info.java_outputs[i].jdeps.",
"jars": "Deprecated: Use java_info.java_outputs[i].native_headers_jar.",
},
)
_JavaGenJarsInfo = provider(
doc = "Deprecated: Information about jars that are a result of annotation processing for a Java rule.",
fields = {
"enabled": "Deprecated. Returns true if annotation processing was applied on this target.",
"class_jar": "Deprecated: Please use JavaInfo.java_outputs.generated_class_jar instead.",
"source_jar": "Deprecated: Please use JavaInfo.java_outputs.generated_source_jar instead.",
"transitive_class_jars": "Deprecated. A transitive set of class file jars from annotation " +
"processing of this rule and its dependencies.",
"transitive_source_jars": "Deprecated. A transitive set of source archives from annotation " +
"processing of this rule and its dependencies.",
"processor_classpath": "Deprecated: Please use JavaInfo.plugins instead.",
"processor_classnames": "Deprecated: Please use JavaInfo.plugins instead.",
},
)
_JavaCompilationInfo = provider(
doc = "Compilation information in Java rules, for perusal of aspects and tools.",
fields = {
"boot_classpath": "Boot classpath for this Java target.",
"javac_options": "Options to the java compiler.",
"javac_options_list": """A list of options to java compiler. This exists
temporarily for migration purposes. javac_options will return a depset
in the future, and this method will be dropped once all usages have
been updated to handle depsets.""",
"compilation_classpath": "Compilation classpath for this Java target.",
"runtime_classpath": "Run-time classpath for this Java target.",
},
)
_EMPTY_COMPILATION_INFO = _JavaCompilationInfo(
compilation_classpath = depset(),
runtime_classpath = depset(),
boot_classpath = None,
javac_options = [],
javac_options_list = [],
)
def merge(
providers,
# private to @_builtins:
merge_java_outputs = True,
merge_source_jars = True):
"""Merges the given providers into a single JavaInfo.
Args:
providers: ([JavaInfo]) The list of providers to merge.
merge_java_outputs: (bool)
merge_source_jars: (bool)
Returns:
(JavaInfo) The merged JavaInfo
"""
_validate_provider_list(providers, "providers", JavaInfo)
plugin_info = merge_plugin_info_without_outputs(providers)
source_jars = [] # [File]
transitive_source_jars = [] # [depset[File]]
java_outputs = [] # [_JavaOutputInfo]
runtime_output_jars = [] # [File]
transitive_runtime_jars = [] # [depset[File]]
transitive_compile_time_jars = [] # [depset[File]]
compile_jars = [] # [depset[File]]
full_compile_jars = [] # [depset[File]]
_transitive_full_compile_time_jars = [] # [depset[File]]
_compile_time_java_dependencies = [] # [depset[File]]
add_exports = [] # [depset[str]]
add_opens = [] # [depset[str]]
_neverlink = False
_constraints = [] # [str]
for p in providers:
if merge_source_jars:
source_jars.extend(p.source_jars)
transitive_source_jars.append(p.transitive_source_jars)
if merge_java_outputs:
java_outputs.extend(p.java_outputs)
runtime_output_jars.extend(p.runtime_output_jars)
transitive_runtime_jars.append(p.transitive_runtime_jars)
transitive_compile_time_jars.append(p.transitive_compile_time_jars)
compile_jars.append(p.compile_jars)
full_compile_jars.append(p.full_compile_jars)
_transitive_full_compile_time_jars.append(p._transitive_full_compile_time_jars)
_compile_time_java_dependencies.append(p._compile_time_java_dependencies)
add_exports.append(p.module_flags_info.add_exports)
add_opens.append(p.module_flags_info.add_opens)
_neverlink = _neverlink or p._neverlink
_constraints.extend(p._constraints)
transitive_runtime_jars = depset(order = "preorder", transitive = transitive_runtime_jars)
transitive_compile_time_jars = depset(order = "preorder", transitive = transitive_compile_time_jars)
# java_outputs is a list so we uniquify to avoid https://github.com/bazelbuild/bazel/issues/17170
java_outputs = depset(java_outputs).to_list()
result = {
"transitive_runtime_jars": transitive_runtime_jars,
"transitive_compile_time_jars": transitive_compile_time_jars,
"compile_jars": depset(order = "preorder", transitive = compile_jars),
"full_compile_jars": depset(order = "preorder", transitive = full_compile_jars),
"_transitive_full_compile_time_jars": depset(order = "preorder", transitive = _transitive_full_compile_time_jars),
