If the list is sorted, for example, if you want to extract K elements out of N, but you do not care about their relative order, an efficient algorithm is proposed in the paper *An Efficient Algorithm for Sequential Random Sampling* (Jeffrey Scott Vitter, *ACM Transactions on Mathematical Software*, Vol. 13, No. 1, March 1987, Pages 56-67.).

**edited** to add the code in c++ using boost. I've just typed it and there might be many errors. The random numbers come from the boost library, with a stupid seed, so don't do anything serious with this.

```
/* Sampling according to [Vitter87].
*
* Bibliography
* [Vitter 87]
* Jeffrey Scott Vitter,
* An Efficient Algorithm for Sequential Random Sampling
* ACM Transactions on MAthematical Software, 13 (1), 58 (1987).
*/
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <string>
#include <iostream>
#include <iomanip>
#include <boost/random/linear_congruential.hpp>
#include <boost/random/variate_generator.hpp>
#include <boost/random/uniform_real.hpp>
using namespace std;
// This is a typedef for a random number generator.
// Try boost::mt19937 or boost::ecuyer1988 instead of boost::minstd_rand
typedef boost::minstd_rand base_generator_type;
// Define a random number generator and initialize it with a reproducible
// seed.
// (The seed is unsigned, otherwise the wrong overload may be selected
// when using mt19937 as the base_generator_type.)
base_generator_type generator(0xBB84u);
//TODO : change the seed above !
// Defines the suitable uniform ditribution.
boost::uniform_real<> uni_dist(0,1);
boost::variate_generator<base_generator_type&, boost::uniform_real<> > uni(generator, uni_dist);
void SequentialSamplesMethodA(int K, int N)
// Outputs K sorted random integers out of 0..N, taken according to
// [Vitter87], method A.
{
int top=N-K, S, curr=0, currsample=-1;
double Nreal=N, quot=1., V;
while (K>=2)
{
V=uni();
S=0;
quot=top/Nreal;
while (quot > V)
{
S++; top--; Nreal--;
quot *= top/Nreal;
}
currsample+=1+S;
cout << curr << " : " << currsample << "\n";
Nreal--; K--;curr++;
}
// special case K=1 to avoid overflow
S=floor(round(Nreal)*uni());
currsample+=1+S;
cout << curr << " : " << currsample << "\n";
}
void SequentialSamplesMethodD(int K, int N)
// Outputs K sorted random integers out of 0..N, taken according to
// [Vitter87], method D.
{
const int negalphainv=-13; //between -20 and -7 according to [Vitter87]
//optimized for an implementation in 1987 !!!
int curr=0, currsample=0;
int threshold=-negalphainv*K;
double Kreal=K, Kinv=1./Kreal, Nreal=N;
double Vprime=exp(log(uni())*Kinv);
int qu1=N+1-K; double qu1real=qu1;
double Kmin1inv, X, U, negSreal, y1, y2, top, bottom;
int S, limit;
while ((K>1)&&(threshold<N))
{
Kmin1inv=1./(Kreal-1.);
while(1)
{//Step D2: generate X and U
while(1)
{
X=Nreal*(1-Vprime);
S=floor(X);
if (S<qu1) {break;}
Vprime=exp(log(uni())*Kinv);
}
U=uni();
negSreal=-S;
//step D3: Accept ?
y1=exp(log(U*Nreal/qu1real)*Kmin1inv);
Vprime=y1*(1. - X/Nreal)*(qu1real/(negSreal+qu1real));
if (Vprime <=1.) {break;} //Accept ! Test [Vitter87](2.8) is true
//step D4 Accept ?
y2=0; top=Nreal-1.;
if (K-1 > S)
{bottom=Nreal-Kreal; limit=N-S;}
else {bottom=Nreal+negSreal-1.; limit=qu1;}
for(int t=N-1;t>=limit;t--)
{y2*=top/bottom;top--; bottom--;}
if (Nreal/(Nreal-X)>=y1*exp(log(y2)*Kmin1inv))
{//Accept !
Vprime=exp(log(uni())*Kmin1inv);
break;
}
Vprime=exp(log(uni())*Kmin1inv);
}
// Step D5: Select the (S+1)th record
currsample+=1+S;
cout << curr << " : " << currsample << "\n";
curr++;
N-=S+1; Nreal+=negSreal-1.;
K-=1; Kreal-=1; Kinv=Kmin1inv;
qu1-=S; qu1real+=negSreal;
threshold+=negalphainv;
}
if (K>1) {SequentialSamplesMethodA(K, N);}
else {
S=floor(N*Vprime);
currsample+=1+S;
cout << curr << " : " << currsample << "\n";
}
}
int main(void)
{
int Ntest=10000000, Ktest=Ntest/100;
SequentialSamplesMethodD(Ktest,Ntest);
return 0;
}
$ time ./sampling|tail
```

gives the following ouptut on my laptop

```
99990 : 9998882
99991 : 9998885
99992 : 9999021
99993 : 9999058
99994 : 9999339
99995 : 9999359
99996 : 9999411
99997 : 9999427
99998 : 9999584
99999 : 9999745
real 0m0.075s
user 0m0.060s
sys 0m0.000s
```