Difference between revisions of "Euler problems/141 to 150"
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<haskell> |
<haskell> |
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import Data.List |
import Data.List |
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| − | import Data. |
+ | import Data.Array.ST |
| + | import Data.Array |
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| − | merge xs@(x:xt) ys@(y:yt) = case compare x y of |
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| + | import qualified Data.Array.Unboxed as U |
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| − | LT -> x : (merge xt ys) |
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| + | import Control.Monad |
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| − | EQ -> x : (merge xt yt) |
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| − | GT -> y : (merge xs yt) |
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| − | |||
| − | diff xs@(x:xt) ys@(y:yt) = case compare x y of |
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| − | LT -> x : (diff xt ys) |
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| − | EQ -> diff xt yt |
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| − | GT -> diff xs yt |
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| + | mkCan :: [Int] -> [(Int,Int)] |
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| − | primes, nonprimes :: [Integer] |
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| + | mkCan lst = map func $ group $ insert 3 lst |
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| − | primes = [2,3,5] ++ (diff [7,9..] nonprimes) |
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| − | + | where |
|
| − | + | func ps@(p:_) |
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| − | + | | p == 3 = (3,2*l-1) |
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| + | | otherwise = (p, 2*l) |
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| − | primeFactors :: Integer -> [Integer] |
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| + | where |
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| − | primeFactors n = factor n primes |
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| + | l = length ps |
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| − | where |
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| + | |||
| − | factor _ [] = [] |
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| + | spfArray :: U.UArray Int Int |
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| − | factor m (p:ps) | p*p > m = [m] |
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| + | spfArray |
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| − | | m `mod` p == 0 = p : factor (m `div` p) (p:ps) |
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| + | = runSTUArray |
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| − | | otherwise = factor m ps |
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| + | (do ar <- newArray (2,13397) 0 |
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| + | let loop k |
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| + | | k > 13397 = return () |
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| + | | otherwise = do writeArray ar k 2 |
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| + | loop (k+2) |
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| + | loop 2 |
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| + | let go i |
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| + | | i > 13397 = return ar |
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| + | | otherwise |
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| + | = do p <- readArray ar i |
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| + | if (p == 0) |
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| + | then do writeArray ar i i |
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| + | let run k |
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| + | | k > 13397 = go (i+2) |
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| + | | otherwise |
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| + | = do q <- readArray ar k |
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| + | when (q == 0) |
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| + | (writeArray ar k i) |
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| + | run (k+2*i) |
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| + | run (i*i) |
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| + | else go (i+2) |
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| + | go 3) |
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| + | factArray :: Array Int [Int] |
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| − | fstfac x = [(head a ,length a)|a<-group$primeFactors x] |
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| + | factArray |
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| − | fac [(x,y)]=[x^a|a<-[0..y]] |
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| + | = runSTArray |
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| − | fac (x:xs)=[a*b|a<-fac [x],b<-fac xs] |
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| + | (do ar <- newArray (1,13397) [] |
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| − | factors x=fac$fstfac x |
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| + | let go i |
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| − | intSqrt :: Integral a => a -> a |
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| + | | i > 13397 = return ar |
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| − | intSqrt n |
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| − | + | | otherwise = do let p = spfArray U.! i |
|
| + | q = i `div` p |
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| − | | otherwise = f n |
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| + | fs <- readArray ar q |
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| − | where |
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| − | + | writeArray ar i (p:fs) |
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| − | + | go (i+1) |
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| + | go 2) |
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| − | prim40=tail$take 40 primes |
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| + | |||
| − | primeSqr= |
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| + | sdivs :: Int -> [(Int,Int)] |
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| − | fromList[(a,fromList$zip b [1..])| |
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| + | sdivs s |
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| − | a<-prim40, |
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| + | = filter ((<= 100000) . uncurry (+)) $ zip sds' lds' |
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| − | let b=nub[t|c<-[0..a-1], |
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| − | + | where |
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| − | + | bd = 3*s*s |
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| + | pks = mkCan $ factArray ! s |
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| + | fun (p,k) = take (k+1) $ iterate (*p) 1 |
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| + | ds = map fun pks |
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| + | (sds,lds) = span ((< bd) . (^2)) . sort $ foldr (liftM2 (*)) [1] ds |
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| + | sds' = map (+ 2*s) sds |
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| + | lds' = reverse $ map (+ 2*s) lds |
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| + | pairArray :: Array Int [Int] |
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| − | isSqrt n |
