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# Rules for distributable C++ libraries
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load("@rules_cc//cc:action_names.bzl", cc_action_names = "ACTION_NAMES")
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load("@rules_cc//cc:find_cc_toolchain.bzl", "find_cc_toolchain")
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# Creates an action to build the `output_file` static library (archive)
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# using `object_files`.
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def _create_archive_action(
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ctx,
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feature_configuration,
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cc_toolchain,
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output_file,
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object_files):
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# Based on Bazel's src/main/starlark/builtins_bzl/common/cc/cc_import.bzl:
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# Build the command line and add args for all of the input files:
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archiver_variables = cc_common.create_link_variables(
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feature_configuration = feature_configuration,
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cc_toolchain = cc_toolchain,
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output_file = output_file.path,
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is_using_linker = False,
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)
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command_line = cc_common.get_memory_inefficient_command_line(
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feature_configuration = feature_configuration,
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action_name = cc_action_names.cpp_link_static_library,
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variables = archiver_variables,
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)
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args = ctx.actions.args()
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args.add_all(command_line)
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args.add_all(object_files)
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args.use_param_file("@%s", use_always = True)
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archiver_path = cc_common.get_tool_for_action(
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feature_configuration = feature_configuration,
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action_name = cc_action_names.cpp_link_static_library,
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)
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env = cc_common.get_environment_variables(
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feature_configuration = feature_configuration,
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action_name = cc_action_names.cpp_link_static_library,
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variables = archiver_variables,
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)
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ctx.actions.run(
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executable = archiver_path,
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arguments = [args],
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env = env,
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inputs = depset(
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direct = object_files,
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transitive = [
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cc_toolchain.all_files,
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],
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),
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use_default_shell_env = False,
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outputs = [output_file],
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mnemonic = "CppArchiveDist",
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)
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# Implementation for cc_dist_library rule.
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def _cc_dist_library_impl(ctx):
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cc_toolchain_info = find_cc_toolchain(ctx)
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if cc_toolchain_info.ar_executable == None:
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return []
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feature_configuration = cc_common.configure_features(
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ctx = ctx,
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cc_toolchain = cc_toolchain_info,
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)
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# Collect the set of object files from the immediate deps.
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objs = []
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pic_objs = []
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for dep in ctx.attr.deps:
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if CcInfo not in dep:
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continue
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link_ctx = dep[CcInfo].linking_context
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if link_ctx == None:
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continue
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linker_inputs = link_ctx.linker_inputs.to_list()
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for link_input in linker_inputs:
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if link_input.owner != dep.label:
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# This is a transitive dep: skip it.
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continue
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for lib in link_input.libraries:
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objs.extend(lib.objects or [])
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pic_objs.extend(lib.pic_objects or [])
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# For static libraries, build separately with and without pic.
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stemname = "lib" + ctx.label.name
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outputs = []
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if len(objs) > 0:
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archive_out = ctx.actions.declare_file(stemname + ".a")
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_create_archive_action(
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ctx,
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feature_configuration,
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cc_toolchain_info,
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archive_out,
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objs,
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)
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outputs.append(archive_out)
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if len(pic_objs) > 0:
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pic_archive_out = ctx.actions.declare_file(stemname + ".pic.a")
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_create_archive_action(
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ctx,
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feature_configuration,
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cc_toolchain_info,
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pic_archive_out,
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pic_objs,
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)
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outputs.append(pic_archive_out)
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# For dynamic libraries, use the `cc_common.link` command to ensure
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# everything gets built correctly according to toolchain definitions.
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compilation_outputs = cc_common.create_compilation_outputs(
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objects = depset(objs),
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pic_objects = depset(pic_objs),
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)
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link_output = cc_common.link(
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actions = ctx.actions,
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feature_configuration = feature_configuration,
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cc_toolchain = cc_toolchain_info,
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compilation_outputs = compilation_outputs,
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name = ctx.label.name,
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output_type = "dynamic_library",
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user_link_flags = ctx.attr.linkopts,
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)
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library_to_link = link_output.library_to_link
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# Note: library_to_link.dynamic_library and interface_library are often
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# symlinks in the solib directory. For DefaultInfo, prefer reporting
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# the resolved artifact paths.
