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Naccel  post #11 (midblot refinement)
Posted By: Nack Ballard
Date: Sunday, 28 February 2010, at 5:06 a.m.
To review Naccel material, click below:FAQ, Post #1, Post #2, Post #3, Post #3x, Post #4
Post #4x, Post #5, Post #5x, Post #6, Post #6x, Post #7
Post #8, Post #8x, Post #9, Post #10, N57 race formula
Welcome to post #11. I will...(a) advance your understanding of midblot counts,
(b) reinforce some earlier material,
(c) illustrate a new formation, and
(d) count full board positions (as usual).
To review midblot counting, click on "Post #8" above.An example of a common midblot count is shown below:
Here, the blot is located on the THIRD point in front of the Super, which combines well with the THREE checkers on the midpoint. To count, you add this 3 to the Super, which in this case is S1, for a count of 4.
m3+1 4
In post #8, I introduced this formation as "midblot three/third + S1," and I later abbreviated it to "midblot 3 + S1." I'll now abbreviate it further to "m3+1" and henceforth that will be the main way that I write it.
Let's review what that formation looks like when we move the blot to the back quadrant:
This formation is midblot three/third + S3, or midblot 3 + S3, or simply m3+3. Just add 3 + 3 to get a count of 6. (Note that you can doublehop the blot to reach the previous position, which has a count of 4.)
m3+3 6
With a slightly more advanced application of midblot counting, you can often combine the midpoint with two or more checkers. For example:Here, the blots are 1 + 2 = 3 pips ahead of the Super, and can therefore be combined with three checkers on the midpoint (just as surely as one blot 3 pips ahead of the Super can). You simply add S3 twice instead of once to get the proper count.
m3+3+3 9
The formation above is m3+3+3 = 9. The first 3 refers to number of pips in front of the Super and the matching number of checkers on the midpoint, and the other two 3's represent S3 for each checker in that quadrant. Longhand, this might be written "midblot THREE + S3 + S3 = 9."
[Note that you can break the above formation into two midblots, m1+3 and m2+3, allocating one midpoint checker to the backmost blot and two midpoint checkers to the other blot. But once you grasp the concept of combining, m3+3+3 is faster.]
Below is a similar but larger example, and to mix things up I'll switch colors:
The blots are a total of 5 pips in front of the Super, which match up well with the five checkers on the midpoint. And S3 gets added twice, yielding
m5+3+3 11
m5+3+3 = 11
If the two "blots" happen to be on the same point, it works the same way:
In the lefthand diagram, the back checkers are a total of 4 pips in front of the Super, which match up with the four checkers on the midpoint. Add S3 twice, yielding
m4+3+3 10
m4+2+2 8
m4+3+3 = 10
If you hop the back checker anchor forward, reducing the count by 2, you get the formation in the righthand diagram, which counts
m4+2+2 = 8
Hop the anchor forward again, and you get
In the lefthand diagram, the near side checkers are a total of 4 pips in front of the Super, which match up with the four checkers on the midpoint. Add S1 twice, yielding
m4+1+1 6
m4+0+0 4
m4+1+1 = 6
If you hop the point forward yet again, you reach the righthand diagram, which is counted as
m4+0+0 = 4
It's really quite simple, once you get the hang of it.
You can even combine the midpoint with checkers in different quadrants. For example:
The anchor is 2 + 2 = 4 pips in front of their Super, and the blot is 1 pip in front of its Super, and the for a total of 5 pips. That 5 pips matches up with the five checkers on the midpoint. The formation is counted as
m5+3+3+0 11
m5+3+3+0 = 11
It might take a while to build up to such counts, but in the meantime you can break this down into two formations:
m4+3+3 = 10
m1+0 = 1The first line is for the anchor: 4 pips / four midpointers, S3+3. The second line is for the blot: 1 pip / one midpointer, S0 (also known as a blot diag).
Let's revert to a simpler example:
If you like, you can count this formation as m2+0+0 = 2. However, you already recognize this as a diagonal mirror or "diag" that counts 2. (If not, review the fourth diagram here.)
(Point) Diag 2
If you hop the n1 point backwards (to n5), you increase the count by 2, to 4, and get a regular mirror. If you hop the point backwards again, you increase the count by another 2, to 6, and it looks like this:
If you like, you can count this as (a midblot) m2+2+2 = 6, or you can see it as a "double wide" squad (which you can review here): (n11+n7)/3 = 6. Or if you know midgold = 7 and midblock = 5 (shown in the eighth and ninth diagrams here), you can see this formation is exactly in between and therefore a count of 6. Regardless of how you count it, sooner or later, you'll know it as an instant 6, as I do.
