def __init__( self, mag=-1, struct=-1, name="", desc="", machine=-1, input=-1, init_dict=None ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if mag == -1: mag = Magnetics() if struct == -1: struct = Structural() if machine == -1: machine = Machine() if input == -1: input = Input() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, ["mag", "struct", "name", "desc", "machine", "input"] ) # Overwrite default value with init_dict content if "mag" in list(init_dict.keys()): mag = init_dict["mag"] if "struct" in list(init_dict.keys()): struct = init_dict["struct"] if "name" in list(init_dict.keys()): name = init_dict["name"] if "desc" in list(init_dict.keys()): desc = init_dict["desc"] if "machine" in list(init_dict.keys()): machine = init_dict["machine"] if "input" in list(init_dict.keys()): input = init_dict["input"] # Initialisation by argument # mag can be None, a Magnetics object or a dict if isinstance(mag, dict): # Check that the type is correct (including daughter) class_name = mag.get("__class__") if class_name not in ["Magnetics", "MagFEMM"]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for mag" ) # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.mag = class_obj(init_dict=mag) else: self.mag = mag # struct can be None, a Structural object or a dict if isinstance(struct, dict): self.struct = Structural(init_dict=struct) else: self.struct = struct # Call Simulation init super(Simu1, self).__init__(name=name, desc=desc, machine=machine, input=input)
def __init__(self, line_list=list(), point_ref=0, label="", init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["line_list", "point_ref", "label"]) # Overwrite default value with init_dict content if "line_list" in list(init_dict.keys()): line_list = init_dict["line_list"] if "point_ref" in list(init_dict.keys()): point_ref = init_dict["point_ref"] if "label" in list(init_dict.keys()): label = init_dict["label"] # Initialisation by argument # line_list can be None or a list of Line object self.line_list = list() if type(line_list) is list: for obj in line_list: if obj is None: # Default value self.line_list.append(Line()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in [ "Line", "Arc", "Arc1", "Arc2", "Arc3", "Segment", ]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for line_list") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.line_list.append(class_obj(init_dict=obj)) else: self.line_list.append(obj) elif line_list is None: self.line_list = list() else: self.line_list = line_list # Call Surface init super(SurfLine, self).__init__(point_ref=point_ref, label=label)
def __init__(self, force=-1, init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if force == -1: force = Force() if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["force"]) # Overwrite default value with init_dict content if "force" in list(init_dict.keys()): force = init_dict["force"] # Initialisation by argument self.parent = None # force can be None, a Force object or a dict if isinstance(force, dict): # Check that the type is correct (including daughter) class_name = force.get("__class__") if class_name not in ["Force", "ForceMT"]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for force") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.force = class_obj(init_dict=force) else: self.force = force # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__( self, mur_lin=1, Hc=0, Brm20=0, alpha_Br=0, Wlam=0, BH_curve=-1, init_dict=None ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if BH_curve == -1: BH_curve = ImportMatrix() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, ["mur_lin", "Hc", "Brm20", "alpha_Br", "Wlam", "BH_curve"] ) # Overwrite default value with init_dict content if "mur_lin" in list(init_dict.keys()): mur_lin = init_dict["mur_lin"] if "Hc" in list(init_dict.keys()): Hc = init_dict["Hc"] if "Brm20" in list(init_dict.keys()): Brm20 = init_dict["Brm20"] if "alpha_Br" in list(init_dict.keys()): alpha_Br = init_dict["alpha_Br"] if "Wlam" in list(init_dict.keys()): Wlam = init_dict["Wlam"] if "BH_curve" in list(init_dict.keys()): BH_curve = init_dict["BH_curve"] # Initialisation by argument self.parent = None self.mur_lin = mur_lin self.Hc = Hc self.Brm20 = Brm20 self.alpha_Br = alpha_Br self.Wlam = Wlam # BH_curve can be None, a ImportMatrix object or a dict if isinstance(BH_curve, dict): # Check that the type is correct (including daughter) class_name = BH_curve.get("__class__") if class_name not in [ "ImportMatrix", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for BH_curve" ) # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.BH_curve = class_obj(init_dict=BH_curve) else: self.BH_curve = BH_curve # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__( self, H0=0.003, W0=0.003, H1=0, W3=0.013, H2=0.02, magnet_0=-1, Zh=36, mat_void=-1, init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if magnet_0 == -1: magnet_0 = Magnet() if mat_void == -1: mat_void = Material() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, ["H0", "W0", "H1", "W3", "H2", "magnet_0", "Zh", "mat_void"]) # Overwrite default value with init_dict content if "H0" in list(init_dict.keys()): H0 = init_dict["H0"] if "W0" in list(init_dict.keys()): W0 = init_dict["W0"] if "H1" in list(init_dict.keys()): H1 = init_dict["H1"] if "W3" in list(init_dict.keys()): W3 = init_dict["W3"] if "H2" in list(init_dict.keys()): H2 = init_dict["H2"] if "magnet_0" in list(init_dict.keys()): magnet_0 = init_dict["magnet_0"] if "Zh" in list(init_dict.keys()): Zh = init_dict["Zh"] if "mat_void" in list(init_dict.keys()): mat_void = init_dict["mat_void"] # Initialisation by argument self.H0 = H0 self.W0 = W0 self.H1 = H1 self.W3 = W3 self.H2 = H2 # magnet_0 can be None, a Magnet object or a dict if isinstance(magnet_0, dict): # Check that the type is correct (including daughter) class_name = magnet_0.get("__class__") if class_name not in [ "Magnet", "MagnetFlat", "MagnetPolar", "MagnetType10", "MagnetType11", "MagnetType12", "MagnetType13", "MagnetType14", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for magnet_0") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.magnet_0 = class_obj(init_dict=magnet_0) else: self.magnet_0 = magnet_0 # Call HoleMag init super(HoleM52, self).__init__(Zh=Zh, mat_void=mat_void)
def __init__(self, W0=0.314, H0=0, magnet=list(), W3=0, Zs=36, init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["W0", "H0", "magnet", "W3", "Zs"]) # Overwrite default value with init_dict content if "W0" in list(init_dict.keys()): W0 = init_dict["W0"] if "H0" in list(init_dict.keys()): H0 = init_dict["H0"] if "magnet" in list(init_dict.keys()): magnet = init_dict["magnet"] if "W3" in list(init_dict.keys()): W3 = init_dict["W3"] if "Zs" in list(init_dict.keys()): Zs = init_dict["Zs"] # Initialisation by argument self.W0 = W0 self.H0 = H0 # magnet can be None or a list of MagnetPolar object self.magnet = list() if type(magnet) is list: for obj in magnet: if obj is None: # Default value self.magnet.append(MagnetPolar()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in [ "MagnetPolar", "MagnetType11", "MagnetType14", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for magnet") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.magnet.append(class_obj(init_dict=obj)) else: self.magnet.append(obj) elif magnet is None: self.magnet = list() else: self.magnet = magnet # Call SlotMag init super(SlotMPolar, self).__init__(W3=W3, Zs=Zs)
def __init__( self, slot_list=list(), alpha=None, L1=0.35, mat_type=-1, Nrvd=0, Wrvd=0, Kf1=0.95, is_internal=True, Rint=0, Rext=1, is_stator=True, axial_vent=list(), notch=list(), init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if mat_type == -1: mat_type = Material() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, [ "slot_list", "alpha", "L1", "mat_type", "Nrvd", "Wrvd", "Kf1", "is_internal", "Rint", "Rext", "is_stator", "axial_vent", "notch", ], ) # Overwrite default value with init_dict content if "slot_list" in list(init_dict.keys()): slot_list = init_dict["slot_list"] if "alpha" in list(init_dict.keys()): alpha = init_dict["alpha"] if "L1" in list(init_dict.keys()): L1 = init_dict["L1"] if "mat_type" in list(init_dict.keys()): mat_type = init_dict["mat_type"] if "Nrvd" in list(init_dict.keys()): Nrvd = init_dict["Nrvd"] if "Wrvd" in list(init_dict.keys()): Wrvd = init_dict["Wrvd"] if "Kf1" in