Zero game
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Template:About In combinatorial game theory, the zero game is the game where neither player has any legal options. Therefore, under the normal play convention, the first player automatically loses, and it is a second-player win. The zero game has a Sprague–Grundy value of zero. The combinatorial notation of the zero game is: { | }.<ref name="conway-p72">Template:Citation.</ref>
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.<ref name="conway-p72"/>
ExamplesEdit
Simple examples of zero games include Nim with no piles<ref>Template:Harvtxt, p. 122.</ref> or a Hackenbush diagram with nothing drawn on it.<ref>Template:Harvtxt, p. 87.</ref>
Sprague-Grundy valueEdit
{{#invoke:Labelled list hatnote|labelledList|Main article|Main articles|Main page|Main pages}} 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.<ref>Template:Harvtxt, p. 124.</ref> All second-player win games have a Sprague–Grundy value of zero, though they may not be the zero game.<ref>Template:Harvtxt, p. 73.</ref>
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.<ref>Template:Citation.</ref>