Your solution is reasonably efficient (in fact, about as efficient as possible, in terms of time complexity), but in space -- to count the values, you need an array sized to the range of the possible values, so to count the instances in your array of 100,000 items you need an auxiliary array of ~2,000,000 items (covering the range from -1,000,000 to 1,000,000).
You have a couple of ways to avoid/reduce that. One is to just store one bit for each possible input, and set the bit when you see that input. This has the same basic complexity, but reduces the space for the count to the minimum necessary (i.e., you don't really care how many times any input has occurred, only whether it occurred or not). In C++, the obvious way to do this would be
std::vector<bool>. While often maligned, in this case,
vector<bool> does exactly what you're looking for.
Another possibility would be to use a sparse mapping from the input numbers to the count/bit. Especially when your range is much larger than the number of inputs, this could save quite a bit of space (the space taken will be proportional to the number of inputs, not the range). In C++, the obvious way to do this would be
std::set<int>. To maintain the same expected complexity (O(N) instead of O(N log N), you'd want to use an
Another possibility is to sort the inputs, then eliminate duplicates. This generally keeps auxiliary storage to a minimum, but generally requires slightly longer to execute (O(N log N) instead of O(N)). For this, you'd probably use