1 / 14

Chapter 17 Q and A

Chapter 17 Q and A. Victor Norman, et al. CS104. What is Object-oriented Programming?. Q: What is object-oriented programming? A: It means defining classes/objects, which hold data, but also can do stuff to themselves or for the caller. Functional style: set_add (set, newItem )

diep
Télécharger la présentation

Chapter 17 Q and A

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. Chapter 17 Q and A Victor Norman, et al. CS104

  2. What is Object-oriented Programming? Q: What is object-oriented programming? A: It means defining classes/objects, which hold data, but also can do stuff to themselves or for the caller. • Functional style: set_add(set, newItem) • Pattern: function(object, values) • OO style: set.add(newItem) • Pattern: object.method(values)

  3. Example: Set class (type) • Old style: • set = newSet(<optional values>) • set = setAdd(set, newItem) • set = setDel(set, delItem) • tOrF = setIn(set, value) • set = setAnd(set, otherSet) • set = setOr(set, otherSet) • New style: • set = Set(<optional values>) • set.add(newItem) • set.del(delItem) • tOrF = set.in(value) • set = set.and(otherSet) • set = set.or(otherSet)

  4. Binding together data and ops • A class definition binds together • the data an instance stores (its attributes) and • the operations on the data (called “methods”) • Forces programmer to keep related code together. • Allows you to create a new type.

  5. Advantages of OO • You can control how an object can be created and used. • because you write the code for how an object is constructed. • You can hide how an object implements its operations (data hiding). • because you define what a user can do with objects, so the user doesn’t have to know how it works.

  6. Example • Suppose we want to define a type Scribbler, which will represent a programmable robot. • We want it to be able to move around, keep track of where it is and what direction it is pointing, etc. • it might even keep track of where it saw obstacles, etc. • Its attributes would be: x, y, angle, etc.

  7. Example (2) • To create one, we’d do this code:scrib = Scribbler() • calls the constructor code we’ve defined: class Scribbler: def __init__(self): self._x = 0 self._y = 0 self._angle = 0 # east • Now, we control how a Scribbler is made and ensure its state is correct.

  8. Example (3) • What do we want to do a Scribbler? • scrib.move(16, 12) • moves the robot there and object remembers where it is and what angle it is facing. • scrib.getX()scrib.getY()scrib.getAngle() • scrib user can ask the scribbler where it is and what angle it is facing.

  9. Example (4) • scrib.seeObstacle() • ask the scribbler if it sees an obstacle. • scrib.forwardUntilSeeObstacle() • scrib.setAngle(newAngle) • turns the scribbler to that angle • scrib.setY(newY) • moves the scribbler to new position

  10. String representation • (Review: when constructor is called, __init__() is run in the class.) • When you do str(object), __str__ is run in the object’s class, if defined. • it must return a string, which should be a readable representation of that object. • Very convenient to be able to do: print scrib # which calls str(scrib) before printing

  11. __str__ code class Scribbler: ... init method … def __str__(self): return “Scribbler at (%g, %g), facing %g degrees” % (self._x, self._y, self._angle) print scrib output: Scribbler at (3.0, 4.0), facing 45.0 degrees

  12. self parameter • if we want to do scrib.getAngle(), we implement: …. in Scribbler class …. defgetAngle(self): return self._x • Notice that scrib self. Object before the . is the first parameter in the method definition. • self is the name of the object in code in the class.

  13. Operator Overloading • if I do 3 + 4, we are adding integers. • if I do “hi” + “there” we are concatenating strings. • This is overloading of the operator +. • for a Set type, we might want to do this: s = Set(…) s = s + 3 # add 3 to the set. • We’d have to implement __add__ in Set class.

  14. Other operators to overload • Common operators to overload: • __cmp__(self, other): compares two objects. Return -1 if self < other, 0 if self == other, 1 if self > other. (If implemented, you can sort objects.) • __len__(self): can use len(obj). Useful, e.g., for Set type to ask how many items are in the set. • __contains__(self, item): if implemented, can ask if something is in the object.

More Related