Here is a way to solve Euler problem 43 (please let me know if this doesn't give the correct answer). Is there a monad or some other syntatic sugar which could assist with keeping track of the `notElem`

conditions?

```
toNum xs = foldl (\s d -> s*10+d) 0 xs
numTest xs m = (toNum xs) `mod` m == 0
pandigitals = [ [d0,d1,d2,d3,d4,d5,d6,d7,d8,d9] |
d7 <- [0..9],
d8 <- [0..9], d8 `notElem` [d7],
d9 <- [0..9], d9 `notElem` [d8,d7],
numTest [d7,d8,d9] 17,
d5 <- [0,5], d5 `notElem` [d9,d8,d7],
d3 <- [0,2,4,6,8], d3 `notElem` [d5,d9,d8,d7],
d6 <- [0..9], d6 `notElem` [d3,d5,d9,d8,d7],
numTest [d6,d7,d8] 13,
numTest [d5,d6,d7] 11,
d4 <- [0..9], d4 `notElem` [d6,d3,d5,d9,d8,d7],
numTest [d4,d5,d6] 7,
d2 <- [0..9], d2 `notElem` [d4,d6,d3,d5,d9,d8,d7],
numTest [d2,d3,d4] 3,
d1 <- [0..9], d1 `notElem` [d2,d4,d6,d3,d5,d9,d8,d7],
d0 <- [1..9], d0 `notElem` [d1,d2,d4,d6,d3,d5,d9,d8,d7]
]
main = do
let nums = map toNum pandigitals
print $ nums
putStrLn ""
print $ sum nums
```

For instance, in this case the assignment to `d3`

is not optimal - it really should be moved to just before the `numTest [d2,d3,d4] 3`

test. Doing that, however, would mean changing some of the `notElem`

tests to remove `d3`

from the list being checked. Since the successive `notElem`

lists are obtained by just consing the last chosen value to the previous list, it seems like this should be doable - somehow.

UPDATE: Here is the above program re-written with Louis' `UniqueSel`

monad below:

```
toNum xs = foldl (\s d -> s*10+d) 0 xs
numTest xs m = (toNum xs) `mod` m == 0
pandigitalUS =
do d7 <- choose
d8 <- choose
d9 <- choose
guard $ numTest [d7,d8,d9] 17
d6 <- choose
guard $ numTest [d6,d7,d8] 13
d5 <- choose
guard $ d5 == 0 || d5 == 5
guard $ numTest [d5,d6,d7] 11
d4 <- choose
guard $ numTest [d4,d5,d6] 7
d3 <- choose
d2 <- choose
guard $ numTest [d2,d3,d4] 3
d1 <- choose
guard $ numTest [d1,d2,d3] 2
d0 <- choose
guard $ d0 /= 0
return [d0,d1,d2,d3,d4,d5,d6,d7,d8,d9]
pandigitals = map snd $ runUS pandigitalUS [0..9]
main = do print $ pandigitals
```