cryptol/tests/regression/r03.cry

module r03 where

all : {n, a} (fin n) => (a -> Bit, [n]a) -> Bit
all (f, xs) = [ f x | x <- xs ] == ~zero

contains xs e = [ x == e | x <- xs ] != zero

/*
distinct : {a, b} (fin a, Cmp b) => [a+1]b -> Bit
distinct ([x] # xs) = ~ (contains xs x) && (if width xs > 1 then distinct xs else True)
*/

distinct : {n,a} (fin n, Cmp a) => [n]a -> Bit
distinct xs =
    [ if n1 < n2 then x != y else True
    | (x,n1) <- numXs , (y,n2) <- numXs
    ] == ~zero
  where
      numXs = [ (x,n) | x <- xs | n <- [ (0:[width n]) ... ] ]

type Position n = [width (n - 1)]

type Board n = [n](Position n)

type Solution n = Board n -> Bit

checkDiag : {n} (fin n, n >= 1) => Board n -> (Position n, Position n) -> Bit
checkDiag qs (i, j) = (i >= j) || (diffR != diffC)
  where   qi = qs @ i
          qj = qs @ j
          diffR = if qi >= qj then qi-qj else qj-qi
          diffC = j - i                   // we know i < j

nQueens : {n} (fin n, n >= 1) => Solution n
nQueens qs = all (inRange qs, qs) && all (checkDiag qs, ijs `{n}) && distinct qs

ijs : {n}(fin n, n>= 1)=> [_](Position n, Position n)
ijs = [ (i, j) | i <- [0 .. (n-1)], j <- [0 .. (n-1)]]

inRange : {n} (fin n, n >= 1) => Board n -> Position n -> Bit
inRange qs x = x <= `(n - 1)

property nQueensProve x = (nQueens x) == False

/* Try:

  :sat nQueens : (Solution n)
  where n is the problem-size

*/