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1 Lecture 14 Data Abstraction Objects, inheritance, prototypes Ras Bodik Shaon Barman Thibaud Hottelier Hack Your Language! CS164: Introduction to Programming.

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Presentation on theme: "1 Lecture 14 Data Abstraction Objects, inheritance, prototypes Ras Bodik Shaon Barman Thibaud Hottelier Hack Your Language! CS164: Introduction to Programming."— Presentation transcript:

1 1 Lecture 14 Data Abstraction Objects, inheritance, prototypes Ras Bodik Shaon Barman Thibaud Hottelier Hack Your Language! CS164: Introduction to Programming Languages and Compilers, Spring 2012 UC Berkeley

2 Announcement Ras will hold a review tomorrow 11-12 in the Woz topics: parsing and coroutines; bring your questions Project Proposals due Sunday I will post remaining slides tonight 2

3 Where are we? Our new constructs concerned control abstraction: → hiding complex (changes) to program control flow under suitable programming constructs -lazy iterators, built on coroutines -backtracking in regexes, built with coroutines -search for a proof tree, hidden in the Prolog interpreter There must also be data abstraction. A few examples: 3

4 Objects (review from CS61B) Why objects? abstraction: hide implementation under encapsulation Why inheritance? reuse: specialization of an object’s behavior reuses its code 4

5 Our Design Rationale We want to support objects What is the minimum base language to support objects? Our language already supports closures which are similar in that they carry state and code Can we build objects from this existing mechanism? rather than adding support for objects into base language? 5

6 Single-Method Approach 6

7 We have seen closure-based objects already Where did we use closures as objects? Iterators are single-method objects on each call, iterators return the next element and “advance” their iterator state 7

8 Use of single-method object d = newObject(0) print d("get") --> 0 d("set", 10) print d("get") --> 10 8

9 Multi-method object represented as a closure function newObject (value) function (action, v) { if (action == "get“) { value } else if (action == "set“) { value = v } else { error("invalid action") } } } 9

10 Objects as tables 10

11 Recall tables Create a table {} { key1 = value1, key2 = value2 } Add a key-value pair to table (or overwrite a k/w pair) t = {} t[key] = value Read a value given a key x = t[key] 11

12 Object as a table of attributes Account = {balance = 0} Account[“withdraw”] = function(v) { Account[“balance”] = Account[“balance”] - v } Account[“withdraw”](100.00) What syntactic sugar we add to clean this up? 12

13 Sugar design 13

14 Syntactic sugar p.f → p[“f”] → get(p, “f”) Careful: we need to distinguish between reading p.f translated to get and writing into p.f translated to put 14

15 Object as a table of attributes, revisited Account = {balance = 0} function Account.withdraw (v) { Account.balance = Account.balance - v } Account.withdraw(100.00) a = Account Account = nil a.withdraw(100.00) -- ERROR! 15

16 Introduce self Account = {balance = 0} function Account.withdraw (self, v) { self.balance = self.balance - v } a1 = Account Account = nil a1.withdraw(a1, 100.00) -- OK a2 = {balance=0, withdraw = Account.withdraw} a2.withdraw(a2, 260.00) 16

17 The colon notation function Account:withdraw (v) { self.balance = self.balance - v } a:withdraw(100.00) How to desugar? 17

18 Rewriting E:ID() 18

19 Discussion What is the inefficiency of our current objects? too much space wasted by each object carrying its objects and fields that are constant across many objects 19

20 Meta-Methods 20

21 The __index metamethod When a lookup of a field fails, interpreter consults the __index field: setmetatable(a, {__index = b}) 21

22 Prototypes poor man’s classes 22

23 What runtime setup do we want? A prototype is an object that behaves like a class 23

24 Create an object function Account:new (o) { -- create object if user does not provide one o = o or {} setmetatable(o,self) self.__index = self o } a = Account:new({balance = 0}) a:deposit(100.00) 24

25 Note about cs164 projects We may decide not to use metatables, just the __index field. The code function Account:new (o) { o = o or {} setmetatable(o,self) self.__index = self o } Would become function Account:new (o) { o = o or {} o.__index = self o } 25

26 Inheritance 26

27 Inheritance allows reuse of code … … by specializing existing class (prototype) How to accomplish this with a little “code wiring”? Let’s draw the desired run-time organization: Assume class A, subclass B, and b an instance of B 27

28 Must set this up in the constructor Tasks that we need to perform 28

29 Define a class Account = {balance = 0} function Account:new (o) { o = o or {} setmetatable(o, sel) self.__index = self o } function Account:deposit (v) { self.balance = self.balance + v } function Account:withdraw (v) { if (v > self.balance) { error"insufficient funds" } self.balance = self.balance - v } 29

30 Create subclass of Account SpecialAccount = Account:new() s = SpecialAccount:new({limit=1000.00}) s:deposit(100.00) function SpecialAccount:withdraw (v) if (v - self.balance >= self:getLimit()) { error"insufficient funds" } self.balance = self.balance - v } function SpecialAccount:getLimit () { self.limit or 0 } 30

31 Discussion of prototype-based inheritance Notice the sharing: constant-value object attributes (fields) remain stored in the prototype until they are assigned. After assignment, the object stores the attribute rather than finding it in the prototype 31

32 Multiple Inheritance 32

33 “Privacy” protecting the implementation 33

34 Our goal Support large programmer teams. Bad scenario: –programmer A implements an object O –programmer B uses O relying on internal details of O –programmer A changes how O is implemented –the program now crashes on customer’s machine How do OO languages address this problem? -private fields 34

35 Language Design Excercise Your task: design an analogue of private fields Lua/164 supports meta-programming it should allow building your own private fields 35

36 Object is a table of methods function newAccount (initialBalance) def self = {balance = initialBalance} def withdraw (v) { self.balance = self.balance – v } def deposit (v) { self.balance = self.balance + v } def getBalance () { self.balance } { withdraw = withdraw, deposit = deposit, getBalance = getBalance } } 36

37 Use of this object acc1 = newAccount(100.00) acc1.withdraw(40.00) print acc1.getBalance() --> 60 37

38 Discussion of Table of methods approach This approach supports private data Users of the object cannot access the balance except via objects methods. Why is this useful? implementation is hidden in functions and can be swapped because the client of this object is not reading its fields How can we extend the object with private methods? 38

39 We can safely change the implementation function newAccount (initialBalance) def self = { balance = initialBalance, LIM = 1000, } def extra() { if (self.balance > self.LIM) { self.balance * 0.1 } else { 0 } } def getBalance () { self.balance + extra() } // as before { /* methods */ } } 39

40 More discussion Can the table-of-methods objects be extendedto support inheritance? 40

41 Reading Required: Chapter 16 in PiL 41

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