#!/usr/bin/env python3 # Copyright 2021 Google LLC # # 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. """This is yet another bazel-to-cmake converter. It's independently written from scratch but relies on the same basic idea as others (including IREE's), namely: to let the python interpreter do the bulk of the work, exploiting the fact that both Bazel's BUILD syntax and Starlark (".bzl") languages are more or less subsets of Python. The main features that this converter supports and that others don't, justifying its existence as of early 2021, are: 1. Ad-hoc support for select(), generating CMake if()...elseif()... chains parsing the condition keys (e.g. anything ending in ":windows" is interpreted as the condition "the target platform is Windows"). This allows to just ignore config_setting, as we only care about the config_setting names, not their actual implementation, as well as all the variants from the Bazel 'selects' library. 2. Support for load(), loading macros from Starlark files. """ import re import os import os.path import pickle import sys import datetime import itertools # Ruy's dependencies. external_targets = ['gtest', 'gtest_main', 'cpuinfo'] # Text replacements [oldstring, newstring] pairs, applied on all BUILD and # Starlark files that we load. Only used by preprocess_input_text. replacements = [ ['$(STACK_FRAME_UNLIMITED)', ''], ['native.cc_', 'cc_'], ['selects.config_setting_group', 'config_setting_group'], ['@com_google_googletest//:gtest', 'gtest'], ['@com_google_googletest//:gtest_main', 'gtest_main'], ['@cpuinfo', 'cpuinfo::cpuinfo'], ] def preprocess_input_text(text): result = text for replacement in replacements: result = result.replace(replacement[0], replacement[1]) return result def set_cmake_list(list_name, values, indent): semicolon_separated = ';'.join(values) print(f'{indent}set({list_name} "{semicolon_separated}")') def generate_cmake_select(select_name, dict): new_if_branch_keyword = 'if' default_value = [] for key in dict: condition = '' if key == '//conditions:default': default_value = dict[key] continue elif re.search(r':windows$', key): condition = 'CMAKE_SYSTEM_NAME STREQUAL Windows' elif re.search(r':ppc$', key): condition = ('CMAKE_SYSTEM_PROCESSOR STREQUAL ppc64 OR ' 'CMAKE_SYSTEM_PROCESSOR STREQUAL ppc64le') elif re.search(r':s390x$', key): condition = ('CMAKE_SYSTEM_PROCESSOR STREQUAL s390 OR ' 'CMAKE_SYSTEM_PROCESSOR STREQUAL s390x') elif re.search(r':fuchsia$', key): condition = 'CMAKE_SYSTEM_NAME STREQUAL Fuchsia' elif re.search(r':arm32_assuming_neon$', key): condition = 'CMAKE_SYSTEM_PROCESSOR STREQUAL arm' elif re.search(r':do_not_want_O3$', key): # Ruy is a specialist library: we always want code to be compiled # with -O3 unless the build type is Debug or the compiler does not # support that flag syntax. condition = '(CMAKE_BUILD_TYPE STREQUAL Debug) OR MSVC' elif re.search(r':x86_64_and_not_msvc$', key): condition = ('(CMAKE_SYSTEM_PROCESSOR STREQUAL x86_64 OR ' 'CMAKE_SYSTEM_PROCESSOR STREQUAL amd64) AND NOT MSVC') elif re.search(r':windows_msvc$', key): condition = 'MSVC' elif re.search(r':ruy_profiler$', key): condition = '${RUY_PROFILER}' else: raise ValueError(f'Unhandled key in select: {key}') print(f'{new_if_branch_keyword}({condition})') set_cmake_list(select_name, dict[key], ' ') new_if_branch_keyword = 'elseif' print('else()') set_cmake_list(select_name, default_value, ' ') print('endif()\n') def trim_multiple_ruy_prefixes(name): return re.sub(r'(ruy_)+ruy', 'ruy', name) def get_cmake_local_target_name(name): global package_prefix return trim_multiple_ruy_prefixes(f'ruy_{package_prefix}_{name}') def get_cmake_dep_target_name(name): if name in external_targets: return name if