def __init__(self, num_choice_500s, num_specs): mapping = {} extras = [] defaults = {} w500 = get_500_words() spec_base = "" text_base = "" for k in range(0, num_choice_500s): extra_name = "giant_" + str(k) spec_base += " <" + extra_name + ">" text_base += " %(" + extra_name + ")s" extras.append(get_giant_choice(extra_name)) for i in range(0, num_specs): word = w500[i] mapping[word + spec_base] = R(Text(word + text_base), show=False) MergeRule.__init__(self, name="complexity test", mapping=mapping, extras=extras, defaults=defaults)
def __init__(self, name=None, mapping=None, extras=None, defaults=None, exported=None, refresh=True): MergeRule.__init__(self, name, mapping, extras, defaults, exported) self._merger = None if refresh: self.refresh()
def __init__(self, name=None, mapping=None, extras=None, defaults=None, exported=None, refresh=True): MergeRule.__init__(self, name, mapping, extras, defaults, exported) self._merger = None if refresh: self.refresh()
def __init__(self, nexus): self.nexus = nexus MergeRule.__init__( self, name="repeat that", extras=[IntegerRefST("n", 1, 50)], defaults={"n": 1}, mapping={ "again (<n> [(times|time)] | do)": R(Function(lambda n: self._create_asynchronous(n)), show=False) })
def __init__(self, nexus): self.nexus = nexus MergeRule.__init__( self, name="repeat that", extras=[IntegerRefST("n", 1, 50)], defaults={"n": 1}, mapping={ "again (<n> [(times|time)] | do)": R(Function(lambda n: self._create_asynchronous(n)), show=False) })
def reset(self, mapping): grammar = self._grammar # save reference because Grammar.remove_rule nullifies it ccr = self._merger is not None if grammar is not None and not ccr: grammar.unload() grammar.remove_rule(self) extras = self.extras.values() if self.extras is not None and len(self.extras)>0 else [IntegerRefST("n", 1, 50), Dictation("s")] defaults = self.defaults if self.defaults is not None and len(self.defaults)>0 else {"n":1} MergeRule.__init__(self, self.name, mapping, extras, defaults, self.exported, self.context) if ccr: self._merger.merge(2) # 2 is Inf.SELFMOD if grammar is not None and not ccr: grammar.add_rule(self) grammar.load()
def reset(self, mapping): grammar = self._grammar # save reference because Grammar.remove_rule nullifies it ccr = self._merger is not None if grammar is not None and not ccr: grammar.unload() grammar.remove_rule(self) extras = self.extras if self.extras else [IntegerRefST("n", 1, 50), Dictation("s")] defaults = self.defaults if self.defaults else { "n": 1 } MergeRule.__init__(self, self.name, mapping, extras, defaults, self.exported, self.context) if ccr: self._merger.merge(MergeInf.SELFMOD) if grammar is not None and not ccr: grammar.add_rule(self) grammar.load()
def __init__(self, num_choice_500s, num_specs): mapping = {} extras = [] defaults = {} w500 = get_500_words() spec_base = "" text_base = "" for k in range(0, num_choice_500s): extra_name = "giant_" + str(k) spec_base += " <" + extra_name + ">" text_base += " %(" + extra_name + ")s" extras.append(get_giant_choice(extra_name)) for i in range(0, num_specs): word = w500[i] mapping[word + spec_base] = R(Text(word + text_base), show=False) MergeRule.__init__(self, name="complexity test", mapping=mapping, extras=extras, defaults=defaults)