Euler problems/11 to 20
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Problem 11
What is the greatest product of four numbers on the same straight line in the 20 by 20 grid?
Solution:
import System.Process
import IO
import List
slurpURL url = do
(_,out,_,_) <- runInteractiveCommand $ "curl " ++ url
hGetContents out
parse_11 src =
let npre p = or.(zipWith (/=) p)
clip p q xs = takeWhile (npre q) $ dropWhile (npre p) xs
trim s =
let (x,y) = break (== '<') s
(_,z) = break (== '>') y
in if null z then x else x ++ trim (tail z)
in map ((map read).words.trim) $ clip "08" "</p>" $ lines src
solve_11 xss =
let mult w x y z = w*x*y*z
zipf f (w,x,y,z) = zipWith4 f w x y z
zifm = zipf mult
zifz = zipf (zipWith4 mult)
tupl = zipf (\w x y z -> (w,x,y,z))
skew (w,x,y,z) = (w, drop 1 x, drop 2 y, drop 3 z)
sker (w,x,y,z) = skew (z,y,x,w)
skex x = skew (x,x,x,x)
maxl = foldr1 max
maxf f g = maxl $ map (maxl.f) $ g xss
in maxl
[ maxf (zifm.skex) id
, maxf id (zifz.skex)
, maxf (zifm.skew) (tupl.skex)
, maxf (zifm.sker) (tupl.skex) ]
problem_11 = do
src <- slurpURL "http://projecteuler.net/print.php?id=11"
print $ solve_11 $ parse_11 src
Alternative, slightly easier to comprehend:
import Data.List (transpose)
import Data.List (tails, inits, maximumBy)
num = undefined --list of lists of numbers, one list per row
rows = num
cols = transpose rows
diag b = [b !! n !! n | n <- [0 .. length b - 1], n < (length (transpose b))]
diagLs = diag rows : diagup ++ diagdown
where diagup = getAllDiags diag rows
diagdown = getAllDiags diag cols
diagRs = diag (reverse rows) : diagup ++ diagdown
where diagup = getAllDiags diag (reverse num)
diagdown = getAllDiags diag (transpose $ reverse num)
getAllDiags f g = map f [drop n . take (length g) $ g | n <- [1.. (length g - 1)]]
allposs = rows ++ cols ++ diagLs ++ diagRs
allfours = [x | xss <- allposs, xs <- inits xss, x <- tails xs, length x == 4]
answer = maximumBy (\(x, _) (y, _) -> compare x y) (zip (map product allfours) allfours)
Second alternative, using Array and Arrows, for fun :
import Control.Arrow
import Data.Array
input :: String -> Array (Int,Int) Int
input = listArray ((1,1),(20,20)) . map read . words
senses = [(+1) *** id,(+1) *** (+1), id *** (+1), (+1) *** (\n -> n - 1)]
inArray a i = inRange (bounds a) i
prods :: Array (Int, Int) Int -> [Int]
prods a = [product xs |
i <- range $ bounds a
, s <- senses
, let is = take 4 $ iterate s i
, all (inArray a) is
, let xs = map (a!) is
]
main = getContents >>= print . maximum . prods . input
Problem 12
What is the first triangle number to have over five-hundred divisors?
Solution:
problem_12 = head $ filter ((> 500) . nDivisors) triangleNumbers
where triangleNumbers = scanl1 (+) [1..]
nDivisors n = product $ map ((+1) . length) (group (primeFactors n))
primes = 2 : filter ((== 1) . length . primeFactors) [3,5..]
primeFactors n = factor n primes
where factor n (p:ps) | p*p > n = [n]
| n `mod` p == 0 = p : factor (n `div` p) (p:ps)
| otherwise = factor n ps
Problem 13
Find the first ten digits of the sum of one-hundred 50-digit numbers.
Solution:
nums = ... -- put the numbers in a list
problem_13 = take 10 . show . sum $ nums
Problem 14
Find the longest sequence using a starting number under one million.
