In C++, the default size for array indices is size_t which is a 64 bits unsigned 64-bits integer on most x86-64 platforms. I am in the process of building my own std::vector class for my library for High Performance Computing (One of the main reason is that I want this class to be able to take ownership of a pointer, something std::vector does not offer). For the type of the array index, I am thinking of either using:
- my own index_t that would be a signed int or a long signed int depending on my program
The advantages or using a signed integer over an unsigned one are numerous, such as
for (index_t i = 0; i < v.size() - 1; ++i)
works like it is supposer to (with an unsigned integer, this loop goes crazy when v is of size 0)
for (index_t i = v.size() - 1; i >= 0; --i)
works like it is supposed to, and many other avantages. In terms of performance, it even seems to be a little bit better as
a + 1 < b + 1
can be reduced to a < b with signed integer (overflow is undefined), and not in the case of unsigned integers. The only avantage performance wise seems to be that a /= 2 can be reduced to a shift operation with unsigned integers but not with signed one.
I am wondering why the C++ committee has decided to use an unsigned integer for size_t as it seems to introduce a lot of pain and only few advantages.