This is a special case of a more general question on parameters passing.
You may want to consider the following guidelines:
If you want to pass something to a function to modify it inside the function (and make the changes visible to the caller), pass by reference (
// 'a' and 'b' are modified inside function's body,
// and the modifications should be visible to the caller.
// ---> Pass 'a' and 'b' by reference (&)
void Swap(int& a, int& b)
int temp = a;
a = b;
b = temp;
If you want to pass something that is cheap to copy (e.g. an
double, etc.) to a function to observe it inside the function, you can simply pass by value.
// 'side' is an input parameter, "observed" by the function.
// Moreover, it's cheap to copy, so pass by value.
inline double AreaOfSquare(double side)
If you want to pass something that is not cheap to copy (e.g. a
std::vector, etc.) to a function to observe it inside the function (without modifying it), you can pass by const reference (
// 'data' is an input parameter, "observed" by the function.
// It is in general not cheap to copy (the vector can store
// hundreds or thousands of values), so pass by const reference.
double AverageOfValues(const std::vector<double> & data)
throw std::invalid_argument("Data vector is empty.");
double sum = data;
for (size_t i = 1; i < data.size(); ++i)
sum += data[i];
return sum / data.size();
In modern C++11/14 there is also an additional rule (related to move semantics): if you want to pass something that is cheap to move and make a local copy of it, then pass by value and
std::move from the value.
// 'std::vector' is cheap to move, and the function needs a local copy of it.
// So: pass by value, and std::move from the value.
std::vector<double> Negate(std::vector<double> v)
std::vector<double> result( std::move(v) );
for (auto & x : result)
x *= -1;
Since in your
addToArray() function you modify the
Array<int> argument, and you want modifications visible to the caller, you can apply rule #1, and pass by reference (
void addToArray(Array<int> & intarray)