import collections import json import os import six from hashlib import md5 import ymake from _common import stripext, rootrel_arc_src, listid, pathid, lazy, get_no_lint_value YA_IDE_VENV_VAR = 'YA_IDE_VENV' PY_NAMESPACE_PREFIX = 'py/namespace' BUILTIN_PROTO = 'builtin_proto' DEFAULT_FLAKE8_FILE_PROCESSING_TIME = "1.5" # in seconds DEFAULT_BLACK_FILE_PROCESSING_TIME = "1.5" # in seconds def _split_macro_call(macro_call, data, item_size, chunk_size=1024): index = 0 length = len(data) offset = item_size * chunk_size while index + 1 < length: macro_call(data[index : index + offset]) index += offset def is_arc_src(src, unit): return ( src.startswith('${ARCADIA_ROOT}/') or src.startswith('${CURDIR}/') or unit.resolve_arc_path(src).startswith('$S/') ) def is_extended_source_search_enabled(path, unit): if not is_arc_src(path, unit): return False if unit.get('NO_EXTENDED_SOURCE_SEARCH') == 'yes': return False # contrib is unfriendly to extended source search if unit.resolve_arc_path(path).startswith('$S/contrib/'): return False return True def to_build_root(path, unit): if is_arc_src(path, unit): return '${ARCADIA_BUILD_ROOT}/' + rootrel_arc_src(path, unit) return path def uniq_suffix(path, unit): upath = unit.path() if '/' not in path: return '' return '.{}'.format(pathid(upath)[:4]) def pb2_arg(suf, path, mod, unit): return '{path}__int{py_ver}__{suf}={mod}{modsuf}'.format( path=stripext(to_build_root(path, unit)), suf=suf, mod=mod, modsuf=stripext(suf), py_ver=unit.get('_PYTHON_VER') ) def proto_arg(path, mod, unit): return '{}.proto={}'.format(stripext(to_build_root(path, unit)), mod) def pb_cc_arg(suf, path, unit): return '{}{suf}'.format(stripext(to_build_root(path, unit)), suf=suf) def ev_cc_arg(path, unit): return '{}.ev.pb.cc'.format(stripext(to_build_root(path, unit))) def ev_arg(path, mod, unit): return '{}__int{}___ev_pb2.py={}_ev_pb2'.format(stripext(to_build_root(path, unit)), unit.get('_PYTHON_VER'), mod) def mangle(name): if '.' not in name: return name return ''.join('{}{}'.format(len(s), s) for s in name.split('.')) def parse_pyx_includes(filename, path, source_root, seen=None): def normpath(*args): return os.path.normpath(os.path.join(*args)) abs_path = normpath(source_root, filename) seen = seen or set() if abs_path in seen: return seen.add(abs_path) if not os.path.exists(abs_path): # File might be missing, because it might be generated return with open(abs_path, 'rb') as f: # Don't parse cimports and etc - irrelevant for cython, it's linker work includes = [six.ensure_str(x) for x in ymake.parse_cython_includes(f.read())] abs_dirname = os.path.dirname(abs_path) # All includes are relative to the file which include path_dirname = os.path.dirname(path) file_dirname = os.path.dirname(filename) for incfile in includes: abs_path = normpath(abs_dirname, incfile) if os.path.exists(abs_path): incname, incpath = normpath(file_dirname, incfile), normpath(path_dirname, incfile) yield (incname, incpath) # search for includes in the included files for e in parse_pyx_includes(incname, incpath, source_root, seen): yield e else: # There might be arcadia root or cython relative include. # Don't treat such file as missing, because there must be PEERDIR on py_library # which contains it. for path in [ source_root, source_root + "/contrib/tools/cython/Cython/Includes", ]: if os.path.exists(normpath(path, incfile)): break else: ymake.report_configure_error("'{}' includes missing file: {} ({})".format(path, incfile, abs_path)) def has_pyx(args): return any(arg.endswith('.pyx') for arg in args) def get_srcdir(path, unit): return rootrel_arc_src(path, unit)[: -len(path)].rstrip('/') @lazy def get_ruff_configs(unit): rel_config_path = rootrel_arc_src(unit.get('RUFF_CONFIG_PATHS_FILE'), unit) arc_config_path = unit.resolve_arc_path(rel_config_path) abs_config_path = unit.resolve(arc_config_path) with open(abs_config_path, 'r') as fd: return list(json.load(fd).values()) def add_python_lint_checks(unit, py_ver, files): @lazy def get_resolved_files(): resolved_files = [] for path in files: resolved = unit.resolve_arc_path([path]) if resolved.startswith('$S'): # path was resolved as source file. resolved_files.append(resolved) return resolved_files upath = unit.path()[3:] no_lint_value = get_no_lint_value(unit) if no_lint_value == "none": no_lint_allowed_paths = ( "contrib/", "devtools/", "junk/", # temporary allowed, TODO: remove "taxi/uservices/", "travel/", "market/report/lite/", # MARKETOUT-38662, deadline: 2021-08-12 "passport/backend/oauth/", # PASSP-35982 "sdg/sdc/contrib/", # SDC contrib "sdg/sdc/third_party/", # SDC contrib "testenv/", # CI-3229 "yt/yt/", # YT-20053 "yt/python/", # YT-20053 "yt/python_py2/", ) if not upath.startswith(no_lint_allowed_paths): ymake.report_configure_error("NO_LINT() is allowed only in " + ", ".join(no_lint_allowed_paths)) if files and no_lint_value not in ("none", "none_internal"): resolved_files = get_resolved_files() if resolved_files: # repeated PY_SRCS, TEST_SCRS+PY_SRCS collected = json.loads(unit.get('PY_LINTER_FILES')) if unit.get('PY_LINTER_FILES') else [] unit.set(['PY_LINTER_FILES', json.dumps(resolved_files + collected)]) def is_py3(unit): return unit.get("PYTHON3") == "yes" def on_py_program(unit, *args): py_program(unit, is_py3(unit)) def py_program(unit, py3): """ Documentation: https://wiki.yandex-team.ru/devtools/commandsandvars/py_srcs/#modulpyprogramimakrospymain """ if py3: peers = ['library/python/runtime_py3/main'] if unit.get('PYTHON_SQLITE3') != 'no': peers.append('contrib/tools/python3/Modules/_sqlite') else: peers = ['library/python/runtime/main'] if unit.get('PYTHON_SQLITE3') != 'no': peers.append('contrib/tools/python/src/Modules/_sqlite') unit.onpeerdir(peers) unit.onwindows_long_path_manifest() if unit.get('MODULE_TYPE') == 'PROGRAM': # can not check DLL unit.onadd_check_py_imports() def onpy_srcs(unit, *args): """ @usage PY_SRCS({| CYTHONIZE_PY} {| CYTHON_C} { | TOP_LEVEL | NAMESPACE ns} Files...) PY_SRCS() - is rule to build extended versions of Python interpreters and containing all application code in its executable file. It can be used to collect only the executables but not shared libraries, and, in particular, not to collect the modules that are imported using import directive. The main disadvantage is the lack of IDE support; There is also no readline yet. The application can be collect from any of the sources from which the C library, and with the help of PY_SRCS .py , .pyx,.proto and .swg files. At the same time extensions for Python on C language generating from .pyx and .swg, will be registered in Python's as built-in modules, and sources on .py are stored as static data: when the interpreter starts, the initialization code will add a custom loader of these modules to sys.meta_path. You can compile .py files as Cython sources with CYTHONIZE_PY directive (Use carefully, as build can get too slow). However, with it you won't have profiling info by default. To enable it, add "# cython: profile=True" line to the beginning of every cythonized source. By default .pyx files are collected as C++-extensions. To collect them as C (similar to BUILDWITH_CYTHON_C, but with the ability to specify namespace), you must specify the Directive CYTHON_C. Building with pyx automatically registers modules, you do not need to call PY_REGISTER for them __init__.py never required, but if present (and specified in PY_SRCS), it will be imported when you import package modules with __init__.py Oh. Example of library declaration with PY_SRCS(): PY2_LIBRARY(mymodule) PY_SRCS(a.py sub/dir/b.py e.proto sub/dir/f.proto c.pyx sub/dir/d.pyx g.swg sub/dir/h.swg) END() PY_REGISTER honors Python2 and Python3 differences and adjusts itself to Python version of a current module Documentation: https://wiki.yandex-team.ru/arcadia/python/pysrcs/#modulipylibrarypy3libraryimakrospysrcs """ # Each file arg must either be a path, or "${...