Presentation is loading. Please wait.

Presentation is loading. Please wait.

Slide 1 CS3: Lecture 8 Advanced recursion. Slide 2 Schedule Oct 10Advanced recursion Oct 17Number-spelling Miniproject Oct 24Higher order procedures Oct.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Slide 1 CS3: Lecture 8 Advanced recursion. Slide 2 Schedule Oct 10Advanced recursion Oct 17Number-spelling Miniproject Oct 24Higher order procedures Oct."— Presentation transcript:

1 Slide 1 CS3: Lecture 8 Advanced recursion

2 Slide 2 Schedule Oct 10Advanced recursion Oct 17Number-spelling Miniproject Oct 24Higher order procedures Oct 31More HOF Lists! (instead of sentences and words) Nov 7Recursion (extra advanced) Nov 14Midterm #2 Nov 21The big project!

3 Slide 3 Next lab: Catch-up day

4 Slide 4 Number Spelling miniproject Read Simply Scheme, page 233, which has hints Another hint (principle): don't force "everything" into the recursion. –Special cases may be easier to handle before you send yourself into a recursion

5 Slide 5 Recursive patterns Most recursive functions that operate on a sentence fall into: –Mapping: square-all –Counting: count-vowels, count-evens –Finding: member, first-even –Filtering: keep-evens –Testing: all-even? –Combining: sum-evens

6 Slide 6 "Tail" recursions Accumulating recursions are sometimes called "Tail" recursions (by TAs, me, etc).

7 Slide 7 Tail recursions and efficiency A tail recursion has no combiner, so it can end as soon as a base case is reached –Compilers can do this efficiently An embedded recursion needs to combine up all the recursive steps to form the answer –The poor compiler has to remember everything

8 Slide 8 Tail or embedded? (1/3) (define (length sent) (if (empty? sent) 0 (+ 1 (length (bf sent)))))

9 Slide 9 Embedded! (length '(a b c d))  (+ 1 (length '(b c d))) (+ 1 (+ 1 (length '(c d)))) (+ 1 (+ 1 (+ 1 (length '(d))))) (+ 1 (+ 1 (+ 1 (+ 1 (length '()))))) (+ 1 (+ 1 (+ 1 (+ 1 0)))) (+ 1 (+ 1 (+ 1 1))) (+ 1 (+ 1 2)) (+ 1 3) 4

10 Slide 10 Tail or embedded? (2/3) (define (sent-max sent) (if (empty? sent) '() (sent-max-helper (bf sent) (first sent)))) (define (sent-max-helper sent max-so-far) (if (empty? sent) max-so-far (sent-max-helper (bf sent) (first sent))))

11 Slide 11 Tail or embedded? (3/3) (define (find-evens sent) (cond ((empty? sent) ;base case '() ) ((odd? (first sent)) ;rec case 1 (find-evens (bf sent)) ) (else ;rec case 2: even (se (first sent) (find-evens (bf sent))) ) ))

12 Slide 12 > (find-evens '(2 3 4 5 6))  (se 2 (se 4 (se 6 ())  (2 4 6) (se 2 (se 4 (se 6 () sent = ( 2 3 4 5 6 ) sent = ( 3 4 5 6 ) sent = ( 4 5 6 ) sent = ( 5 6 ) sent = ( 6 ) sent = ( )

13 Slide 13 Advanced recursions (1/3) "when it does more than one thing at a time" Ones that traverse multiple sentences –E.g., mad-libs takes a sentence of replacement words [e.g., ‘(fat Henry three) ] and a sentence to mutate [e.g., ‘(I saw a * horse named * with * legs) ]

14 Slide 14 Advanced recursions (2/3) Recursions that have an inner and an outer recursion (no-vowels '(I like to type))  ("" lk t typ) (l33t '(I like to type))  (i 1i/<3 +0 +yP3) (strip-most-popular-letter '(cs3 is the best class))  (c3 i th bet cla) (occurs-in? 'abc 'abxcde)  #f

15 Slide 15 Advanced recursions (3/3) Tree recursion: multiple recursive calls in a single recursive step There are many, many others

16 Slide 16 Advanced recursion columns (C) r o w s (R) 012345... 01 111 2121 31331 414641 51510 51... Pascal’s Triangle How many ways can you choose C things from R choices? Coefficients of the (x+y)^R: look in row R etc.

17 Slide 17 (define (pascal C R) (cond ((= C 0) 1) ;base case ((= C R) 1) ;base case (else ;tree recurse (+ (pascal C (- R 1)) (pascal (- C 1) (- R 1)) )))

18 Slide 18 > (pascal 2 5) (+ (pascal 2 5) (pascal 2 4) (pascal 1 4) (+ (pascal 2 3) (pascal 1 3) (pascal 0 3) (+ (pascal 2 2) (pascal 1 2) (pascal 0 2)  1 (pascal 1 2) (pascal 0 2)  1 (+ (pascal 1 1) (pascal 0 1)  1 (+ (pascal 1 1)  1 (pascal 0 1)  1 (+ (pascal 1 1)  1 (pascal 0 1)  1

19 Slide 19 pair-all Write pair-all, which takes a sentence of prefixes and a sentence of suffixes and returns a sentence pairing all prefixes to all suffixes. –(pair-all ‘(a b c) ‘(1 2 3))  (a1 b1 c1 a2 b2 c2 a3 b3 c3) –(pair-all ‘(spr s k) ‘(ite at ing ong))  (sprite sprat spring sprong site sat sing song kite kat king kong)

20 Slide 20 binary Write binary, a procedure to generate the possible binary numbers given n bits. (binary 1)  (0 1) (binary 2)  (00 01 10 11) (binary 3)  (000 001 010 011 100 101 110 111)

Download ppt "Slide 1 CS3: Lecture 8 Advanced recursion. Slide 2 Schedule Oct 10Advanced recursion Oct 17Number-spelling Miniproject Oct 24Higher order procedures Oct."

