# -*- coding: utf-8 -*- """ sphinx.util ~~~~~~~~~~~ Utility functions for Sphinx. :copyright: Copyright 2007-2011 by the Sphinx team, see AUTHORS. :license: BSD, see LICENSE for details. """ import os import re import sys import shutil import fnmatch import tempfile import posixpath import traceback from os import path from codecs import open, BOM_UTF8 from collections import deque import docutils from docutils.utils import relative_path import jinja2 import sphinx from sphinx.errors import PycodeError from sphinx.util.pycompat import bytes # import other utilities; partly for backwards compatibility, so don't # prune unused ones indiscriminately from sphinx.util.osutil import SEP, os_path, relative_uri, ensuredir, walk, \ mtimes_of_files, movefile, copyfile, copytimes, make_filename, ustrftime from sphinx.util.nodes import nested_parse_with_titles, split_explicit_title, \ explicit_title_re, caption_ref_re from sphinx.util.matching import patfilter # Generally useful regular expressions. ws_re = re.compile(r'\s+') url_re = re.compile(r'(?P.+)://.*') # High-level utility functions. def docname_join(basedocname, docname): return posixpath.normpath( posixpath.join('/' + basedocname, '..', docname))[1:] def get_matching_files(dirname, exclude_matchers=()): """Get all file names in a directory, recursively. Exclude files and dirs matching some matcher in *exclude_matchers*. """ # dirname is a normalized absolute path. dirname = path.normpath(path.abspath(dirname)) dirlen = len(dirname) + 1 # exclude final os.path.sep for root, dirs, files in walk(dirname, followlinks=True): relativeroot = root[dirlen:] qdirs = enumerate(path.join(relativeroot, dn).replace(os.path.sep, SEP) for dn in dirs) qfiles = enumerate(path.join(relativeroot, fn).replace(os.path.sep, SEP) for fn in files) for matcher in exclude_matchers: qdirs = [entry for entry in qdirs if not matcher(entry[1])] qfiles = [entry for entry in qfiles if not matcher(entry[1])] dirs[:] = sorted(dirs[i] for (i, _) in qdirs) for i, filename in sorted(qfiles): yield filename def get_matching_docs(dirname, suffix, exclude_matchers=()): """Get all file names (without suffix) matching a suffix in a directory, recursively. Exclude files and dirs matching a pattern in *exclude_patterns*. """ suffixpattern = '*' + suffix for filename in get_matching_files(dirname, exclude_matchers): if not fnmatch.fnmatch(filename, suffixpattern): continue yield filename[:-len(suffix)] class FilenameUniqDict(dict): """ A dictionary that automatically generates unique names for its keys, interpreted as filenames, and keeps track of a set of docnames they appear in. Used for images and downloadable files in the environment. """ def __init__(self): self._existing = set() def add_file(self, docname, newfile): if newfile in self: self[newfile][0].add(docname) return self[newfile][1] uniquename = path.basename(newfile) base, ext = path.splitext(uniquename) i = 0 while uniquename in self._existing: i += 1 uniquename = '%s%s%s' % (base, i, ext) self[newfile] = (set([docname]), uniquename) self._existing.add(uniquename) return uniquename def purge_doc(self, docname): for filename, (docs, unique) in self.items(): docs.discard(docname) if not docs: del self[filename] self._existing.discard(unique) def __getstate__(self): return self._existing def __setstate__(self, state): self._existing = state def copy_static_entry(source, targetdir, builder, context={}, exclude_matchers=(), level=0): """Copy a HTML builder static_path entry from source to targetdir. Handles all possible cases of files, directories and subdirectories. """ if exclude_matchers: relpath = relative_path(builder.srcdir, source) for matcher in exclude_matchers: if matcher(relpath): return if path.isfile(source): target = path.join(targetdir, path.basename(source)) if source.lower().endswith('_t') and builder.templates: # templated! fsrc = open(source, 'r', encoding='utf-8') fdst = open(target[:-2], 'w', encoding='utf-8') fdst.write(builder.templates.render_string(fsrc.read(), context)) fsrc.close() fdst.close() else: copyfile(source, target) elif path.isdir(source): if level == 0: for entry in os.listdir(source): if entry.startswith('.'): continue copy_static_entry(path.join(source, entry), targetdir, builder, context, level=1, exclude_matchers=exclude_matchers) else: target = path.join(targetdir, path.basename(source)) if path.exists(target): shutil.rmtree(target) shutil.copytree(source, target) _DEBUG_HEADER = '''\ # Sphinx version: %s # Python version: %s # Docutils version: %s %s # Jinja2 version: %s ''' def save_traceback(): """Save the current exception's traceback in a temporary file.""" import platform exc = traceback.format_exc() fd, path = tempfile.mkstemp('.log', 'sphinx-err-') os.write(fd, (_DEBUG_HEADER % (sphinx.__version__, platform.python_version(), docutils.__version__, docutils.__version_details__, jinja2.