"_compile_time_java_dependencies": depset(order = "preorder", transitive = _compile_time_java_dependencies),
# runtime_output_jars is a list so we uniquify to avoid https://github.com/bazelbuild/bazel/issues/17170
"runtime_output_jars": depset(runtime_output_jars).to_list(),
# source_jars is a list so we uniquify to avoid https://github.com/bazelbuild/bazel/issues/17170
"source_jars": depset(source_jars).to_list(),
"transitive_source_jars": depset(transitive = transitive_source_jars),
"java_outputs": java_outputs,
"outputs": _JavaRuleOutputJarsInfo(jars = java_outputs, jdeps = None, native_headers = None),
"module_flags_info": _create_module_flags_info(
add_exports = depset(transitive = add_exports),
add_opens = depset(transitive = add_opens),
),
"plugins": plugin_info.plugins,
"api_generating_plugins": plugin_info.api_generating_plugins,
"_neverlink": _neverlink,
"_constraints": depset(_constraints).to_list(),
"annotation_processing": None,
"compilation_info": None,
}
if _java_common_internal._google_legacy_api_enabled():
cc_info = _minimize_cc_info(cc_common.merge_cc_infos(cc_infos = [p.cc_link_params_info for p in providers]))
result.update(
cc_link_params_info = cc_info,
transitive_native_libraries = cc_info.transitive_native_libraries(),
)
else:
result.update(
transitive_native_libraries = depset(
order = "topological",
transitive = [p.transitive_native_libraries for p in providers],
),
)
return _java_common_internal.wrap_java_info(_new_javainfo(**result))
def to_java_binary_info(java_info):
"""Get a copy of the given JavaInfo with minimal info returned by a java_binary
Args:
java_info: (JavaInfo) A JavaInfo provider instance
Returns:
(JavaInfo) A JavaInfo instance representing a java_binary target
"""
result = {
"transitive_runtime_jars": depset(),
"transitive_compile_time_jars": depset(),
"compile_jars": depset(),
"full_compile_jars": depset(),
"_transitive_full_compile_time_jars": depset(),
"_compile_time_java_dependencies": depset(),
"runtime_output_jars": [],
"plugins": _EMPTY_PLUGIN_DATA,
"api_generating_plugins": _EMPTY_PLUGIN_DATA,
"module_flags_info": _EMPTY_MODULE_FLAGS_INFO,
"_neverlink": False,
"_constraints": [],
"annotation_processing": java_info.annotation_processing,
"transitive_native_libraries": java_info.transitive_native_libraries,
"source_jars": java_info.source_jars,
"transitive_source_jars": java_info.transitive_source_jars,
}
if hasattr(java_info, "cc_link_params_info"):
result.update(cc_link_params_info = java_info.cc_link_params_info)
compilation_info = _EMPTY_COMPILATION_INFO
if java_info.compilation_info:
compilation_info = java_info.compilation_info
elif java_info.transitive_compile_time_jars or java_info.transitive_runtime_jars:
compilation_info = _JavaCompilationInfo(
boot_classpath = None,
javac_options = [],
javac_options_list = [],
compilation_classpath = java_info.transitive_compile_time_jars,
runtime_classpath = java_info.transitive_runtime_jars,
)
result["compilation_info"] = compilation_info
java_outputs = [
_JavaOutputInfo(
compile_jar = None,
ijar = None, # deprecated
compile_jdeps = None,
class_jar = output.class_jar,
generated_class_jar = output.generated_class_jar,
generated_source_jar = output.generated_source_jar,
native_headers_jar = output.native_headers_jar,
manifest_proto = output.manifest_proto,
jdeps = output.jdeps,
source_jars = output.source_jars,
source_jar = output.source_jar, # deprecated
)
for output in java_info.java_outputs
]
all_jdeps = [output.jdeps for output in java_info.java_outputs if output.jdeps]
all_native_headers = [output.native_headers_jar for output in java_info.java_outputs if output.native_headers_jar]
result.update(
java_outputs = java_outputs,
outputs = _JavaRuleOutputJarsInfo(
jars = java_outputs,
jdeps = all_jdeps[0] if len(all_jdeps) == 1 else None,
native_headers = all_native_headers[0] if len(all_native_headers) == 1 else None,
),
)
# so that translation into native JavaInfo does not add JavaCompilationArgsProvider
result.update(_is_binary = True)
return _new_javainfo(**result)
def _to_mutable_dict(java_info):
return {
key: getattr(java_info, key)
for key in dir(java_info)
if key not in ["to_json", "to_proto"]
}
def add_constraints(java_info, constraints = []):
"""Returns a copy of the given JavaInfo with the given constraints added.
