I have a topic I'm confused on that I need some elaborating on. It's operator overloading with a const version and a non-const version.

// non-const
double &operator[](int idx) {
    if (idx < length && idx >= 0) {
        return data[idx];
    throw BoundsError();

I understand that this lambda function, takes an index and checks its validity and then returns the index of the array data in the class. There's also a function with the same body but with the function call as

const double &operator[](int idx) const

Why do we need two versions?

For example, on the sample code below, which version is used in each instance below?

Array a(3);
a[0] = 2.0;
a[1] = 3.3;
a[2] = a[0] + a[1];

My hypothesis that the const version is only called on a[2] because we don't want to risk modifying a[0] or a[1].

Thanks for any help.

  • 1
    You can easily check which is called with output inside them.
    – chris
    Oct 8, 2013 at 1:06
  • it's in a lecture slide so I was hoping I wouldn't have to create a class to utilize them, instead just someone help me understand why we do this Oct 8, 2013 at 1:11
  • 5
    Don't be lazy, try it out for yourself, you'll remember better. Oct 8, 2013 at 1:17
  • My hypothesis that the const version is only called on a[2] because we don't want to risk modifying a[0] or a[1]. This makes no sense, the operation a[2] doesn't involve a[0] or a[1], it involves a and the integer literal 2. Oct 8, 2013 at 1:20
  • I found this video helpful: youtube.com/watch?v=4fJBrditnJU . Jump directly to 8:15 Aug 12, 2020 at 14:53

2 Answers 2


When both versions are available, the logic is pretty straightforward: const version is called for const objects, non-const version is called for non-const objects. That's all.

In your code sample a is a non-const object, meaning that the non-const version is called in all cases. The const version is never called in your sample.

The point of having two versions is to implement "read/write" access for non-const objects and only "read" access for const objects. For const objects const version of operator [] is called, which returns a const double & reference. You can read data through that const reference, but your can't write through it.

  • I don't know -- I found it difficult to get the non-const version called. See this live demo please : coliru.stacked-crooked.com/a/1c820d80113bc9e3
    – Reb.Cabin
    Jun 27, 2014 at 13:10
  • 1
    @Reb.Cabin: In your demo, you never make any attempts to call the non-const version of operator[]. Every time you have such opportunity, you use this->elems[i] instead. Note that this->elems is an ordinary raw pointer. Its operator [] is the ordinary built-in indexer, not your overloaded indexer. If you want to call your overloaded non-const version of operator [], you have to use (*this)[i] on the left-hand side of assignments, not this->elems[i]. Jun 27, 2014 at 21:50
  • I see. I re-wrote the ctor and a better example to use the non-const indexer. Helpful, clarifying comment. coliru.stacked-crooked.com/a/3a2e3960c1e77d78
    – Reb.Cabin
    Jun 28, 2014 at 16:44
  • @AnT In case of a relation operator overloading, should we provide both or just one is enough? In that case, which one should we use. E.g. bool operator<(const Type &t) const or bool operator<(const Type &t) is better?
    – kovac
    Mar 17, 2019 at 8:51

To supply a code example to complement the answer above:

Array a(3);
a[0] = 2.0;  //non-const version called on non-const 'a' object

const Array b(3);
double var = b[1];  //const version called on const 'b' object

const Array c(3);
c[0] = 2.0;  //compile error, cannot modify const object

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