# # Cython -- Things that don't belong # anywhere else in particular # from __future__ import absolute_import try: from __builtin__ import basestring except ImportError: basestring = str try: FileNotFoundError except NameError: FileNotFoundError = OSError import os import sys import re import io import codecs import shutil from contextlib import contextmanager modification_time = os.path.getmtime _function_caches = [] def clear_function_caches(): for cache in _function_caches: cache.clear() def cached_function(f): cache = {} _function_caches.append(cache) uncomputed = object() def wrapper(*args): res = cache.get(args, uncomputed) if res is uncomputed: res = cache[args] = f(*args) return res wrapper.uncached = f return wrapper def cached_method(f): cache_name = '__%s_cache' % f.__name__ def wrapper(self, *args): cache = getattr(self, cache_name, None) if cache is None: cache = {} setattr(self, cache_name, cache) if args in cache: return cache[args] res = cache[args] = f(self, *args) return res return wrapper def replace_suffix(path, newsuf): base, _ = os.path.splitext(path) return base + newsuf def open_new_file(path): if os.path.exists(path): # Make sure to create a new file here so we can # safely hard link the output files. os.unlink(path) # we use the ISO-8859-1 encoding here because we only write pure # ASCII strings or (e.g. for file names) byte encoded strings as # Unicode, so we need a direct mapping from the first 256 Unicode # characters to a byte sequence, which ISO-8859-1 provides # note: can't use io.open() in Py2 as we may be writing str objects return codecs.open(path, "w", encoding="ISO-8859-1") def castrate_file(path, st): # Remove junk contents from an output file after a # failed compilation. # Also sets access and modification times back to # those specified by st (a stat struct). try: f = open_new_file(path) except EnvironmentError: pass else: f.write( "#error Do not use this file, it is the result of a failed Cython compilation.\n") f.close() if st: os.utime(path, (st.st_atime, st.st_mtime-1)) def file_newer_than(path, time): ftime = modification_time(path) return ftime > time def safe_makedirs(path): try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise def copy_file_to_dir_if_newer(sourcefile, destdir): """ Copy file sourcefile to directory destdir (creating it if needed), preserving metadata. If the destination file exists and is not older than the source file, the copying is skipped. """ destfile = os.path.join(destdir, os.path.basename(sourcefile)) try: desttime = modification_time(destfile) except OSError: # New file does not exist, destdir may or may not exist safe_makedirs(destdir) else: # New file already exists if not file_newer_than(sourcefile, desttime): return shutil.copy2(sourcefile, destfile) @cached_function def find_root_package_dir(file_path): dir = os.path.dirname(file_path) if file_path == dir: return dir elif is_package_dir(dir): return find_root_package_dir(dir) else: return dir @cached_function def check_package_dir(dir, package_names): for dirname in package_names: dir = os.path.join(dir, dirname) if not is_package_dir(dir): return None return dir @cached_function def is_package_dir(dir_path): for filename in ("__init__.py", "__init__.pyc", "__init__.pyx", "__init__.pxd"): path = os.path.join(dir_path, filename) if path_exists(path): return 1 @cached_function def path_exists(path): # try on the filesystem first if os.path.exists(path): return True # figure out if a PEP 302 loader is around try: loader = __loader__ # XXX the code below assumes a 'zipimport.zipimporter' instance # XXX should be easy to generalize, but too lazy right now to write it archive_path = getattr(loader, 'archive', None) if archive_path: normpath = os.path.normpath(path) if normpath.startswith(archive_path): arcname = normpath[len(archive_path)+1:] try: loader.get_data(arcname) return True except IOError: return False except NameError: pass return False # file name encodings def decode_filename(filename): if isinstance(filename, bytes): try: filename_encoding = sys.getfilesystemencoding() if filename_encoding is None: filename_encoding = sys.getdefaultencoding() filename = filename.decode(filename_encoding) except UnicodeDecodeError: pass return filename # support for source file encoding detection _match_file_encoding = re.compile(br"(\w*coding)[:=]\s*([-\w.]+)").search def detect_opened_file_encoding(f): # PEPs 263 and 3120 # Most of the time the first two lines fall in the first couple of hundred chars, # and this bulk read/split is much faster. lines = () start = b'' while len(lines) < 3: data = f.read(500) start += data lines = start.split(b"\n") if not data: break m = _match_file_encoding(lines[0]) if m and m.group(1) != b'c_string_encoding': return m.group(2).decode('iso8859-1') elif len(lines) > 1: m = _match_file_encoding(lines[1]) if m: return m.group(2).decode('iso8859-1') return "UTF-8" def skip_bom(f): """ Read past a BOM at the beginning of a source file. This could be added to the scanner, but it's *substantially* easier to keep it at this level. """ if f.read(1) != u'\uFEFF': f.seek(0) def open_source_file(source_filename, encoding=None, error_handling=None): stream = None try: if encoding is None: # Most of the time the encoding is not specified, so try hard to open the file only once. f = io.open(source_filename, 'rb') encoding = detect_opened_file_encoding(f) f.seek(0) stream = io.TextIOWrapper(f, encoding=encoding, errors=error_handling) else: