I'm trying to resolve problem 14 of Project Euler (http://projecteuler.net/problem=14) and I hit a dead end using Haskell.
Now, I know that the numbers may be small enough and I could do a brute force, but that isn't the purpose of my exercise.
I am trying to memorize the intermediate results in a Map
of type Map Integer (Bool, Integer)
with the meaning of:
 the first Integer (the key) holds the number
 the Tuple (Bool, Interger) holds either (True, Length) or (False, Number)
where Length = length of the chain
Number = the number before him
Ex:
for 13: the chain is 13 → 40 → 20 → 10 → 5 → 16 → 8 → 4 → 2 → 1
My map should contain :
13  (True, 10)
40  (False, 13)
20  (False, 40)
10  (False, 20)
5  (False, 10)
16  (False, 5)
8  (False, 16)
4  (False, 8)
2  (False, 4)
1  (False, 2)
Now when I search for another number like 40
i know that the chain has (10  1) length
and so on.
I want now, if I search for 10, not only to tell me that length of 10 is (10  3) length
and update the map, but also I want to update 20, 40 in case they are still (False, _)
My code:
import Data.Map as Map
solve :: [Integer] > Map Integer (Bool, Integer)
solve xs = solve' xs Map.empty
where
solve' :: [Integer] > Map Integer (Bool, Integer) > Map Integer (Bool, Integer)
solve' [] table = table
solve' (x:xs) table =
case Map.lookup x table of
Nothing > countF x 1 (x:xs) table
Just (b, _) >
case b of
True > solve' xs table
False > {WRONG} solve' xs table
f :: Integer > Integer
f x
 x `mod` 2 == 0 = x `quot` 2
 otherwise = 3 * x + 1
countF :: Integer > Integer > [Integer] > Map Integer (Bool, Integer) > Map Integer (Bool, Integer)
countF n cnt (x:xs) table
 n == 1 = solve' xs (Map.insert x (True, cnt) table)
 otherwise = countF (f n) (cnt + 1) (x:xs) $ checkMap (f n) n table
checkMap :: Integer > Integer > Map Integer (Bool, Integer) > Map Integer (Bool, Integer)
checkMap n rez table =
case Map.lookup n table of
Nothing > Map.insert n (False, rez) table
Just _ > table
At the {WRONG} part we should update all the values like in the following example:
We are looking for 10:
10  (False, 20)

V {finally} update 10 => (True, 10  1  1  1)
20  (False, 40) ^
 
V update 20 => 20  (True, 10  1  1)
40  (False, 13) ^
 
V update 40 => 40  (True, 10  1)
13  (True, 10) ^
 

The problem is that I don't know if its possible to do 2 things in a function like updating a number and continue the recurence. In a C
like language I may do something like (pseudocode):
void f(int n, tuple(b,nr), int &length, table)
{
if(b == False) f (nr, (table lookup nr), 0, table);
// the bool is true so we got a length
else
{
length = nr;
return;
}
// Since this is a recurence it would work as a stack, producing the right output
table update(n, cnt);
}
The last instruction would work since we are sending cnt by reference. Also we always know that it will finish at some point and cnt should not be < 1.
Either Integer Integer
, but I think that you'll find it more convenient simply to have no mapping for entries not memoized yet. – David Eisenstat Aug 30 '13 at 14:16