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Lists, Tuples, Dictionaries, … + lots of computer work for the programmer's work! T = {'abe' :['homer','herb'], 'jackie':['marge','patty','selma'], 'homer'

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Presentation on theme: "Lists, Tuples, Dictionaries, … + lots of computer work for the programmer's work! T = {'abe' :['homer','herb'], 'jackie':['marge','patty','selma'], 'homer'"— Presentation transcript:

1 Lists, Tuples, Dictionaries, … + lots of computer work for the programmer's work! T = {'abe' :['homer','herb'], 'jackie':['marge','patty','selma'], 'homer' :['hugo','bart','lisa','maggie'], 'marge' :['hugo','bart','lisa','maggie']} e.g., the Simpson's dictionary…

2 Lists, Tuples, Dictionaries, … + - lots of computer work for the programmer's work! no options as to data organization… limited to square-bracket naming, e.g., fairly generic capabilities, e.g., len, print A[i] list int float str A A[0]A[1] A[2] A = [ 42, 3.1, '!'] 42 3.1 '!' T = {'abe' :['homer','herb'], …} T.getChildren('abe') NOT POSSIBLE! have to use T['abe']

3 Lists, Tuples, Dictionaries, … + - lots of computer work for little programmer work! no options as to data organization… limited to square-bracket naming, e.g., fairly generic capabilities, e.g., len, print A[i] Classes and Objects take care of all 3 drawbacks... list int float str A A[0]A[1] A[2] A = [ 42, 3.1, '!'] 42 3.1 '!'

4 Classes & Objects An object-oriented programming language allows you to build your own customized types of variables. (1) A class is a type of variable. (2) An object is one such variable. There will typically be MANY objects of a single class.

5 Examples… Do reference libraries have library references? Python's class libraries… Graphics libraries http://docs.python.org/lib/

6 Using objects and classes: >>> z = 3 + 4j >>> dir(z) all of the data members and methods of the complex class (and thus the object z !) >>> z.imag 4.0 >>> z.conjugate() 3-4j A particularly complex example… a data member of all objects of class complex its value for this object, z its return value for this object, z a method (function) within all objects of class complex

7 Objects An object is a data structure (like a list), except (1) Its data elements have names chosen by the programmer. (2) Data elements are chosen & organized by the programmer (3) An object can have behaviors built-in by the programmer. usually called "methods" instead of functions

8 Date this is an object of type Date >>> d = Date(1,1,2008) >>> d 1/1/2008 This is a class. It is a user-defined datatype that we can define ourselves this is a CONSTRUCTOR … What does it do? the repr esentation of a particular object of type Date >>> d.isLeapYear() True >>> d2 = Date(12,31,2007) >>> d2 12/31/2007 >>> d2.isLeapYear() False the isLeapYear method returns True or False. How does it know what year to check? How does it know to return False, instead of True in this case ?? Another object of type Date - again, via the constructor.

9 class Date: """ a blueprint (class) for objects that represent calendar days """ def __init__( self, mo, dy, yr ): """ the Date constructor """ self.month = mo self.day = dy self.year = yr def __repr__( self ): """ used for printing Dates """ s = "%02d/%02d/%04d" % (self.month, self.day, self.year) return s def isLeapYear( self ): """ anyone know the rule? """ The Date class Why is everyone so far away?!

10 >>> d = Date(1,1,2008) >>> d 1/1/2008 self These methods need access to the object that calls them >>> d.isLeapYear() True >>> d2 = Date(12,31,2007) >>> d2 12/31/2007 >>> d2.isLeapYear() False is the specific OBJECT THAT invokes A METHOD These methods need access to the object that calls them

11 a Leap of faith…. class Date: def __init__( self, mo, dy, yr ): (constructor) def __repr__(self): (for printing) def isLeapYear( self ): """ here it is """ if self.year % 400 == 0: return True if self.year % 100 == 0: return False if self.year % 4 == 0: return True return False John Herschel How about a 4000-year rule?

12 Date >>> d = Date(1,1,2008) >>> d 1/1/2008 always created with the CONSTRUCTOR … >>> d.yesterday() >>> d 12/31/2007 >>> d.subNDays(35) >>> d the yesterday method returns nothing at all. Is it doing anything? Some methods return a value; others change the object that call it! d has changed!

13 Date id s >>> d = Date(11,10,2008) >>> d 11/10/2008 >>> d2 = Date(11,11,2008) >>> d2 11/11/2008 this initializes a different Date! What date is on your id ? What id is on your Date? >>> d == d2 ? >>> d2.yesterday() >>> d == d2 ?

14 Double Date >>> d2 = d >>> d 11/10/2008 >>> d.addNDays(36) >>> d2 ? >>> d2 = d.copy() >>> d2 == d ? >>> d.equals(d2) ? Excuse me -- id s please! How many Dates are here?

15 class Date: def __init__( self, mo, dy, yr ): def __repr__(self): def isLeapYear(self): def copy(self): """ returns a DIFFERENT object w/SAME date! """ def equals(self, d2): """ returns True if they represent the same date; False otherwise """ More Date How many Dates are here? Would two be self ish?

16 class Date: def isBefore(self, d2): """ if self is before d2, this should return True; else False """ if self.yr < d2.yr: return True if self.mo < d2.mo: return True if self.dy < d2.dy: return True return False def tomorrow(self): """ moves the date that calls it ahead 1 day """ DIM = [0,31,28,31,30,31,30,31,31,30,31,30,31] This method is WRONG! Write this tomorrow method. It does not return anything. It just CHANGES the date object that calls it.

17 class Date: def isBefore(self, d2): """ if self is before d2, this should return True; else False """ if self.year < d2.year: return True if self.month < d2.month: return True if self.day < d2.day: return True return False What's wrong?

18 class Date: def tomorrow(self): """ moves the date that calls it ahead 1 day """ DIM = [0,31,28,31,30,31,30,31,31,30,31,30,31]

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