Args:
java_info: (JavaInfo) The JavaInfo to enhance
constraints: ([str]) Constraints to add
Returns:
(JavaInfo)
"""
result = _to_mutable_dict(java_info)
old_constraints = java_info._constraints if java_info._constraints else []
result.update(
_constraints = depset(constraints + old_constraints).to_list(),
)
return _new_javainfo(**result)
def make_non_strict(java_info):
"""Returns a new JavaInfo instance whose direct-jars part is the union of both the direct and indirect jars of the given Java provider.
Args:
java_info: (JavaInfo) The java info to make non-strict.
Returns:
(JavaInfo)
"""
result = _to_mutable_dict(java_info)
result.update(
compile_jars = java_info.transitive_compile_time_jars,
full_compile_jars = java_info._transitive_full_compile_time_jars,
)
# Omit jdeps, which aren't available transitively and aren't useful for reduced classpath
# pruning for non-strict targets: the direct classpath and transitive classpath are the same,
# so there's nothing to prune, and reading jdeps at compile-time isn't free.
result.update(
_compile_time_java_dependencies = depset(),
)
return _new_javainfo(**result)
def set_annotation_processing(
java_info,
enabled = False,
processor_classnames = [],
processor_classpath = None,
class_jar = None,
source_jar = None):
"""Returns a copy of the given JavaInfo with the given annotation_processing info.
Args:
java_info: (JavaInfo) The JavaInfo to enhance.
enabled: (bool) Whether the rule uses annotation processing.
processor_classnames: ([str]) Class names of annotation processors applied.
processor_classpath: (depset[File]) Class names of annotation processors applied.
class_jar: (File) Optional. Jar that is the result of annotation processing.
source_jar: (File) Optional. Source archive resulting from annotation processing.
Returns:
(JavaInfo)
"""
gen_jars_info = java_info.annotation_processing
if gen_jars_info:
# Existing Jars would be a problem b/c we can't remove them from transitiveXxx sets
if gen_jars_info.class_jar and gen_jars_info.class_jar != class_jar:
fail("Existing gen_class_jar:", gen_jars_info.class_jar)
if gen_jars_info.source_jar and gen_jars_info.source_jar != source_jar:
fail("Existing gen_source_jar:", gen_jars_info.class_jar)
transitive_class_jars = depset([class_jar] if class_jar else [], transitive = [gen_jars_info.transitive_class_jars])
transitive_source_jars = depset([source_jar] if source_jar else [], transitive = [gen_jars_info.transitive_source_jars])
else:
transitive_class_jars = depset([class_jar] if class_jar else [])
transitive_source_jars = depset([source_jar] if source_jar else [])
result = _to_mutable_dict(java_info)
result.update(
annotation_processing = _JavaGenJarsInfo(
enabled = enabled,
class_jar = class_jar,
source_jar = source_jar,
processor_classnames = processor_classnames,
processor_classpath = processor_classpath if processor_classpath else depset(),
transitive_class_jars = transitive_class_jars,
transitive_source_jars = transitive_source_jars,
),
)
return _new_javainfo(**result)
def java_info_for_compilation(
output_jar,
compile_jar,
source_jar,
generated_class_jar,
generated_source_jar,
plugin_info,
deps,
runtime_deps,
exports,
exported_plugins,
compile_jdeps,
jdeps,
native_headers_jar,
manifest_proto,
native_libraries,
neverlink,
add_exports,
add_opens,
direct_runtime_jars,
compilation_info):
"""Creates a JavaInfo instance represiting the result of java compilation.
