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Proposed page: Near ladder escapes

There are a number of ladder situations where a player does not technically have a ladder escape, but in practice often ends up escaping the ladder anyway. This usually happens because the opponent must play extremely precisely in order to prevent the ladder from escaping, and can easily miss the correct move. In such cases, we may speak of a near ladder escape.

This pages lists some common near ladder escapes, and how to thwart them.

C4 does not escape a 5th row ladder

A single stone at c4 (or the equivalent cell on the opposite side of the board) does not escape a 5th row ladder, even when there is a certain amount space on the 6th row as shown here:

1

However, there is only one way to prevent the ladder from connecting. Blue must play as follows.

1324

In this situation, 2 followed by 4 is the only winning sequence for Blue. The best Red can do is the following, which is not sufficient to connect Red's ladder:

131411985127610

Note that Red gets a 5th-to-3rd row foldback, so if Red escapes a 3rd row ladder moving left, Red connects.

Also note that Red would be able to connect if the stone to the left of 13 were not occupied. Therefore, with slightly more space on the 6th row, a single stone at c4 actually does escape a 5th row ladder:

1

Conversely, if there is less space on the 6th row, Blue has additional ways of blocking the ladder, such as this:

13524769810

D5 does not escape a 4th row ladder

A single stone at D5 (or the equivalent cell on the opposite side of the board) does not escape a 4th row ladder, even when the 6th row is empty as shown here. However, the situation is still very threatening. Red gets both a foldback and a switchback.

1

In the above situation, Blue's only winning move is to push.

132xyz

For move 4, Blue has three possible choices: x, y, or z. If Blue plays moves 4 and 6 at y and z (in either order), Red gets a foldback and a switchback, but does not connect outright:

151313142512119741068

Note that Blue cannot play move 6 on the 2nd row, or else Red gets a forcing move that allows Red to connect outright:

1113275109864

If Blue plays move 4 at x, then on the next move, Red again has three possiblities:

13524xyz

If Blue plays moves 6 and 8 at y and z (in either order), Red gets a foldback and a switchback:

1713516152471413119612810

If Blue plays move 6 at x, Red also gets a foldback and switchback:

1713516152476911141310812

In all other cases, Red connects outright.



Unused draft material for "Question"

The following was a draft example for the page Question, but it turned out to be too complicated to and not have a good answer.

Example: Template intrusion

Consider the following position, with Blue to move:

abcdefghijk78910117891011

Note that Red is connected to the edge by edge template V2b, as highlighted. Blue would like to intrude into this template to gain strength either on the left or on the right.

Blue would like a 4th row ladder escape on the left. But the problem is that if Blue plays at d9 or c10, Red can reconnect by playing a minimaxing move at h7, which strenghtens Red's position.

abcdefghijk7891011789101121

Blue would also like a 4th row ladder escape on the right. But again, the problem is that if Blue moves at g10 or g9, Red can reconnect at g8, or by playing a minimaxing move, say at b10:

abcdefghijk7891011789101121

Neither of these outcomes is great for Blue. Instead, what Blue can do is ask the template a question:

abcdefghijk789101178910111

Basically, the question is: "How do you want to reconnect?" And based on the answer, Blue will be able to gain some strength on the left or on the right, without giving Red quite as much territory as would otherwise have been the case.

For example, if Red reconnects at e8, then Blue can play e10:

abcdefghijk78910117891011213

Now Red's mustplay region consists of the 6 highlighted cells. If Red plays at d9, Blue gets a forcing move at b10, giving Blue a 4th row escape on the left, without Red getting g8. If Red plays at d10, g8, or g10, Blue gets a forcing move at d9, giving Blue a 4th row escape on the left without Red getting g8. If Red plays at g9, Blue defends the bridge at f9 and then plays as before. Finally, if Red plays at f10, Blue can respond at g8, getting a 4th row escape on the right. Although Red can still reconnect at b10, taking away Blue's ladder escape on the left, Red does not have the option of getting g8.

To be continued... and simplified?

To do

Add other illustrative examples, such as a template intrusion that forces the player to trade-off between a stronger connection and letting the opponent get a ladder escape, etc.