----------------------------------------------------------------------------- -- | -- Module : Data.SBV.Examples.Puzzles.Counts -- Copyright : (c) Levent Erkok -- License : BSD3 -- Maintainer : erkokl@gmail.com -- Stability : experimental -- Portability : portable -- -- Consider the sentence: -- -- @ -- In this sentence, the number of occurrences of 0 is _, of 1 is _, of 2 is _, -- of 3 is _, of 4 is _, of 5 is _, of 6 is _, of 7 is _, of 8 is _, and of 9 is _. -- @ -- -- The puzzle is to fill the blanks with numbers, such that the sentence -- will be correct. There are precisely two solutions to this puzzle, both of -- which are found by SBV successfully. -- -- References: -- -- * Douglas Hofstadter, Metamagical Themes, pg. 27. -- -- * <http://www.lboro.ac.uk/departments/ma/gallery/selfref/index.html> -- ----------------------------------------------------------------------------- module Data.SBV.Examples.Puzzles.Counts where import Data.SBV -- | We will assume each number can be represented by an 8-bit word, i.e., can be at most 128. type Count = SWord8 type Counts = [Count] -- | Given a number, increment the count array depending on the digits of the number count :: Count -> Counts -> Counts count n cnts = ite (n .< 10) (upd n cnts) -- only one digit (ite (n .< 100) (upd d1 (upd d2 cnts)) -- two digits (upd d1 (upd d2 (upd d3 cnts)))) -- three digits where (r1, d1) = n `bvQuotRem` 10 (d3, d2) = r1 `bvQuotRem` 10 upd d vals = zipWith inc [0..] vals where inc i c = ite (i .== d) (c+1) c -- | Encoding of the puzzle. The solution is a sequence of 10 numbers -- for the occurrences of the digits such that if we count each digit, -- we find these numbers. puzzle :: Counts -> SBool puzzle cnt = cnt .== last css where ones = replicate 10 1 -- all digits occur once to start with css = ones : zipWith count cnt css -- | Finds all two known solutions to this puzzle. We have: -- -- >>> solve -- Solution #1 -- In this sentence, the number of occurrences of 0 is 1, of 1 is 11, of 2 is 2, of 3 is 1, of 4 is 1, of 5 is 1, of 6 is 1, of 7 is 1, of 8 is 1, of 9 is 1. -- Solution #2 -- In this sentence, the number of occurrences of 0 is 1, of 1 is 7, of 2 is 3, of 3 is 2, of 4 is 1, of 5 is 1, of 6 is 1, of 7 is 2, of 8 is 1, of 9 is 1. -- Found: 2 solution(s). solve :: IO () solve = do res <- allSat $ puzzle `fmap` mkExistVars 10 cnt <- displayModels disp res putStrLn $ "Found: " ++ show cnt ++ " solution(s)." where disp n s = do putStrLn $ "Solution #" ++ show n dispSolution s dispSolution :: [Word8] -> IO () dispSolution ns = putStrLn soln where soln = "In this sentence, the number of occurrences" ++ " of 0 is " ++ show (ns !! 0) ++ ", of 1 is " ++ show (ns !! 1) ++ ", of 2 is " ++ show (ns !! 2) ++ ", of 3 is " ++ show (ns !! 3) ++ ", of 4 is " ++ show (ns !! 4) ++ ", of 5 is " ++ show (ns !! 5) ++ ", of 6 is " ++ show (ns !! 6) ++ ", of 7 is " ++ show (ns !! 7) ++ ", of 8 is " ++ show (ns !! 8) ++ ", of 9 is " ++ show (ns !! 9) ++ "."