Similar presentations

4/16/2015 MATH 224 – Discrete Mathematics Counting Basic counting techniques are important in many aspects of computer science. For example, consider the.

4/16/2015 MATH 224 – Discrete Mathematics Counting Basic counting techniques are important in many aspects of computer science. For example, consider the.
©Silberschatz, Korth and Sudarshan12.1Database System Concepts Chapter 12: Part C Part A:  Index Definition in SQL  Ordered Indices  Index Sequential.

©Silberschatz, Korth and Sudarshan12.1Database System Concepts Chapter 12: Part C Part A:  Index Definition in SQL  Ordered Indices  Index Sequential.
Chapter 11 Indexing and Hashing (2) Yonsei University 2 nd Semester, 2013 Sanghyun Park.

Chapter 11 Indexing and Hashing (2) Yonsei University 2 nd Semester, 2013 Sanghyun Park.
CSCE 2100: Computing Foundations 1 Combinatorics Tamara Schneider Summer 2013.

CSCE 2100: Computing Foundations 1 Combinatorics Tamara Schneider Summer 2013.
CS3 Fall 2005 Lecture 11: Finish higher order functions Midterm Prep.

CS3 Fall 2005 Lecture 11: Finish higher order functions Midterm Prep.
Preliminaries Attendance sheets –I remembered! Survey links –HW1 time survey –Anonymous feedback survey HW discussion (4PM, Commons 9)

Preliminaries Attendance sheets –I remembered! Survey links –HW1 time survey –Anonymous feedback survey HW discussion (4PM, Commons 9)
CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 14: Number Spelling Mini-project.

CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 14: Number Spelling Mini-project.
Slide 1 CS3 Week 8: Recursion. Slide 2 Midterm 1 You did great If you need a re- grade, see the person that graded that question Solutions are available.

Slide 1 CS3 Week 8: Recursion. Slide 2 Midterm 1 You did great If you need a re- grade, see the person that graded that question Solutions are available.
Slide 1. Slide 2 Administrivia Mid-semester survey this week (Thur/Fri) –you NEED to do this. Interviews should be starting in a few weeks. I apologize.

Slide 1. Slide 2 Administrivia Mid-semester survey this week (Thur/Fri) –you NEED to do this. Interviews should be starting in a few weeks. I apologize.
CS3 Fall 2005 Lecture 10: More on higher order functions.

CS3 Fall 2005 Lecture 10: More on higher order functions.
CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 12: Homework stuff and Accumulating Recursion.

CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 12: Homework stuff and Accumulating Recursion.
Slide 1 CS3 Fall 2005 Lecture week 13: Introduction to the Big Project.

Slide 1 CS3 Fall 2005 Lecture week 13: Introduction to the Big Project.
CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 19: HOF Problems.

CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 19: HOF Problems.
CS3: Introduction to Symbolic Programming Spring 2006Nate Titterton Lecture 4: Difference Between Dates and data abstraction.

CS3: Introduction to Symbolic Programming Spring 2006Nate Titterton Lecture 4: "Difference Between Dates" and data abstraction.
Slide 1 Midterm 1 Midterm 1: Feb 28 th (next week). –In the lecture slot, plus 20 minutes (4:10-5:30 pm, 120 Latimer) –Everything we’ve covered, including.

Slide 1 Midterm 1 Midterm 1: Feb 28 th (next week). –In the lecture slot, plus 20 minutes (4:10-5:30 pm, 120 Latimer) –Everything we’ve covered, including.
Data Abstraction… The truth comes out…. What we’re doing today… Abstraction ADT: Dotted Pair ADT: List Box and Pointer List Recursion Deep List Recursion.

Data Abstraction… The truth comes out…. What we’re doing today… Abstraction ADT: Dotted Pair ADT: List Box and Pointer List Recursion Deep List Recursion.
Slide 1. Slide 2 Midterm 1 You did great If you need a regrade, see the person that graded that question Solutions available on the portal soon.

Slide 1. Slide 2 Midterm 1 You did great If you need a regrade, see the person that graded that question Solutions available on the portal soon.
CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 13: Bugs and Two Stage Recursion.

CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 13: Bugs and Two Stage Recursion.
Administrivia Make sure you have completed the Mid Semester Survey –Scheduled the week before Spring Break –this will be worth some points Reading is.

Administrivia Make sure you have completed the Mid Semester Survey –Scheduled the week before Spring Break –this will be worth some points Reading is.
CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 11: Accumulating Recursion.

CS3L: Introduction to Symbolic Programming Summer 2008Colleen Lewis Lecture 11: Accumulating Recursion.

Similar presentations

Ads by Google