Difference between revisions of "Euler problems/101 to 110"
| Line 44: | Line 44: | ||
fibo_2nk n k = |
fibo_2nk n k = |
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| − | let |
+ | let |
| ⚫ | |||
fkm1 = fibo (k-1) |
fkm1 = fibo (k-1) |
||
fkm2 = fibo (k-2) |
fkm2 = fibo (k-2) |
||
| + | fk = fkm1 + fkm2 |
||
| ⚫ | |||
fnp1sq = fnp1^2 |
fnp1sq = fnp1^2 |
||
| ⚫ | |||
fn = fibo n |
fn = fibo n |
||
fnsq = fn^2 |
fnsq = fn^2 |
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| Line 91: | Line 91: | ||
The lesson I learned fom this challenge, is: know mathematical identities and exploit them. They allow you take short cuts. |
The lesson I learned fom this challenge, is: know mathematical identities and exploit them. They allow you take short cuts. |
||
| − | Normally you compute all previous fibonacci numbers to compute a random fibonacci number. Which has linear costs. The aforementioned identity builds the number not from its two predecessors but from |
+ | Normally you compute all previous fibonacci numbers to compute a random fibonacci number. Which has linear costs. The aforementioned identity builds the number not from its two predecessors but from 4 much smaller ones. This makes the algorithm logarithmic in its complexity. It really shines if you want to compute a random very large fibonacci number. f.i. the 10mio.th fibonacci number which is over 2mio characters long, took 20sec to compute on my 2.2ghz laptop. |
== [http://projecteuler.net/index.php?section=view&id=105 Problem 105] == |
== [http://projecteuler.net/index.php?section=view&id=105 Problem 105] == |
||
Find the sum of the special sum sets in the file. |
Find the sum of the special sum sets in the file. |
||
Revision as of 17:19, 30 November 2007
Problem 101
Investigate the optimum polynomial function to model the first k terms of a given sequence.
Solution:
problem_101 = undefined
Problem 102
For how many triangles in the text file does the interior contain the origin?
Solution:
problem_102 = undefined
Problem 103
Investigating sets with a special subset sum property.
Solution:
problem_103 = undefined
Problem 104
Finding Fibonacci numbers for which the first and last nine digits are pandigital.
Solution:
Very nice problem. I didnt realize you could deal with the precision problem. Therefore I used this identity to speed up the fibonacci calculation: f_(2*n+k) = f_k*(f_(n+1))^2 + 2*f_(k-1)*f_(n+1)*f_n + f_(k-2)*(f_n)^2
import Data.List
import Data.Char
fibos = rec 0 1
where
rec a b = a:rec b (a+b)
fibo_2nk n k =
let
fkm1 = fibo (k-1)
fkm2 = fibo (k-2)
fk = fkm1 + fkm2
fnp1 = fibo (n+1)
fnp1sq = fnp1^2
fn = fibo n
fnsq = fn^2
in
fk*fnp1sq + 2*fkm1*fnp1*fn + fkm2*fnsq
fibo x =
let
threshold = 30000
n = div x 3
k = n+mod x 3
in
if x < threshold
then fibos !! x
else fibo_2nk n k
findCandidates = rec 0 1 0
where
m = 10^9
rec a b n =
let
continue = rec b (mod (a+b) m) (n+1)
isBackPan a = (sort $ show a) == "123456789"
in
if isBackPan a
then n:continue
else continue
search =
let
isFrontPan x = (sort $ take 9 $ show x) == "123456789"
in
map fst
$ take 1
$ dropWhile (not.snd)
$ zip findCandidates
$ map (isFrontPan.fibo) findCandidates
problem_104 = search
It took 8 sec on a 2.2Ghz machine.
The lesson I learned fom this challenge, is: know mathematical identities and exploit them. They allow you take short cuts. Normally you compute all previous fibonacci numbers to compute a random fibonacci number. Which has linear costs. The aforementioned identity builds the number not from its two predecessors but from 4 much smaller ones. This makes the algorithm logarithmic in its complexity. It really shines if you want to compute a random very large fibonacci number. f.i. the 10mio.th fibonacci number which is over 2mio characters long, took 20sec to compute on my 2.2ghz laptop.
Problem 105
Find the sum of the special sum sets in the file.
Solution:
problem_105 = undefined
Problem 106
Find the minimum number of comparisons needed to identify special sum sets.
Solution:
problem_106 = undefined
Problem 107
Determining the most efficient way to connect the network.
Solution:
problem_107 = undefined
Problem 108
Solving the Diophantine equation 1/x + 1/y = 1/n.
Solution:
problem_108 = undefined
Problem 109
How many distinct ways can a player checkout in the game of darts with a score of less than 100?
Solution:
problem_109 = undefined
Problem 110
Find an efficient algorithm to analyse the number of solutions of the equation 1/x + 1/y = 1/n.
Solution:
problem_110 = undefined