Try:

```
float x = (float)rand()/(float)(RAND_MAX/a);
```

To understand how this works consider the following.

```
N = a random value in [0..RAND_MAX] inclusively.
```

The above equation (removing the casts for clarity) becomes:

```
N/(RAND_MAX/a)
```

But division by a fraction is the equivalent to multiplying by said fraction's reciprocal, so this is equivalent to:

```
N * (a/RAND_MAX)
```

which can be rewritten as:

```
a * (N/RAND_MAX)
```

Considering `N/RAND_MAX`

is always a floating point value between 0.0 and 1.0, this will generate a value between 0.0 and `a`

.

Alternatively, you can use the following, which effectively does the breakdown I showed above. I actually prefer this simply because it is clearer what is actually going on (to me, anyway):

```
float x = ((float)rand()/(float)(RAND_MAX)) * a;
```

Note: the floating point representation of `a`

must be *exact* or this will never hit your absolute edge case of `a`

(it will get close). See this article for the gritty details about why.

**Sample**

```
int main(int argc, char *argv[])
{
srand((unsigned int)time(NULL));
float a = 5.0;
for (int i=0;i<20;i++)
printf("%f\n", ((float)rand()/(float)(RAND_MAX)) * a);
return 0;
}
```

**Output**

```
1.625741
3.832026
4.853078
0.687247
0.568085
2.810053
3.561830
3.674827
2.814782
3.047727
3.154944
0.141873
4.464814
0.124696
0.766487
2.349450
2.201889
2.148071
2.624953
2.578719
```