Is there a design pattern that describes the following setup? Does this design suffer from any major issues?
Widget instances can be built either by a "dumb" constructor
Widget.__init__(), or by an "intelligent" factory method
class Widget: def __init__(self, abc, def, ...): self.abc = abc self.def = def ... ... class Workbench: # widget factory function, which uses data from the workbench instance def upgrade_widget(self, widget, upgrade_info): widget = Widget(widget.abc, widget.def, ...) # I will modify the widget's attributes ... self.rearrange_widget(widget, xyz) # modifies widget's internal state ... widget.abc = ... # also modifies widget's state ... return widget # uses data from the workbench instance def rearrange_widget(self, widget, xyz): ... # this class does other stuff too ...
Widgets are immutable in the sense that I must not modify its instances after they are fully initialized (a lot of code depends on this invariant). But I find that modifying widgets while they are being initialized is very convenient, and makes the code much cleaner.
My main concern is that I modify "immutable" widgets in a different class. If it was only in
upgrade_widget, I might live with it since it does not modify the widget passed to it. But that method relies on other
Workbench methods (
rearrange_widget) which modifies the widget it received as an argument. I feel like I'm losing control over where this "immutable" instance can actually be modified - someone may accidentally call
rearrange_widget with a widget that's already fully initialized, leading to a disaster.