}/buildpath=modname", where # "${...}/buildpath" part will be used as a file source in a future macro, # and "modname" will be used as a module name. upath = unit.path()[3:] py3 = is_py3(unit) py_main_only = unit.get('PROCESS_PY_MAIN_ONLY') with_py = not unit.get('PYBUILD_NO_PY') with_pyc = not unit.get('PYBUILD_NO_PYC') in_proto_library = unit.get('PY_PROTO') or unit.get('PY3_PROTO') venv = unit.get(YA_IDE_VENV_VAR) need_gazetteer_peerdir = False trim = 0 if ( not upath.startswith('contrib/tools/python') and not upath.startswith('library/python/runtime') and unit.get('NO_PYTHON_INCLS') != 'yes' ): unit.onpeerdir(['contrib/libs/python']) unit_needs_main = unit.get('MODULE_TYPE') in ('PROGRAM', 'DLL') if unit_needs_main: py_program(unit, py3) py_namespace_value = unit.get('PY_NAMESPACE_VALUE') if py_namespace_value == ".": ns = "" else: ns = (unit.get('PY_NAMESPACE_VALUE') or upath.replace('/', '.')) + '.' cython_coverage = unit.get('CYTHON_COVERAGE') == 'yes' cythonize_py = False optimize_proto = unit.get('OPTIMIZE_PY_PROTOS_FLAG') == 'yes' cython_directives = [] if cython_coverage: cython_directives += ['-X', 'linetrace=True'] pyxs_c = [] pyxs_c_h = [] pyxs_c_api_h = [] pyxs_cpp = [] pyxs_cpp_h = [] pyxs = pyxs_cpp swigs_c = [] swigs_cpp = [] swigs = swigs_cpp pys = [] pyis = [] protos = [] evs = [] fbss = [] py_namespaces = {} dump_dir = unit.get('PYTHON_BUILD_DUMP_DIR') dump_output = None if dump_dir: import threading pid = os.getpid() tid = threading.current_thread().ident dump_name = '{}-{}.dump'.format(pid, tid) dump_output = open(os.path.join(dump_dir, dump_name), 'a') args = iter(args) for arg in args: # Namespace directives. if arg == 'TOP_LEVEL': ns = '' elif arg == 'NAMESPACE': ns = next(args) + '.' # Cython directives. elif arg == 'CYTHON_C': pyxs = pyxs_c elif arg == 'CYTHON_C_H': pyxs = pyxs_c_h elif arg == 'CYTHON_C_API_H': pyxs = pyxs_c_api_h elif arg == 'CYTHON_CPP': pyxs = pyxs_cpp elif arg == 'CYTHON_CPP_H': pyxs = pyxs_cpp_h elif arg == 'CYTHON_DIRECTIVE': cython_directives += ['-X', next(args)] elif arg == 'CYTHONIZE_PY': cythonize_py = True # SWIG. elif arg == 'SWIG_C': swigs = swigs_c elif arg == 'SWIG_CPP': swigs = swigs_cpp # Unsupported but legal PROTO_LIBRARY arguments. elif arg == 'GLOBAL' or not in_proto_library and arg.endswith('.gztproto'): pass elif arg == '_MR': # GLOB support: convert arcadia-root-relative paths to module-relative # srcs are assumed to start with ${ARCADIA_ROOT} trim = len(unit.path()) + 14 # Sources. else: main_mod = arg == 'MAIN' if main_mod: arg = next(args) if '=' in arg: main_py = False path, mod = arg.split('=', 1) else: if trim: arg = arg[trim:] if arg.endswith('.gztproto'): need_gazetteer_peerdir = True path = '{}.proto'.format(arg[:-9]) else: path = arg main_py = path == '__main__.py' or path.endswith('/__main__.py') if not py3 and unit_needs_main and main_py: mod = '__main__' else: if arg.startswith('../'): ymake.report_configure_error('PY_SRCS item starts with "../": {!r}'.format(arg)) if arg.startswith('/'): ymake.report_configure_error('PY_SRCS item starts with "/": {!r}'.format(arg)) continue mod_name = stripext(arg).replace('/', '.') if py3 and path.endswith('.py') and is_extended_source_search_enabled(path, unit): # Dig out real path from the file path. Unit.path is not enough because of SRCDIR and ADDINCL root_rel_path = rootrel_arc_src(path, unit) mod_root_path = root_rel_path[: -(len(path) + 