Args:
output_jar: (File) The jar that was created as a result of a compilation.
compile_jar: (File) A jar that is the compile-time dependency in lieu of `output_jar`.
source_jar: (File) The source jar that was used to create the output jar.
generated_class_jar: (File) A jar file containing class files compiled from sources
generated during annotation processing.
generated_source_jar: (File) The source jar that was created as a result of annotation
processing.
plugin_info: (JavaPluginInfo) Information about annotation processing.
deps: ([JavaInfo]) Compile time dependencies that were used to create the output jar.
runtime_deps: ([JavaInfo]) Runtime dependencies that are needed for this library.
exports: ([JavaInfo]) Libraries to make available for users of this library.
exported_plugins: ([JavaPluginInfo]) A list of exported plugins.
compile_jdeps: (File) jdeps information about compile time dependencies to be consumed by
JavaCompileAction. This should be a binary proto encoded using the deps.proto protobuf
included with Bazel. If available this file is typically produced by a header compiler.
jdeps: (File) jdeps information for the rule output (if available). This should be a binary
proto encoded using the deps.proto protobuf included with Bazel. If available this file
is typically produced by a compiler. IDEs and other tools can use this information for
more efficient processing.
native_headers_jar: (File) A jar containing CC header files supporting native method
implementation (typically output of javac -h).
manifest_proto: (File) Manifest information for the rule output (if available). This should
be a binary proto encoded using the manifest.proto protobuf included with Bazel. IDEs
and other tools can use this information for more efficient processing.
native_libraries: ([CcInfo]) Native library dependencies that are needed for this library.
neverlink: (bool) If true, only use this library for compilation and not at runtime.
add_exports: ([str]) The <module>/<package>s this library was given access to.
add_opens: ([str]) The <module>/<package>s this library was given reflective access to.
direct_runtime_jars: ([File]) The class jars needed directly by this library at runtime.
This is usually just the output_jar or empty if there were no sources/resources.
compilation_info: (struct) Information for IDE/tools
Returns:
(JavaInfo) the JavaInfo instance
"""
result, concatenated_deps = _javainfo_init_base(
output_jar,
compile_jar,
source_jar,
deps,
runtime_deps,
exports,
exported_plugins,
jdeps,
compile_jdeps,
native_headers_jar,
manifest_proto,
generated_class_jar,
generated_source_jar,
native_libraries,
neverlink,
)
# this differs ever so slightly from the usual JavaInfo in that direct_runtime_jars
# does not contain the output_jar is there were no sources/resources
transitive_runtime_jars = depset() if neverlink else depset(
order = "preorder",
direct = direct_runtime_jars,
transitive = [dep.transitive_runtime_jars for dep in concatenated_deps.exports_deps + runtime_deps],
)
result.update(
runtime_output_jars = direct_runtime_jars,
transitive_runtime_jars = transitive_runtime_jars,
transitive_source_jars = depset(
direct = [source_jar],
# only differs from the usual java_info.transitive_source_jars in the order of deps
transitive = [dep.transitive_source_jars for dep in concatenated_deps.runtimedeps_exports_deps],
),
# the JavaInfo constructor does not add flags from runtime_deps nor support
# adding this target's exports/opens
module_flags_info = _create_module_flags_info(
add_exports = depset(add_exports, transitive = [
dep.module_flags_info.add_exports
for dep in concatenated_deps.runtimedeps_exports_deps
]),
add_opens = depset(add_opens, transitive = [
dep.module_flags_info.add_opens
for dep in concatenated_deps.runtimedeps_exports_deps
]),
),
)
if compilation_info:
result.update(
compilation_info = _JavaCompilationInfo(
javac_options = _java_common_internal.intern_javac_opts(compilation_info.javac_options),
