# Copyright (C) 2011, 2012 Google Inc. # # This file is part of YouCompleteMe. # # YouCompleteMe 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 3 of the License, or # (at your option) any later version. # # YouCompleteMe 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 YouCompleteMe. If not, see . from __future__ import unicode_literals from __future__ import print_function from __future__ import division from __future__ import absolute_import # Not installing aliases from python-future; it's unreliable and slow. from builtins import * # noqa from future.utils import iteritems from ycm import vimsupport from ycmd import user_options_store from ycmd import identifier_utils YCM_VAR_PREFIX = 'ycm_' def BuildServerConf(): """Builds a dictionary mapping YCM Vim user options to values. Option names don't have the 'ycm_' prefix.""" # We only evaluate the keys of the vim globals and not the whole dictionary # to avoid unicode issues. # See https://github.com/Valloric/YouCompleteMe/pull/2151 for details. keys = vimsupport.GetVimGlobalsKeys() server_conf = {} for key in keys: if not key.startswith( YCM_VAR_PREFIX ): continue new_key = key[ len( YCM_VAR_PREFIX ): ] new_value = vimsupport.VimExpressionToPythonType( 'g:' + key ) server_conf[ new_key ] = new_value return server_conf def LoadJsonDefaultsIntoVim(): defaults = user_options_store.DefaultOptions() for key, value in iteritems( defaults ): new_key = 'g:ycm_' + key if not vimsupport.VariableExists( new_key ): vimsupport.SetVariableValue( new_key, value ) def CurrentIdentifierFinished(): line, current_column = vimsupport.CurrentLineContentsAndCodepointColumn() previous_char_index = current_column - 1 if previous_char_index < 0: return True filetype = vimsupport.CurrentFiletypes()[ 0 ] regex = identifier_utils.IdentifierRegexForFiletype( filetype ) for match in regex.finditer( line ): if match.end() == previous_char_index: return True # If the whole line is whitespace, that means the user probably finished an # identifier on the previous line. return line[ : current_column ].isspace() def LastEnteredCharIsIdentifierChar(): line, current_column = vimsupport.CurrentLineContentsAndCodepointColumn() if current_column - 1 < 0: return False filetype = vimsupport.CurrentFiletypes()[ 0 ] return ( identifier_utils.StartOfLongestIdentifierEndingAtIndex( line, current_column, filetype ) != current_column ) def AdjustCandidateInsertionText( candidates ): """This function adjusts the candidate insertion text to take into account the text that's currently in front of the cursor. For instance ('|' represents the cursor): 1. Buffer state: 'foo.|bar' 2. A completion candidate of 'zoobar' is shown and the user selects it. 3. Buffer state: 'foo.zoobar|bar' instead of 'foo.zoo|bar' which is what the user wanted. This function changes candidates to resolve that issue. It could be argued that the user actually wants the final buffer state to be 'foo.zoobar|' (the cursor at the end), but that would be much more difficult to implement and is probably not worth doing. """ def NewCandidateInsertionText( to_insert, text_after_cursor ): overlap_len = OverlapLength( to_insert, text_after_cursor ) if overlap_len: return to_insert[ :-overlap_len ] return to_insert text_after_cursor = vimsupport.TextAfterCursor() if not text_after_cursor: return candidates new_candidates = [] for candidate in candidates: new_candidate = candidate.copy() if 'abbr' not in new_candidate: new_candidate[ 'abbr' ] = new_candidate[ 'word' ] new_candidate[ 'word' ] = NewCandidateInsertionText( new_candidate[ 'word' ], text_after_cursor ) new_candidates.append( new_candidate ) return new_candidates def OverlapLength( left_string, right_string ): """Returns the length of the overlap between two strings. Example: "foo baro" and "baro zoo" -> 4 """ left_string_length = len( left_string ) right_string_length = len( right_string ) if not left_string_length or not right_string_length: return 0 # Truncate the longer string. if left_string_length > right_string_length: left_string = left_string[ -right_string_length: ] elif left_string_length < right_string_length: right_string = right_string[ :left_string_length ] if left_string == right_string: return min( left_string_length, right_string_length ) # Start by looking for a single character match # and increase length until no match is found. best = 0 length = 1 while True: pattern = left_string[ -length: ] found = right_string.find( pattern ) if found < 0: return best length += found if left_string[ -length: ] == right_string[ :length ]: best = length length += 1