# Starlark utilities for working with other build systems load("@rules_pkg//:providers.bzl", "PackageFilegroupInfo", "PackageFilesInfo") load(":cc_dist_library.bzl", "CcFileList") ################################################################################ # Macro to create CMake and Automake source lists. ################################################################################ def gen_file_lists(name, out_stem, **kwargs): gen_cmake_file_lists( name = name + "_cmake", out = out_stem + ".cmake", source_prefix = "${protobuf_SOURCE_DIR}/", **kwargs ) native.filegroup( name = name, srcs = [ out_stem + ".cmake", ], visibility = ["//src:__pkg__"], ) ################################################################################ # Aspect that extracts srcs, hdrs, etc. ################################################################################ ProtoFileList = provider( doc = "List of proto files and generated code to be built into a library.", fields = { # Proto files: "proto_srcs": "proto file sources", # Generated sources: "hdrs": "header files that are expected to be generated", "srcs": "source files that are expected to be generated", }, ) def _flatten_target_files(targets): files = [] for target in targets: for tfile in target.files.to_list(): files.append(tfile) return files def _file_list_aspect_impl(target, ctx): # We're going to reach directly into the attrs on the traversed rule. rule_attr = ctx.rule.attr providers = [] # Extract sources from a `proto_library`: if ProtoInfo in target: proto_srcs = [] srcs = [] hdrs = [] for src in _flatten_target_files(rule_attr.srcs): proto_srcs.append(src) srcs.append("%s/%s.pb.cc" % (src.dirname, src.basename)) hdrs.append("%s/%s.pb.h" % (src.dirname, src.basename)) providers.append(ProtoFileList( proto_srcs = proto_srcs, srcs = srcs, hdrs = hdrs, )) return providers file_list_aspect = aspect( doc = """ Aspect to provide the list of sources and headers from a rule. Output is CcFileList and/or ProtoFileList. Example: cc_library( name = "foo", srcs = [ "foo.cc", "foo_internal.h", ], hdrs = ["foo.h"], textual_hdrs = ["foo_inl.inc"], ) # produces: # CcFileList( # hdrs = [File("foo.h")], # textual_hdrs = [File("foo_inl.inc")], # internal_hdrs = [File("foo_internal.h")], # srcs = [File("foo.cc")], # ) proto_library( name = "bar_proto", srcs = ["bar.proto"], ) # produces: # ProtoFileList( # proto_srcs = ["bar.proto"], # # Generated filenames are synthesized: # hdrs = ["bar.pb.h"], # srcs = ["bar.pb.cc"], # ) """, implementation = _file_list_aspect_impl, ) ################################################################################ # Generic source lists generation # # This factory creates a rule implementation that is parameterized by a # fragment generator function. ################################################################################ def _create_file_list_impl(ctx, fragment_generator): # `fragment_generator` is a function like: # def fn(originating_rule: Label, # varname: str, # source_prefix: str, # path_strings: [str]) -> str # # It returns a string that defines `varname` to `path_strings`, each # prepended with `source_prefix`. # # When dealing with `File` objects, the `short_path` is used to strip # the output prefix for generated files. out = ctx.outputs.out fragments = [] for srcrule, libname in ctx.attr.src_libs.items(): if CcFileList in srcrule: cc_file_list = srcrule[CcFileList] # Turn depsets of files into sorted lists. srcs = sorted(cc_file_list.srcs.to_list()) hdrs = sorted( depset(transitive = [ cc_file_list.textual_hdrs, cc_file_list.hdrs, ]).to_list(), ) fragments.extend([ fragment_generator( srcrule.label, libname + "_srcs", ctx.attr.source_prefix, [f.short_path for f in srcs], ), fragment_generator( srcrule.label, libname + "_hdrs", ctx.attr.source_prefix, [f.short_path for f in hdrs], ), ]) if ProtoFileList in srcrule: proto_file_list = srcrule[ProtoFileList] fragments.extend([ fragment_generator( srcrule.label, libname + "_proto_srcs", ctx.attr.source_prefix, [f.short_path for f in proto_file_list.proto_srcs], ), fragment_generator( srcrule.label, libname + "_srcs", ctx.attr.source_prefix, proto_file_list.srcs, ), fragment_generator( srcrule.label, libname + "_hdrs", ctx.attr.source_prefix, proto_file_list.hdrs, ), ]) files = {} if PackageFilegroupInfo in srcrule: for pkg_files_info, origin in srcrule[PackageFilegroupInfo].pkg_files: # keys are the destination path: files.update(pkg_files_info.dest_src_map) if PackageFilesInfo in srcrule: # keys are the destination: files.update(srcrule[PackageFilesInfo].dest_src_map) if files == {} and DefaultInfo in srcrule and CcFileList not in srcrule: # This could be an individual file or filegroup. # We explicitly ignore rules with CcInfo, since their # output artifacts are libraries or binaries. files.update( { f.short_path: 1 for f in srcrule[DefaultInfo].files.to_list() }, ) if files: fragments.append( fragment_generator( srcrule.label, libname + "_files", ctx.attr.source_prefix, sorted(files.keys()), ), ) ctx.actions.write( output = out, content = (ctx.attr._header % ctx.label) + "\n".join(fragments), ) return [DefaultInfo(files = depset([out]))] # Common rule attrs for rules that use `_create_file_list_impl`: # (note that `_header` is also required) _source_list_common_attrs = { "out": attr.output( doc = ( "The generated filename. This should usually have a build " + "system-specific extension, like `out.am` or `out.cmake`." ), mandatory = True, ), "src_libs": attr.label_keyed_string_dict( doc = ( "A dict, {target: libname} of libraries to include. " + "Targets can be C++ rules (like `cc_library` or `cc_test`), " + "`proto_library` rules, files, `filegroup` rules, `pkg_files` " + "rules, or `pkg_filegroup` rules. " + "The libname is a string, and used to construct the variable " + "name in the `out` file holding the target's sources. " + "For generated files, the output root (like `bazel-bin/`) is not " + "included. " + "For `pkg_files` and `pkg_filegroup` rules, the destination path " + "is used." ), mandatory = True, providers = [ [CcFileList], [DefaultInfo], [PackageFilegroupInfo], [PackageFilesInfo], [ProtoFileList], ], aspects = [file_list_aspect], ), "source_prefix": attr.string( doc = "String to prepend to each source path.", ), } ################################################################################ # CMake source lists generation ################################################################################ def _cmake_var_fragment(owner, varname, prefix, entries): """Returns a single `set(varname ...)` fragment (CMake syntax). Args: owner: Label, the rule that owns these srcs. varname: str, the var name to set. prefix: str, prefix to prepend to each of `entries`. entries: [str], the entries in the list. Returns: A string. """ return ( "# {owner}\n" + "set({varname}\n" + "{entries}\n" + ")\n" ).format( owner = owner, varname = varname, # Strip out "wkt/google/protobuf/" from the well-known type file paths. # This is currently necessary to allow checked-in and generated # versions of the well-known type generated code to coexist. entries = "\n".join([" %s%s" % (prefix, f.replace("wkt/google/protobuf/", "")) for f in entries]), ) def _cmake_file_list_impl(ctx): _create_file_list_impl(ctx, _cmake_var_fragment) gen_cmake_file_lists = rule( doc = """ Generates a CMake-syntax file with lists of files. The generated file defines variables with lists of files from `srcs`. The intent is for these files to be included from a non-generated CMake file which actually defines the libraries based on these lists. For C++ rules, the following are generated: {libname}_srcs: contains srcs. {libname}_hdrs: contains hdrs and textual_hdrs. For proto_library, the following are generated: {libname}_proto_srcs: contains the srcs from the `proto_library` rule. {libname}_srcs: contains syntesized paths for generated C++ sources. {libname}_hdrs: contains syntesized paths for generated C++ headers. """, implementation = _cmake_file_list_impl, attrs = dict( _source_list_common_attrs, _header = attr.string( default = """\ # Auto-generated by %s # # This file contains lists of sources based on Bazel rules. It should # be included from a hand-written CMake file that defines targets. # # Changes to this file will be overwritten based on Bazel definitions. if(${CMAKE_VERSION} VERSION_GREATER 3.10 OR ${CMAKE_VERSION} VERSION_EQUAL 3.10) include_guard() endif() """, ), ), )