def __init__(self, src="", id="", loglevel=0, debug=0): self.ckin = 0 self._owner = 0 self.verbose = 1 fname = os.path.basename(src) ff = os.path.splitext(fname) if src: root = XML.XML_Node(name='doc', src=src, preprocess=1, debug=debug) if id: s = root.child(id=id) else: s = root.child(name="phase") self._name = s['id'] # initialize the equation of state ThermoPhase.__init__(self, xml_phase=s) # initialize the kinetics model ph = [self] Kinetics.__init__(self, xml_phase=s, phases=ph) # initialize the transport model Transport.__init__(self, xml_phase=s, phase=self, model='', loglevel=loglevel)
def __init__(self, src="", id="", loglevel=0, debug=0): self.ckin = 0 self._owner = 0 self.verbose = 1 fname = os.path.basename(src) ff = os.path.splitext(fname) if src: root = XML.XML_Node(name="doc", src=src, preprocess=1, debug=debug) if id: s = root.child(id=id) else: s = root.child(name="phase") self._name = s["id"] # initialize the equation of state ThermoPhase.__init__(self, xml_phase=s) # initialize the kinetics model ph = [self] Kinetics.__init__(self, xml_phase=s, phases=ph) # initialize the transport model Transport.__init__(self, xml_phase=s, phase=self, model="", loglevel=loglevel)
def __init__(self, EPS, SIG, DIP, POL, ZROT, locator=None): Transport.__init__(self, EPS, SIG, DIP, POL, ZROT, locator) self.parameters = [] return