javac_options_list = _java_common_internal.intern_javac_opts(compilation_info.javac_options_list),
boot_classpath = compilation_info.boot_classpath,
compilation_classpath = compilation_info.compilation_classpath,
runtime_classpath = compilation_info.runtime_classpath,
),
annotation_processing = _JavaGenJarsInfo(
enabled = compilation_info.uses_annotation_processing,
class_jar = result["annotation_processing"].class_jar,
source_jar = result["annotation_processing"].source_jar,
processor_classnames = plugin_info.plugins.processor_classes.to_list(),
processor_classpath = plugin_info.plugins.processor_jars,
transitive_class_jars = result["annotation_processing"].transitive_class_jars,
transitive_source_jars = result["annotation_processing"].transitive_source_jars,
),
)
else:
result.update(
compilation_info = None,
annotation_processing = None,
)
return _java_common_internal.wrap_java_info(_new_javainfo(**result))
def _validate_provider_list(provider_list, what, expected_provider_type):
_java_common_internal.check_provider_instances(provider_list, what, expected_provider_type)
def _minimize_cc_info(cc_info):
return CcInfo(
linking_context = cc_info.linking_context,
cc_native_library_info = CcNativeLibraryInfo(libraries_to_link = cc_info.transitive_native_libraries()),
)
def _compute_concatenated_deps(deps, runtime_deps, exports):
deps_exports = []
deps_exports.extend(deps)
deps_exports.extend(exports)
exports_deps = []
exports_deps.extend(exports)
exports_deps.extend(deps)
runtimedeps_exports_deps = []
runtimedeps_exports_deps.extend(runtime_deps)
runtimedeps_exports_deps.extend(exports_deps)
return struct(
deps_exports = deps_exports,
exports_deps = exports_deps,
runtimedeps_exports_deps = runtimedeps_exports_deps,
)
def _javainfo_init_base(
output_jar,
compile_jar,
source_jar,
deps,
runtime_deps,
exports,
exported_plugins,
jdeps,
compile_jdeps,
native_headers_jar,
manifest_proto,
generated_class_jar,
generated_source_jar,
native_libraries,
neverlink):
_validate_provider_list(deps, "deps", JavaInfo)
_validate_provider_list(runtime_deps, "runtime_deps", JavaInfo)
_validate_provider_list(exports, "exports", JavaInfo)
_validate_provider_list(native_libraries, "native_libraries", CcInfo)
concatenated_deps = _compute_concatenated_deps(deps, runtime_deps, exports)
source_jars = [source_jar] if source_jar else []
plugin_info = merge_plugin_info_without_outputs(exported_plugins + exports)
transitive_compile_time_jars = depset(
order = "preorder",
direct = [compile_jar] if compile_jar else [],
transitive = [dep.transitive_compile_time_jars for dep in concatenated_deps.exports_deps],
)
java_outputs = [_JavaOutputInfo(
class_jar = output_jar,
compile_jar = compile_jar,
ijar = compile_jar, # deprecated
compile_jdeps = compile_jdeps,
generated_class_jar = generated_class_jar,
generated_source_jar = generated_source_jar,
native_headers_jar = native_headers_jar,
manifest_proto = manifest_proto,
jdeps = jdeps,
source_jars = depset(source_jars) if _java_common_internal._incompatible_depset_for_java_output_source_jars() else source_jars,
source_jar = source_jar, # deprecated
)]
result = {
"transitive_compile_time_jars": transitive_compile_time_jars,
"compile_jars": depset(
order = "preorder",
direct = [compile_jar] if compile_jar else [],
transitive = [dep.compile_jars for dep in exports],
),
"full_compile_jars": depset(
order = "preorder",
direct = [output_jar],
transitive = [
dep.full_compile_jars
for dep in exports
],
),
"source_jars": source_jars,
"runtime_output_jars": [output_jar],
"plugins": plugin_info.plugins,
"api_generating_plugins": plugin_info.api_generating_plugins,
"java_outputs": java_outputs,
# deprecated
"outputs": _JavaRuleOutputJarsInfo(
jars = java_outputs,
jdeps = jdeps,
native_headers = native_headers_jar,
),
"annotation_processing": _JavaGenJarsInfo(
enabled = False,
class_jar = generated_class_jar,
source_jar = generated_source_jar,
transitive_class_jars = depset(
direct = [generated_class_jar] if generated_class_jar else [],
