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In logic, exclusive disjunction is a logical operator. The exclusive disjunction of propositions A and B is usually called A xor B, where "xor" stands for "exclusive or" and is pronounced "eks-or".
The operation yields the result TRUE when one, and only one, of its operands is TRUE.
For two inputs A and B, the truth table of the function is as follows.
A B | A xor B ----+-------- F F | F F T | T T F | T T T | FIt can be deduced from this table that
- (A xor B) <=> (A and not B) or (not A and B) <=> (A or B) and (not A or not B) <=> (A or B) and not (A and B)
- (A xor B xor C xor D) <=> (((A xor B) xor C) xor D)
In general, the result of xor depends on the number of TRUE operands, if there are an odd number of TRUE operands, then the result will be TRUE, otherwise it will be FALSE.
The mathematical symbol for exclusive disjunction varies in the literature. In addition to the abbreviation "xor", one may see
- a plus sign ("+") or a plus sign that is modified in some way, such as being put inside a circle ("⊕"); this is used because exclusive disjunction corresponds to addition modulo 2 if F = 0 and T = 1.
- a vee that is modified in some way, such as being underlined ("∨"); this is used because exclusive disjunction is a modification of ordinary (inclusive) disjunction, which is typically denoted by a vee.
- a caret ("^"), as in the C programming language
Binary values xor'ed by themselves are always zero. In some computer architectures, it is faster, or takes less space, to store a zero in a register by xor'ing the value with itself instead of loading and storing the value zero. Thus, on some computer architectures, xor'ing values with themselves is a common optimization.
The xor operation is sometimes used as a simple mixing function in cryptography, for example, with one-time pad or Feistel network systems.
See also: symmetric difference, or, and, xor swap algorithm, xor linked list, parity
