def initialize(self, missing=None, defaults={} ): "Initializes the TimeModel" self.mode = ruleparser.TIME BoolModel.initialize( self, missing=missing, defaults=defaults ) if not self.label_tokens: util.error( 'this mode of operation requires time labels for rules' ) self.gcd = util.list_gcd( self.ranks ) self.step = 0 self.times = [ 0 ]
def __init__(self, text, mode='plde'): # run the regular boolen engine for one step to detect syntax errors model = BoolModel(text=text, mode='sync') model.initialize(missing=util.randbool) model.iterate(steps=1) # onto the main initialization self.INIT_LINE = helper.init_line self.OVERRIDE = default_override self.DEFAULT_EQUATION = default_equation self.EXTRA_INIT = '' # setting up this engine BoolModel.__init__(self, text=text, mode=mode) self.dynamic_code = '*** not yet generated ***' self.lazy_data = {}
def __init__(self, text, mode='plde'): # run the regular boolen engine for one step to detect syntax errors model = BoolModel(text=text, mode='sync') model.initialize( missing=util.randbool ) model.iterate( steps=1 ) # onto the main initialization self.INIT_LINE = helper.init_line self.OVERRIDE = default_override self.DEFAULT_EQUATION = default_equation self.EXTRA_INIT = '' # setting up this engine BoolModel.__init__(self, text=text, mode=mode) self.dynamic_code = '*** not yet generated ***' self.lazy_data = {}
def initialize(self, missing=None, defaults={}): "Custom initializer" BoolModel.initialize(self, missing=missing, defaults=defaults) super(PldeModel, self).initialize(missing=missing, defaults=defaults) # will also maintain the order of insertion self.mapper = odict.odict() self.indexer = {} # this will maintain the order of nodes self.nodes = list(self.nodes) self.nodes.sort() for index, node in enumerate(self.nodes): triplet = self.first[node] self.mapper[node] = (index, node, triplet) self.indexer[node] = index # a sanity check assert self.nodes == self.mapper.keys()
def initialize(self, missing=None, defaults={} ): "Custom initializer" BoolModel.initialize( self, missing=missing, defaults=defaults ) # will also maintain the order of insertion self.mapper = odict.odict() self.indexer = {} # this will maintain the order of nodes self.nodes = list(self.nodes) self.nodes.sort() for index, node in enumerate(self.nodes): triplet = self.first[node] self.mapper [node] = ( index, node, triplet ) self.indexer[node] = index # a sanity check assert self.nodes == self.mapper.keys()