1)] py_namespaces.setdefault(mod_root_path, set()).add(ns if ns else '.') mod = ns + mod_name if in_proto_library: mod = mod.replace('-', '_') if main_mod: py_main(unit, mod + ":main") elif py3 and unit_needs_main and main_py: py_main(unit, mod) if py_main_only: continue if py3 and mod == '__main__': ymake.report_configure_error('TOP_LEVEL __main__.py is not allowed in PY3_PROGRAM') pathmod = (path, mod) if dump_output is not None: dump_output.write( '{path}\t{module}\t{py3}\n'.format( path=rootrel_arc_src(path, unit), module=mod, py3=1 if py3 else 0 ) ) if path.endswith('.py'): if cythonize_py: pyxs.append(pathmod) else: pys.append(pathmod) elif path.endswith('.pyx'): pyxs.append(pathmod) elif path.endswith('.proto'): protos.append(pathmod) elif path.endswith('.ev'): evs.append(pathmod) elif path.endswith('.swg'): swigs.append(pathmod) elif path.endswith('.pyi'): pyis.append(pathmod) elif path.endswith('.fbs'): fbss.append(pathmod) else: ymake.report_configure_error('in PY_SRCS: unrecognized arg {!r}'.format(path)) if dump_output is not None: dump_output.close() if pyxs: py_files2res = set() cpp_files2res = set() # Include map stores files which were included in the processing pyx file, # to be able to find source code of the included file inside generated file # for currently processing pyx file. include_map = collections.defaultdict(set) if cython_coverage: def process_pyx(filename, path, out_suffix, with_ext): # skip generated files if not is_arc_src(path, unit): return # source file py_files2res.add((filename, path)) # generated if with_ext is None: cpp_files2res.add( ( os.path.splitext(filename)[0] + out_suffix, os.path.splitext(path)[0] + out_suffix, ) ) else: cpp_files2res.add((filename + with_ext + out_suffix, path + with_ext + out_suffix)) # used includes for entry in parse_pyx_includes(filename, path, unit.resolve('$S')): py_files2res.add(entry) include_arc_rel = entry[0] include_map[filename].add(include_arc_rel) else: def process_pyx(filename, path, out_suffix, with_ext): pass obj_suff = unit.get('OBJ_SUF') assert obj_suff is not None for pyxs, cython, out_suffix, with_ext in [ (pyxs_c, unit.on_buildwith_cython_c_dep, ".c", obj_suff), (pyxs_c_h, unit.on_buildwith_cython_c_h, ".c", None), (pyxs_c_api_h, unit.on_buildwith_cython_c_api_h, ".c", None), (pyxs_cpp, unit.on_buildwith_cython_cpp_dep, ".cpp", obj_suff), (pyxs_cpp_h, unit.on_buildwith_cython_cpp_h, ".cpp", None), ]: for path, mod in pyxs: filename = rootrel_arc_src(path, unit) cython_args = [path] dep = path if path.endswith('.py'): pxd = '/'.join(mod.split('.')) + '.pxd' if unit.resolve_arc_path(pxd): dep = pxd cython_args.append(dep) cython_args += [ '--module-name', mod, '--init-suffix', mangle(mod), '--source-root', '${ARCADIA_ROOT}', # set arcadia root relative __file__ for generated modules '-X', 'set_initial_path={}'.format(filename), ] + cython_directives cython(cython_args) py_register(unit, mod, py3) process_pyx(filename, path, out_suffix, with_ext) if cythonize_py: # Lint checks are not added for cythonized files by default, so we must add it here # as we are doing for regular pys. _23 = 3 if py3 else 2 add_python_lint_checks( unit, _23, [path for path, mod in pyxs if path.endswith(".py")] + unit.get(['_PY_EXTRA_LINT_FILES_VALUE']).split(), ) if py_files2res: # Compile original and generated sources into target for proper cython coverage calculation for files2res in (py_files2res, cpp_files2res): unit.onresource_files([x for name, path in files2res for x in ('DEST', name, path)]) if include_map: data = [] prefix = 'resfs/cython/include' for line in sorted( '{}/{}={}'.format(prefix, filename, ':'.join(sorted(files))) for filename, files in six.iteritems(include_map) ): data += ['-', line] unit.onresource(data) for swigs, on_swig_python in [ (swigs_c, unit.on_swig_python_c), (swigs_cpp, unit.on_swig_python_cpp), ]: for path, mod in swigs: # Make output prefix basename match swig module name. prefix = path[: path.rfind('/') + 1] + mod.rsplit('.', 1)[-1] swg_py = '{}/{}/{}.py'.format('${ARCADIA_BUILD_ROOT}', upath, prefix) on_swig_python([path, prefix]) onpy_register(unit, mod + '_swg') onpy_srcs(unit, swg_py + '=' + mod) if pys: pys_seen = set() pys_dups = {m for _, m in pys if (m in pys_seen or pys_seen.add(m))} if pys_dups: ymake.report_configure_error('Duplicate(s) is found in the PY_SRCS macro: {}'.format(pys_dups)) res = [] if py3: mod_list_md5 = md5() for path, mod in pys: mod_list_md5.update(six.ensure_binary(mod)) if not (venv and is_extended_source_search_enabled(path, unit)): dest = 'py/' + mod.replace('.', '/') + '.py' if with_py: res += ['DEST', dest, path] if with_pyc: root_rel_path = rootrel_arc_src(path, unit) dst = path + uniq_suffix(path, unit) unit.on_py3_compile_bytecode([root_rel_path + '-', path, dst]) res += ['DEST', dest + '.yapyc3', dst + '.yapyc3'] if py_namespaces: # Note: Add md5 to key to prevent key collision if two or more PY_SRCS() used in the same ya.make ns_res = [] for path, ns in sorted(py_namespaces.items()): key = '{}/{}/{}'.format(PY_NAMESPACE_PREFIX, mod_list_md5.hexdigest(), path) namespaces = ':'.join(sorted(ns)) ns_res += ['-', '{}="{}"'.format(key, namespaces)] unit.onresource(ns_res) _split_macro_call(unit.onresource_files, res, (3 if with_py else 0) + (3 if with_pyc else 0)) add_python_lint_checks( unit, 3, [path for path, mod in pys] + unit.get(['_PY_EXTRA_LINT_FILES_VALUE']).split() ) else: for path, mod in pys: root_rel_path = rootrel_arc_src(path, unit) if with_py: key = '/py_modules/' + mod res += [ path, key, '-', 'resfs/src/{}={}'.format(key, root_rel_path), ] if with_pyc: src = unit.resolve_arc_path(path) or path dst = path + uniq_suffix(path, unit) unit.on_py_compile_bytecode([root_rel_path + '-', src, dst]) res += [dst + '.yapyc', '/py_code/' + mod] _split_macro_call(unit.onresource, res, (4 if with_py else 0) + (2 if with_pyc else 0)) add_python_lint_checks( unit, 2, [path for path, mod in pys] + unit.get(['_PY_EXTRA_LINT_FILES_VALUE']).split() ) if pyis: pyis_seen = set() pyis_dups = {m for _, m in pyis if (m in pyis_seen or pyis_seen.add(m))} if pyis_dups: pyis_dups = ', '.join(name for name in sorted(pyis_dups)) ymake.report_configure_error('Duplicate(s) is found in the PY_SRCS macro: {}'.format(pyis_dups)) res = [] for path, mod in pyis: dest = 'py/' + mod.replace('.', '/') + '.pyi' res += ['DEST', dest, path] unit.onresource_files(res) use_vanilla_protoc = unit.get('USE_VANILLA_PROTOC') == 'yes' if use_vanilla_protoc: cpp_runtime_path = 'contrib/libs/protobuf_std' py_runtime_path = 'contrib/python/protobuf_std' builtin_proto_path = cpp_runtime_path + '/' + BUILTIN_PROTO else: cpp_runtime_path = 'contrib/libs/protobuf' py_runtime_path = 'contrib/python/protobuf' builtin_proto_path = cpp_runtime_path + '/' + BUILTIN_PROTO if protos: if not upath.startswith(py_runtime_path) and not upath.startswith(builtin_proto_path): if 'protobuf_old' not in upath: unit.onpeerdir(py_runtime_path) unit.onpeerdir(unit.get("PY_PROTO_DEPS").split()) proto_paths = [path for path, mod in protos] unit.on_generate_py_protos_internal(proto_paths) unit.onpy_srcs( [ pb2_arg(py_suf, path, mod, unit) for path, mod in protos for py_suf in unit.get("PY_PROTO_SUFFIXES").split() ] ) if optimize_proto and need_gazetteer_peerdir: unit.onpeerdir(['kernel/gazetteer/proto']) if evs: unit.onpeerdir([cpp_runtime_path]) unit.on_generate_py_evs_internal([path for path, mod in evs]) unit.onpy_srcs([ev_arg(path, mod, unit) for path, mod in evs]) if fbss: unit.onpeerdir(unit.get('_PY_FBS_DEPS').split()) pysrc_base_name = listid(fbss) if py3: