Zero game

In

Sprague–Grundy value of zero. The combinatorial notation of the zero game is: { | }.^[1]

A zero game should be contrasted with the star game {0|0}, which is a first-player win since either player must (if first to move in the game) move to a zero game, and therefore win.^[1]

Examples

Simple examples of zero games include Nim with no piles^[2] or a Hackenbush diagram with nothing drawn on it.^[3]

Sprague-Grundy value

The Sprague–Grundy theorem applies to impartial games (in which each move may be played by either player) and asserts that every such game has an equivalent Sprague–Grundy value, a "nimber", which indicates the number of pieces in an equivalent position in the game of nim.^[4] All second-player win games have a Sprague–Grundy value of zero, though they may not be the zero game.^[5]

For example, normal Nim with two identical piles (of any size) is not the zero game, but has value 0, since it is a second-player winning situation whatever the first player plays. It is not a fuzzy game because first player has no winning option.^[6]

References

^ ^a ^b Conway, J. H. (1976), On numbers and games, Academic Press, p. 72.
^ Conway (1976), p. 122.
^ Conway (1976), p. 87.
^ Conway (1976), p. 124.
^ Conway (1976), p. 73.
^ Berlekamp, Elwyn R.; Conway, John H.; Guy, Richard K. (1983), Winning Ways for your mathematical plays, Volume 1: Games in general (corrected ed.), Academic Press, p. 44.

[conway-p72-1] Conway, J. H. (1976), On numbers and games, Academic Press, p. 72.

[2] Conway (1976), p. 122.

[3] Conway (1976), p. 87.

[4] Conway (1976), p. 124.

[5] Conway (1976), p. 73.

[6] Berlekamp, Elwyn R.; Conway, John H.; Guy, Richard K. (1983), Winning Ways for your mathematical plays, Volume 1: Games in general (corrected ed.), Academic Press, p. 44.

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