list(init_dict.keys()): Kf1 = init_dict["Kf1"] if "is_internal" in list(init_dict.keys()): is_internal = init_dict["is_internal"] if "Rint" in list(init_dict.keys()): Rint = init_dict["Rint"] if "Rext" in list(init_dict.keys()): Rext = init_dict["Rext"] if "is_stator" in list(init_dict.keys()): is_stator = init_dict["is_stator"] if "axial_vent" in list(init_dict.keys()): axial_vent = init_dict["axial_vent"] if "notch" in list(init_dict.keys()): notch = init_dict["notch"] # Initialisation by argument # slot_list can be None or a list of Slot object self.slot_list = list() if type(slot_list) is list: for obj in slot_list: if obj is None: # Default value self.slot_list.append(Slot()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in [ "Slot", "Slot19", "SlotMFlat", "SlotMPolar", "SlotMag", "SlotUD", "SlotW10", "SlotW11", "SlotW12", "SlotW13", "SlotW14", "SlotW15", "SlotW16", "SlotW21", "SlotW22", "SlotW23", "SlotW24", "SlotW25", "SlotW26", "SlotW27", "SlotW28", "SlotW29", "SlotW60", "SlotW61", "SlotWind", ]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for slot_list") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.slot_list.append(class_obj(init_dict=obj)) else: self.slot_list.append(obj) elif slot_list is None: self.slot_list = list() else: self.slot_list = slot_list # alpha can be None, a ndarray or a list set_array(self, "alpha", alpha) # Call Lamination init super(LamSlotMulti, self).__init__( L1=L1, mat_type=mat_type, Nrvd=Nrvd, Wrvd=Wrvd, Kf1=Kf1, is_internal=is_internal, Rint=Rint, Rext=Rext, is_stator=is_stator, axial_vent=axial_vent, notch=notch, )
def __init__( self, is_reverse_wind=False, Nslot_shift_wind=0, qs=3, Ntcoil=7, Npcpp=2, type_connection=0, p=3, Lewout=0.015, conductor=-1, init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if conductor == -1: conductor = Conductor() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, [ "is_reverse_wind", "Nslot_shift_wind", "qs", "Ntcoil", "Npcpp", "type_connection", "p", "Lewout", "conductor", ], ) # Overwrite default value with init_dict content if "is_reverse_wind" in list(init_dict.keys()): is_reverse_wind = init_dict["is_reverse_wind"] if "Nslot_shift_wind" in list(init_dict.keys()): Nslot_shift_wind = init_dict["Nslot_shift_wind"] if "qs" in list(init_dict.keys()): qs = init_dict["qs"] if "Ntcoil" in list(init_dict.keys()): Ntcoil = init_dict["Ntcoil"] if "Npcpp" in list(init_dict.keys()): Npcpp = init_dict["Npcpp"] if "type_connection" in list(init_dict.keys()): type_connection = init_dict["type_connection"] if "p" in list(init_dict.keys()): p = init_dict["p"] if "Lewout" in list(init_dict.keys()): Lewout = init_dict["Lewout"] if "conductor" in list(init_dict.keys()): conductor = init_dict["conductor"] # Initialisation by argument self.parent = None self.is_reverse_wind = is_reverse_wind self.Nslot_shift_wind = Nslot_shift_wind self.qs = qs self.Ntcoil = Ntcoil self.Npcpp = Npcpp self.type_connection = type_connection self.p = p self.Lewout = Lewout # conductor can be None, a Conductor object or a dict if isinstance(conductor, dict): # Check that the type is correct (including daughter) class_name = conductor.get("__class__") if class_name not in [ "Conductor", "CondType11", "CondType12", "CondType21", "CondType22", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for conductor") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.conductor = class_obj(init_dict=conductor) else: self.conductor = conductor # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__(self, alpha=0, notch_shape=-1, init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if notch_shape == -1: notch_shape = Slot() if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["alpha", "notch_shape"]) # Overwrite default value with init_dict content if "alpha" in list(init_dict.keys()): alpha = init_dict["alpha"] if "notch_shape" in list(init_dict.keys()): notch_shape = init_dict["notch_shape"] # Initialisation by argument self.alpha = alpha # notch_shape can be None, a Slot object or a dict if isinstance(notch_shape, dict): # Check that the type is correct (including daughter) class_name = notch_shape.get("__class__") if class_name not in [ "Slot", "Slot19", "SlotMFlat", "SlotMPolar", "SlotMag", "SlotUD", "SlotW10", "SlotW11", "SlotW12", "SlotW13", "SlotW14", "SlotW15", "SlotW16", "SlotW21", "SlotW22", "SlotW23", "SlotW24", "SlotW25", "SlotW26", "SlotW27", "SlotW28", "SlotW29", "SlotW60", "SlotW61", "SlotWind", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for notch_shape") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.notch_shape = class_obj(init_dict=notch_shape) else: self.notch_shape = notch_shape # Call Notch init super(NotchEvenDist, self).__init__()
