I think I have a situation where I have a swordfish (AEJ246) but the candidate number ultimately lies outside the 3-3-2 grid. Could you explain why that is? Here is the puzzle, solved up to the point of the swordfish: [ 901070346 370004051 645003007 510049768 407080519 896700423 200400105 104000002 750030604 ]

Using the solver, I do see that there is a box/line reduction that occurs before. But why would that negate the premise of, "the shaded cells really must contain the solution"?

Can swordfish include more than 3 rows/columns ?

This is the clearesst explanation of the swordfish strategy I've yet seen, in particular that that the digit on which it hinges can appear in as few as six and as many as nine squares.

I do number puzzles because I am color blind. So here it is in all infinite wisdom and knowledge explaining the tactics with colors. Just sayin "YO"!

Hi Andrew

My compliments on the site. Please ignore my previous comment. There is indeed a swordfish pattern for the possible value 2 but it doesn't eliminate anything. Indeed I found several swordfish patterns in the example similarly.

I was using the example to test code in a solver that I've written. There were lots of print statements to show what was happening. The code was reporting eliminating possible values when it hadn't. D'OH! Which led me to think I'd found another valid swordfish.

Regards
Pete

Concerning example 2 on why You did not use rows E,F and G,was that they contained more than three 4s.
That being the case,on example 1 why did you use the last row yet it contains more than three 9s.
Also on your perfect swordfish example,why do rows B,C&D contain more than three 8s
kenya

In example 2, You said you did use rows E,F and G. Because they had extra 4s. My question: in example 1 why did you use row B, yet it has extra 8s

thx i understood this issue in your page .

In sword-fish example 2, why did you use Rows C and D in the pattern and not Rows E and G?

Hello;
I am not in a position to comment. And it is not my intention. I am just learninin . But, when I found your site, I felt blessed. It is just what I have been hoping for. It is excellent. You are genius. I only wish to understand a better part of what you are trying to impart.
Best Regards
Sukjae Yu

I'm still a bit confused. In a 2-2-2 Swordfish what do I look for that signals this is the method I should be using? Once identified, how do I confirm my results?

PS-I love the solver. I use it to "cheat" when I get stuck with the app on my phone. You taught me how to do an X-Wing by eye and I love it!

Unsurpassed site; many thanks. I'm definitely learning from it - I just used my first swordfish (3-3-2) to solve a newspaper puzzle.

I'd like to reiterate Pieter's point about the potential for confusion in the write-up of the 2-2-2 example.The sentence "The next example has 9 twice in each row and is called a 2-2-2 Swordfish" strongly suggests, twice, that the swordfish is in the rows, and the reference in the following paragraph to the pairs (visibly in the rows) that are "staggered so that they still cover three columns" reinforces this. Even though the colours in the diagram show that the swordfish is in the columns, it is still initially confusing - the more so because it would be a 2-2-2 in either orientation. I have to wonder whether the example has been reoriented at some stage during development.

An initial fix would be to change "rows" to "columns" in the quoted sentence. Beyond that, I cannot see what is gained by the comment that it "reduces to three pairs", when other 2-2-2 examples could "reduce" to various combinations of 3-2-1. I don't recall you saying anything similar anywhere else and it would, I think, be clearer just to say, as you normally do and as you do in the example that follows, that the swordfish is in the columns and the eliminations take place in the rows.

in the first pattern with the Xs, is it no possible to have other swordfishs with columns 2,3,4 or 2,3,6 or 3,4,6 ? why can we not work with the 2 X in column 3 ?
swordfishs will then be 3x2x3 and no 3x3x3.

merci d'avance pour la réponse

Since the 222 combination works in the swordfish. Does a 332 or 322 combination also work?

To expand on Eric's reference to locked pairs (2011-12-2), and using the perfect 3-3-3 formation I think a different and simpler way to describe a Sword-Fish is that it is "A locked set of 3 locked-triples (sharing the same 3 rows and same 3 columns)".

The simplest 2-2-2 formation in Example 1 is "A locked set of 3 locked-pairs (sharing the same 3 rows and same 3 columns)". And as Jef points out, boxes can also be involved (if there is a locked pair linking with the other locked pairs/triples)

Also re Example 1, I think your labelling is confusing Andrew! Yes it reduces to AA, BB and CC, but to detect the Sword-Fish, the 3 pairs of 9's one needs to find are in Cols 2, 5 & 8 labelled BC, AB & AC.

Still the BEST Sudoku site on the net!