Double Wide 6
From this formation, if you shift the points outward by a pip, the count remains at 6 and the new formation looks like this:
The formation in the lefthand diagram is called a reverse diagonal mirror, or rev diag, or simply "rev." A (point) rev counts 6.
(Point) Rev 6
(Blot) Rev 3
For reference, a "blot rev" (one checker on each point) is shown in the righthand diagram. A blot rev counts 3 (half of a point rev). Basically, the count of any rev is half again the number of checkers in the formation.
Let's switch colors (from White to Blue) and slide the points to the left a few pips:
Like mirrors and diags, opposing checkers of revs are on the same color.
Rev 6
Rev 6
Another important clue for ANY mirrortype formation (mirror, zig, zag, diag, rev...) is that opposing checkers are either already on Supers or pair points, or they can be equally shifted to get there.
In the lefthand diagram, for example, a 1pip shift and countershift to the right transforms both points into pairs, as shown in the righthand diagram: pair 5 + pair 1 = rev 6.
Alternatively, the points in the lefthand diagram can be equally shifted 2 pips to the left, which gives you two checkers on S3 plus two (invisible) checkers on S0, again for a count of 6.
The revs in the above lefthand diagram and previous lefthand diagram will soon be used in our fullboard counting; so, you might want to quickly review them now.
The midpoint is a useful collector of "leftover counts" (see post #10). For example, three checkers on the midpoint are 3(3). There are times, though that you can combine a wouldbe integer count with a leftover count and save a step. For example...
Tweensym 4(3)
You can count these six checkers as a triplet 1 plus a leftover midpoint count of 3(3), for a total of 4(3).
Alternatively, you can count this formation as a "tweensym" (written as one word or two), a concept you can review in the eighth diagram line (lefthand and righthand diagrams) here. These six checkers are grouped symmetrically around the imaginary 4 1/2 point; the count is therefore 4(3).
Here is a related example:
You can count 1 for the triplet, and 1(3) for the offtriplet (i.e., divide n3 by 2), for a total of 2(3).
Tweensym 2(3)
It is faster, though, to count this as a tweensym. Six checkers around the (imaginary) 2 1/2 point count 2(3).
On to full board counting.Our first position is supplied by Ian (in this post) and shown in the lefthand diagram below. We will start by looking just at Blue:
Ian also provided the RIGHTHAND diagram above, in order to demonstrate a 3pip shift/countershift that leads to a fast count for Blue using the "Cluster Count" system. I've also pasted his cluster count below:
Diag 2, Tweensym 2(3) 4(3)
117 >

30 for the six point stack
10 for the five point pair
30 for the stack shifted onto the 10 point
40 for the pairs on the midpoint+barpoint
+7 for the left over on the barpoint
Total 117 (it's easy to keep a running count on your head when it's all in 10s.)
"Can Naccel count this faster?" Here is how I would respond (using the original position in the lefthand diagram):

2 for the diag.
2(3) for the tweensym.
Total 4(3). It's easy to keep a running count when it's in 1s.
The same Naccel count can be applied to the shifted (righthand) position, but of course, it's easier to count without shifting (lefthand) when you have the choice. In short, for this position, Naccel uses two subcounts compared to Cluster's five subcounts, plus there is no preshift.
Isolating the six checkers in the lower right (of the lefthand diagram), Lucky Jim counted the triplet as 1, and the oddpoint threestack as 1(3); that's a good way to do it if you don't know/remember the tweensym technique. (In fact, if your leftover counting is less sophisticated still, you can break down that sixchecker portion to triplet 1 + pair 1 + n3 blot = 2(3).)
[If you're not sure how to count a diag or tweensym, go back just a few diagrams and review.]
Here is Ian's full board position with both colors:
Now we'll repeat the position just for White but with (two types of) motion:
The RIGHTHAND diagram represents Ian's 2pip shift (2 pips) in each direction. His Cluster Count is:
Squad poof, S3, Rev 6 9
148
"50 for the 24+midpoint combination 50 for opposing pairs on both sixpoints (leaving two over on White's six point) 30 for the block on the 7 & 8 points leaving +12 and +6 for the four remaining innerboard chequers. Total 148"
The LEFTHAND diagram also shows 2 + 2 = 4 pips of motion, except it is all in the same direction (forward). The Naccel count is:
"Pair/block poof, S3, Rev 6, plus 4p motion. Total = 9(4)."
