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I'm trying to find the first 100,000 binary digits in the expansion of 'e'. Is there an algorithm to generate the binary digits of 'e' as a infinite list?

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See this question: stackoverflow.com/questions/9144154/… –  Mike Hartl Mar 17 '13 at 10:38
1  
See e.g. "unbounded spigot algorithms" for example, Pi, cs.ox.ac.uk/jeremy.gibbons/publications/spigot.pdf –  Don Stewart Mar 17 '13 at 12:03
    
Why don't you just take the digits from somewhere else (e.g. here: apod.nasa.gov/htmltest/gifcity/e.1mil ) and convert it to a binary representation at runtime? –  Cubic Mar 17 '13 at 12:08

2 Answers 2

up vote 7 down vote accepted

Here's an unbounded spigot for e in Haskell:

main = print $ stream (1,0,1) [(n, a*d, d) | (n,d,a) <- map f [1..]]
    where
        f k = (1, k, 1)

stream z (x:xs)
    | lbound == approx z 2 = lbound : stream (mul (10, -10*lbound, 1) z) (x:xs)
    | otherwise            =          stream (mul z x) xs
  where
    lbound = approx z 1

approx (a,b,c) n = (a*n + b) `div` c

mul (a,b,c) (d,e,f) = (a*d, a*e + b*f, c*f)

Based on the Programming Praxis unbounded spigot for e and pi, which in turn is derived from Gibbon's first unbounded spigot for pi.

$ runhaskell A.hs
[2,7,1,8,2,8,1,8,2,8,4,5,9,0,4,5,2,3,5,3,6, ^C

I'd recommend Gibbon's paper if you're interested in these fun algorithms.

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If I need to change it to output binary, do I just replace the 10 with 2? –  zcaudate Mar 18 '13 at 1:32

You might be interested in using CReal for this. For 100,000 binary digits, 30,200 decimal digits is enough:

Prelude> 100000 * logBase 10 2
30102.999566398114
Prelude> :m + Data.Number.CReal
Prelude> :set +s
Prelude Data.Number.CReal> last $ showCReal 1000 (exp 1)
'4'
(0.34 secs, 34061824 bytes)
Prelude Data.Number.CReal> last $ showCReal 2000 (exp 1)
'4'
(1.25 secs, 104478784 bytes)
Prelude Data.Number.CReal> last $ showCReal 4000 (exp 1)
'7'
(5.96 secs, 355775928 bytes)
Prelude Data.Number.CReal> last $ showCReal 8000 (exp 1)
'2'
(20.89 secs, 1298942504 bytes)

This pattern looks about quadratic to me, so computing the first 30,200 digits of exp 1 looks like it might reasonably finish in about five or six minutes here on my machine. A patch to output in binary directly (and therefore avoid converting to decimal and back) would likely be accepted.

edit: Projection satisfied, just under six minutes of compute time!

Prelude Data.Number.CReal> showCReal 30200 (exp 1)
"2.718281828459045235360287471352662497757247093699959574966967627724076630353547594571382178525166427427466391932003059921817413596629043572900334...middle snipped due to StackOverflow message limit...39106913376148418348845963656215266103322394174671"
(349.44 secs, 17096829912 bytes)
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