name.startswith('$'): # Happens for deps that are the result of expanding a select() that we # have compiled to expanding a variable. return name if name.startswith('//'): after_last_slash = name.split('/')[-1] if ':' not in after_last_slash: name = f'{name}:{after_last_slash}' raw = name[2:].replace('/', '_').replace(':', '_') return trim_multiple_ruy_prefixes(raw) if name.startswith(':'): name = name[1:] return get_cmake_local_target_name(name) # # Functions implementing BUILD functions # def package(**kwargs): pass def exports_files(*args): pass def load(filename, *args): if filename.startswith('@'): return elif filename.startswith(':'): filename = os.path.join(bazel_package_dir, filename[1:]) elif filename.startswith('//'): split = filename[2:].split(':') filename = os.path.join(bazel_workspace_dir, split[0], split[1]) src_file_content = open(filename).read() processed_file_content = preprocess_input_text(src_file_content) exec(processed_file_content, globals(), globals()) def config_setting(**kwargs): # Nothing to do since our implementation of select() is based on parsing # the names of config_settings, not looking deep into their actual # implementation. pass def filegroup(**kwargs): pass def config_setting_group(**kwargs): # See config_setting. pass def bzl_library(**kwargs): pass select_index = 0 select_cache = {} def select(select_dict): global select_index global select_cache global package_prefix key = pickle.dumps(sorted(select_dict.items())) if key in select_cache: select_name = select_cache[key] else: unique_values = sorted( set(itertools.chain.from_iterable(select_dict.values())) ) # sorting ensures determinism, no spurious diffs description = '_'.join(unique_values) select_name = f'{package_prefix}_{select_index}_{description}' select_name = select_name.replace('c++', 'cxx') select_name = re.sub(r'[^a-zA-Z0-9]+', '_', select_name) select_index = select_index + 1 select_cache[key] = select_name generate_cmake_select(select_name, select_dict) return [f'${{{select_name}}}'] def generic_rule(rule_name, **kwargs): print(f'{rule_name}(') for key in kwargs.keys(): values = kwargs[key] if type(values) is bool: if values: print(f' {key.upper()}') continue else: raise ValueError('Cannot specify FALSE boolean args in CMake') if key == 'visibility': if values == ['//visibility:public']: print(f' PUBLIC') continue if key == 'tags': values = list(filter(lambda x: not x.startswith('req_dep'), values)) if not values: continue print(f' {key.upper()}') if type(values) is list: for value in values: if key == 'deps': target_name = get_cmake_dep_target_name(value) print(f' {target_name}') else: print(f' {value}') else: if key == 'name': target_name = get_cmake_local_target_name(values) print(f' {target_name}') else: print(f' {values}') print(')\n') def cc_library(**kwargs): generic_rule('ruy_cc_library', **kwargs) def cc_test(**kwargs): generic_rule('ruy_cc_test', **kwargs) def cc_binary(**kwargs): generic_rule('ruy_cc_binary', **kwargs) # # Program entry point. # if __name__ == "__main__": if len(sys.argv) != 3: print('Usage: bazel_to_cmake.py bazel_workspace_dir bazel_package_dir') sys.exit(1) bazel_workspace_dir = sys.argv[1] bazel_package_dir = sys.argv[2] bazel_package_relative_dir = os.path.relpath(bazel_package_dir, bazel_workspace_dir) package_prefix = bazel_package_relative_dir.replace(os.path.sep, '_') print("""# This file is generated (whence no license header). Do not edit! # To regenerate, run: # cmake/bazel_to_cmake.sh """) src_build_file = os.path.join(bazel_package_dir, 'BUILD') src_build_content = open(src_build_file).read() processed_build_content = preprocess_input_text(src_build_content) exec(processed_build_content) print('ruy_add_all_subdirs()')