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TeachScheme, ReachJava Adelphi University Friday morning July 16, 2010.

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Presentation on theme: "TeachScheme, ReachJava Adelphi University Friday morning July 16, 2010."— Presentation transcript:

1 TeachScheme, ReachJava Adelphi University Friday morning July 16, 2010

2 Class composition Define a class LogEntry to represent a runner's daily log. It contains the Date of the run, the distance in miles, the time in minutes, and a free-form comment. Include a constructor several examples a toString method an avgSpeed method an addComment method (which takes in a String and returns a LogEntry just like the old one but with the String added onto whatever comments were already there).

3 Class composition Define a class Circle to represent a circle on the screen. It contains a center (of type Posn), a radius (double), and a color (String). Include a constructor several examples a toString method an area method a contains method that takes in another Posn and returns a boolean indicating whether that Posn is inside the circle a scale method that takes in a double scaling factor and returns a new Circle like this one but with the radius multiplied by the scaling factor.

4 Class composition Define a class Rectangle to represent a rectangle on the screen. It contains a top-left corner (of type Posn), a width and height (both double), and a color (String). Include a constructor several examples a toString method an area method a contains method that takes in another Posn and returns a boolean indicating whether that Posn is inside the rectangle a scale method that takes in a double scaling factor and returns a new Circle like this one but with the width and height multiplied by the scaling factor.

5 Definition by choices Define a data type Shape which is either a Circle or a Rectangle. Since Circle and Rectangle both have constructors, Shape doesn't need one.

6 Definition by choices interface Shape { } … class Circle implements Shape { … }

7 interface Shape { } class Circle implements Shape { Posn center; double radius; String color; … } class Rectangle implements Shape { Posn topLeft; double width; double height; String color; … }

8 What can you do with this? A variable of type Shape can hold either a Circle or a Rectangle: Shape shape1 = new Circle (new Posn(3,4),5,"blue"); Shape shape2 = new Rectangle (new Posn (50,20), 30, 40, "orange");

9 What can't you do with this? shape1.area() doesn't compile! Why not? In Java, every variable has two types: the static type from its declaration, and the dynamic type from what it actually contains. shape1 was declared as a Shape, so that's its static type. Static type is used to decide what's a legal call and what isn't.

10 To fix this… interface Shape { public double area (); public boolean contains (Posn other); public Shape scale (double factor); }

11 What can you do with this? Now you can call the area, contains, and scale methods on a Shape variable shape1.area() // should return c. 78.54 shape2.area() // should return 1200 shape1.scale(2.0) // should return // new Circle(new Posn(3,4), 10, "blue") etc.

12 time check

13 Lists in Java A StringList is either an EmptyStringList or a NonEmptyStringList (ESL or NESL for short). An ESL has no parts. A NESL has two parts: first (a String) and rest (a StringList).

14 Lists in Java Write classes ESL and NESL, and interface StringList. For each class, provide a constructor examples a toString method

15 Lists in Java Write the following methods on StringLists: countStrings : nothing -> int contains : String -> boolean countMatches : String -> int

16 Recall add-up function (define (add-up nums) (cond [(empty? nums) 0] [(cons? nums) (+ (first nums) (add-up (rest nums)))]))

17 Trace add-up function (add-up (list 3 5 2 1)) (+ 3 (add-up (list 5 2 1))) (+ 3 (+ 5 (add-up (list 2 1)))) (+ 3 (+ 5 (+ 2 (add-up (list 1))))) (+ 3 (+ 5 (+ 2 (+ 1 (add-up empty))))) ; lots of pending +'s (+ 3 (+ 5 (+ 2 (+ 1 0)))) (+ 3 (+ 5 (+ 2 1)))) (+ 3 (+ 5 3)) (+ 3 8) 11

18 Another approach (define (add-up-accum nums so-far) (cond [(empty? nums) so-far] [(cons? nums) (add-up-accum (rest nums) (+ (first nums) so-far))])) (add-up-accum (list 3 5 2 1) 0) (add-up-accum (list 5 2 1) (+ 3 0)) (add-up-accum (list 5 2 1) 3) (add-up-accum (list 2 1) (+ 5 3)) (add-up-accum (list 2 1) 8) (add-up-accum (list 1) (+ 2 8)) (add-up-accum (list 1) 10) (add-up-accum empty (+ 1 10)) (add-up-accum empty 11) 11; never more than 1 pending +

19 Another approach Of course, add-up-accum is less convenient to use. Easy fix: (define (add-up nums) (add-up-accum nums 0))

20 Another example ; multiply-positives : list-of-numbers -> number (define (multiply-positives nums) (mp-accum nums 1)) (define (mp-accum nums so-far) (cond [(empty? nums) so-far] [(cons? nums) (mp-accum (rest nums) (cond [(> (first nums) 0) (* (first nums) so-far)] [else so-far]))]))

21 Generalize Both functions look pretty similar. They differ in the answer to the "empty?" case, and how to combine (first nums) with so-far

22 In Java… See projects June26 v1 through June26 v5 v1: addUp written by structural recursion v2: addUp written by accumulative recursion v3: addUp becomes static, in a separate class v4: addUp written using for-each loop v5: addUp written using while-loop

23 Are we done yet? Fill out end-of-day survey Fill out end-of-workshop survey Eat Go home Sleep Teach

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