Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Can I define in C++ an array operator that takes multiple arguments? I tried it like this:

const T& operator[](const int i, const int j, const int k) const{ 
	return m_cells[k*m_resSqr+j*m_res+i];

T& operator[](const int i, const int j, const int k){ 
	return m_cells[k*m_resSqr+j*m_res+i];		

But I'm getting this error:

error C2804 binary operator '[' has too many parameters
share|improve this question

4 Answers 4

up vote 29 down vote accepted

Nope, you can't overload operator[] to accept multiple arguments. You instead can overload operator(). See How do I create a subscript operator for a Matrix class? from the C++ FAQ.

share|improve this answer
I'm getting a 403 Forbidden error trying to access that link. – Yay295 Aug 28 at 0:33

It is not possible to overload the [] operator to accept multiple arguments, but an alternative is to use the proxy pattern.

In two words: a[x][y], the first expression (a[x]) would return a different type, named proxy type, which would have another operator[]. It would call something like _storedReferenceToOriginalObject->At(x,y) of the original class.

You will not be able to do a[x,y], but I guess you wanted to overload the usual C++-style 2D array syntax anyway.

share|improve this answer
This doesn't do what the user was asking about - he wanted a[x,y] – anon Dec 20 '09 at 17:34
@Neil Butterworth: I think there's an implicit "you can't do it, but here's an alternative" contained in the answer. – jason Dec 20 '09 at 17:36
I think he wanted the C 2D-array syntax a[x][y] that would pass parameters to operator[](x,y), no? That would actually make sense. – Pavel Radzivilovsky Dec 20 '09 at 17:39
The comp.lang.c++ FAQ addresses this too: – jamesdlin Dec 20 '09 at 17:40

There's a nice little trick you can do with the uniform initialization syntax available in C++11. Instead of taking the index directly, you take a POD.

struct indices
  std::size_t i, j, k;

T& operator[](indices idx)
  return m_cells[idx.k * m_resSqr + idx.j * m_res + idx.i];

And then use the new syntax:

my_array<int> arr;
// ...
arr[{1, 2, 3}] = 42;
share|improve this answer

N-dimensional arrays of arbitrary type and size in C++:

This answer is inspired by the answer of Pavel Radzivilovsky, thanks for that. I had a bit of a hard time realizing the implementation, as it was my first stab at recursive templates. I'd like to share what I have done such that others can understand more quickly than I did.

I have written a c++ template class to create a n-dimensional array of arbitrary type and size. It needs to be instantiated with the array type and the number of dimensions. The size can be changed dynamically. I've given below a bare (stripped) working version of how to create a multidimensional array of which the elements can be accessed through successive application of the operator[] (e.g. array[x][y][z]). This version can only handle arrays of dimension n>1. The main function shows how to create a 4-dimensional array of integers as an example.

EDIT: keep in mind that the example below is minimal for readability, in that it does not deallocate the array, nor does it do bounds checking on access. Adding this is trivial, and left to the programmer.

#include <stdio.h>
#include <stdlib.h>

template <typename T, int N>
struct array {
    array<T,N>() : data(NULL), offset((int*) malloc(sizeof(int)*N)){}
    array<T,N>(T *data, int *offset) : data(data), offset(offset){}
    array<T,N-1> operator[](int i){return array<T,N-1>(&data[i*offset[N]], offset);}
    bool resize(int *size){
        offset[N-1] = 1;
        int total_size = size[N-1];
        for(int i = N-2; i >= 0; i--){
            total_size *= size[i];
            offset[i] = offset[i+1]*size[i+1];
        return (data = (T*) realloc (data, total_size*sizeof(T)));
    T *data;
    int *offset;

template <typename T>
struct array<T,1>{
    array<T,1>(T *data, int *offset) : data(data){}
    T& operator[](int i){return data[i];}
    T *data;

int main () {
    array<int, 4> a;

    // create array with dimensions [1][3][3][7]
    int size[4] = { 1, 3, 3, 7 };

    a[0][1][2][3] = 123;

    return 0;


share|improve this answer
This is pretty good, but I think it's confusing that it's called array and looks just like std::array at declaration but has template parameters (and semantics) that differ so very wildly (e.g. dynamically sized!). Consider giving it a different name. Also big ew at C headers, malloc, realloc and free ... wait a minute .... you don't have a free! You leak all the data. Nice. – Lightness Races in Orbit Nov 22 '14 at 22:05
@LightnessRacesinOrbit: I guess I still owe you a destructor with a free :), but then I would also feel responsible for catching the seqfaults caused by any out-of-bounds access (e.g. access before resize). As for the C headers.. they take their place as the recipients of my continuing infatuation, i.e., I'm staying true to my roots :) – gospes Nov 24 '14 at 12:21
Then -1 for giving awfully buggy code and dangerous advice to a language newcomer. – Lightness Races in Orbit Nov 24 '14 at 12:32

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.