Hierarchy of Shapes
I completely understand the concerns regarding the relationship between Rectangles and Squares regarding Liskov's substitution principle. However, there are ways to preserve this principle and still have Square as subclass of Rectangle. For example (Python), assume the following:
class Rectangle:
def __init__(self, w, h):
self.width = w
self.height = h
def setWidth(self, neww):
if neww > 0: self.width = neww
def setHeight(self, newh):
if newh > 0: self.height = newh
We can define Square the following way:
class Square(Rectangle):
def __init__(self, side):
super().__init__(self, side, side) # width = height = side
def setWidth(self, newside):
super().setWidth(self, newside)
super().setHeight(self, newside) # force height to match
def setHeight(self, newside):
super().setWidth(self, newside) # force width to match
super().setHeight(self, newside)
This way we can always use an Square instance whenever a Rectangle instance is needed, thus preserving Liskov's.
Now, from my experience, we can also use Inheritance to enforce a policy (usually restrictive). For example, assume we have a Shape class with a color property and corresponding setter (setColor).
class Shape:
def __init__(self, ..., color, ...):
# ...
self.color = color
# ...
def setColor(self, newcolor):
self.color = newcolor
#...
Assume we want to create a "RedShape" class. How can we prevent client code from changing the color? Answer: de-active the setColor method by overriding it.
class RedShape(Shape):
def __init__(self, ...):
super().__init__(self, 'red', ...)
def setColor(self, newcolor):
pass
We redefined setColor in RedShape to do nothing.
The setColor in RedShape overrides the one in Shape so client code cannot change the color of RedShape instances. In a way, we created a more restrictive subclass because we do not have the ability of changing its color, but it does not violate the substitution principle.
This model is useful when we have base classes that are generic (not abstract) and we create specialized classes to control or limit the features available in the base class. You can create a chain of subclasses increasingly enabling features available in the base class, or you can create classes that offer different combinations of features available in the base class.
Before I get flamed, let me reiterate that this usage is a pragmatic model that takes advantage of the mechanism of inheritance and polymorphism for control. It is far removed from the romantic notion of inheritance of creating new classes by enhancing or refining existing ones.