Difference between revisions of "Equivalent patterns"

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(Added one example of equivalence that does not arise from capture.)
(Added another game example.)
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== Equivalence for reasons other than capture ==
 
== Equivalence for reasons other than capture ==
  
Capture is not the only way in which equivalent patterns arise. For example, the following two patterns are equivalent:
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Capture is not the only way in which equivalent patterns arise. The following is an example of this.
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=== Example 10 ===
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The following two patterns are equivalent:
 
<hexboard size="3x9"
 
<hexboard size="3x9"
 
   coords="hide"
 
   coords="hide"
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== Practical examples ==
  
== Practical example ==
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=== First example game ===
  
 
Let us see a practical example. In game [http://www.littlegolem.net/jsp/game/game.jsp?gid=206040&nmove=55 #206040] at [[Little Golem]], the situation after 55. m2 is shown in the board below.   
 
Let us see a practical example. In game [http://www.littlegolem.net/jsp/game/game.jsp?gid=206040&nmove=55 #206040] at [[Little Golem]], the situation after 55. m2 is shown in the board below.   
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The blue stone in j6 remained, completely alone and too near to the red group to be of any use in such a small region, so it is obvious that Red has won.
 
The blue stone in j6 remained, completely alone and too near to the red group to be of any use in such a small region, so it is obvious that Red has won.
  
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=== Second example game ===
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In the following game, Red's c9 is connected to the top edge via [[Fifth_row_edge_templates#V-2-a|edge template V-2a]]. A 3rd row ladder is about to form along the bottom edge. Red wonders whether his other stones are enough to escape the ladder.
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<hexboard size="11x11"
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  contents="R a11 B d6 B f6 R c4 B d7 R i6 B i5 R g6 B h4 R g5 B g4 R f5 B f4 R e5
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    B e3 R b5 B d4 R c6 B b6 R c5 B d5 R b8 B b9 R c8 B c10 R c9 B b10"
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  />
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The analysis of this position seems complicated at first. It can be simplified by using the equivalence in [[#Example 10|Example 10]] to shift the blue stone from f6 to e6.
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<hexboard size="11x11"
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  contents="R a11 B d6 B e6 R c4 B d7 R i6 B i5 R g6 B h4 R g5 B g4 R f5 B f4 R e5
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    B e3 R b5 B d4 R c6 B b6 R c5 B d5 R b8 B b9 R c8 B c10 R c9 B b10"
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  />
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Now if Red pushes the ladder all the way to g9, the red stone at g6 will be connected to this ladder by an interior ziggurat:
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<hexboard size="11x11"
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  contents="R a11 B d6 B e6 R c4 B d7 R i6 B i5 R g6 B h4 R g5 B g4 R f5 B f4 R e5
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    B e3 R b5 B d4 R c6 B b6 R c5 B d5 R b8 B b9 R c8 B c10 R c9 B b10
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    R 1:d9 B 2:d10 R 3:e9 B 4:e10 R 5:f9 B 6:f10 R 7:g9 B 8:g10"
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  />
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Now Red can break the ladder and play one more piece. Now i6 creates a 3rd row ladder in the opposite direction, which the ziggurat escapes. Therefore, Red is connected.
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<hexboard size="11x11"
 +
  contents="R a11 B d6 B e6 R c4 B d7 R i6 B i5 R g6 B h4 R g5 B g4 R f5 B f4 R e5
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    B e3 R b5 B d4 R c6 B b6 R c5 B d5 R b8 B b9 R c8 B c10 R c9 B b10
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    R d9 B d10 R e9 B e10 R f9 B f10 R g9 B g10
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    R 9:i9 B 10:h9 R 11:j7"
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  />
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One may wonder whether it would have helped Blue to [[Ladder_handling#Defending|yield]] to a 2nd row ladder. This would not have helped here. For example:
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<hexboard size="11x11"
 +
  contents="R a11 B d6 B e6 R c4 B d7 R i6 B i5 R g6 B h4 R g5 B g4 R f5 B f4 R e5
 +
    B e3 R b5 B d4 R c6 B b6 R c5 B d5 R b8 B b9 R c8 B c10 R c9 B b10
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    R 1:d9 B 2:d10 R 3:e9 B 4:e10 R 5:f9 B 6:f11 R 7:f10 B 8:e11 R 9:h10 B 10:g10
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    R 11:h9 B 12:g9 R 13:h7"
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  />
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This time, Black's 13 acts as a ladder stone for a 2nd row ladder stone in the opposite direction, which the ziggurat again escapes.
 
[[Category: Strategy]]
 
[[Category: Strategy]]
 
[[Category: Computer Hex]]
 
[[Category: Computer Hex]]
 
[[Category: Theory]]
 
[[Category: Theory]]

Revision as of 01:41, 27 September 2020

We say that two hex patterns (subsets of a board) are equivalent patterns if, when one of them occurs embedded in any hex board, it could be replaced by the other and the side who has winning strategy does not change.

Equivalence by capture

Cells that are captured by one player can be filled in with stones of that player's color.

Example 1

For example (using '*' for holes), the two patterns below are equivalent, and an example of what is known as the Useless triangle.

abcdefg12

If Red was the last to move in the left pattern, he has captured the opponent stone in b2, an both players should regard it as another stone of Red.