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| + | pairArray |
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| − | |k= n==((^2).intSqrt) n |
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| + | = runSTArray |
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| − | |otherwise=False |
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| + | (do ar <- newArray (3,50000) [] |
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| − | where |
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| − | + | let go s |
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| − | + | | s > 13397 = return ar |
|
| − | + | | otherwise |
|
| − | let |
+ | = do let run [] = go (s+1) |
| − | + | run ((r,q):ds) |
|
| + | = do lst <- readArray ar r |
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| − | getOne a = [c| |
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| + | let nlst = insert q lst |
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| − | x<-factors t, |
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| + | writeArray ar r nlst |
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| − | a>x, |
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| + | run ds |
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| − | let y=(a-x)*(3*a+x), |
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| + | run $ sdivs s |
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| − | let k=4*x, |
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| − | + | go 1) |
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| − | m==0 |
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| − | ] |
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| − | where |
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| − | t=(3*a^2) |
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| + | select2 :: [Int] -> [(Int,Int)] |
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| − | getThree a = [[a,m,n]| |
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| − | + | select2 [] = [] |
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| + | select2 (a:bs) = [(a,b) | b <- bs] ++ select2 bs |
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| − | n<-[k|k<-t,mod k 5/=0], |
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| − | let z=(2*m+n)^2+3*n*n, |
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| − | isSqrt z |
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| − | ] |
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| − | where |
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| − | t=getOne a |
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| − | gcdlst [x,y]=gcd x y |
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| − | gcdlst (x:xs)=gcd x$gcdlst xs |
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| − | |||
| − | p143 k=[c| |
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| − | a<-[1+k*groups..groups*(k+1)], |
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| − | c<-getThree (a*5), |
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| − | gcdlst c==1 |
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| − | ] |
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| − | -- run test find test==[],so one of a b c is 5*x |
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| − | test=[(a,b,c)|a<-t,b<-t,c<-t, |
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| − | f a b, |
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| − | f b c, |
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| − | f c a] |
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| − | where |
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| − | t=[1..4] |
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| − | f a b=elem (mod (a^2+b^2+a*b) 5) [0,1,4] |
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| − | |||
| − | groups=200 |
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| + | sumArray :: U.UArray Int Bool |
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| − | google num |
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| + | sumArray |
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| − | -- write file to change bignum to small num |
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| − | = |
+ | = runSTUArray |
| + | (do ar <- newArray (12,100000) False |
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| − | then return() |
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| − | + | let go r |
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| − | + | | r > 33332 = return ar |
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| + | | otherwise |
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| − | appendFile "files.log" $(show$map sum k) ++" "++(show num) ++"\n" |
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| − | + | = do let run [] = go (r+1) |
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| + | run ((q,p):xs) |
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| − | -- first use main to make file.log |
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| + | = do when (p `elem` (pairArray!q)) |
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| − | -- then run problem_143 |
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| + | (writeArray ar (p+q+r) True) |
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| − | main=google 0 |
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| + | run xs |
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| − | split :: Char -> String -> [String] |
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| + | run $ filter ((<= 100000) . (+r) . uncurry (+)) $ |
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| − | split = unfoldr . split' |
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| + | select2 $ pairArray!r |
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| + | go 3) |
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| + | main :: IO () |
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| − | split' :: Char -> String -> Maybe (String, String) |
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| + | main = writeFile "p143.log"$show$ sum [s | (s,True) <- U.assocs sumArray] |
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| − | split' c l |
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| + | problem_143 = main |
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| − | | null l = Nothing |
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| − | | otherwise = Just (h, drop 1 t) |
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| − | where (h, t) = span (/=c) l |
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| − | |||
| − | sToInt x=((++[-1]).read) $head$split ' ' x |
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| − | |||
| − | filer x |
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| − | |x<0=False |
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| − | |x>100000=False |
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| − | |otherwise=True |
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| − | problem_143=do |
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| − | x<-readFile "files.log" |
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| − | let y=concat$map sToInt $lines x |
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| − | let z= filter filer y |
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| − | let t=[b|a<-z,b<-takeWhile (<=100000) [a*b|b<-[1..]]] |
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| − | print$ sum$nub t |
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| − | |||
</haskell> |
</haskell> |
||
Revision as of 01:49, 14 January 2008
Problem 141
Investigating progressive numbers, n, which are also square.