__version__)).encode('utf-8')) os.write(fd, exc.encode('utf-8')) os.close(fd) return path def get_module_source(modname): """Try to find the source code for a module. Can return ('file', 'filename') in which case the source is in the given file, or ('string', 'source') which which case the source is the string. """ if modname not in sys.modules: try: __import__(modname) except Exception, err: raise PycodeError('error importing %r' % modname, err) mod = sys.modules[modname] if hasattr(mod, '__loader__'): try: source = mod.__loader__.get_source(modname) except Exception, err: raise PycodeError('error getting source for %r' % modname, err) return 'string', source filename = getattr(mod, '__file__', None) if filename is None: raise PycodeError('no source found for module %r' % modname) filename = path.normpath(path.abspath(filename)) lfilename = filename.lower() if lfilename.endswith('.pyo') or lfilename.endswith('.pyc'): filename = filename[:-1] if not path.isfile(filename) and path.isfile(filename + 'w'): filename += 'w' elif not (lfilename.endswith('.py') or lfilename.endswith('.pyw')): raise PycodeError('source is not a .py file: %r' % filename) if not path.isfile(filename): raise PycodeError('source file is not present: %r' % filename) return 'file', filename # a regex to recognize coding cookies _coding_re = re.compile(r'coding[:=]\s*([-\w.]+)') def detect_encoding(readline): """Like tokenize.detect_encoding() from Py3k, but a bit simplified.""" def read_or_stop(): try: return readline() except StopIteration: return None def get_normal_name(orig_enc): """Imitates get_normal_name in tokenizer.c.""" # Only care about the first 12 characters. enc = orig_enc[:12].lower().replace('_', '-') if enc == 'utf-8' or enc.startswith('utf-8-'): return 'utf-8' if enc in ('latin-1', 'iso-8859-1', 'iso-latin-1') or \ enc.startswith(('latin-1-', 'iso-8859-1-', 'iso-latin-1-')): return 'iso-8859-1' return orig_enc def find_cookie(line): try: line_string = line.decode('ascii') except UnicodeDecodeError: return None matches = _coding_re.findall(line_string) if not matches: return None return get_normal_name(matches[0]) default = sys.getdefaultencoding() first = read_or_stop() if first and first.startswith(BOM_UTF8): first = first[3:] default = 'utf-8-sig' if not first: return default encoding = find_cookie(first) if encoding: return encoding second = read_or_stop() if not second: return default encoding = find_cookie(second) if encoding: return encoding return default # Low-level utility functions and classes. class Tee(object): """ File-like object writing to two streams. """ def __init__(self, stream1, stream2): self.stream1 = stream1 self.stream2 = stream2 def write(self, text): self.stream1.write(text) self.stream2.write(text) def parselinenos(spec, total): """Parse a line number spec (such as "1,2,4-6") and return a list of wanted line numbers. """ items = list() parts = spec.split(',') for part in parts: try: begend = part.strip().split('-') if len(begend) > 2: raise ValueError if len(begend) == 1: items.append(int(begend[0])-1) else: start = (begend[0] == '') and 0 or int(begend[0])-1 end = (begend[1] == '') and total or int(begend[1]) items.extend(xrange(start, end)) except Exception: raise ValueError('invalid line number spec: %r' % spec) return items def force_decode(string, encoding): """Forcibly get a unicode string out of a bytestring.""" if isinstance(string, bytes): if encoding: string = string.decode(encoding) else: try: # try decoding with utf-8, should only work for real UTF-8 string = string.decode('utf-8') except UnicodeError: # last resort -- can't fail string = string.decode('latin1') return string class attrdict(dict): def __getattr__(self, key): return self[key] def __setattr__(self, key, val): self[key] = val def __delattr__(self, key): del self[key] def rpartition(s, t): """Similar to str.rpartition from 2.5, but doesn't return the separator.""" i = s.rfind(t) if i != -1: return s[:i], s[i+len(t):] return '', s def split_into(n, type, value): """Split an index entry into a given number of parts at semicolons.""" parts = map(lambda x: x.strip(), value.split(';', n-1)) if sum(1 for part in parts if part) < n: raise ValueError('invalid %s index entry %r' % (type, value)) return parts def format_exception_cut_frames(x=1): """Format an exception with traceback, but only the last x frames.""" typ, val, tb = sys.exc_info() #res = ['Traceback (most recent call last):\n'] res = [] tbres = traceback.format_tb(tb) res += tbres[-x:] res += traceback.format_exception_only(typ, val) return ''.join(res) class PeekableIterator(object): """ An iterator which wraps any iterable and makes it possible to peek to see what's the next item. """ def __init__(self, iterable): self.remaining = deque() self._iterator = iter(iterable) def __iter__(self): return self def next(self): """Return the next item from the iterator.""" if self.remaining: return self.remaining.popleft() return self._iterator.next() def push(self, item): """Push the `item` on the internal stack, it will be returned on the next :meth:`next` call. """ self.remaining.append(item) def peek(self): """Return the next item without changing the state of the iterator.""" item = self.next() self.push(item) return item