def completions(self):
"""
Return :class:`classes.Completion` objects. Those objects contain
information about the completions, more than just names.
:return: Completion objects, sorted by name.
:rtype: list of :class:`classes.Completion`
"""
debug.speed('completions start')
comps = self._evaluator.complete()
debug.speed('completions end')
return sorted(comps, key=lambda x: (x.name.lower()))
def completions(self):
"""
Return :class:`classes.Completion` objects. Those objects contain
information about the completions, more than just names.
:return: Completion objects, sorted by name.
:rtype: list of :class:`classes.Completion`
"""
debug.speed('completions start')
comps = self._evaluator.complete()
debug.speed('completions end')
return sorted(comps, key=lambda x: (x.name.lower()))
def __init__(self, source=None, line=None, column=None, path=None):
self._orig_path = path
self.path = None if path is None else os.path.abspath(path)
#Here we need to add support for tramp over SSH for the file that
#is being edited. We will have cached versions of the other modules
#in the global code cache, but we need to update the file being
#edited in that cache so that any other buffers with reference to
#this module being edited have the latest information.
if source is None:
source = cache.parser().tramp.read(path)
#This section makes sure that the argument we have from the buffer
#for the line number actually makes sense for the source code we have.
lines = source.splitlines() or ['']
if source and source[-1] == '\n':
lines.append('')
line = max(len(lines), 1) if line is None else line
if not (0 < line <= len(lines)):
raise ValueError('`line` parameter is not in a valid range.')
#Same thing as above, except we are checking validity of column.
line_len = len(lines[line - 1])
column = line_len if column is None else column
if not (0 <= column <= line_len):
raise ValueError('`column` parameter is not in a valid range.')
self._pos = line - 1, column
#Clear the time dependent caches. These are things we cached related
#to completion but *not* to parsing. This is because multiple calls
#can be made for completion of a symbol while on the same line of code.
cache.clear_caches()
#This is the timing module for the parsing etc. to find bottlenecks
#and help optimize the code. It sets the timer to zero.
debug.reset_time()
#This is the actual parsing of the source file using the fortpy parsers
#NOTE: to avoid errors in pre-optimization, I will leave this like so
#We can use some cache control on the UserContext later to speed things up. TODO
if cache.parser().tramp.is_ssh(path):
parser_key = "ssh"
else:
parser_key = "default"
self._user_context = context.UserContext(source, self._pos,
self._orig_path, parser_key)
self._evaluator = evaluator.Evaluator(self._user_context, self._pos)
#Time how long all that parsing took.
debug.speed('init')
def __init__(self, source=None, line=None, column=None, path=None):
self._orig_path = path
self.path = None if path is None else os.path.abspath(path)
#Here we need to add support for tramp over SSH for the file that
#is being edited. We will have cached versions of the other modules
#in the global code cache, but we need to update the file being
#edited in that cache so that any other buffers with reference to
#this module being edited have the latest information.
if source is None:
source = cache.parser().tramp.read(path)
#This section makes sure that the argument we have from the buffer
#for the line number actually makes sense for the source code we have.
lines = source.splitlines() or ['']
if source and source[-1] == '\n':
lines.append('')
line = max(len(lines), 1) if line is None else line
if not (0 < line <= len(lines)):
raise ValueError('`line` parameter is not in a valid range.')
#Same thing as above, except we are checking validity of column.
line_len = len(lines[line - 1])
column = line_len if column is None else column
if not (0 <= column <= line_len):
raise ValueError('`column` parameter is not in a valid range.')
self._pos = line-1, column
#Clear the time dependent caches. These are things we cached related
#to completion but *not* to parsing. This is because multiple calls
#can be made for completion of a symbol while on the same line of code.
cache.clear_caches()
#This is the timing module for the parsing etc. to find bottlenecks
#and help optimize the code. It sets the timer to zero.
debug.reset_time()
#This is the actual parsing of the source file using the fortpy parsers
#NOTE: to avoid errors in pre-optimization, I will leave this like so
#We can use some cache control on the UserContext later to speed things up. TODO
if cache.parser().tramp.is_ssh(path):
parser_key = "ssh"
else:
parser_key = "default"
self._user_context = context.UserContext(source, self._pos,
self._orig_path, parser_key)
self._evaluator = evaluator.Evaluator(self._user_context, self._pos)
#Time how long all that parsing took.
debug.speed('init')