transitive = [
dep.annotation_processing.transitive_class_jars
for dep in concatenated_deps.deps_exports
if dep.annotation_processing
],
),
transitive_source_jars = depset(
direct = [generated_source_jar] if generated_source_jar else [],
transitive = [
dep.annotation_processing.transitive_source_jars
for dep in concatenated_deps.deps_exports
if dep.annotation_processing
],
),
processor_classnames = [],
processor_classpath = depset(),
),
"_transitive_full_compile_time_jars": depset(
order = "preorder",
direct = [output_jar],
transitive = [dep._transitive_full_compile_time_jars for dep in concatenated_deps.exports_deps],
),
"_compile_time_java_dependencies": depset(
order = "preorder",
transitive = [dep._compile_time_java_dependencies for dep in exports] +
([depset([compile_jdeps])] if compile_jdeps else []),
),
"_neverlink": neverlink,
"compilation_info": None,
"_constraints": [],
}
if _java_common_internal._google_legacy_api_enabled():
transitive_cc_infos = [dep.cc_link_params_info for dep in concatenated_deps.runtimedeps_exports_deps]
transitive_cc_infos.extend(native_libraries)
cc_info = _minimize_cc_info(cc_common.merge_cc_infos(cc_infos = transitive_cc_infos))
result.update(
cc_link_params_info = cc_info,
transitive_native_libraries = cc_info.transitive_native_libraries(),
)
else:
result.update(
transitive_native_libraries = depset(
order = "topological",
transitive = [dep.transitive_native_libraries for dep in concatenated_deps.runtimedeps_exports_deps] +
([cc_common.merge_cc_infos(cc_infos = native_libraries).transitive_native_libraries()] if native_libraries else []),
),
)
return result, concatenated_deps
def _javainfo_init(
output_jar,
compile_jar,
source_jar = None,
compile_jdeps = None,
generated_class_jar = None,
generated_source_jar = None,
native_headers_jar = None,
manifest_proto = None,
neverlink = False,
deps = [],
runtime_deps = [],
exports = [],
exported_plugins = [],
jdeps = None,
native_libraries = []):
"""The JavaInfo constructor
Args:
output_jar: (File) The jar that was created as a result of a compilation.
compile_jar: (File) A jar that is the compile-time dependency in lieu of `output_jar`.
source_jar: (File) The source jar that was used to create the output jar. Optional.
compile_jdeps: (File) jdeps information about compile time dependencies to be consumed by
JavaCompileAction. This should be a binary proto encoded using the deps.proto protobuf
included with Bazel. If available this file is typically produced by a header compiler.
Optional.
generated_class_jar: (File) A jar file containing class files compiled from sources
generated during annotation processing. Optional.
generated_source_jar: (File) The source jar that was created as a result of annotation
processing. Optional.
native_headers_jar: (File) A jar containing CC header files supporting native method
implementation (typically output of javac -h). Optional.
manifest_proto: (File) Manifest information for the rule output (if available). This should
be a binary proto encoded using the manifest.proto protobuf included with Bazel. IDEs
and other tools can use this information for more efficient processing. Optional.
neverlink: (bool) If true, only use this library for compilation and not at runtime.
deps: ([JavaInfo]) Compile time dependencies that were used to create the output jar.
runtime_deps: ([JavaInfo]) Runtime dependencies that are needed for this library.
exports: ([JavaInfo]) Libraries to make available for users of this library.
exported_plugins: ([JavaPluginInfo]) Optional. A list of exported plugins.
jdeps: (File) jdeps information for the rule output (if available). This should be a binary
proto encoded using the deps.proto protobuf included with Bazel. If available this file
is typically produced by a compiler. IDEs and other tools can use this information for
more efficient processing. Optional.
native_libraries: ([CcInfo]) Native library dependencies that are needed for this library.