I think my previous comment was a bit off-topic, since I explained X-Cycle here. This was caused due to the fact that a 2-2-2 swordfish is an X-Cycle as well.

I would like to suggest that this topic starts of with the 3-3-3 Swordfish to fully explain this subject and then focus on 2-2-2, 2-1-2, etc.

I also see great simillarity with naked pairs/triples and quads and wonder if swordfish detection for more than 3 rows or columns is useful.

I think the Swordfish pattern becomes visible by connecting cells A-C, B-E and D-F. This shows 3 parallel lines that show some similarity with a Swordfish.

The Swordfish method can be explained as follows:
Statement:
Number 5 is either in the cells B+C+F or in cells A+D+E.
Proof:
- If cell B would contain numer 5, then cells B and D cannot contain 5. Therefore, on row F, cell C must contain a 5 (single candidate), and at row J, cell F must contain a 5 (again: single candidate).
- If cell A would contain number 5 than cell D+E must contain a 5 for same reason.
- At row A, number 5 can only be filled in at cell A or B, and therefore, number 5 must be present in cells B+C+F or in cells A+D+E.

Based on this statement, the pairs CE, AF and BD are locked pairs as well. Since number 5 must be in cell C or E on column 2, cell X cannot contain number 5. In column 5 cell A or F must contain number 5, and at column 9 cell B or D must contain number 5. Number 5 can thus be removed from all other cells at these columns.

Next to pairs CE, AF and BD, the following pairs are also locked pairs: AC, BE, DF.
These locked pairs are not valuable for the Swordfish strategy, but (in my opinion) these locked pairs represent the Swordfish pattern and gave name to this strategy.

Re: Swordfish. Are there clues to "find' the Swordfish number? Your top/first example highlights 5 at c1, d4 and h8, and the Swordfish is based on the 5s elsewhere. Is there some significance for this? (Of course, the bottom/last example doesn't follow this approach.) I see the usefullness of this technique but spotting the correct number is difficult. Thanks!

I've got new ideas for me from this site. Thanks. But you would have more simple methods, and then last example would disappear, such as "Perfect 3-3-3 Swordfish". You have many hard strategies but you have little simple methods. It is not logical.

Very good explanation, but could you add some more examples including the other possible Swordfish formats, 3-2-1 etc?

Re: Swordfish strategy page formatting - the characters in yellow on print version of web page are printing in a light yellow, making them nearly invisible. They are not formatted the way yellow characters on your other strategy pages are (dark blue with yellow highlighting). Nit-picky, I know. (I'll save the kudo until I've actually read the pages, but predict that you deserve many. Hope this makes sense; I'm wiped at the moment, and apologize for not hunting down appropriate address for this comment.)

my comment refers to Jef's mixed Box/Row example:

any wrapped AIC chain eg.
{a = b - c = d - e = f} - a implies a 'fish'. But as far as spotting patterns and associated eliminations (swordfish in rows, eliminations in columns) it doesn't seem particularly useful, except in theory to extend the definition of SwordFish'.
Your example is:
{r9c3 = r9c4 - r78c6 = r23c6 - r1c45 = r1c3} - r9c3.
this wrapped AIC chain eliminates all non-fish candidates in columns 345.
It's just a structural coincidence that the eliminations all occur in those columns here (so I guess you could technically call the pattern a swordfish).

BTW: a Finned X-Wing is a 2 string Kite is a simple AIC chain:
a = b - c = d, where the geometry of the chain is constrained to a rectangle with a 'group' node in one corner.

If you had a swordfish with a single cell in it's row (i.e. X-X-1), wouldn't that single cell be a hidden single and therefore you wouldn't need to use the swordfish strategy?

Awesome site by the way!

An excellent exposition of really advanced and difficult techniqe which many find it difficult to understand. You explained in simple and easily conprehendible manner. Thanks. Now I am confident of solving extremely difficult Sudoku puzzles using sword fish technique.

A Swordfish is not limited to rows and columns, also boxes can be involved:

. . x|x x .|. . .
. . .|. . .|. . .
. . .|. . .|. . .
-----+-----+-----
. . .|x . .|. . .
. . .|. x .|. . .
. . .|. . .|. . .
-----+-----+-----
. . .|. . .|. . .
. . .|. . .|. . .
. . x|x . .|. . .
Swordfish row 1, box[2,2] and row 9.
Is your solver finding this pattern?
Have you examples of this pattern?

Kind regards,
Jef

PS I totally agree with your remarks on J.F. Crook's paper, nothing new and not a real solution.

http://users.telenet.be/vandenberghe.jef/sudoku/