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[keith]

The following is copied from Sudopedia:

Eureka

The Eureka notation system is a compact method to write Alternating Inference Chains.

Cells are mainly written in the rncn notation, but other methods like k9 can also be used.

Candidate digits are written as a prefix to the cell, with the digit number in parenthesis. This is the way to write candidate for digit 1 in the cell at row 5 and column 4.

(1)r5c4

Weak links are represented by a dash.

(1)r5c4-(1)r5c8

Strong links are represented by an equal sign.

(1)r5c8=(1)r9c8

There is no need to repeat the cell name when multiple candidates of that cell are used in the chain. A link between 2 candidates in a single cell is placed inside the parenthesis.

(1-4)r5c4=(4)r5c8

When groups of cells are used in the chain, they are named in the most efficient way.

All cells belong to a single row

(1)r5c456

All cells belong to a single column

(1)r45c4

Unordered group, in a box

(1)r5c4|r6c45

When all candidates represent the same digit, this digit can be placed before the entire chain as a prefix.

(1): r5c4-r5c8=r9c8

When an embedded ALS is part of the chain, the digit linked to the previous node is isolated from the remaining digits with a strong link symbol. The remaining digits are placed in such an order that the digit linked to the next node is the last one.

(1)r5c4-(1=264)r5c789-(4)r4c8

When read from left to right, the chain must contain alternating strong and weak links. There can be no 2 adjacent dashes or equal signs, whether or not they are placed inside the parenthesis.

The result is placed after the chain, separated by a double arrow.

(1)r5c4-(1=4)r5c8-(4)r9c8=(4-1)r7c7=(1)r7c4-(1)r5c4 => r5c4<>1

Category: Chains and Loops

[Marty R.]

[arkietech]

[keith]

[Marty R.]

Keith, I have seen the weak link notation on more than one occasion for bivalue cells.

Here's an example from Ted which uses it twice with bivalue cells.

[daj95376]

Here's my "working definition" of strong inference and weak inference.



Strong Inference: When you have two possible outcomes and you assume that one outcome isn't true, then you must conclude that the other outcome is true.

If you assume that one candidate in a bivalue cell isn't true, then you must conclude that the other candidate is true. Example: (5=9)r1c3 in the grid above. The assumption of <5> not being true forces the conclusion of <9> being true.



Weak Inference: When you have multiple, disjoint possible outcomes and you assume that one outcome is true, then you must conclude that all other outcomes aren't true.

A bivalue cell has multiple, disjoint possible outcomes -- specifically, two. When you assume one candidate is true, then you must conclude that the other candidate isn't true. Example: (5-9)r1c3 in the grid above. The assumption of <5> being true forces the conclusion of <9> not being true.


Addendum:

[ronk]

[daj95376]

[Marty R.]

Thanks Danny, I will try and digest your working definitions, but I'm having trouble seeing how a bivalue can be both.

Thus far the definitions I've seen are both can't be false for strong and both can't be true for weak.

When I see a chain such as Remote Pairs it just looks like every inference fits the definition of both strong and weak, even though they alternate, and I just haven't been able to get that weak inference through my thick skull.

I can notate such things as M- and W-Wings, XY-Chains and simpler AICs, but it's all mechanical, writing and following the rules without really understanding the inferences I'm writing.

[arkietech]

[JC Van Hay]

[arkietech]

[daj95376]

[keith]

[Marty R.]

Thanks again Danny. I had no idea that this thing was so loosey-goosey. I hope that will make my learning process easier.

[ronk]

[daj95376]

[keith]

[daj95376]