Returns:
(dict) arguments to the JavaInfo provider constructor
"""
result, concatenated_deps = _javainfo_init_base(
output_jar,
compile_jar,
source_jar,
deps,
runtime_deps,
exports,
exported_plugins,
jdeps,
compile_jdeps,
native_headers_jar,
manifest_proto,
generated_class_jar,
generated_source_jar,
native_libraries,
neverlink,
)
if neverlink:
transitive_runtime_jars = depset()
else:
transitive_runtime_jars = depset(
order = "preorder",
direct = [output_jar],
transitive = [dep.transitive_runtime_jars for dep in concatenated_deps.exports_deps + runtime_deps],
)
result.update(
transitive_runtime_jars = transitive_runtime_jars,
transitive_source_jars = depset(
direct = [source_jar] if source_jar else [],
# TODO(hvd): native also adds source jars from deps, but this should be unnecessary
transitive = [
dep.transitive_source_jars
for dep in deps + runtime_deps + exports
],
),
module_flags_info = _create_module_flags_info(
add_exports = depset(transitive = [
dep.module_flags_info.add_exports
for dep in concatenated_deps.deps_exports
]),
add_opens = depset(transitive = [
dep.module_flags_info.add_opens
for dep in concatenated_deps.deps_exports
]),
),
)
return result
JavaInfo, _new_javainfo = provider(
doc = "Info object encapsulating all information by java rules.",
fields = {
"transitive_runtime_jars": "(depset[File]) A transitive set of jars required on the runtime classpath.",
"transitive_compile_time_jars": "(depset[File]) The transitive set of jars required to build the target.",
"compile_jars": """(depset[File]) The jars required directly at compile time. They can be interface jars
(ijar or hjar), regular jars or both, depending on whether rule
implementations chose to create interface jars or not.""",
"full_compile_jars": """(depset[File]) The regular, full compile time Jars required by this target directly.
They can be:
- the corresponding regular Jars of the interface Jars returned by JavaInfo.compile_jars
- the regular (full) Jars returned by JavaInfo.compile_jars
Note: JavaInfo.compile_jars can return a mix of interface Jars and
regular Jars.<p>Only use this method if interface Jars don't work with
your rule set(s) (e.g. some Scala targets) If you're working with
Java-only targets it's preferable to use interface Jars via
JavaInfo.compile_jars""",
"source_jars": """([File]) A list of Jars with all the source files (including those generated by
annotations) of the target itself, i.e. NOT including the sources of the
transitive dependencies.""",
"outputs": "Deprecated: use java_outputs.",
"annotation_processing": "Deprecated: Please use plugins instead.",
"runtime_output_jars": "([File]) A list of runtime Jars created by this Java/Java-like target.",
"transitive_source_jars": "(depset[File]) The Jars of all source files in the transitive closure.",
"transitive_native_libraries": """(depset[LibraryToLink]) The transitive set of CC native
libraries required by the target.""",
"cc_link_params_info": "Deprecated. Do not use. C++ libraries to be linked into Java targets.",
"module_flags_info": "(_ModuleFlagsInfo) The Java module flag configuration.",
"plugins": """(_JavaPluginDataInfo) Data about all plugins that a consuming target should
apply.
This is typically either a `java_plugin` itself or a `java_library` exporting
one or more plugins.
A `java_library` runs annotation processing with all plugins from this field
appearing in <code>deps</code> and `plugins` attributes.""",
"api_generating_plugins": """"(_JavaPluginDataInfo) Data about API generating plugins
defined or exported by this target.
Those annotation processors are applied to a Java target before
producing its header jars (which contain method signatures). When
no API plugins are present, header jars are generated from the
sources, reducing critical path.
The `api_generating_plugins` is a subset of `plugins`.""",
"java_outputs": "(_JavaOutputInfo) Information about outputs of this Java/Java-like target.",
"compilation_info": """(java_compilation_info) Compilation information for this
Java/Java-like target.""",
"_transitive_full_compile_time_jars": "internal API, do not use",
"_compile_time_java_dependencies": "internal API, do not use",
"_neverlink": "internal API, do not use",
"_constraints": "internal API, do not use",
"_is_binary": "internal API, do not use",
},
init = _javainfo_init,
)
JavaPluginDataInfo = provider(
doc = "Provider encapsulating information about a Java compatible plugin.",
fields = {
"processor_classes": "depset(str) The fully qualified classnames of entry points for the compiler",
"processor_jars": "depset(file) Deps containing an annotation processor",
"processor_data": "depset(file) Files needed during execution",
},
)
_EMPTY_PLUGIN_DATA = JavaPluginDataInfo(
processor_classes = depset(),
processor_jars = depset(),
processor_data = depset(),
)
def _create_plugin_data_info(*, processor_classes, processor_jars, processor_data):
if processor_classes or processor_jars or processor_data:
return JavaPluginDataInfo(
processor_classes = processor_classes,
processor_jars = processor_jars,
processor_data = processor_data,
)
else:
return _EMPTY_PLUGIN_DATA
def disable_plugin_info_annotation_processing(plugin_info):
"""Returns a copy of the provided JavaPluginInfo without annotation processing info
Args:
plugin_info: (JavaPluginInfo) the instance to transform
Returns:
(JavaPluginInfo) a new, transformed instance.
