# coding: utf8 from __future__ import unicode_literals, print_function import os import io import json import re import os.path import pathlib import six import textwrap from .attrs import TAG, HEAD, DEP, ENT_IOB, ENT_TYPE try: basestring except NameError: basestring = str LANGUAGES = {} _data_path = pathlib.Path(__file__).parent / 'data' def set_lang_class(name, cls): global LANGUAGES LANGUAGES[name] = cls def get_lang_class(name): lang = re.split('[^a-zA-Z0-9]', name, 1)[0] if lang not in LANGUAGES: raise RuntimeError('Language not supported: %s' % lang) return LANGUAGES[lang] def get_data_path(require_exists=True): if not require_exists: return _data_path else: return _data_path if _data_path.exists() else None def set_data_path(path): global _data_path if isinstance(path, basestring): path = pathlib.Path(path) _data_path = path def or_(val1, val2): if val1 is not None: return val1 elif callable(val2): return val2() else: return val2 def match_best_version(target_name, target_version, path): path = path if not isinstance(path, basestring) else pathlib.Path(path) if path is None or not path.exists(): return None matches = [] for data_name in path.iterdir(): name, version = split_data_name(data_name.parts[-1]) if name == target_name and constraint_match(target_version, version): matches.append((tuple(float(v) for v in version.split('.')), data_name)) if matches: return pathlib.Path(max(matches)[1]) else: return None def split_data_name(name): return name.split('-', 1) if '-' in name else (name, '') def read_regex(path): path = path if not isinstance(path, basestring) else pathlib.Path(path) with path.open() as file_: entries = file_.read().split('\n') expression = '|'.join(['^' + re.escape(piece) for piece in entries if piece.strip()]) return re.compile(expression) def compile_prefix_regex(entries): if '(' in entries: # Handle deprecated data expression = '|'.join(['^' + re.escape(piece) for piece in entries if piece.strip()]) return re.compile(expression) else: expression = '|'.join(['^' + piece for piece in entries if piece.strip()]) return re.compile(expression) def compile_suffix_regex(entries): expression = '|'.join([piece + '$' for piece in entries if piece.strip()]) return re.compile(expression) def compile_infix_regex(entries): expression = '|'.join([piece for piece in entries if piece.strip()]) return re.compile(expression) def normalize_slice(length, start, stop, step=None): if not (step is None or step == 1): raise ValueError("Stepped slices not supported in Span objects." "Try: list(tokens)[start:stop:step] instead.") if start is None: start = 0 elif start < 0: start += length start = min(length, max(0, start)) if stop is None: stop = length elif stop < 0: stop += length stop = min(length, max(start, stop)) assert 0 <= start <= stop <= length return start, stop def utf8open(loc, mode='r'): return io.open(loc, mode, encoding='utf8') def check_renamed_kwargs(renamed, kwargs): for old, new in renamed.items(): if old in kwargs: raise TypeError("Keyword argument %s now renamed to %s" % (old, new)) def print_msg(*text, **kwargs): """Print formatted message. Each positional argument is rendered as newline- separated paragraph. If kwarg 'title' exist, title is printed above the text and highlighted (using ANSI escape sequences manually to avoid unnecessary dependency).""" message = '\n\n'.join([_wrap_text(t) for t in text]) tpl_msg = '\n{msg}\n' tpl_title = '\n\033[93m{msg}\033[0m' if 'title' in kwargs and kwargs['title']: title = _wrap_text(kwargs['title']) print(tpl_title.format(msg=title)) print(tpl_msg.format(msg=message)) def _wrap_text(text): """Wrap text at given width using textwrap module. Indent should consist of spaces. Its length is deducted from wrap width to ensure exact wrapping.""" wrap_max = 80 indent = ' ' wrap_width = wrap_max - len(indent) return textwrap.fill(text, width=wrap_width, initial_indent=indent, subsequent_indent=indent)