# Difference between revisions of "Gamma and Beta function"

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gammaln :: Double -> Double |
gammaln :: Double -> Double |
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gammaln xx = let tmp' = (xx+5.5) - (xx+0.5)*log(xx+5.5) |
gammaln xx = let tmp' = (xx+5.5) - (xx+0.5)*log(xx+5.5) |
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− | ser' = |
+ | ser' = ser + sum $ zipWith (/) cof [xx+1..] |

− | in -tmp' + log(2.5066282746310005 * ser' / xx) |
+ | in -tmp' + log(2.5066282746310005 * ser' / xx) |

</haskell> |
</haskell> |
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<haskell> |
<haskell> |
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− | beta z w = exp |
+ | beta z w = exp (gammaln z + gammaln w - gammaln (z+w)) |

</haskell> |
</haskell> |
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## Latest revision as of 10:18, 13 December 2009

The Gamma and Beta function as described in 'Numerical Recipes in C++', the approximation is taken from [Lanczos, C. 1964 SIAM Journal on Numerical Analysis, ser. B, vol. 1, pp. 86-96]

```
cof :: [Double]
cof = [76.18009172947146,-86.50532032941677,24.01409824083091,-1.231739572450155,0.001208650973866179,-0.000005395239384953]
ser :: Double
ser = 1.000000000190015
gammaln :: Double -> Double
gammaln xx = let tmp' = (xx+5.5) - (xx+0.5)*log(xx+5.5)
ser' = ser + sum $ zipWith (/) cof [xx+1..]
in -tmp' + log(2.5066282746310005 * ser' / xx)
```

the beta function relates to the gamma function by , so we can compute the Beta function using gammaln like this:

```
beta z w = exp (gammaln z + gammaln w - gammaln (z+w))
```