Search problem

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In computational complexity theory and computability theory, a search problem is a computational problem of finding an admissible answer for a given input value, provided that such an answer exists. In fact, a search problem is specified by a binary relation R where xRy if and only if "y is an admissible answer given x".^{[note 1]} Search problems occur very frequently in graph theory and combinatorial optimization, e.g. searching for matchings, optional cliques, and stable sets in a given undirected graph.

An algorithm is said to solve a search problem if, for every input value x, it returns an admissible answer y for x when such an answer exists; otherwise, it returns any appropriate output, e.g. "not found" for x with no such answer.

For every search problem, we can define the corresponding decision problem, namely

${\displaystyle L(R)=\{x\mid \exists yR(x,y)\}.\,}$

This definition can be generalized to n-ary relations by any suitable encoding that is capable of compressing multiple strings into one, e.g. using delimiters.

• Unbounded search operator
• Decision problem
• Optimization problem
• Counting problem (complexity)
• Function problem
• Search games