def _init(self): AbstractComponent._init(self) if self._showHelpOnly: return if self.xml: self.engine = enginefactory(self.name, self.xml) else: self.engine = None return
def _init(self): AbstractComponent._init(self) if self._showHelpOnly: return if self.xml: self.engine = enginefactory( self.name, self.xml) else: self.engine = None return
def _init(self): AbstractComponent._init(self) from mcni import neutron self.neutron = neutron( r = self.position, v = self.velocity, time = self.time, prob = self.probability, ) self.engine = enginefactory( self.name, self.neutron, dx = self.width, dy = self.height, dE = self.energy_width, ) return
def _init(self): AbstractComponent._init(self) from math import pi si = self.inventory self.engine = enginefactory( self.name, si.radius1, si.height1, si.radius2, si.height2, si.theta1/180*pi, si.theta2/180*pi, si.dtheta/180*pi, si.oscillation/180*pi, ) return
def _init(self): AbstractComponent._init(self) from math import pi si = self.inventory self.engine = enginefactory( self.name, si.radius1, si.height1, si.radius2, si.height2, si.theta1 / 180 * pi, si.theta2 / 180 * pi, si.dtheta / 180 * pi, si.oscillation / 180 * pi, ) return
def _init(self): AbstractComponent._init(self) from mcni import neutron self.neutron = neutron( r=self.position, v=self.velocity, time=self.time, prob=self.probability, ) self.engine = enginefactory( self.name, self.neutron, dx=self.width, dy=self.height, dE=self.energy_width, ) return
def _init(self): AbstractComponent._init(self) if self._showHelpOnly: return self.engine = enginefactory( self.name, self.path ) return
def _init(self): AbstractComponent._init(self) self.engine = enginefactory(self.name) return
def _init(self): AbstractComponent._init(self) self.engine = enginefactory(self.name) return