1 / 25

Guide to Programming with Python

Guide to Programming with Python. Chapter Eight (Part I) Object Oriented Programming; Classes, constructors, attributes, and methods. Objectives. Create classes to define objects Write methods and create attributes for objects Instantiate objects from classes

kalaimo
Download Presentation

Guide to Programming with Python

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Guide to Programming with Python Chapter Eight (Part I) Object Oriented Programming; Classes, constructors, attributes, and methods

  2. Objectives • Create classes to define objects • Write methods and create attributes for objects • Instantiate objects from classes • Restrict access to an object’s attributes • Work with both new-style and old-style classes • The Critter Caretaker Program Guide to Programming with Python

  3. Lecture 1 Python Is Object-Oriented • Object-oriented programming (OOP): Methodology that defines problems in terms of objects that send messages to each other • dir(1) • In a game, a Missile object could send a Ship object a message to Explode • OOP not required, unlike Java and C# Guide to Programming with Python

  4. Understanding Object-Oriented Basics • OOP allows representation of real-life objects as software objects (e.g., a dictionary as an object) • Object: A single software unit that combines attributes and methods • Attribute: A "characteristic" of an object; like a variable associated with a kind of object • Method: A "behavior" of an object; like a function associated with a kind of object • Class: Code that defines the attributes and methods of a kind of object (A class is a collection of variables and functions working with these variables)

  5. Fundamental Concepts of OOP • Information hiding • Abstraction • Encapsulation • Modularity • Polymorphism • Inheritance Guide to Programming with Python

  6. Creating Classes for Objects class Puppy(object): def __init__(self, name, color): self.name = name self.color = color def bark(self): print "I am", color, name puppy1 = Puppy("Max", "brown") puppy1.bark() puppy2 = Puppy("Ruby", "black") puppy2.bark() • Class: Code that defines the attributes and methods of a kind of object • Instantiate: To create an object; A single object is called an Instance

  7. The Simple Critter Program class Critter(object): """A virtual pet""" def talk(self): print "Hi. I'm an instance of class Critter.” # main crit = Critter() crit.talk() • Define class: • Class name, begin with capital letter, by convention • object: class based on (Python built-in type) • Define a method • Like defining a function • Must have a special first parameter, self, which provides way for a method to refer to object itself

  8. Class methods & “self” parameter • Class methods have only one specific difference from ordinary functions--they must have an extra first name that has to be added to the beginning of the parameter list • You do not give a value for this parameter(self) when you call the method, Python will provide it. • This particular variable refers to the object itself, and by convention, it is given the name self. Guide to Programming with Python

  9. Instantiating an Object crit = Critter() • Create new object with class name followed by set of parentheses • Critter() creates new object of class Critter • Can assign a newly instantiated object to a variable of any name • crit = Critter() assigns new Critter object tocrit • Avoid using variable that's same name as the class name in lowercase letters Guide to Programming with Python

  10. Creating Multiple Objects crit1 = Critter() crit2 = Critter() • Creating multiple objects is easy • Two objects created here • Each object is independent, full-fledged critter Guide to Programming with Python

  11. Invoking a Method crit.talk() • Any Critter object has method talk() • crit.talk() invokes talk() method of Critter object crit • Prints string "Hi. I'm an instance of class Critter." simple_critter.py Guide to Programming with Python

  12. Using Constructors • Constructor: A special method that is automatically invoked right after a new object is created • Usually write one in each class • Usually sets up the initial attribute values of new object in constructor Guide to Programming with Python

  13. Creating a Constructor def __init__(self): print "A new critter has been born!" • New Critter object automatically announces itself to world • __init__ • Is special method name • Automatically called by new Critter object Guide to Programming with Python

  14. Initializing Attributes class Critter(object): def __init__(self, name): self.name = name ... crit1 = Critter("Poochie”) • Can have object’s attributes automatically created and initialized through constructor (Big convenience!) • self – first parameter in every instance method • selfreceives reference to new Critterobject • namereceives"Poochie" • self.name = namecreates the attribute namefor object and sets to "Poochie" • crit1gets new Critterobject

  15. Accessing Attributes class Critter(object): ... def talk(self): print "Hi. I'm", self.name, "\n" ... crit1.talk() print crit1.name • Assessing attributes using methods: talk() • Uses aCritterobject’snameattribute • Receives reference to the object itself into self • Accessing Attributes Directly Guide to Programming with Python

  16. Printing an Object (How?) class Critter(object): ... def __str__(self): rep = "Critter object\n" rep += "name: " + self.name + "\n" return rep ... print crit1 • __str__ is a special method that returns string representation of object (sample code) Guide to Programming with Python

  17. Two More Special Methods class Puppy(object): def __init__(self): self.name = [] self.color = [] def __setitem__(self, name, color): self.name.append(name) self.color.append(color) def __getitem__(self, name): if name in self.name: return self.color[self.name.index(name)] else: return None dog = Puppy() dog['Max'] = 'brown' dog['Ruby'] = 'yellow’ print "Max is", dog['Max']

  18. Using Class Attributes and Static Methods • Class attribute: A single attribute that’s associated with a class itself (not an instance!) • Static method: A method that’s associated with a class itself • Class attribute could be used for counting the total number of objects instantiated, for example • Static methods often work with class attributes Guide to Programming with Python

  19. Creating a Class Attribute class Critter(object): total = 0 • total = 0creates class attribute totalset to 0 • Assignment statement in class but outside method creates class attribute • Assignment statement executed only once, when Python first sees class definition • Class attribute exists even before single object created • Can use class attribute without any objects of class in existence Guide to Programming with Python

  20. Accessing a Class Attribute class Critter(object): total = 0 def status(): print "Total critters", Critter.total status = staticmethod(status) def __init__(self, name): Critter.total += 1 print Critter.total #the class print crit1.total #the instance #crit1.total += 1 # won’t work; can't assign new value to a class attribute through instance

  21. Creating a Static Method class Critter(object): ... def status(): print "Total critters", Critter.total status = staticmethod(status) • status() • Is static method • Doesn't have self in parameter list because method will be invoked through class not object • staticmethod() • Built-in Python function • Takes method and returns static method

  22. Invoking a Static Method ... crit1 = Critter("critter 1") crit2 = Critter("critter 2") crit3 = Critter("critter 3") Critter.status() • Critter.status() • Invokes static method status()defined inCritter • Prints a message stating that 3 critters exist • Works because constructor increments class attribute total, which status()displays classy_critter.py Guide to Programming with Python

  23. Setting default values class Person(object): def __init__(self, name="Tom", age=20): self.name = name self.age = age def talk(self): print "Hi, I am", self.name def __str__(self): return "Hi, I am " + self.name one = Person(name="Yuzhen", age = "forever 20") print one two = Person() print two Guide to Programming with Python

  24. Summary • Object-oriented Programming (OOP) is a methodology of programming where new types of objects are defined • An object is a single software unit that combines attributes and methods • An attribute is a “characteristic” of an object; it’s a variable associated with an object (“instance variable”) • A method is a “behavior” of an object; it’s a function associated with an object • A class defines the attributes and methods of a kind of object Guide to Programming with Python

  25. Summary (continued) • Each instance method must have a special first parameter, called self by convention, which provides a way for a method to refer to object itself • A constructor is a special method that is automatically invoked right after a new object is created • A class attribute is a single attribute that’s associated with a class itself • A static method is a method that’s associated with a class itself Guide to Programming with Python

More Related