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keith · Last edited by keith on Sat Dec 29, 2007 3:22 pm; edited 3 times in total

Chapter 1: The Classic Remote Pair

In Sudoku terms, a pair is two cells in the same house (row, column, or box) that have the same two candidates. No other cell in the same house can have either of these candidates.

In other words: If any two cells that are peers have the same two candidates (and only two candidates), those candidates can be eliminated in their shared peers.

Sometimes we find that more than two cells in a puzzle have the same two candidates. Moreover these cells can sometimes be linked in a chain to form a remote pair. The cells in the remote pair are not peers, but their candidate values can be eliminated in the cells that are their shared peers.

For example, the following puzzle

keith · Posted: Sat Dec 29, 2007 6:55 am Post subject:

Chapter 2: A More General Remote Pair

It is not necessary that the remote pair be connected by a chain of cells each having the same two candidates. Only one candidate is required.

Returning to the example:

keith · Posted: Sat Dec 29, 2007 7:49 am Post subject:

Chapter 3: The M-Wing

We now continue the discussion: If two cells that are not peers each have the same two candidates, how might this be useful?

If the cells are a remote pair, they must be connected by an odd number of strong links in one candidate. If the cells are connected by an even number of strong links, they are a complementary pair. It is It is often said that a complementary pair is not useful. This is not true!

The following puzzle:

keith · Posted: Sat Dec 29, 2007 8:15 am Post subject:

Chapter 4: The W-Wing

A W-wing consists of two cells that have the same two (and only two) candidates. They are supplemented by two more cells that are a strong link on either of the candidates:

XY-X=X-XY

We can eliminate Y from the shared peers of the end cells. For example, the following puzzle

keith · Posted: Sat Dec 29, 2007 8:17 am Post subject:

Chapter 5: The Extended XY-Wing

The XY-wing is a chain of the form

XZ-XY-YZ

and the cells are in more than one house. Z can be eliminated from the shared peers of the end cells.

A complementary pair of the form

XY=X=XY

is such that the end cells have the same value. So, we can substitute the complementary pair for the pivot (center) cell of the XY-wing, to make an extended XY-wing

XZ-XY=X=XY-YZ

which makes the same eliminations as the XY-wing.

In fact, we can substitute the complementary pair for any of the three cells in the XY-wing. For example,

XZ=X=XZ-XY-YZ

makes the same eliminations.

So, if you have identified a complementary pair, check to see if you can make an extended XY-wing.

{Example Required}.

keith · Posted: Sat Dec 29, 2007 8:17 am Post subject:

Chapter 6: Pincer Coloring, and other comments

keith · Posted: Sat Dec 29, 2007 9:29 am Post subject:

Chapter 7: Summing It Up

A. Weak link

More than two cells in the same house have the same candidate value. Any two of these cells are weakly linked. In the solution, at least one of them is not true.

B. Strong link

Two (and no other) cells in the same house have the same candidate value. These cells are strongly linked. In the solution, one of them has the candidate value, the other does not.

C. Pair

Two cells in the same house have the same two (and only two) candidate values. These cells are strongly linked in both candidates. In the solution, one cell is the first candidate, the other is the second.

D. Classic Remote Pair

Two cells that are not peers have the same two candidate values. They can be linked by a chain of cells that:

1. All have the same pair of candidates.

2. Has an even number of cells, which is equivalent to an odd number of links.

The ends of the chain

XY=XY=XY=XY

are a remote pair. The chain is comprised of four cells and three strong links on both X and Y.

E. General Remote Pair

Two cells that are not peers have the same two candidate values. They can be linked by a chain of cells that:

1. Comprises strong links on one of the candidates.

2. Has an even number of cells, which is equivalent to an odd number of links.

The ends of the chain

XY=X=X=XY

are a remote pair. The chain is comprised of four cells and three strong links on X.

F. Classic Complementary Pair

Two cells that are not peers have the same two candidate values. They can be linked by a chain of cells that:

1. All have the same pair of candidates.

2. Has an odd number of cells, which is equivalent to an even number of links.

The ends of the chain

XY=XY=XY

are a complementary pair. The chain is comprised of three cells and two strong links on both X and Y.

G. General Complementary Pair

Two cells that are not peers have the same two candidate values. They can be linked by a chain of cells that:

1. Comprises strong links on one of the candidates.

2. Has an odd number of cells, which is equivalent to an even number of links.

The ends of the chain

XY=X=XY

are a complementary pair. The chain is comprised of three cells and two strong links on X.

H. M-Wing

I. W-Wing

J. Extended XY-Wing

K. Pincer Coloring

Glossary

= Strong link

- Weak link

keith · Posted: Mon Jan 28, 2008 10:02 pm Post subject:

Appendix: ravel's half M-wing

This message is copied from another thread:

http://www.dailysudoku.com/sudoku/forums/viewtopic.php?t=2298

I decided to look for another of these, which ravel pointed out a week or two ago.

Marty R. · Posted: Mon Mar 17, 2008 12:35 am Post subject:

A W-Wing question:

keith · Posted: Mon Mar 17, 2008 1:53 am Post subject:

Marty,

You are one link short:

Marty R. · Posted: Mon Mar 17, 2008 3:53 am Post subject:

Keith, once again you're there to rescue me. Of course, since a strong link has opposite polarity, I'd need an odd number of links. Why didn't I think of that?

I wasn't thinking M-Wing at the time, but I easily see it.

Thank you.

keith · Posted: Sat Nov 01, 2008 8:22 pm Post subject:

Appendix 2: Generalizing the M-wing

The idea of the M-wing is this: Suppose you have a complementary pair, XY ... XY. They are connected in some way so that you know they have the same value in the solved puzzle. If you can append a strong link in either X or Y to either cell, you have a chain with pincers X or Y.

You may then have this chain:

XY ... (X) ... XY = aY

where a is anything and = is a strong link in Y. The ... (X) ... simply means that there is some logic concerning X that leads you to conclude the XY cells have the same value.

Nataraj and / or Asellus pointed out that the chain can be

XY ... (X) ... bXY = aY

where b is anything. The logic is a little different, but the conclusion still is: One, or both, of the pincers is Y.

Here is a great example:

http://www.dailysudoku.com/sudoku/forums/viewtopic.php?t=2851

keith · Posted: Sun Nov 09, 2008 8:17 pm Post subject:

Here is another example of a generalized M-wing. It is a puzzle from Menneske:

http://www.menneske.no/sudoku/eng/

Marty R. · Posted: Sun Nov 09, 2008 10:26 pm Post subject:

Keith, how do you look for these? Do you look for the remote pairs XY-bXY first or for the strong links first?

keith · Posted: Sun Nov 09, 2008 11:16 pm Post subject:

Marty R. · Posted: Sun Nov 09, 2008 11:47 pm Post subject:

Thanks Keith. I don't expect to use this very often, but it may help me in detecting patterns.

re'born · Joined: 28 Oct 2007 Posts: 80

nataraj · Posted: Mon Nov 17, 2008 8:12 pm Post subject:

Love your astute observations, re'born!
(How long's it been, bout a year? since you last posted here....)

Let me see if I understood the concept by re-phrasing it:

When the ends (pincers) of an m-wing ("classic","half" or "generalized", it doesn't matter) share a house ("see" each other), the loop is completed and all weak links turn into strong links, allowing additional eliminations.

Definitely not something that was "well known" to me, and I'll be on the lookout for those situations from now on!

re'born · Joined: 28 Oct 2007 Posts: 80

keith · Posted: Tue Nov 18, 2008 1:59 am Post subject: