I'm writing a C++ software which needs fast Minkowski sum computations. An implementation based on double suffices.

I evaluated some geometric libraries such as

- CGAL
- LEDA
- boost::geometry (doesn't have the Minkowski sum implementation, but there is a tutorial explaining how to implement it)

but I ended up using another third-party library which is very fast compared to the previous ones and which uses the FIST library for triangulation.

My code works more or less in the following way:

- I read my polygons
- I compute the Minkowski sums I need
- For n times
- I decide which polygons to use in the following computation
- I do some stuff based on the Minkowski sums
- I give a value to the result

- I take the result with the best value as the final result

Since the computations within the loop are independent from round to round, I parallelized the loop and everything worked fine.

Then I decided to move the Minkowski sum computation in each parallel round:

- I read my polygons
- For number_of_threads(=n) times
- I decide which polygons to use in the following computation
- I compute the Minkowski sums I need in this round
- I do some stuff based on the Minkowski sums
- I give a value to the result

I take the result with the best value as the final result

but the third-party library worked no more.

I get `number_of_threads - 1`

error messages saying

Assertion Failed.

The files causing the assertion failure change from run to run and from thread to thread, but they all are c-files having same name as the FIST headers (while I have the source code of the third-party library, I have only a .lib and the headers of the FIST library)

As stated before, I tried to compute all the Minkowski sums I need outside the parallelized code and use the results within it. This was ok. So I'm almost sure that the problems come from FIST.

I have two questions:

Do you know if the FIST library is thread safe?

If not, could you please suggest me a thread-safe (C or, better,) C++ triangulation library to replace FIST (possibly with comparable performances)?

**edit:**

Actually, I don't know if "thread-safe" is exactly what I want: I only need a tringulation library able to compute many independent triangulations at the same time.

I think that if the library had not global variables and if it had a class without `static`

variables

```
class triangulation
{
// no static variables
void execute_triangulation();
}
```

it could be enough. So I could use different instances of that class and run in parallel their method.

notthread safe. – Joachim Pileborg Jan 24 '13 at 8:51