Solution:
import Data.List
intSqrt :: Integral a => a -> a
intSqrt n
| n < 0 = error "intSqrt: negative n"
| otherwise = f n
where
f x = if y < x then f y else x
where y = (x + (n `quot` x)) `quot` 2
isSqrt n = n==((^2).intSqrt) n
takec a b =
two++takeWhile (<=e12)
[sq| c1<-[1..], let c=c1*c1,let sq=(c^2*a^3*b+b^2*c) ]
where
e12=10^12
two=[sq|c<-[b,2*b],let sq=(c^2*a^3*b+b^2*c) ]
problem_141=
sum$nub[c|
(a,b)<-takeWhile (\(a,b)->a^3*b+b^2<e12)
[(a,b)|
a<-[2..e4],
b<-[1..(a-1)]
],
gcd a b==1,
c<-takec a b,
isSqrt c
]
where
e4=120
e12=10^12
Problem 142
Perfect Square Collection
Solution:
import List
isSquare n = (round . sqrt $ fromIntegral n) ^ 2 == n
aToX (a,b,c)=[x,y,z]
where
x=div (a+b) 2
y=div (a-b) 2
z=c-x
{-
- 2 2 2
- a = c + d
- 2 2 2
- a = e + f
- 2 2 2
- c = e + b
- let b=x*y then
- (y + xb)
- c= ---------
- 2
- (-y + xb)
- e= ---------
- 2
- (-x + yb)
- d= ---------
- 2
- (x + yb)
- f= ---------
- 2
-
- and
- 2 2 2
- a = c + d
- then
- 2 2 2 2
- 2 (y + x ) (x y + 1)
- a = ---------------------
- 4
-
-}
problem_142 = sum$head[aToX(t,t2 ,t3)|
a<-[3,5..50],
b<-[(a+2),(a+4)..50],
let a2=a^2,
let b2=b^2,
let n=(a2+b2)*(a2*b2+1),
isSquare n,
let t=div n 4,
let t2=a2*b2,
let t3=div (a2*(b2+1)^2) 4
]
Problem 143
Investigating the Torricelli point of a triangle
Solution:
import Data.List
import Data.Array.ST
import Data.Array
import qualified Data.Array.Unboxed as U
import Control.Monad
mkCan :: [Int] -> [(Int,Int)]
mkCan lst = map func $ group $ insert 3 lst
where
func ps@(p:_)
| p == 3 = (3,2*l-1)
| otherwise = (p, 2*l)
where
l = length ps
spfArray :: U.UArray Int Int
spfArray
= runSTUArray
(do ar <- newArray (2,13397) 0
let loop k
| k > 13397 = return ()
| otherwise = do writeArray ar k 2
loop (k+2)
loop 2
let go i
| i > 13397 = return ar
| otherwise
= do p <- readArray ar i
if (p == 0)
then do writeArray ar i i
let run k
| k > 13397 = go (i+2)
| otherwise
= do q <- readArray ar k
when (q == 0)
(writeArray ar k i)
run (k+2*i)
run (i*i)
else go (i+2)
go 3)
factArray :: Array Int [Int]
factArray
= runSTArray
(do ar <- newArray (1,13397) []
let go i
| i > 13397 = return ar
| otherwise = do let p = spfArray U.! i
q = i `div` p
fs <- readArray ar q
writeArray ar i (p:fs)
go (i+1)
go 2)
sdivs :: Int -> [(Int,Int)]
sdivs s
= filter ((<= 100000) . uncurry (+)) $ zip sds' lds'
where
bd = 3*s*s
pks = mkCan $ factArray ! s
fun (p,k) = take (k+1) $ iterate (*p) 1
ds = map fun pks
(sds,lds) = span ((< bd) . (^2)) . sort $ foldr (liftM2 (*)) [1] ds
sds' = map (+ 2*s) sds
