std::gamma_distribution

Produces random positive floating-point values x, distributed according to probability density function:

\(\mathsf{p}(x\mid\alpha,\beta) = \frac{e^{-x/\beta} }{\beta^\alpha\cdot\Gamma(\alpha)}\cdot x^{\alpha-1} \)P(x|α,β) =

e-x/β

βα · Γ(α)

· xα-1

where α is known as the shape parameter and β is known as the scale parameter. The shape parameter is sometimes denoted by the letter k and the scale parameter is sometimes denoted by the letter θ.

For floating-point α, the value obtained is the sum of α independent exponentially distributed random variables, each of which has a mean of β.

std::gamma_distribution satisfies RandomNumberDistribution.

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#include <iomanip>#include <iostream>#include <map>#include <random>#include <string>   int main(){std::random_device rd;std::mt19937 gen(rd());   // A gamma distribution with alpha = 1, and beta = 2// approximates an exponential distribution. std::gamma_distribution<> d(1, 2);   std::map<int, int> hist;for(int n =0; n !=10000;++n)++hist[2* d(gen)];   for(autoconst&[x, y]: hist)if(y /100.0>0.5)std::cout<<std::fixed<<std::setprecision(1)<< x /2.0<<'-'<<(x +1)/2.0<<' '<<std::string(y /100, '*')<<'\n';}

0.0-0.5 ********************** 0.5-1.0 **************** 1.0-1.5 ************* 1.5-2.0 ********** 2.0-2.5 ******** 2.5-3.0 ****** 3.0-3.5 ***** 3.5-4.0 **** 4.0-4.5 *** 4.5-5.0 ** 5.0-5.5 ** 5.5-6.0 * 6.0-6.5 * 6.5-7.0 7.0-7.5 7.5-8.0

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