unit.onfbs_to_pysrc([pysrc_base_name] + [path for path, _ in fbss]) unit.onsrcs(['GLOBAL', '{}.py3.fbs.pysrc'.format(pysrc_base_name)]) else: unit.onfbs_to_py2src([pysrc_base_name] + [path for path, _ in fbss]) unit.onsrcs(['GLOBAL', '{}.py2.fbs.pysrc'.format(pysrc_base_name)]) def _check_test_srcs(*args): used = set(args) & {"NAMESPACE", "TOP_LEVEL", "__main__.py"} if used: param = list(used)[0] ymake.report_configure_error( 'in TEST_SRCS: you cannot use {} here - it would broke testing machinery'.format(param) ) def ontest_srcs(unit, *args): _check_test_srcs(*args) if unit.get('PY3TEST_BIN' if is_py3(unit) else 'PYTEST_BIN') != 'no': unit.onpy_srcs(["NAMESPACE", "__tests__"] + list(args)) def onpy_doctests(unit, *args): """ @usage PY_DOCTESTS(Packages...) Add to the test doctests for specified Python packages The packages should be part of a test (listed as sources of the test or its PEERDIRs). """ if unit.get('PY3TEST_BIN' if is_py3(unit) else 'PYTEST_BIN') != 'no': unit.onresource(['-', 'PY_DOCTEST_PACKAGES="{}"'.format(' '.join(args))]) def py_register(unit, func, py3): if py3: unit.on_py3_register([func]) else: unit.on_py_register([func]) def onpy_register(unit, *args): """ @usage: PY_REGISTER([package.]module_name) Python knows about which built-ins can be imported, due to their registration in the Assembly or at the start of the interpreter. All modules from the sources listed in PY_SRCS() are registered automatically. To register the modules from the sources in the SRCS(), you need to use PY_REGISTER(). PY_REGISTER(module_name) initializes module globally via call to initmodule_name() PY_REGISTER(package.module_name) initializes module in the specified package It renames its init function with CFLAGS(-Dinitmodule_name=init7package11module_name) or CFLAGS(-DPyInit_module_name=PyInit_7package11module_name) Documentation: https://wiki.yandex-team.ru/arcadia/python/pysrcs/#makrospyregister """ py3 = is_py3(unit) for name in args: assert '=' not in name, name py_register(unit, name, py3) if '.' in name: shortname = name.rsplit('.', 1)[1] if py3: unit.oncflags(['-DPyInit_{}=PyInit_{}'.format(shortname, mangle(name))]) else: unit.oncflags(['-Dinit{}=init{}'.format(shortname, mangle(name))]) def py_main(unit, arg): if unit.get('IGNORE_PY_MAIN'): return unit_needs_main = unit.get('MODULE_TYPE') in ('PROGRAM', 'DLL') if unit_needs_main: py_program(unit, is_py3(unit)) unit.onresource(['-', 'PY_MAIN={}'.format(arg)]) def onpy_main(unit, arg): """ @usage: PY_MAIN(package.module[:func]) Specifies the module or function from which to start executing a python program Documentation: https://wiki.yandex-team.ru/arcadia/python/pysrcs/#modulipyprogrampy3programimakrospymain """ arg = arg.replace('/', '.') if ':' not in arg: arg += ':main' py_main(unit, arg) def onpy_constructor(unit, arg): """ @usage: PY_CONSTRUCTOR(package.module[:func]) Specifies the module or function which will be started before python's main() init() is expected in the target module if no function is specified Can be considered as __attribute__((constructor)) for python """ if ':' not in arg: arg = arg + '=init' else: arg[arg.index(':')] = '=' unit.onresource(['-', 'py/constructors/{}'.format(arg)]) def onpy_enums_serialization(unit, *args): ns = '' args = iter(args) for arg in args: # Namespace directives. if arg == 'NAMESPACE': ns = next(args) else: unit.on_py_enum_serialization_to_json(arg) unit.on_py_enum_serialization_to_py(arg) filename = arg.rsplit('.', 1)[0] + '.py' if len(ns) != 0: onpy_srcs(unit, 'NAMESPACE', ns, filename) else: onpy_srcs(unit, filename) def oncpp_enums_serialization(unit, *args): args = iter(args) for arg in args: # Namespace directives. if arg == 'NAMESPACE': next(args) else: unit.ongenerate_enum_serialization_with_header(arg)