"""
return _new_javaplugininfo(
plugins = _create_plugin_data_info(
processor_classes = depset(order = "preorder"),
# Preserve the processor path, since it may contain Error Prone plugins
# which will be service-loaded by JavaBuilder.
processor_jars = plugin_info.plugins.processor_jars,
# Preserve data, which may be used by Error Prone plugins.
processor_data = plugin_info.plugins.processor_data,
),
api_generating_plugins = _EMPTY_PLUGIN_DATA,
java_outputs = plugin_info.java_outputs,
)
def merge_plugin_info_without_outputs(infos):
""" Merge plugin information from a list of JavaPluginInfo or JavaInfo
Args:
infos: ([JavaPluginInfo|JavaInfo]) list of providers to merge
Returns:
(JavaPluginInfo)
"""
plugins = []
api_generating_plugins = []
for info in infos:
if _has_plugin_data(info.plugins):
plugins.append(info.plugins)
if _has_plugin_data(info.api_generating_plugins):
api_generating_plugins.append(info.api_generating_plugins)
return _new_javaplugininfo(
plugins = _merge_plugin_data(plugins),
api_generating_plugins = _merge_plugin_data(api_generating_plugins),
java_outputs = [],
)
def _has_plugin_data(plugin_data):
return plugin_data and (
plugin_data.processor_classes or
plugin_data.processor_jars or
plugin_data.processor_data
)
def _merge_plugin_data(datas):
return _create_plugin_data_info(
processor_classes = depset(transitive = [p.processor_classes for p in datas]),
processor_jars = depset(transitive = [p.processor_jars for p in datas]),
processor_data = depset(transitive = [p.processor_data for p in datas]),
)
def _javaplugininfo_init(
runtime_deps,
processor_class,
data = [],
generates_api = False):
""" Constructs JavaPluginInfo
Args:
runtime_deps: ([JavaInfo]) list of deps containing an annotation
processor.
processor_class: (String) The fully qualified class name that the Java
compiler uses as an entry point to the annotation processor.
data: (depset[File]) The files needed by this annotation
processor during execution.
generates_api: (boolean) Set to true when this annotation processor
generates API code. Such an annotation processor is applied to a
Java target before producing its header jars (which contains method
signatures). When no API plugins are present, header jars are
generated from the sources, reducing the critical path.
WARNING: This parameter affects build performance, use it only if
necessary.
Returns:
(JavaPluginInfo)
"""
java_infos = merge(runtime_deps)
processor_data = data if type(data) == "depset" else depset(data)
plugins = _create_plugin_data_info(
processor_classes = depset([processor_class]) if processor_class else depset(),
processor_jars = java_infos.transitive_runtime_jars,
processor_data = processor_data,
)
return {
"plugins": plugins,
"api_generating_plugins": plugins if generates_api else _EMPTY_PLUGIN_DATA,
"java_outputs": java_infos.java_outputs,
}
JavaPluginInfo, _new_javaplugininfo = provider(
doc = "Provider encapsulating information about Java plugins.",
fields = {
"plugins": """
Returns data about all plugins that a consuming target should apply.
This is typically either a <code>java_plugin</code> itself or a
<code>java_library</code> exporting one or more plugins.
A <code>java_library</code> runs annotation processing with all
plugins from this field appearing in <code>deps</code> and
<code>plugins</code> attributes.""",
"api_generating_plugins": """
Returns data about API generating plugins defined or exported by
this target.
Those annotation processors are applied to a Java target before
producing its header jars (which contain method signatures). When
no API plugins are present, header jars are generated from the
sources, reducing critical path.
The <code>api_generating_plugins</code> is a subset of
<code>plugins</code>.""",
"java_outputs": """
Returns information about outputs of this Java/Java-like target.
""",
},
init = _javaplugininfo_init,
)