import parsing import __builtin__ import itertools class Arr(object): """ - caching one function - iterating over arrays objects - test """ cache = [] def __init__(self, scope, ): self.counter = 0 self.types = [] # each an array, like: [[list], [A,B]] def __iter__(self): return self def next(self): if self.counter < len(Arr.cache): return Arr.cache[self.counter] else: if blub: Arr.cache.append(1) self.counter += 1 return Arr.cache[self.counter] else: raise StopIteration def get_names_for_scope(scope): """ Get all completions possible for the current scope. """ compl = [] start_scope = scope while scope: # class variables/functions are only availabe if not isinstance(scope, parsing.Class) or scope == start_scope: compl += scope.get_set_vars() scope = scope.parent return compl # default: name in scope # point: chaining # execution: -> eval returns default & ? def follow_statement(scope, stmt): arr = stmt.get_assignment_calls().values[0][0] print arr path = arr.generate_call_list() path, path_print = itertools.tee(path) print '\n\ncalls:' for c in path_print: print c print '\n\nfollow' current = next(path) result = [] if isinstance(current, parsing.Array): if current.arr_type == parsing.Array.EMPTY: # the normal case - no array type print 'length', len(current) elif current.arr_type == parsing.Array.LIST: result.append(__builtin__.list()) elif current.arr_type == parsing.Array.SET: result.append(__builtin__.set()) elif current.arr_type == parsing.Array.TUPLE: result.append(__builtin__.tuple()) elif current.arr_type == parsing.Array.DICT: result.append(__builtin__.dict()) else: print current pass print result result = follow_paths(path, result) print result exit() return result def follow_paths(path, results): results_new = [] try: if len(results) > 1: iter_paths = itertools.tee(path, len(results)) else: iter_paths = [path] for i, r in enumerate(results): results_new += follow_path(iter_paths[i], r) except StopIteration: return results return results_new def follow_path(path, result): current = next(path) #result = [] result = follow_paths(path, result) return result def follow_array(scope, array): yield 1 def follow_path_old(scope, path): """ Follow a path of python names. recursive! :returns: list(Scope) """ compl = get_names_for_scope(scope) print path, compl path = list(path) name = path.pop(0) scopes = [] # make the full comparison, because the names have to match exactly compl = [c for c in compl if [name] == list(c.names)] # TODO differentiate between the different comp input (some are overridden) for c in compl: p_class = c.parent.__class__ if p_class == parsing.Class or p_class == parsing.Scope: scopes.append(c.parent) #elif p_class == parsing.Function: elif p_class == parsing.Statement: print 'state', c.parent.token_list, c.parent.get_assignment_calls() pass else: print 'error follow_path:', p_class, repr(c.parent) if path: new_scopes = [] for s in tuple(scopes): new_scopes += follow_path(s, tuple(path)) scopes = new_scopes return set(scopes) def _parseassignment(self): """ TODO remove or replace, at the moment not used """ assign = '' token_type, tok, indent = self.next() if token_type == tokenize.STRING or tok == 'str': return '""' elif tok == '(' or tok == 'tuple': return '()' elif tok == '[' or tok == 'list': return '[]' elif tok == '{' or tok == 'dict': return '{}' elif token_type == tokenize.NUMBER: return '0' elif tok == 'open' or tok == 'file': return 'file' elif tok == 'None': return '_PyCmplNoType()' elif tok == 'type': return 'type(_PyCmplNoType)' # only for method resolution else: assign += tok level = 0 while True: token_type, tok, indent = self.next() if tok in ('(', '{', '['): level += 1 elif tok in (']', '}', ')'): level -= 1 if level == 0: break elif level == 0: if tok in (';', '\n'): break assign += tok return "%s" % assign def dbg(*args): if debug_function: debug_function(*args) debug_function = None