stream = io.open(source_filename, encoding=encoding, errors=error_handling) except OSError: if os.path.exists(source_filename): raise # File is there, but something went wrong reading from it. # Allow source files to be in zip files etc. try: loader = __loader__ if source_filename.startswith(loader.archive): stream = open_source_from_loader( loader, source_filename, encoding, error_handling) except (NameError, AttributeError): pass if stream is None: raise FileNotFoundError(source_filename) skip_bom(stream) return stream def open_source_from_loader(loader, source_filename, encoding=None, error_handling=None): nrmpath = os.path.normpath(source_filename) arcname = nrmpath[len(loader.archive)+1:] data = loader.get_data(arcname) return io.TextIOWrapper(io.BytesIO(data), encoding=encoding, errors=error_handling) def str_to_number(value): # note: this expects a string as input that was accepted by the # parser already, with an optional "-" sign in front is_neg = False if value[:1] == '-': is_neg = True value = value[1:] if len(value) < 2: value = int(value, 0) elif value[0] == '0': literal_type = value[1] # 0'o' - 0'b' - 0'x' if literal_type in 'xX': # hex notation ('0x1AF') value = int(value[2:], 16) elif literal_type in 'oO': # Py3 octal notation ('0o136') value = int(value[2:], 8) elif literal_type in 'bB': # Py3 binary notation ('0b101') value = int(value[2:], 2) else: # Py2 octal notation ('0136') value = int(value, 8) else: value = int(value, 0) return -value if is_neg else value def long_literal(value): if isinstance(value, basestring): value = str_to_number(value) return not -2**31 <= value < 2**31 @cached_function def get_cython_cache_dir(): r""" Return the base directory containing Cython's caches. Priority: 1. CYTHON_CACHE_DIR 2. (OS X): ~/Library/Caches/Cython (posix not OS X): XDG_CACHE_HOME/cython if XDG_CACHE_HOME defined 3. ~/.cython """ if 'CYTHON_CACHE_DIR' in os.environ: return os.environ['CYTHON_CACHE_DIR'] parent = None if os.name == 'posix': if sys.platform == 'darwin': parent = os.path.expanduser('~/Library/Caches') else: # this could fallback on ~/.cache parent = os.environ.get('XDG_CACHE_HOME') if parent and os.path.isdir(parent): return os.path.join(parent, 'cython') # last fallback: ~/.cython return os.path.expanduser(os.path.join('~', '.cython')) @contextmanager def captured_fd(stream=2, encoding=None): pipe_in = t = None orig_stream = os.dup(stream) # keep copy of original stream try: pipe_in, pipe_out = os.pipe() os.dup2(pipe_out, stream) # replace stream by copy of pipe try: os.close(pipe_out) # close original pipe-out stream data = [] def copy(): try: while True: d = os.read(pipe_in, 1000) if d: data.append(d) else: break finally: os.close(pipe_in) def get_output(): output = b''.join(data) if encoding: output = output.decode(encoding) return output from threading import Thread t = Thread(target=copy) t.daemon = True # just in case t.start() yield get_output finally: os.dup2(orig_stream, stream) # restore original stream if t is not None: t.join() finally: os.close(orig_stream) def print_bytes(s, header_text=None, end=b'\n', file=sys.stdout, flush=True): if header_text: file.write(header_text) # note: text! => file.write() instead of out.write() file.flush() try: out = file.buffer # Py3 except AttributeError: out = file # Py2 out.write(s) if end: out.write(end) if flush: out.flush() class LazyStr: def __init__(self, callback): self.callback = callback def __str__(self): return self.callback() def __repr__(self): return self.callback() def __add__(self, right): return self.callback() + right def __radd__(self, left): return left + self.callback() class OrderedSet(object): def __init__(self, elements=()): self._list = [] self._set = set() self.update(elements) def __iter__(self): return iter(self._list) def update(self, elements): for e in elements: self.add(e) def add(self, e): if e not in self._set: self._list.append(e) self._set.add(e) # Class decorator that adds a metaclass and recreates the class with it. # Copied from 'six'. def add_metaclass(metaclass): """Class decorator for creating a class with a metaclass.""" def wrapper(cls): orig_vars = cls.__dict__.copy() slots = orig_vars.get('__slots__') if slots is not None: if isinstance(slots, str): slots = [slots] for slots_var in slots: orig_vars.pop(slots_var) orig_vars.pop('__dict__', None) orig_vars.pop('__weakref__', None) return metaclass(cls.__name__, cls.__bases__, orig_vars) return wrapper def raise_error_if_module_name_forbidden(full_module_name): #it is bad idea to call the pyx-file cython.pyx, so fail early if full_module_name == 'cython' or full_module_name.startswith('cython.'): raise ValueError('cython is a special module, cannot be used as a module name') def build_hex_version(version_string): """ Parse and translate '4.3a1' into the readable hex representation '0x040300A1' (like PY_VERSION_HEX). """ # First, parse '4.12a1' into [4, 12, 0, 0xA01]. digits = [] release_status = 0xF0 for digit in re.split('([.abrc]+)', version_string): if digit in ('a', 'b', 'rc'): release_status = {'a': 0xA0, 'b': 0xB0, 'rc': 0xC0}[digit] digits = (digits + [0, 0])[:3] # 1.2a1 -> 1.2.0a1 elif digit != '.': digits.append(int(digit)) digits = (digits + [0] * 3)[:4] digits[3] += release_status # Then, build a single hex value, two hex digits per version part. hexversion = 0 for digit in digits: hexversion = (hexversion << 8) + digit return '0x%08X' % hexversion