To use the  operator to access elements you must do so on object, not a pointer to an object.
for (int i = 0; i < vec->size(); i++)
printf("Value at %d is %d\n", i, (*vec)[i]);
Note that when calling functions on a pointer you usually use the -> operator instead of the . operator, but you could easily do (*vec).some_func(); instead.
Operators such as , --, ++ and so on can act both on objects and pointers. With objects they act as function calls, but on pointers they act as mathematical operations on the address.
*(pointer + nth);
Have exactly the same effect - they return the nth object from the start of the pointer. (note the location of the * in the second example, it's called after the offset is applied.
Two other tips;
You can also avoid the need to dereference like this by passing the vector as a reference, not a pointer. It's not always a suitable option but it does lead to cleaner code.
void my_func(std::vector<int>& vector)
// vector can then be used as a regular variable
If you're going to be passing vectors of a specific type to functions a lot then you can use a typedef both for clarity and to save on typing.
typedef std::vector<int> IntVector;
void my_func(IntVector& vector)