YouCompleteMe/python/completers/cpp/clang_completer.py
Johann Klähn e9cce29761 Ask before loading .ycm_extra_conf.py files
To prevent the execution of malicious code the new default is
to ask the user before a `.ycm_extra_conf.py` file is loaded.
This can be disabled using the option `g:ycm_confirm_extra_conf`.

This commit introduces a helper class `FlagsModules` that keeps track of
and caches the currently loaded modules. To introduce further criteria
for a module look at `FlagsModules.ShouldLoad`.

Also `:YcmDebugInfo` now lists the file that was used to determine
the current set of flags.

`Flags.ModuleForFile` could be used in a user-facing command that
opens the `.ycm_extra_conf.py` corresponding to the current file.
A second command could then force a reloding of this module via
`Flags.ReloadModule`.
2013-02-26 11:16:26 +01:00

251 lines
7.8 KiB
Python

#!/usr/bin/env python
#
# Copyright (C) 2011, 2012 Strahinja Val Markovic <val@markovic.io>
#
# 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 <http://www.gnu.org/licenses/>.
from completers.completer import Completer
from collections import defaultdict
import vim
import vimsupport
import ycm_core
from flags import Flags
CLANG_FILETYPES = set( [ 'c', 'cpp', 'objc', 'objcpp' ] )
MAX_DIAGNOSTICS_TO_DISPLAY = int( vimsupport.GetVariableValue(
"g:ycm_max_diagnostics_to_display" ) )
class ClangCompleter( Completer ):
def __init__( self ):
super( ClangCompleter, self ).__init__()
self.completer = ycm_core.ClangCompleter()
self.completer.EnableThreading()
self.contents_holder = []
self.filename_holder = []
self.last_prepared_diagnostics = []
self.parse_future = None
self.flags = Flags()
self.diagnostic_store = None
def SupportedFiletypes( self ):
return CLANG_FILETYPES
def GetUnsavedFilesVector( self ):
# CAREFUL HERE! For UnsavedFile filename and contents we are referring
# directly to Python-allocated and -managed memory since we are accepting
# pointers to data members of python objects. We need to ensure that those
# objects outlive our UnsavedFile objects. This is why we need the
# contents_holder and filename_holder lists, to make sure the string objects
# are still around when we call CandidatesForQueryAndLocationInFile. We do
# this to avoid an extra copy of the entire file contents.
files = ycm_core.UnsavedFileVec()
self.contents_holder = []
self.filename_holder = []
for buffer in vimsupport.GetUnsavedBuffers():
if not ClangAvailableForBuffer( buffer ):
continue
contents = '\n'.join( buffer )
name = buffer.name
if not contents or not name:
continue
self.contents_holder.append( contents )
self.filename_holder.append( name )
unsaved_file = ycm_core.UnsavedFile()
unsaved_file.contents_ = self.contents_holder[ -1 ]
unsaved_file.length_ = len( self.contents_holder[ -1 ] )
unsaved_file.filename_ = self.filename_holder[ -1 ]
files.append( unsaved_file )
return files
def CandidatesForQueryAsync( self, query ):
filename = vim.current.buffer.name
if not filename:
return
if self.completer.UpdatingTranslationUnit( filename ):
vimsupport.PostVimMessage( 'Still parsing file, no completions yet.' )
self.completions_future = None
return
flags = self.flags.FlagsForFile( filename )
if not flags:
vimsupport.PostVimMessage( 'Still no compile flags, no completions yet.' )
self.completions_future = None
return
# TODO: sanitize query, probably in C++ code
files = ycm_core.UnsavedFileVec()
if not query:
files = self.GetUnsavedFilesVector()
line, _ = vim.current.window.cursor
# TODO: this should be a function parameter
column = int( vim.eval( "s:completion_start_column" ) ) + 1
self.completions_future = (
self.completer.CandidatesForQueryAndLocationInFileAsync(
query,
filename,
line,
column,
files,
flags ) )
