I assume you have the source code, and that you can run it under a debugger, and that there is a "pause" button (or Ctrl-C, or Esc) with which you can simply stop it in its tracks.
I do that several times while it's making me wait, like 10 or 20, and each time study the call stack, and maybe some other state information, so I can give a verbal explanation of what it is doing and why.
That's the important thing - to know why it's doing what it's doing.
Typically what I see is that on, say, 20%, or 50%, or 90% of samples, it is doing something, and often that thing could be done more efficiently or not at all. So fixing that thing reduces execution time by (roughly) that percent.
The bigger a problem is, the quicker you see it.
In the limit, you can diagnose an infinite loop in 1 sample.
This gets a lot of flak from profiler-aficionados, but people who try it know it works very well. It's based on different assumptions.
If you're looking for the elephant in the room, you don't need to measure him.
Here's a more detailed explanation, and a list of common myths.
The next best thing would be a wall-time stack sampler that reports percent at the line or instruction level, such as Zoom or LTProf, but they still leave you puzzling out the why.