# This file is part of lyx2lyx # -*- coding: utf-8 -*- # Copyright (C) 2002-2004 Dekel Tsur , José Matos # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. " This modules offer several free functions to help parse lines." # Utilities for one line def check_token(line, token): """ check_token(line, token) -> bool Return True if token is present in line and is the first element else returns False.""" return line[:len(token)] == token def is_nonempty_line(line): """ is_nonempty_line(line) -> bool Return False if line is either empty or it has only whitespaces, else return True.""" return line != " "*len(line) # Utilities for a list of lines def find_token(lines, token, start, end = 0, exact = False): """ find_token(lines, token, start[[, end], exact]) -> int Return the lowest line where token is found, and is the first element, in lines[start, end]. Return -1 on failure.""" if end == 0: end = len(lines) m = len(token) for i in xrange(start, end): if exact: x = lines[i].split() y = token.split() if len(x) < len(y): continue if x[:len(y)] == y: return i else: if lines[i][:m] == token: return i return -1 def find_token_exact(lines, token, start, end = 0): return find_token(lines, token, start, end, True) def find_tokens(lines, tokens, start, end = 0, exact = False): """ find_tokens(lines, tokens, start[[, end], exact]) -> int Return the lowest line where one token in tokens is found, and is the first element, in lines[start, end]. Return -1 on failure.""" if end == 0: end = len(lines) for i in xrange(start, end): for token in tokens: if exact: x = lines[i].split() y = token.split() if len(x) < len(y): continue if x[:len(y)] == y: return i else: if lines[i][:len(token)] == token: return i return -1 def find_tokens_exact(lines, tokens, start, end = 0): return find_tokens(lines, tokens, start, end, True) def find_re(lines, rexp, start, end = 0): """ find_token_re(lines, rexp, start[, end]) -> int Return the lowest line where rexp, a regular expression, is found in lines[start, end]. Return -1 on failure.""" if end == 0: end = len(lines) for i in xrange(start, end): if rexp.match(lines[i]): return i return -1 def find_token_backwards(lines, token, start): """ find_token_backwards(lines, token, start) -> int Return the highest line where token is found, and is the first element, in lines[start, end]. Return -1 on failure.""" m = len(token) for i in xrange(start, -1, -1): line = lines[i] if line[:m] == token: return i return -1 def find_tokens_backwards(lines, tokens, start): """ find_tokens_backwards(lines, token, start) -> int Return the highest line where token is found, and is the first element, in lines[end, start]. Return -1 on failure.""" for i in xrange(start, -1, -1): line = lines[i] for token in tokens: if line[:len(token)] == token: return i return -1 def get_value(lines, token, start, end = 0): """ get_value(lines, token, start[, end]) -> list of strings Return tokens after token for the first line, in lines, where token is the first element.""" i = find_token_exact(lines, token, start, end) if i == -1: return "" if len(lines[i].split()) > 1: return lines[i].split()[1] else: return "" def del_token(lines, token, start, end): """ del_token(lines, token, start, end) -> int Find the lower line in lines where token is the first element and delete that line. Returns the number of lines remaining.""" k = find_token_exact(lines, token, start, end) if k == -1: return end else: del lines[k] return end - 1 def find_beginning_of(lines, i, start_token, end_token): count = 1 while i > 0: i = find_tokens_backwards(lines, [start_token, end_token], i-1) if check_token(lines[i], end_token): count = count+1 else: count = count-1 if count == 0: return i return -1 def find_end_of(lines, i, start_token, end_token): count = 1 n = len(lines) while i < n: i = find_tokens(lines, [end_token, start_token], i+1) if check_token(lines[i], start_token): count = count+1 else: count = count-1 if count == 0: return i return -1 def find_nonempty_line(lines, start, end = 0): if end == 0: end = len(lines) for i in xrange(start, end): if is_nonempty_line(lines[i]): return i return -1