I have a matrix class with the size determined by template parameters.

```
template <unsigned cRows, unsigned cCols>
class Matrix {
...
};
```

My program uses matrices of a few sizes, typically 2x2, 3x3, and 4x4. By setting the matrix size with template parameters rather than run-time parameters allows the compiler to do a lot of inlining and optimization.

But now I need a member function that returns a new matrix that has one fewer row and one fewer column.

```
Matrix<cRows - 1, cCols - 1> Reduced(unsigned row, unsigned col) const { ... }
```

The idea is that that it will return a matrix with the specified row and column deleted. In practice, this will only ever be called with a matrix that has at least three rows and three columns, returning a 2x2 at the smallest.

The compiler doesn't see the lower bound, so it gets stuck in an infinite recursion trying to instantiate the templates with ever decreasing sizes. I tried putting two clues in the function itself that these smaller sizes cannot occur:

```
Matrix<cRows - 1, cCols - 1> Reduced(unsigned row, unsigned col) const {
static_assert(cRows > 1 && cCols > 1);
if (cRows <= 1 || cCols <= 1) throw std::domain_error();
Matrix<cRows - 1, cCols - 1> r;
// ... initialize r ...
return r;
}
```

Neither the `static_assert`

nor the `if`

-statement seems to be a strong enough clue to the compiler that a 0x0 matrix will never be generated. (Ironically, it does complain about the `if`

-statement having a constant compile-time condition.)

Does anyone have any suggestions on how to avoid this compile-time infinite recursion?