The knowledge of equivalent patterns turns out to be very useful to play Hex, because it allows you to disregard some pieces in the board, or prune the analysis tree. In my opinion, some patterns lead to positions that are much more clear than other equivalent patterns. My intention here is to write always in second place such pattens, and the use that I make of equivalent patterns is that in my games, mentally I always replace the first patterns by the equivalent counterparts.

Here are several examples of pairs of equivalent positions, and a short explanation on the way to prove them so.

Example 2

The equivalence is obtained by applying two times the example 1.

Both examples before are instances of the following rule to produce equivalence pairs. Given a chain G, let the neighborhood of G, neigh(G), be the set of cells next to one of those in G but not belonging to it. In a given pattern P1, suppose that G is a chain owned by the player A, and that C is a cell in neigh(G) such that any cell of A next to C belongs to G. Let P2 be the pattern that results when A occupies C (removing an opponent stone, if necessary), therefore P2 contains a chain G' containing G and C. If neigh(G')=neigh(G) then P1 and P2 are equivalent.

This rule justifies the following equivalent pairs:

Example 3

Example 4

Another rule producing equivalent patterns: If there are two empty cells C1 and C2 in a pattern, such that if the opponent of the player A occupies one of them, A can occupy the other capturing the latter, then an equivalent position is obtained if both C1 and C2 are occupied by A.

Equivalent pairs obtained with such rule:

Example 5

This is a very instructive pattern because it shows that playing 2 rows out from a friendly edge with 2 free cells on the first row below the play is equivalent to playing at all three cells simultaneously, and hence at least as good as playing at either cell on the first row. So as a rule, never play on the first row in such a situation. We can see this by viewing the 3 upper red stones as part of a friendly edge.

This pattern, along with Example 4 can be used to show that the two move start A1 + B1 (or either single move) for Red loses on a board 3x3 or bigger:

Example 5b (Opening A1+B1 loses)

So, in response to A1+B1 by Red, Blue can play at B2, reaching a position equivalent to just blue stones at A1, A2, A3, B1 & B2. This includes the cells A1 & A2, so the original position is lost for Red by a strategy stealing argument.

In fact, making the opening play B2 is equivalent to playing 5 stones at A1, A2, B1, B2 & C1, however this is known to produce a losing position on boards of size 4, 7 & 8 (see small boards).

Example 6

Example 7

Using both rules together:

Example 8

Example 9

(generalization of the Example 5, for any horizontal length)

Third rule for equivalent patterns (rather obvious) rule: Any area surrounded by a single chain of each enemy may be randomly filled. This happens because the outcome of the game does not depend on it at all.

Equivalence for reasons other than capture

Capture is not the only way in which equivalent patterns arise. The following is an example of this.

Example 10

The following two patterns are equivalent:

aa

This is easily seen by noticing that if the cells marked "a" are both blue, the patterns become equal, whereas if the cells marked "a" are both red, then the blue piece next to them are dead and therefore the patterns become equivalent. So whenever one player's strategy calls for playing in the cell marked "a" in one of these two patterns, the same player can play in the cell marked "a" in the other pattern.


Practical examples

First example game

Let us see a practical example. In game #206040 at Little Golem, the situation after 55. m2 is shown in the board below.

abcdefghijklm12345678910111213

Clearly, m2 is strongly connected to the top, because the stone in f4 is a ladder escape. On the other hand, it is strongly connected to the bottom exactly if blue cannot connect k3 with the right, using j6 and maybe the group in h8-h9-f10 as a ladder escape. In fact he cannot do it, and it is much clearer if some patterns are locally replaced by other equivalent ones, rendering:

abcdefghijklm12345678910111213

The changes have been:

  • f6 and h5 swap color, as in Example 1.
  • The blue group from d8 to l11 is completely wrapped by a strongly connected group belonging to the opponent, except for a narrow section (typically, 2 cells). This kind of groups typically are captured, exactly in the same reason as in Example 1.
  • If blue moves to i7, red moves to i9 and conversely, in both cases enclosing the blue group h8-h9-f10 as before. So, we can use the second rule for detecting equivalent patterns, capturing it.
  • The equivalence in Example 5 can be used for the stone in c12.
  • The equivalence in Example 4 can be used, adding a stone for Red at m11.
  • The area in the bottom of the board is now surrounded by a red chain and a blue chain. Therefore, it may be filled as we please.

The blue stone in j6 remained, completely alone and too near to the red group to be of any use in such a small region, so it is obvious that Red has won.

Second example game

In the following game, Red's c9 is connected to the top edge via edge template V-2a. A 3rd row ladder is about to form along the bottom edge. Red wonders whether his other stones are enough to escape the ladder.

abcdefghijk1234567891011

The analysis of this position seems complicated at first. It can be simplified by using the equivalence in Example 10 to shift the blue stone from f6 to e6.

abcdefghijk1234567891011

Now if Red pushes the ladder all the way to g9, the red stone at g6 will be connected to this ladder by an interior ziggurat:

abcdefghijk123456789101113572468

Now Red can break the ladder and play one more piece. Now i6 creates a 3rd row ladder in the opposite direction, which the ziggurat escapes. Therefore, Red is connected.

abcdefghijk123456789101111109

One may wonder whether it would have helped Blue to yield to a 2nd row ladder. This would not have helped here. For example:

abcdefghijk123456789101113135121124710986

This time, Black's 13 acts as a ladder stone for a 2nd row ladder stone in the opposite direction, which the ziggurat again escapes.