Introduction to Undecidability

Introduction to Undecidability

Introduction to Undecidability Alice Gao Lecture 23 Based on work by J. Buss, L. Kari, A. Lubiw, B. Bonakdarpour, D. Maftuleac, C. Roberts, R. Trefler, and P. Van Beek CS 245 Logic and Computation Fall 2019 1 / 17 Outline Introduction to Undecidability Learning Goals Introduction to Undecidability Examples of Decision Problems The Halting Problem is Undecidable Revisiting the Learning Goals CS 245 Logic and Computation Fall 2019 2 / 17 Learning Goals By the end of this lecture, you should be able to: Introduction to undecidability ▶ Define decision problem. ▶ Define decidable problem. ▶ Define undecidable problem. ▶ Prove that a decision problem is decidable by giving an algorithm to solve it. The halting problem ▶ Describe the halting problem. ▶ Prove that the halting problem is undecidable. CS 245 Logic and Computation Fall 2019 3 / 17 Exploring the limitation of computation Most of CS focuses on what we CAN compute. Are there problems that CANNOT be solved by a computer even with unlimited time and space? The answer is yes. This was proved by Alan Turing in 1936. CS 245 Logic and Computation Fall 2019 4 / 17 What is a computer program/algorithm? In the old days, there were no electronic computers. A computer refers to a person who computes. (Watch Hidden Figures.) Turing’s idea of a “computer program” was a list of instructions that a person could follow. For us, an algorithm could refer to any of the following: ▶ Racket, C, and C++ programs ▶ Turing machines ▶ High-level pseudo-code CS 245 Logic and Computation Fall 2019 5 / 17 Decidable and undecidable problems We focus on decision problems. A decision problem is a question with a yes/no answer. An algorithm solves a problem iff it produces the correct output for the problem for every input. A decision problem is ▶ Decidable iff there exists an algorithm that solves the problem. ▶ Undecidable iff there does not exist an algorithm that solves the problem. CS 245 Logic and Computation Fall 2019 6 / 17 CQ 1 Examples of decision problems CQ 1: Given a Propositional formula, is it satisfiable? (A) This problem is decidable. (B) This problem is undecidable. (C) I don’t know. CS 245 Logic and Computation Fall 2019 7 / 17 CQ 2 Examples of decision problems CQ 2: Given a Predicate formula, is it valid? (Take a guess. All answers will be marked correct.) (A) This problem is decidable. (B) This problem is undecidable. (C) I don’t know. CS 245 Logic and Computation Fall 2019 8 / 17 CQ 3 Examples of decision problems CQ 3: Given a positive integer, is it prime? (A) This problem is decidable. (B) This problem is undecidable. (C) I don’t know. CS 245 Logic and Computation Fall 2019 9 / 17 CQ 4 Examples of decision problems CQ 4: Given a Hoare triple, is it satisfied under partial correctness? (Take a guess. All answers will be marked correct.) (A) This problem is decidable. (B) This problem is undecidable. (C) I don’t know. CS 245 Logic and Computation Fall 2019 10 / 17 CQ 5 Examples of decision problems CQ 5: Given a Hoare triple, is it satisfied under total correctness? (Take a guess. All answers will be marked correct.) (A) This problem is decidable. (B) This problem is undecidable. (C) I don’t know. CS 245 Logic and Computation Fall 2019 11 / 17 CQ 6 Examples of decision problems CQ 6: Given a program 푃 and an input 퐼, does 푃 terminate when run with the input 퐼? (Take a guess. All answers will be marked correct.) (A) This problem is decidable. (B) This problem is undecidable. (C) I don’t know. CS 245 Logic and Computation Fall 2019 12 / 17 The Halting problem The decision problem: Given a program 푃 and an input 퐼, will 푃 halt when run with input 퐼? ▶ “Halts” means ”terminates” or ” does not get stuck.” ▶ One of the first known undecidable problems The Halting problem is undecidable. There does not exist an algorithm 퐻, which gives the correct answer for the Halting problem for every program 푃 and every input 퐼. Exercise: Translate the above statement into a Predicate formula. CS 245 Logic and Computation Fall 2019 13 / 17 The Halting Problem is Undecidable A proof by video https://www.youtube.com/watch?v=92WHN-pAFCs CS 245 Logic and Computation Fall 2019 14 / 17 Common questions about the video ▶ Why can we feed a program as an input to itself? We can convert any program to a string, then we can feed the string of the program to itself as input. ▶ What does the negator do? It negates the behaviour of the machine. If H predicts that the program halts, then the negator goes into an infinite loop and does not halt. If H predicts that the program does not halt, then the negator halts. The negator is designed to make H fail at its prediction task. ▶ Why do we need the photocopier? In the video, H takes two inputs. We need to make two copies of the input. In code, we do not need the photocopier. We simply need to call H(P,P). CS 245 Logic and Computation Fall 2019 15 / 17 The Halting Problem is Undecidable Theorem: The Halting problem is undecidable. Proof by contradiction. Assume that there exists an algorithm 퐻, which solves the Halting problem for every program and every input. We will construct an algorithm 푋, which takes program 푃 as input. We will show that 퐻 gives the wrong answer when predicting whether the program 푋 halts when run with input 푋. This contradicts the fact that 퐻 solves the Halting problem for every program and every input. Therefore, 퐻 does not exist. CS 245 Logic and Computation Fall 2019 16 / 17 Revisiting the learning goals By the end of this lecture, you should be able to: Introduction to undecidability ▶ Define decision problem. ▶ Define decidable problem. ▶ Define undecidable problem. ▶ Prove that a decision problem is decidable by giving an algorithm to solve it. The halting problem ▶ Describe the halting problem. ▶ Prove that the halting problem is undecidable. CS 245 Logic and Computation Fall 2019 17 / 17.

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