How do you create effective reusable modules when
- one class in a module creates an instance of another class in another module, and
- the main program wants to use a method that is only in a subclass of one of the modules?
In the context of classes and subclasses, my goal is to:
- Take the most general and reusable classes and extract them to modules that I can reuse across several programs.
- Define subclasses in the main program to keep the most specific (and non-reusable) parts of the code outside of the modules.
The various classes have their own logic, tend to interact and create instances of each other within the modules -- all good. But when I need to add more specific subclassed methods to a class, those methods are not available to the instances created within the modules.
Here is an example of what I'm running across:
==firstclass.py=== """This is a reusable class within a module. It creates an instance of another class in another module.""" from secondclass import Shape class DataObject(object): """Create a class that holds data objects.""" def __init__(self, x, y): self.m_x = x self.m_y = y self.m_shape_list =  def createShape(self, type): # here we create an instance of the second class new_shape = Shape(type) self.m_shape_list.append(new_shape) def printCoords(self): print "Coordinates:", (x,y) ===secondclass.py=== """This is another reusable class. An instance of this gets created within an another class and it is also subclassed by the main program.""" class Shape(object): """Create a class that holds shape info.""" def __init__(self,type): self.m_type = type print "Shape:",type def printShape(self): print "Shape:",self.m_type ===main.py=== """This is my main program and where all the classes get subclassed to add specific implementation details.""" from firstclass import DataObject from secondclass import Shape class GraphicObject(DataObject): """Create a subclass of DataObject that holds graphic specific info.""" def __init__(self, x, y, color): print "Init MySubClass" super(GraphicObject,self).__init__(x, y) def createSomeShapes(self): self.createShape('circle') self.createShape('square') self.createShape('octogon') def renderAll(self): for shape in self.m_shape_list: shape.render() class MyShape(Shape): """Create a subclass of Shape that holds graphic specific info.""" def __init__(self, type): if type == circle: type = 'round thing' super(MyShape,self).__init__(type) def render(self): print "We got a",shape # Create an instance of the first class obj = GraphicObject(10, 10, 'yeller') # Create a few instances of the second class through the interface # provided by the first class obj.createSomeShapes() # Now attempts to call a method of the subclassed second class obj.renderAll()
When I run this, I get:
$ python main.py Init MySubClass Shape: circle Shape: square Shape: octogon Traceback (most recent call last): File "main.py", line 35, in <module> obj.renderAll() File "main.py", line 21, in renderAll shape.render() AttributeError: 'Shape' object has no attribute 'render'
I know why it is happening, but I don't know a graceful way to avoid it.
What is the best practice here? How do you keep the module code reusable while giving access to subclassed methods?