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if library_to_link.resolved_symlink_dynamic_library != None:
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outputs.append(library_to_link.resolved_symlink_dynamic_library)
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elif library_to_link.dynamic_library != None:
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outputs.append(library_to_link.dynamic_library)
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if library_to_link.resolved_symlink_interface_library != None:
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outputs.append(library_to_link.resolved_symlink_interface_library)
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elif library_to_link.interface_library != None:
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outputs.append(library_to_link.interface_library)
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# We could expose the libraries for use from cc rules:
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#
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# linking_context = cc_common.create_linking_context(
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# linker_inputs = depset([
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# cc_common.create_linker_input(
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# owner = ctx.label,
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# libraries = depset([library_to_link]),
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# ),
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# ]),
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# )
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# cc_info = CcInfo(linking_context = linking_context) # and return this
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#
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# However, if the goal is to force a protobuf dependency to use the
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# DSO, then `cc_import` is a better-supported way to do so.
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#
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# If we wanted to expose CcInfo from this rule (and make it usable as a
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# C++ dependency), then we would probably want to include the static
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# archive and headers as well. exposing headers would probably require
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# an additional aspect to extract CcInfos with just the deps' headers.
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return [
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DefaultInfo(files = depset(outputs)),
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]
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cc_dist_library = rule(
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implementation = _cc_dist_library_impl,
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doc = """
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Create libraries suitable for distribution.
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This rule creates static and dynamic libraries from the libraries listed in
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'deps'. The resulting libraries are suitable for distributing all of 'deps'
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in a single logical library, for example, in an installable binary package.
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Only the targets listed in 'deps' are included in the result (i.e., the
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output does not include transitive dependencies), allowing precise control
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over the library boundary.
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The outputs of this rule are a dynamic library and a static library. (If
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the build produces both PIC and non-PIC object files, then there is also a
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second static library.) The example below illustrates additional details.
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This rule is different from Bazel's experimental `shared_cc_library` in
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several ways. First, this rule ignores transitive dependencies, which means
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that dynamic library dependencies generally need to be specified via
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'linkopts'. Second, this rule produces a static archive library in addition
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to the dynamic shared library. Third, this rule is not directly usable as a
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C++ dependency (although the outputs could be used, e.g., by `cc_import`).
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Example:
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cc_library(name = "a", srcs = ["a.cc"], hdrs = ["a.h"])
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cc_library(name = "b", srcs = ["b.cc"], hdrs = ["b.h"], deps = [":a"])
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cc_library(name = "c", srcs = ["c.cc"], hdrs = ["c.h"], deps = [":b"])
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# Creates libdist.so and (typically) libdist.pic.a:
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# (This may also produce libdist.a if the build produces non-PIC objects.)
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cc_dist_library(
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name = "dist",
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linkopts = ["-la"], # libdist.so dynamically links against liba.so.
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deps = [":b", ":c"], # Output contains b.o and c.o, but not a.o.
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)
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""",
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attrs = {
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"deps": attr.label_list(
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doc = ("The list of libraries to be included in the outputs. " +
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"Only these targets' compilation outputs will be " +
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"included (i.e., the transitive dependencies are not " +
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"included in the output)."),
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),
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"linkopts": attr.string_list(
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doc = ("Add these flags to the C++ linker command when creating " +
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"the dynamic library."),
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),
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# C++ toolchain before https://github.com/bazelbuild/bazel/issues/7260:
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"_cc_toolchain": attr.label(
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default = Label("@rules_cc//cc:current_cc_toolchain"),
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),
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},
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toolchains = [
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# C++ toolchain after https://github.com/bazelbuild/bazel/issues/7260:
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"@bazel_tools//tools/cpp:toolchain_type",
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],
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fragments = ["cpp"],
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)
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