Fuzzy game


In combinatorial game theory, a fuzzy game is a game which is incomparable with the zero game: it is not greater than 0, which would be a win for Left; nor less than 0 which would be a win for Right; nor equal to 0 which would be a win for the second player to move. It is therefore a first-player win.

Classification of games

In combinatorial game theory, there are four types of game. If we denote players as Left and Right, and G be a game with some value, we have the following types of game:
1. Left win: G > 0
2. Right win: G < 0
3. Second player win: G = 0
4. First player win: G ║ 0
Using standard Dedekind-section game notation,, where L is the list of undominated moves for Left and R is the list of undominated moves for Right, a fuzzy game is a game where all moves in L are strictly non-negative, and all moves in R are strictly non-positive.

Examples

One example is the fuzzy game * =, which is a first-player win, since whoever moves first can move to a second player win, namely the zero game. An example of a fuzzy game would be a normal game of Nim where only one heap remained where that heap includes more than one object.
Another example is the fuzzy game. Left could move to 1, which is a win for Left, while Right could move to -1, which is a win for Right; again this is a first-player win.
In Blue-Red-Green Hackenbush, if there is only a green edge touching the ground, it is a fuzzy game because the first player may take it and win.
No fuzzy game can be a surreal number.