def __init__(self, name="", desc="", machine=-1, input=-1, init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if machine == -1: machine = Machine() if input == -1: input = Input() if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["name", "desc", "machine", "input"]) # Overwrite default value with init_dict content if "name" in list(init_dict.keys()): name = init_dict["name"] if "desc" in list(init_dict.keys()): desc = init_dict["desc"] if "machine" in list(init_dict.keys()): machine = init_dict["machine"] if "input" in list(init_dict.keys()): input = init_dict["input"] # Initialisation by argument self.parent = None self.name = name self.desc = desc # machine can be None, a Machine object or a dict if isinstance(machine, dict): # Check that the type is correct (including daughter) class_name = machine.get("__class__") if class_name not in [ "Machine", "MachineAsync", "MachineDFIM", "MachineIPMSM", "MachineSCIM", "MachineSIPMSM", "MachineSRM", "MachineSyRM", "MachineSync", "MachineUD", "MachineWRSM", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for machine") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.machine = class_obj(init_dict=machine) else: self.machine = machine # input can be None, a Input object or a dict if isinstance(input, dict): # Check that the type is correct (including daughter) class_name = input.get("__class__") if class_name not in [ "Input", "InCurrent", "InCurrentDQ", "InFlux", "InForce", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for input") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.input = class_obj(init_dict=input) else: self.input = input # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__(self, time=None, angle=None, Br=None, Bt=None, init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if time == -1: time = Import() if angle == -1: angle = Import() if Br == -1: Br = Import() if Bt == -1: Bt = Import() if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["time", "angle", "Br", "Bt"]) # Overwrite default value with init_dict content if "time" in list(init_dict.keys()): time = init_dict["time"] if "angle" in list(init_dict.keys()): angle = init_dict["angle"] if "Br" in list(init_dict.keys()): Br = init_dict["Br"] if "Bt" in list(init_dict.keys()): Bt = init_dict["Bt"] # Initialisation by argument # time can be None, a Import object or a dict if isinstance(time, dict): # Check that the type is correct (including daughter) class_name = time.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for time") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.time = class_obj(init_dict=time) else: self.time = time # angle can be None, a Import object or a dict if isinstance(angle, dict): # Check that the type is correct (including daughter) class_name = angle.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for angle") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.angle = class_obj(init_dict=angle) else: self.angle = angle # Br can be None, a Import object or a dict if isinstance(Br, dict): # Check that the type is correct (including daughter) class_name = Br.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for Br") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.Br = class_obj(init_dict=Br) else: self.Br = Br # Bt can be None, a Import object or a dict if isinstance(Bt, dict): # Check that the type is correct (including daughter) class_name = Bt.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for Bt") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.Bt = class_obj(init_dict=Bt) else: self.Bt = Bt # Call Input init super(InFlux, self).__init__()