[Squad poofs can be found in this post or this post, and the pair/block poof in particular was discussed about twothirds of the way through this post. The "rev" was discussed just a few diagrams ago in the current post.
For reference, White trails Blue by 9(4)  4(3) = 5(1).
Jim and Petter counted much the same way, using 2 pips of motion to poof White's near side, and the other 2 pips to create the rev. The only real difference is that they didn't actually know the formation as a rev (prior to this post), so they counted the Supers piecemeal as S2+2 + S1+1 = 6.
As an alternative, you can just as easily move White's other farside point forward, as shown below. White's double wide in the lower right counts 6. [The double wide is explained and illustrated earlier in this post, and here.]
Squad poof, S3, DblWide 6 9
The second position, diagrammed below, is brought to us by Petter. (He credits the origin in his post.)For Blue, the count is m3+3+3, plus triplet 1 plus a pip = 10(1).
m3+3+3, triplet 1 + 1p 10(1)
Can you follow that? You can review the fivechecker formation on the far side (m3+3+3) earlier in this post, but basically, the back checkers are 3 pips in front of the Super, which match the three checkers on the midpoint, and you add another 3 for each of the blots near S3. Ian and Jim came up with the same correct 9 count portion by shifting to the Supers: S3+3 + S1+1+1 = 9.
The small poof consisting of the seven n1, n0 and n1 checkers we all simply ignored. That leaves two checkers on n2 and one on n3. If the n3 checker is moved forward a pip, a triplet of 1 is formed; hence the leftover count is 1(1).
Petter's count is interesting: he shifted the back checkers to S3 and the two n2 checkers to S0 (ninechecker poof), for a net motion of +1 pip. The four checkers remaining on the right are m3+1, plus S3+3 comes to 10, plus the 1p motion makes 10(1).
I'll describe a faster variant of that: Simply move the backmost checker 1 pip forward, as shown below, left. This creates a REV composed of the n16 and n2 points, for a count of 6 (while the seven checkers to the left of n2 still poof). For the four rightmost checkers add m3+1 in the same way, plus the initial 1p motion, yields a count of 10(1).
To further clarify visually, I've removed the small (sevenchecker) poof in the righthand diagram, leaving just the rev and the m3+1 formation.
Rev, m3+1, small poof 10
Rev, m3+1 10
Let's repeat the position with White numbering:You can, of course, count this as an opening position of 12(5) minus 5 pips moved = 12. If you know a reference position, you may as well use it. But for practice, let's pretend we're not that lucky.
m5+3+3+0, triplet 1 12
m5+3+3, triplet 1 12
I count White as m5+3+3+0 plus triplet 1 = 12.
White's exact position without the triplet (and S0 checkers) is diagrammed earlier in this post. White's anchor and blot, together, are 5 pips in front of the Supers  matching to the five checkers on the midpoint  and the checkers are near S3, S3 and S0. Hence the count is m5+3+3+0, and the triplet adds 1 more, for a total of 12.
If you can't quite wrap your mind around that midblot count, you can break it into two pieces, both of which are diagrammed or implied earlier in this post: (a) m4+3+3, and (b) m1+0. (Plus the triplet 1 gives a total of 12.) The m4+3+3 formation involves four midpointers plus the two back checkers (4 pips in front of S3). The m1+0 is just a blot diag (one midpointer plus the n1 blot).
An alternative midblot method that you might find easier is to shift forward one of White's back checkers 1 pip, and countershift her n1 checker to n0 (making it disappear), as shown in the righthand diagram. This gives you m5+3+3 + triplet 1 = 12.
Once you become comfortable with midblot counting (a matter of practice), more formations will become instant counts to you, and you'll be closer to performing lightning counts for a wide variety of positions.
Petter found a pleasing White count: shift the blot 8 pips back to her midpoint and (equally) countershift the anchor 4 pips to S2. That yields a count of S2+2 + midstack 7 + triplet 1 = 12.
Jim hopped a midpointer to n1, poofing with n1. Then he shifted the other four midpointers to S1 and the back checkers to S3. That yields S3+3 + S1*4 + triplet 1 + motion 1 = 12.
Ian shifted the anchor forward and the midpointers all 1 pip forward, and the n1 checker back 1 pip (that's +2 + 5  1 = net +6 pips motion). He counted pair 5 + S1*5 + triplet 1 + motion 1 = 12.
Again, all this shifting to Supers works well enough, but if you put a bit of effort into learning the midblot logic, your counts will become even faster.
Next position(s)?Nack

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