lds' = reverse $ map (+ 2*s) lds
pairArray :: Array Int [Int]
pairArray
= runSTArray
(do ar <- newArray (3,50000) []
let go s
| s > 13397 = return ar
| otherwise
= do let run [] = go (s+1)
run ((r,q):ds)
= do lst <- readArray ar r
let nlst = insert q lst
writeArray ar r nlst
run ds
run $ sdivs s
go 1)
select2 :: [Int] -> [(Int,Int)]
select2 [] = []
select2 (a:bs) = [(a,b) | b <- bs] ++ select2 bs
sumArray :: U.UArray Int Bool
sumArray
= runSTUArray
(do ar <- newArray (12,100000) False
let go r
| r > 33332 = return ar
| otherwise
= do let run [] = go (r+1)
run ((q,p):xs)
= do when (p `elem` (pairArray!q))
(writeArray ar (p+q+r) True)
run xs
run $ filter ((<= 100000) . (+r) . uncurry (+)) $
select2 $ pairArray!r
go 3)
main :: IO ()
main = writeFile "p143.log"$show$ sum [s | (s,True) <- U.assocs sumArray]
problem_143 = main
Problem 144
Investigating multiple reflections of a laser beam.
Solution:
problem_144 = undefined
Problem 145
How many reversible numbers are there below one-billion?
Solution:
import List
digits n
{- 123->[3,2,1]
-}
|n<10=[n]
|otherwise= y:digits x
where
(x,y)=divMod n 10
-- 123 ->321
dmm=(\x y->x*10+y)
palind n=foldl dmm 0 (digits n)
isOdd x=(length$takeWhile odd x)==(length x)
isOdig x=isOdd m && s<=h
where
k=x+palind x
m=digits k
y=floor$logBase 10 $fromInteger x
ten=10^y
s=mod x 10
h=div x ten
a2=[i|i<-[10..99],isOdig i]
aa2=[i|i<-[10..99],isOdig i,mod i 10/=0]
a3=[i|i<-[100..999],isOdig i]
m5=[i|i1<-[0..99],i2<-[0..99],
let i3=i1*1000+3*100+i2,
let i=10^6* 8+i3*10+5,
isOdig i
]
fun i
|i==2 =2*le aa2
|even i=(fun 2)*d^(m-1)
|i==3 =2*le a3
|i==7 =fun 3*le m5
|otherwise=0
where
le=length
m=div i 2
d=2*le a2
problem_145 = sum[fun a|a<-[1..9]]
Problem 146
Investigating a Prime Pattern
Solution:
import List
find2km :: Integral a => a -> (a,a)
find2km n = f 0 n
where
f k m
| r == 1 = (k,m)
| otherwise = f (k+1) q
where (q,r) = quotRem m 2
millerRabinPrimality :: Integer -> Integer -> Bool
millerRabinPrimality n a
| a <= 1 || a >= n-1 =
error $ "millerRabinPrimality: a out of range ("
++ show a ++ " for "++ show n ++ ")"
| n < 2 = False
| even n = False
| b0 == 1 || b0 == n' = True
| otherwise = iter (tail b)
where
n' = n-1
(k,m) = find2km n'
b0 = powMod n a m
b = take (fromIntegral k) $ iterate (squareMod n) b0
iter [] = False
iter (x:xs)
| x == 1 = False
| x == n' = True
| otherwise = iter xs
pow' :: (Num a, Integral b) => (a -> a -> a) -> (a -> a) -> a -> b -> a
pow' _ _ _ 0 = 1
pow' mul sq x' n' = f x' n' 1
where
f x n y
| n == 1 = x `mul` y
| r == 0 = f x2 q y
