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What is the largest set of seven-, fourteen-, or sixteen-segment LCD symbols such that

  • all of the symbols are instantly recognizable as characters that can be typed on a standard US-ASCII keyboard;
  • if you take any subset of the symbol set and superimpose all its elements, that is also an instantly recognizable and typeable character;
  • all of the base symbols and all of the possible superimposition groups produce distinct characters.

The best I've been able to do with a seven-segment alphabet is three: 54F 96A8

No fair using characters that are meaningless out of context, e.g. the M and W from Harvey Twyman's seven segment font are no good.

(Why would you want to do this? Imagine a situation where you can superimpose symbols of your choice, and some of them are going to be invisible but you don't know which. By using symbols from a set like this, and getting someone to look at the result, you can deduce which base symbols were invisible.)

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What does instantly recognizable mean? –  SLaks Sep 13 '10 at 1:48
I can only give bad examples: Look at Twyman's font. The V there looks more like a lowercase U, and he uses the same symbol for H, K, and X. That's bad. Or, if you flipped the usual 9-symbol vertically, that might be a lowercase D, but most people would go "huh"? –  Zack Sep 13 '10 at 2:33
Are - and _ distinct by position? –  Brooks Moses Sep 13 '10 at 4:10
I think I'd rather not rely on people knowing the difference between - and _ ... but it sounds like it's moot anyway. –  Zack Sep 13 '10 at 16:40
Where is codegolf?.. –  Nakilon Sep 19 '10 at 16:30
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1 Answer

up vote 2 down vote accepted

One observation is that your rule about distinct characters means that the maximum number of segments that any symbol in your set can occupy is equal to N_segments - N_symbols + 1. (And you can apply that recursively to the segments it doesn't occupy and the other symbols.)

The first corrolary of this is that, if you have a symbol of this maximum size, it must produce a legible symbol when you add any single extra segment.

The second corrolary of this is that, if you have a symbol of this maximum size, it also must produce a legible symbole when you add any combination of extra segments.

So, to beat your best of 3 for a 7-segment display, you can't use any symbols that occupy more than 4 segments. The possiblities there that I can see are (1 segment) - and ' in multiple places, (2 segments) =, r, 1, (3 segments) n, u, c in two places each, L, J sans hook, 7 sans hook, (4 segments) h, 4, [, ], o in two places, F, J and L with hook, 7 with hook, and t.

Several of the four-segment ones fit the first corrolary -- 4 (if you allow adding the lower segment to count as a Y), F, L with hook, and t. All but F fail the second corrolary when you make an upside-down A, and F fails because P and P-with-hook (add lower segment) are not distinct.

Thus, a set of four has to have a maximum symbol size of 3 segments. A third corrolary, then: If two symbols combine to make a symbol of maximum size for a set of one fewer symbols, then that combination must fit the conditions of the first and second corrolaries. That applies to all pairs of five segments, and rules out pairs of six segments.

Attacking from the other end, there's no way to combine the one- and two-segment sets to make a working set of three (- and ' can only make r, so that rules out r, and individually they don't work with = or 1; ' doesn't work with r or 1; and r and 1 don't work together). So, to get a set of four symbols, we have to include a couple of three-segment ones.

Any two of upper n and upper u or upper c make an upper o. Upper u and lower n make H and thence upside-down A and out. Upper u or upper c combine with 7, making q, from whence we get A and g. Upper u also combines with J sans hook, making y and thence upside-down again. Upper c and lower n make h-with-hook, and thence A and b-with-hook. Upper c combines with L, making E and thence b and P with hooks. Any two of lower n and lower u or lower c make o. Lower n with L makes b, or with J makes d, and either thence gets upside-down A. Lower c with J makes d, same problem. L and J make U, and again the upside-down A. J and 7 make ].


upper    lower    
n  u
n     c
   u  c
   u              J
      c  n
      c              L
         n  u
         n     c
            u  c
                  J     7

There aren't any trios in there. 7 and L only show up in one row, remove those and J is only in one row, combining all lowers or all uppers makes o several ways, and there's only one upper-lower combination.

Thus, we'd need to add singles or pairs to these. Considering just which ones are valid individually, we have (for simplicity, not recording positions):

upper    lower    
n  u                         '     1
n     c                            1
   u  c                            1
   u              J             -
      c  n                         1
      c              L             1
         n  u                '     1
         n     c                      r
            u  c                   1  r
                  J     7

There's only one of these where there are two smaller symbols that go together -- the second-to-last. That's an upper r, and a right-side 1. u + c = o, u + r = G, u + 1 = J with hook, c + r = E, c + 1 = d, r + 1 = 7 with hook, u + c + r = 6, u + c + 1 = d, c + r + 1 = 8 -- and there it fails, since that's not distinct from the set of all of them.

Thus, I think that's an exhaustive proof that your set of seven-segment numbers is a maximal set.

Edit: The proof is only true if the initial set is complete. I left out ". It doesn't make triplets, doesn't work with all-lower or all-upper three-segment pairs, and doesn't work with J or 1, so it doesn't affect the result.

Also, things get slightly more interesting if - and _ are considered distinct, but not a lot; they don't trio with any of the other one- and two-segment symboles, and as a pair they don't combine with any upper or lower three-segment symbols, nor the J or 7. Likewise ' and , -- they again don't trio with the other one- and two-segment symbols, and as a pair don't combine with any of the three-segment pairs.

Edit 2: I also missed upper u or upper c and 7 make 9. Again, this doesn't go anywhere; even though u and c also go together, the trio makes 9 two ways. Neither of those go anywhere with smaller symbols either.

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Thanks for the comprehensive analysis! I'd still be interested in answers for the 14- or 16-segment case, but it's great to have the 7-segment case put to bed. –  Zack Sep 13 '10 at 16:42
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