def __init__( self, time=None, angle=None, Is=None, Ir=None, angle_rotor=None, Nr=None, rot_dir=-1, angle_rotor_initial=0, init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if time == -1: time = Import() if angle == -1: angle = Import() if Is == -1: Is = Import() if Ir == -1: Ir = Import() if angle_rotor == -1: angle_rotor = Import() if Nr == -1: Nr = Import() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, [ "time", "angle", "Is", "Ir", "angle_rotor", "Nr", "rot_dir", "angle_rotor_initial", ], ) # Overwrite default value with init_dict content if "time" in list(init_dict.keys()): time = init_dict["time"] if "angle" in list(init_dict.keys()): angle = init_dict["angle"] if "Is" in list(init_dict.keys()): Is = init_dict["Is"] if "Ir" in list(init_dict.keys()): Ir = init_dict["Ir"] if "angle_rotor" in list(init_dict.keys()): angle_rotor = init_dict["angle_rotor"] if "Nr" in list(init_dict.keys()): Nr = init_dict["Nr"] if "rot_dir" in list(init_dict.keys()): rot_dir = init_dict["rot_dir"] if "angle_rotor_initial" in list(init_dict.keys()): angle_rotor_initial = init_dict["angle_rotor_initial"] # Initialisation by argument # time can be None, a Import object or a dict if isinstance(time, dict): # Check that the type is correct (including daughter) class_name = time.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for time") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.time = class_obj(init_dict=time) else: self.time = time # angle can be None, a Import object or a dict if isinstance(angle, dict): # Check that the type is correct (including daughter) class_name = angle.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for angle") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.angle = class_obj(init_dict=angle) else: self.angle = angle # Is can be None, a Import object or a dict if isinstance(Is, dict): # Check that the type is correct (including daughter) class_name = Is.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for Is") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.Is = class_obj(init_dict=Is) else: self.Is = Is # Ir can be None, a Import object or a dict if isinstance(Ir, dict): # Check that the type is correct (including daughter) class_name = Ir.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for Ir") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.Ir = class_obj(init_dict=Ir) else: self.Ir = Ir # angle_rotor can be None, a Import object or a dict if isinstance(angle_rotor, dict): # Check that the type is correct (including daughter) class_name = angle_rotor.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for angle_rotor") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.angle_rotor = class_obj(init_dict=angle_rotor) else: self.angle_rotor = angle_rotor # Nr can be None, a Import object or a dict if isinstance(Nr, dict): # Check that the type is correct (including daughter) class_name = Nr.get("__class__") if class_name not in [ "Import", "ImportGenMatrixSin", "ImportGenVectLin", "ImportGenVectSin", "ImportMatlab", "ImportMatrix", "ImportMatrixVal", "ImportMatrixXls", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for Nr") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.Nr = class_obj(init_dict=Nr) else: self.Nr = Nr self.rot_dir = rot_dir self.angle_rotor_initial = angle_rotor_initial # Call Input init super(InCurrent, self).__init__()
def __init__( self, L1=0.35, mat_type=-1, Nrvd=0, Wrvd=0, Kf1=0.95, is_internal=True, Rint=0, Rext=1, is_stator=True, axial_vent=list(), notch=list(), init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if mat_type == -1: mat_type = Material() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, [ "L1", "mat_type", "Nrvd", "Wrvd", "Kf1", "is_internal", "Rint", "Rext", "is_stator", "axial_vent", "notch", ], ) # Overwrite default value with init_dict content if "L1" in list(init_dict.keys()): L1 = init_dict["L1"] if "mat_type" in list(init_dict.keys()): mat_type = init_dict["mat_type"] if "Nrvd" in list(init_dict.keys()): Nrvd = init_dict["Nrvd"] if "Wrvd" in list(init_dict.keys()): Wrvd = init_dict["Wrvd"] if "Kf1" in list(init_dict.keys()): Kf1 = init_dict["Kf1"] if "is_internal" in list(init_dict.keys()): is_internal = init_dict["is_internal"] if "Rint" in list(init_dict.keys()): Rint = init_dict["Rint"] if "Rext" in list(init_dict.keys()): Rext = init_dict["Rext"] if "is_stator" in list(init_dict.keys()): is_stator = init_dict["is_stator"] if "axial_vent" in list(init_dict.keys()): axial_vent = init_dict["axial_vent"] if "notch" in list(init_dict.keys()): notch = init_dict["notch"] # Initialisation by argument self.parent = None self.L1 = L1 # mat_type can be None, a Material object or a dict if isinstance(mat_type, dict): self.mat_type = Material(init_dict=mat_type) else: self.mat_type = mat_type self.Nrvd = Nrvd self.Wrvd = Wrvd self.Kf1 = Kf1 self.is_internal = is_internal self.Rint = Rint self.Rext = Rext self.is_stator = is_stator # axial_vent can be None or a list of Hole object self.axial_vent = list() if type(axial_vent) is list: for obj in axial_vent: if obj is None: # Default value self.axial_vent.append(Hole()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in [ "Hole", "HoleM50", "HoleM51", "HoleM52", "HoleM53", "HoleM54", "HoleMag", "VentilationCirc", "VentilationPolar", "VentilationTrap", ]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for axial_vent") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.axial_vent.append(class_obj(init_dict=obj)) else: self.axial_vent.append(obj) elif axial_vent is None: self.axial_vent = list() else: self.axial_vent = axial_vent # notch can be None or a list of Notch object self.notch = list() if type(notch) is list: for obj in notch: if obj is None: # Default value self.notch.append(Notch()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in ["Notch", "NotchEvenDist"]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for notch") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.notch.append(class_obj(init_dict=obj)) else: self.notch.append(obj) elif notch is None: self.notch = list() else: self.notch = notch # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__( self, hole=list(), bore=None, L1=0.35, mat_type=-1, Nrvd=0, Wrvd=0, Kf1=0.95, is_internal=True, Rint=0, Rext=1, is_stator=True, axial_vent=list(), notch=list(), init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if bore == -1: bore = Bore() if mat_type == -1: mat_type = Material() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, [ "hole", "bore", "L1", "mat_type", "Nrvd", "Wrvd", "Kf1", "is_internal", "Rint", "Rext", "is_stator", "axial_vent", "notch", ], ) # Overwrite default value with init_dict content if "hole" in list(init_dict.keys()): hole = init_dict["hole"] if "bore" in list(init_dict.keys()): bore = init_dict["bore"] if "L1" in list(init_dict.keys()): L1 = init_dict["L1"] if "mat_type" in list(init_dict.keys()): mat_type = init_dict["mat_type"] if "Nrvd" in list(init_dict.keys()): Nrvd = init_dict["Nrvd"] if "Wrvd" in list(init_dict.keys()): Wrvd = init_dict["Wrvd"] if "Kf1" in list(init_dict.keys()): Kf1 = init_dict["Kf1"] if "is_internal" in list(init_dict.keys()): is_internal = init_dict["is_internal"] if "Rint" in list(init_dict.keys()): Rint = init_dict["Rint"] if "Rext" in list(init_dict.keys()): Rext = init_dict["Rext"] if "is_stator" in list(init_dict.keys()): is_stator = init_dict["is_stator"] if "axial_vent" in list(init_dict.keys()): axial_vent = init_dict["axial_vent"] if "notch" in list(init_dict.keys()): notch = init_dict["notch"] # Initialisation by argument # hole can be None or a list of Hole object self.hole = list() if type(hole) is list: for obj in hole: if obj is None: # Default value self.hole.append(Hole()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in [ "Hole", "HoleM50", "HoleM51", "HoleM52", "HoleM53", "HoleM54", "HoleMag", "VentilationCirc", "VentilationPolar", "VentilationTrap", ]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for hole") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.hole.append(class_obj(init_dict=obj)) else: self.hole.append(obj) elif hole is None: self.hole = list() else: self.hole = hole # bore can be None, a Bore object or a dict if isinstance(bore, dict): # Check that the type is correct (including daughter) class_name = bore.get("__class__") if class_name not in ["Bore", "BoreFlower"]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for bore") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.bore = class_obj(init_dict=bore) else: self.bore = bore # Call Lamination init super(LamHole, self).__init__( L1=L1, mat_type=mat_type, Nrvd=Nrvd, Wrvd=Wrvd, Kf1=Kf1, is_internal=is_internal, Rint=Rint, Rext=Rext, is_stator=is_stator, axial_vent=axial_vent, notch=notch, )