def CandidatesFromStoredRequest( self ):
if not self.completions_future:
return []
results = [ CompletionDataToDict( x ) for x in
self.completions_future.GetResults() ]
if not results:
vimsupport.PostVimMessage( 'No completions found; errors in the file?' )
return results
def OnFileReadyToParse( self ):
if vimsupport.NumLinesInBuffer( vim.current.buffer ) < 5:
self.parse_future = None
return
filename = vim.current.buffer.name
if not filename:
return
if self.completer.UpdatingTranslationUnit( filename ):
return
flags = self.flags.FlagsForFile( filename )
if not flags:
self.parse_future = None
return
self.parse_future = self.completer.UpdateTranslationUnitAsync(
filename,
self.GetUnsavedFilesVector(),
flags )
def DiagnosticsForCurrentFileReady( self ):
if not self.parse_future:
return False
return self.parse_future.ResultsReady()
def GettingCompletions( self ):
return self.completer.UpdatingTranslationUnit( vim.current.buffer.name )
def GetDiagnosticsForCurrentFile( self ):
if self.DiagnosticsForCurrentFileReady():
diagnostics = self.completer.DiagnosticsForFile( vim.current.buffer.name )
self.diagnostic_store = DiagnosticsToDiagStructure( diagnostics )
self.last_prepared_diagnostics = [ DiagnosticToDict( x ) for x in
diagnostics[ : MAX_DIAGNOSTICS_TO_DISPLAY ] ]
self.parse_future = None
return self.last_prepared_diagnostics
def ShowDetailedDiagnostic( self ):
current_line, current_column = vimsupport.CurrentLineAndColumn()
# CurrentLineAndColumn() numbers are 0-based, clang numbers are 1-based
current_line += 1
current_column += 1
current_file = vim.current.buffer.name
if not self.diagnostic_store:
vimsupport.PostVimMessage( "No diagnostic for current line!" )
return
diagnostics = self.diagnostic_store[ current_file ][ current_line ]
if not diagnostics:
vimsupport.PostVimMessage( "No diagnostic for current line!" )
return
closest_diagnostic = None
distance_to_closest_diagnostic = 999
for diagnostic in diagnostics:
distance = abs( current_column - diagnostic.column_number_ )
if distance < distance_to_closest_diagnostic:
distance_to_closest_diagnostic = distance
closest_diagnostic = diagnostic
vimsupport.EchoText( closest_diagnostic.long_formatted_text_ )
def ShouldUseNow( self, start_column ):
# We don't want to use the Completer API cache, we use one in the C++ code.
return self.ShouldUseNowInner( start_column )
def DebugInfo( self ):
filename = vim.current.buffer.name
flags = self.flags.FlagsForFile( filename ) or []
source = self.flags.ModuleForFile( filename )
return 'Flags for {0} loaded from {1}:\n{2}'.format( filename, source, list( flags ) )
# TODO: make these functions module-local
def CompletionDataToDict( completion_data ):
# see :h complete-items for a description of the dictionary fields
return {
'word' : completion_data.TextToInsertInBuffer(),
'abbr' : completion_data.MainCompletionText(),
'menu' : completion_data.ExtraMenuInfo(),
'kind' : completion_data.kind_,
'info' : completion_data.DetailedInfoForPreviewWindow(),
'dup' : 1,
}
def DiagnosticToDict( diagnostic ):
# see :h getqflist for a description of the dictionary fields
return {
# TODO: wrap the bufnr generation into a function
'bufnr' : int( vim.eval( "bufnr('{0}', 1)".format(
diagnostic.filename_ ) ) ),
'lnum' : diagnostic.line_number_,
'col' : diagnostic.column_number_,
'text' : diagnostic.text_,
'type' : diagnostic.kind_,
'valid' : 1
}
def DiagnosticsToDiagStructure( diagnostics ):
structure = defaultdict(lambda : defaultdict(list))
for diagnostic in diagnostics:
structure[ diagnostic.filename_ ][ diagnostic.line_number_ ].append(
diagnostic )
return structure
def ClangAvailableForBuffer( buffer_object ):
filetype = vim.eval( 'getbufvar({0}, "&ft")'.format( buffer_object.number ) )
return filetype in CLANG_FILETYPES