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1 Let S = { π : π is a permutation of {1, 2, 3, …, n} for some integer n ≥ 1 }. (a) List the elements of S for n= 1, 2, and 3. (b) Prove that the set S.

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Presentation on theme: "1 Let S = { π : π is a permutation of {1, 2, 3, …, n} for some integer n ≥ 1 }. (a) List the elements of S for n= 1, 2, and 3. (b) Prove that the set S."— Presentation transcript:

1 1 Let S = { π : π is a permutation of {1, 2, 3, …, n} for some integer n ≥ 1 }. (a) List the elements of S for n= 1, 2, and 3. (b) Prove that the set S is countable by explicitly describing a bijection between S and the natural numbers. (c) How does your bijection number the permutations you listed for part (a)?

2 2 CSC 320: Mathematics of computation

3 3 Mathematics of Computation Introduction to the mathematics of formal language theory: 1.Alphabets, strings, languages. 2.Mathematical operations on strings: concatenation, substring, prefix, suffix, reversal. 3.Union, concatenation and Kleene star for languages. These definitions lead up to our first class of languages- the regular languages.

4 4 Review: Representing Data Alphabet: finite set of symbols Ex. { a, b, c, …, z} String: finite sequence of alphabet symbols Ex. abaab, hello, cccc Inputs and outputs of computations: represented by strings. ε represents an empty string (length 0)

5 5 Empty Set and Empty String Students frequently are confused about the empty set and an empty string. Empty set = Φ = { } = set with 0 elements. Empty string= ε = ̀ ̀ = string with 0 symbols. Example: The set {ε} is a set containing one string.

6 6 First names of students taking CSC 320: {Adrian, Alexander, Amanda, Braden, Brandon, Brodie, Catlin, Christopher, Daniel, Ding, Dong, Erik, Ethan, Evian, Gordon, Grigory, Hao, Heng, Jonathan, Jordan, Lin, Matt, Matthew, Mauricio, Meghan, Michael, Ramtin, Richard, Rui, Scott, Wenchong, Xiuxia, Xiyu, Zhuoli} Strings over {a,b} with even length: {ε, aa, ab, ba, bb, aaaa, aaab, aaba, …} Syntactically correct JAVA programs. Language: set of strings

7 7 Notational Conventions x, y, z real numbers k, n integers A, B matrices p, q primes Σ, Σ´,Σ 1 Σ 2 alphabets a, b, c, 0, 1 symbols u, v, w, x, y, z strings L, L 1, L 2 languages

8 8 Concatenation of strings x and y denoted x ۰ y or simply xy means write down x followed by y. Theorem: For any string w, ε ۰ w = w = w ۰ ε. String v is a prefix of w if w= v y for some string y. String v is a suffix of w if w= x v for some string x. String v is a substring of w if there are strings x and y such that w= x v y. The reversal of string w, denoted w R, is w “spelled backwards”.

9 9 Operations on Languages: 1. Complement of L defined over Σ = = { w  Σ * : w is not in L } 2. Concatenation of Languages L 1 ۰ L 2 = L 1 L 2 = {w= x ۰ y for some x  L 1 and y  L 2 } 3. Kleene star of L, L * = { w= w 1 w 2 w 3 … w k for some k ≥ 0 and w 1, w 2, w 3, …,w k are all in L} 4. L + = L ۰ L * (Concatenate together one or more strings from L.)

10 10 Σ * = set of all strings over alphabet Σ Language over Σ – any subset of Σ * Examples: Σ = {0, 1} L 1 = { w  Σ * : w has an even number of 0’s} L 2 = { w  Σ * : w is the binary representation of a prime number with no leading zeroes} L 3 = Σ * L 4 = { } = Φ L 5 = { ε }

11 11 L 2 = {w  {0,1}* : w is the binary representation of a prime with no leading zeroes} The complement is: {w  {0,1}* : w is the binary representation of a number which is not prime which has no leading 0’s or w starts with 0} Note: 1 is not prime or composite. The string 1 is in the complement since it is not in L.

12 12 12 01 33 11 11 11 12 01 11 11 13 13 = = Matrix multiplication: Concatenation: ab ۰ bb = abbb bb ۰ ab = bbab

13 13 Regular Languages over Alphabet Σ: [Basis] 1. Φ and {σ} for each σ  Σ are regular languages. [Inductive step] If L 1 and L 2 are regular languages, then so are: 2. L 1 ۰ L 2, 3. L 1 ⋃ L 2, and 4. L 1 *.

14 14 Regular expressions over Σ: [Basis] 1. Φ and σ for each σ  Σ are regular expressions. [Inductive step] If α and β are regular expressions, then so are: 2. ( αβ) 3. (α ⋃ β) and 4. α * Note: Regular expressions are strings over Σ ⋃ { (, ), Φ, ⋃, * } for some alphabet Σ.

15 15 Precedence of Operators Exponents Multiplication Addition Kleene star Concatenation Union highest ⇩ lowest

16 16 Prove the following languages over Σ={0,1} are regular by giving regular expressions for them: 1. {w: w has odd length} 2. {w: w contains 0011} 3. {w: w does not contain 01} 4. {w: w starts and ends with the same symbol (|w| ≥ 1)}

17 17 TUTORIAL: L = { w an element of {a,b}* : w has both baa and aaba as a substring }. (a|b)*baa(a|b)*aaba(a|b)*|(a|b)*aaba(a|b)*baa(a|b)* MISSING: aabaa, baaba, … See home page for link to regular expression tutorial

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