def __init__( self, simu=-1, path_res="", geo=-1, elec=-1, mag=-1, struct=-1, post=-1, init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if simu == -1: simu = Simulation() if geo == -1: geo = OutGeo() if elec == -1: elec = OutElec() if mag == -1: mag = OutMag() if struct == -1: struct = OutStruct() if post == -1: post = OutPost() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, ["simu", "path_res", "geo", "elec", "mag", "struct", "post"]) # Overwrite default value with init_dict content if "simu" in list(init_dict.keys()): simu = init_dict["simu"] if "path_res" in list(init_dict.keys()): path_res = init_dict["path_res"] if "geo" in list(init_dict.keys()): geo = init_dict["geo"] if "elec" in list(init_dict.keys()): elec = init_dict["elec"] if "mag" in list(init_dict.keys()): mag = init_dict["mag"] if "struct" in list(init_dict.keys()): struct = init_dict["struct"] if "post" in list(init_dict.keys()): post = init_dict["post"] # Initialisation by argument self.parent = None # simu can be None, a Simulation object or a dict if isinstance(simu, dict): # Check that the type is correct (including daughter) class_name = simu.get("__class__") if class_name not in ["Simulation", "Simu1"]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for simu") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.simu = class_obj(init_dict=simu) else: self.simu = simu self.path_res = path_res # geo can be None, a OutGeo object or a dict if isinstance(geo, dict): self.geo = OutGeo(init_dict=geo) else: self.geo = geo # elec can be None, a OutElec object or a dict if isinstance(elec, dict): self.elec = OutElec(init_dict=elec) else: self.elec = elec # mag can be None, a OutMag object or a dict if isinstance(mag, dict): self.mag = OutMag(init_dict=mag) else: self.mag = mag # struct can be None, a OutStruct object or a dict if isinstance(struct, dict): self.struct = OutStruct(init_dict=struct) else: self.struct = struct # post can be None, a OutPost object or a dict if isinstance(post, dict): self.post = OutPost(init_dict=post) else: self.post = post # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__(self, element=dict(), node=-1, submesh=list(), group=None, init_dict=None): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if node == -1: node = Node() if init_dict is not None: # Initialisation by dict check_init_dict(init_dict, ["element", "node", "submesh", "group"]) # Overwrite default value with init_dict content if "element" in list(init_dict.keys()): element = init_dict["element"] if "node" in list(init_dict.keys()): node = init_dict["node"] if "submesh" in list(init_dict.keys()): submesh = init_dict["submesh"] if "group" in list(init_dict.keys()): group = init_dict["group"] # Initialisation by argument self.parent = None # element can be None or a dict of Element object self.element = dict() if type(element) is dict: for key, obj in element.items(): if isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in ["Element", "ElementMat"]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for element") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.element[key] = class_obj(init_dict=obj) else: self.element[key] = obj elif element is None: self.element = dict() else: self.element = element # Should raise an error # node can be None, a Node object or a dict if isinstance(node, dict): # Check that the type is correct (including daughter) class_name = node.get("__class__") if class_name not in ["Node", "NodeMat"]: raise InitUnKnowClassError("Unknow class name " + class_name + " in init_dict for node") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.node = class_obj(init_dict=node) else: self.node = node # submesh can be None or a list of Mesh object self.submesh = list() if type(submesh) is list: for obj in submesh: if obj is None: # Default value self.submesh.append(Mesh()) elif isinstance(obj, dict): self.submesh.append(Mesh(init_dict=obj)) else: self.submesh.append(obj) elif submesh is None: self.submesh = list() else: self.submesh = submesh # group can be None, a ndarray or a list set_array(self, "group", group) # The class is frozen, for now it's impossible to add new properties self._freeze()
