Hash consing

In computer science, particularly in functional programming, hash consing is a technique used to share values that are structurally equal. When a value is constructed, such as a cons cell, the technique checks if such a value has been constructed before, and if so reuses the previous value, avoiding a new memory allocation. A useful property of hash consing is that two structures can be tested for equality in constant time via pointer equality, which in turn can improve efficiency of divide and conquer algorithms when data sets contain overlapping blocks.^[1] Hash consing has been shown to give dramatic performance improvements—both space and time—for symbolic and dynamic programming algorithms.^{[citation needed]}

Hash consing is most commonly implemented with hash tables storing weak references that may be garbage-collected when the data stored therein contains no references from outside the table.^[2]^[3]

^ Liljenzin, Olle (2013). "Confluently Persistent Sets and Maps". arXiv:1301.3388 [cs.DS].
^ Allen, John (1978). Anatomy of Lisp. McGraw Hill. ISBN 0-07-001115-X.
^ Filliâtre, Jean-Christophe; Conchon, Sylvain (2006). "Type-Safe Modular Hash-Consing". Workshop on ML. ACM.

[1] Liljenzin, Olle (2013). "Confluently Persistent Sets and Maps". arXiv:1301.3388 [cs.DS].

[2] Allen, John (1978). Anatomy of Lisp. McGraw Hill. ISBN 0-07-001115-X.

[3] Filliâtre, Jean-Christophe; Conchon, Sylvain (2006). "Type-Safe Modular Hash-Consing". Workshop on ML. ACM.

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