Solution:
p14s :: Integer -> [Integer]
p14s n = n : p14s' n
where p14s' n = if n' == 1 then [1] else n' : p14s' n'
where n' = if even n then n `div` 2 else (3*n)+1
problem_14 = fst $ head $ sortBy (\(_,x) (_,y) -> compare y x) [(x, length $ p14s x) | x <- [1 .. 999999]]
Alternate solution, illustrating use of strict folding:
import Data.List
problem_14 = j 1000000 where
f :: Int -> Integer -> Int
f k 1 = k
f k n = f (k+1) $ if even n then div n 2 else 3*n + 1
g x y = if snd x < snd y then y else x
h x n = g x (n, f 1 n)
j n = fst $ foldl' h (1,1) [2..n-1]
Faster solution, using an Array to memoize length of sequences :
import Data.Array
import Data.List
syrs n = a
where a = listArray (1,n) $ 0:[1 + syr n x | x <- [2..n]]
syr n x = if x' <= n then a ! x' else 1 + syr n x'
where x' = if even x then x `div` 2 else 3 * x + 1
main = print $ foldl' maxBySnd (0,0) $ assocs $ syrs 1000000
where maxBySnd x@(_,a) y@(_,b) = if a > b then x else y
Problem 15
Starting in the top left corner in a 20 by 20 grid, how many routes are there to the bottom right corner?
Solution:
problem_15 = iterate (scanl1 (+)) (repeat 1) !! 20 !! 20
Problem 16
What is the sum of the digits of the number 21000?
Solution:
problem_16 = sum.(map (read.(:[]))).show $ 2^1000
Problem 17
How many letters would be needed to write all the numbers in words from 1 to 1000?
Solution:
-- not a very concise or beautiful solution, but food for improvements :)
names = concat $
[zip [(0, n) | n <- [0..19]]
["", "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight"
,"Nine", "Ten", "Eleven", "Twelve", "Thirteen", "Fourteen", "Fifteen"
,"Sixteen", "Seventeen", "Eighteen", "Nineteen"]
,zip [(1, n) | n <- [0..9]]
["", "Ten", "Twenty", "Thirty", "Fourty", "Fifty", "Sixty", "Seventy"
,"Eighty", "Ninety"]
,[((2,0), "")]
,[((2, n), look (0,n) ++ " Hundred and") | n <- [1..9]]
,[((3,0), "")]
,[((3, n), look (0,n) ++ " Thousand") | n <- [1..9]]]
look n = fromJust . lookup n $ names
spell n = unwords $ if last s == "and" then init s else s
where
s = words . unwords $ map look digs'
digs = reverse . zip [0..] . reverse . map digitToInt . show $ n
digs' = case lookup 1 digs of
Just 1 ->
let [ten,one] = filter (\(a,_) -> a<=1) digs in
(digs \\ [ten,one]) ++ [(0,(snd ten)*10+(snd one))]
otherwise -> digs
problem_17 xs = sum . map (length . filter (`notElem` " -") . spell) $ xs
Problem 18
Find the maximum sum travelling from the top of the triangle to the base.
Solution:
problem_18 = head $ foldr1 g tri where
f x y z = x + max y z
g xs ys = zipWith3 f xs ys $ tail ys
tri = [
[75],
[95,64],
[17,47,82],
[18,35,87,10],
[20,04,82,47,65],
[19,01,23,75,03,34],
[88,02,77,73,07,63,67],
[99,65,04,28,06,16,70,92],
[41,41,26,56,83,40,80,70,33],
[41,48,72,33,47,32,37,16,94,29],
[53,71,44,65,25,43,91,52,97,51,14],
[70,11,33,28,77,73,17,78,39,68,17,57],
[91,71,52,38,17,14,91,43,58,50,27,29,48],
[63,66,04,68,89,53,67,30,73,16,69,87,40,31],
[04,62,98,27,23,09,70,98,73,93,38,53,60,04,23]]
Problem 19
You are given the following information, but you may prefer to do some research for yourself.
- 1 Jan 1900 was a Monday.
- Thirty days has September,
- April, June and November.
- All the rest have thirty-one,
- Saving February alone,
Which has twenty-eight, rain or shine. And on leap years, twenty-nine.
- A leap year occurs on any year evenly divisible by 4, but not on a century unless it is divisible by 400.
How many Sundays fell on the first of the month during the twentieth century?
Solution:
problem_19 = length $ filter (== sunday) $ drop 12 $ take 1212 since1900
since1900 = scanl nextMonth monday $ concat $
replicate 4 nonLeap ++ cycle (leap : replicate 3 nonLeap)
nonLeap = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
leap = 31 : 29 : drop 2 nonLeap
nextMonth x y = (x + y) `mod` 7
sunday = 0
monday = 1
Problem 20
Find the sum of digits in 100!
Solution:
problem_20 = let fac n = product [1..n] in
foldr ((+) . Data.Char.digitToInt) 0 $ show $ fac 100
Alternate solution, summing digits directly, which is faster than the show, digitToInt route.
dsum 0 = 0
dsum n = let ( d, m ) = n `divMod` 10 in m + ( dsum d )
problem_20' = dsum . product $ [ 1 .. 100 ]