CS200: Computer Science, Spring 2004
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Notes: Wednesday 24 March 2004
Schedule
- Monday, 29 March: Problem Set 6
- Problem Set 7 will be out on 29 March and due on 7 April.
- Problem Set 8 will be out on 7 April; part I will be due on 12 April, part II will be due on 26 April (last day of class).
- Exam 2 will be handed out on 14 April and due on 19 April.
Notes Halting Problem Input: a procedure P (described by a Scheme program), and the input to that procedure
Output: true if applying P to input halts (finishes execution), false otherwise.
(define (halts? procedure input) ...?...)(define (contradict-halts input) (if (halts? contradict-halts null) (infinite-loop) 200))Why is it nonsensical to define contradict-halts?
Malicious Code Problem
Input: a procedure PIs the malicious code problem decidable?
Output: true if P is would do something bad, false otherwise.
Assume we have a precise definition of what something bad means (for example, format your hard drive).
Where (vaccinate P) evaluates to P with all mail commands replaced with print commands (to make sure (is-virus? P input) is false.(define (halts? P input) (is-virus? `(begin ((vaccinate P) input) virus-code)))
What is a model?
Is it possible to write a virus scanner that detects all malicious code? (tricky, think carefully)
What do we need to model computation?
Finite State Machine
FSM ::= <Alphabet, States, InitialState, HaltingStates, TransitionRules>
Alphabet ::= { Symbol* }
A set of symbols for the input.
States ::= { StateName* }
InitialState ::= StateName
Must be one of the states in States.
HaltingStates ::= { StateName* }
Must all be states in States.
TransitionRules ::= { TransitionRule* }
TransitionRule ::= < StateName, Symbol, StateName>
StateName X Symbol → StateName
Turing Links
- Alan Turing site by Andrew Hodges, author of Alan Turing: the Enigma (Douglas Hofstadter wrote the preface)
- Time 100 Profile
- Turing Digital Archive
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