def __init__( self, rotor=-1, stator=-1, frame=-1, shaft=-1, name="default_machine", desc="", type_machine=1, init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if rotor == -1: rotor = LamSlotMag() if stator == -1: stator = LamSlotWind() if frame == -1: frame = Frame() if shaft == -1: shaft = Shaft() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, ["rotor", "stator", "frame", "shaft", "name", "desc", "type_machine"], ) # Overwrite default value with init_dict content if "rotor" in list(init_dict.keys()): rotor = init_dict["rotor"] if "stator" in list(init_dict.keys()): stator = init_dict["stator"] if "frame" in list(init_dict.keys()): frame = init_dict["frame"] if "shaft" in list(init_dict.keys()): shaft = init_dict["shaft"] if "name" in list(init_dict.keys()): name = init_dict["name"] if "desc" in list(init_dict.keys()): desc = init_dict["desc"] if "type_machine" in list(init_dict.keys()): type_machine = init_dict["type_machine"] # Initialisation by argument # rotor can be None, a LamSlotMag object or a dict if isinstance(rotor, dict): self.rotor = LamSlotMag(init_dict=rotor) else: self.rotor = rotor # stator can be None, a LamSlotWind object or a dict if isinstance(stator, dict): # Check that the type is correct (including daughter) class_name = stator.get("__class__") if class_name not in ["LamSlotWind", "LamSquirrelCage"]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for stator" ) # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.stator = class_obj(init_dict=stator) else: self.stator = stator # Call MachineSync init super(MachineSIPMSM, self).__init__( frame=frame, shaft=shaft, name=name, desc=desc, type_machine=type_machine )
def __init__( self, lam_list=list(), frame=-1, shaft=-1, name="default_machine", desc="", type_machine=1, init_dict=None, ): """Constructor of the class. Can be use in two ways : - __init__ (arg1 = 1, arg3 = 5) every parameters have name and default values for Matrix, None will initialise the property with an empty Matrix for pyleecan type, None will call the default constructor - __init__ (init_dict = d) d must be a dictionnary wiht every properties as keys ndarray or list can be given for Vector and Matrix object or dict can be given for pyleecan Object""" if frame == -1: frame = Frame() if shaft == -1: shaft = Shaft() if init_dict is not None: # Initialisation by dict check_init_dict( init_dict, ["lam_list", "frame", "shaft", "name", "desc", "type_machine"], ) # Overwrite default value with init_dict content if "lam_list" in list(init_dict.keys()): lam_list = init_dict["lam_list"] if "frame" in list(init_dict.keys()): frame = init_dict["frame"] if "shaft" in list(init_dict.keys()): shaft = init_dict["shaft"] if "name" in list(init_dict.keys()): name = init_dict["name"] if "desc" in list(init_dict.keys()): desc = init_dict["desc"] if "type_machine" in list(init_dict.keys()): type_machine = init_dict["type_machine"] # Initialisation by argument # lam_list can be None or a list of Lamination object self.lam_list = list() if type(lam_list) is list: for obj in lam_list: if obj is None: # Default value self.lam_list.append(Lamination()) elif isinstance(obj, dict): # Check that the type is correct (including daughter) class_name = obj.get("__class__") if class_name not in [ "Lamination", "LamHole", "LamSlot", "LamSlotMag", "LamSlotMulti", "LamSlotWind", "LamSquirrelCage", ]: raise InitUnKnowClassError( "Unknow class name " + class_name + " in init_dict for lam_list") # Dynamic import to call the correct constructor module = __import__("pyleecan.Classes." + class_name, fromlist=[class_name]) class_obj = getattr(module, class_name) self.lam_list.append(class_obj(init_dict=obj)) else: self.lam_list.append(obj) elif lam_list is None: self.lam_list = list() else: self.lam_list = lam_list # Call Machine init super(MachineUD, self).__init__(frame=frame, shaft=shaft, name=name, desc=desc, type_machine=type_machine)