It seems that this is a Visual Studio issue. I've tried the program below (adapted from the OP) and the output generated by GCC 4.7.2, Clang 3.2 and Intel 13.1.0 are very reasonable whereas the one generated by Visual Studio Nov 2012 CTP is completely different.

The probability density is piecewise linear and defined by arrays x and p in the following way. A piecewise linear function connecting the points (x[i], p[i]) for i = 0, ..., N (where N = x.size() - 1) is built. Then this function is normalized (by dividing it by its integral) to get the probability density.

```
#include <iostream>
#include <iomanip>
#include <string>
#include <random>
#include <array>
int main() {
std::mt19937 gen(10);
std::array<double, 3> x = {{0, 20, 40}};
std::array<double, 3> p = {{0, 1, 0}};
std::piecewise_linear_distribution<> dist(x.begin(), x.end(), p.begin());
std::array<int, 40> hist = {{0}};
for (size_t i = 0; i < 200000; ++i)
++hist[static_cast<size_t>(dist(gen))];
for (size_t n = 0; n < hist.size(); ++n)
std::cout << std::setfill('0') << std::setw(2) << n << ' ' <<
std::string(hist[n] / 200, '*') << std::endl;
std::cout << "\nValues in interval [20, 21[ : " << hist[20] << std::endl;
}
```

In our example, the polygonal function connects (0, 0), (20, 1) and (40, 0). Hence, its shape is an isosceles triangle with base 40 and height 1 which yields an area of 20. Therefore, the probability density f connects (0, 0), (20, 1/20) and (40, 0). This implies that in the interval [20, 21[ we could expect around f(20) * (21 - 20) = 1/20 * 1 = 1/20 results of the draw. In total we draw 200,000 values and then, we can expect around 10,000 points in [20, 21[.

GCC, Clang and Intel report 9734 points in [20, 21[ and display a pattern that is quite similar to an isosceles triangle:

```
00 *
01 ***
02 *****
03 ********
04 ***********
05 **************
06 ***************
07 ******************
08 ********************
09 ************************
10 **************************
11 ****************************
12 *******************************
13 *********************************
14 ***********************************
15 ***************************************
16 *****************************************
17 ******************************************
18 **********************************************
19 ************************************************
20 ************************************************
21 *********************************************
22 *******************************************
23 *****************************************
24 **************************************
25 ************************************
26 **********************************
27 ******************************
28 ****************************
29 **************************
30 ***********************
31 ********************
32 ******************
33 ****************
34 *************
35 ***********
36 *********
37 ******
38 ***
39 *
Values in interval [20, 21[ : 9734
```

Unfortunately, Visual Studio Nov 2012 CTP gives this:

```
00 ********************************************** [truncated]
01 **********************************************
02 ***********************************
03 *****************************
04 **************************
05 ***********************
06 *********************
07 ********************
08 *******************
09 ******************
10 *****************
11 ****************
12 ***************
13 **************
14 **************
15 **************
16 *************
17 *************
18 *************
19 ************
20 ************
21 *************
22 *************
23 *************
24 *************
25 **************
26 ***************
27 ***************
28 ****************
29 *****************
30 ******************
31 *******************
32 *******************
33 *********************
34 ***********************
35 **************************
36 *****************************
37 ***********************************
38 **********************************************
39 ********************************************** [truncated]
Values in interval [20, 21[ : 2496
```

Notes:

- I've truncated Visual Studio output for better displaying.
- A better estimate for the number of points in [20, 21[ is 200,000 * (0.5 * (f(20) + f(21))) * (21 - 20) = 100,000 * (1/20 + 1/20 - 1/400) = 10,000 - 250 = 9750.

`std::round`

is declared in`<cmath>`

header, FYI. I presume that's why you wrote your own version (compiler couldn't find it). – Bartek Banachewicz Apr 14 '13 at 14:54`<cmath>`

, I get an error:`round`

: is not a member of`std`

. – Wierzba Apr 14 '13 at 19:18