| otherwise = f x2 q (x `mul` y)
where
(q,r) = quotRem n 2
x2 = sq x
mulMod :: Integral a => a -> a -> a -> a
mulMod a b c = (b * c) `mod` a
squareMod :: Integral a => a -> a -> a
squareMod a b = (b * b) `rem` a
powMod :: Integral a => a -> a -> a -> a
powMod m = pow' (mulMod m) (squareMod m)
isPrime x=millerRabinPrimality x 2
--isPrime x=foldl (&& )True [millerRabinPrimality x y|y<-[2,3,7,61,24251]]
six=[1,3,7,9,13,27]
allPrime x=foldl (&&) True [isPrime k|a<-six,let k=x^2+a]
linkPrime [x]=filterPrime x
linkPrime (x:xs)=[y|
a<-linkPrime xs,
b<-[0..(x-1)],
let y=b*prxs+a,
let c=mod y x,
elem c d]
where
prxs=product xs
d=filterPrime x
filterPrime p=
[a|
a<-[0..(p-1)],
length[b|b<-six,mod (a^2+b) p/=0]==6
]
testPrimes=[2,3,5,7,11,13,17,23]
primes=[2,3,5,7,11,13,17,23,29]
test =
sum[y|
y<-linkPrime testPrimes,
y<1000000,
allPrime (y)
]==1242490
p146 =[y|y<-linkPrime primes,y<150000000,allPrime (y)]
problem_146=[a|a<-p146, allNext a]
allNext x=
sum [1|(x,y)<-zip a b,x==y]==6
where
a=[x^2+b|b<-six]
b=head a:(map nextPrime a)
nextPrime x=head [a|a<-[(x+1)..],isPrime a]
main=writeFile "p146.log" $show $sum problem_146
Problem 147
Rectangles in cross-hatched grids
Solution:
problem_147 = undefined
Problem 148
Exploring Pascal's triangle.
Solution:
import List
digits n
{- 123->[3,2,1]
- -}
|n<7=[n]
|otherwise= y:digits x
where
(x,y)=divMod n 7
notDivX x=product$map (+1) $digits x
array::[Integer]
array=
[a*b*c*d*e*f|
let t=[1..7],
a<-t,
b<-t,
c<-t,
d<-t,
e<-t,
f<-t
]
fastNotDivX::Integer->Integer
fastNotDivX x=sum[k*a|a<-array]
where
k=product$map (+1) $digits x
sumNotDivX x=sum[notDivX a|a<-[0..x]]
-- sum[fastNotDivX x|x<-[0..b]]=sumNotDivX ((b+1)*7^6-1)
moreNotDivX =sum[notDivX a|a<-[1000000000.. 1000016499 ]]
google num
-- write file to change bignum to small num
=if (num>8499)
then return()
else do appendFile "file.log" $(show$fastNotDivX num) ++" "++(show num) ++"\n"
google (num+1)
-- first use main to make file.log
-- then run problem_148
main=google 0
split :: Char -> String -> [String]
split = unfoldr . split'
split' :: Char -> String -> Maybe (String, String)
split' c l
| null l = Nothing
| otherwise = Just (h, drop 1 t)
where (h, t) = span (/=c) l
sToInt x=((+0).read) $head$split ' ' x
problem_148=do
x<-readFile "file.log"
let y=sum$map sToInt $lines x
print ( y-(fromInteger moreNotDivX))
Problem 149
Searching for a maximum-sum subsequence.
Solution:
problem_149 = undefined
Problem 150
Searching a triangular array for a sub-triangle having minimum-sum.
Solution:
problem_150 = undefined