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I have a task to write a class matrix in C++ and there is a condition, to override the operator [] for matrix so if I have a matrix with name Matrix with this "Matrix[0][0]" I must take it's first element, on it's first line. I have represented the matrix with two dimensional dynamic array and templates (T **matrix). Could you help me, please?

PS: This method I'm using to create the two dimensional array:

template <class T>
T ** Matrix<T>::createMatrix(unsigned int rows, unsigned int cols)
    T** matrix = new T*[rows];
    for (unsigned int i = 0; i < rows; i++) {

        matrix[i] = new T[cols];

    return matrix;
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T** does not describe a two dimensional array. It describes an array of arrays, which is not the same. –  Alexandre C. Dec 27 '10 at 11:16

5 Answers 5

up vote 2 down vote accepted

i assume matrix is a member variable of type T** of Matrix.

template< class T >
T* operator []( Matrix<T>& m, unsigned int row )
  // maybe remember rows and assert(row<rows);
  return m.matrix[ row ];

Now you may write something like

Matrix<T> m(50,9999);

to access element 1337 in row 42.

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Thank you! Very simple, clever and elegant! Thank you again:). –  user551761 Dec 27 '10 at 16:38

You can do this with two classes. The matrix class overrides [] and returns a row object. The row object overrides [] and returns a scalar.

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What you want to do is return a T* in operator[], as it can then have operator[] applied to it natively and get the result that you want. However, I want to point out that it's pretty bad practice to leave your pointers raw.

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You can't do that natively in C++, but you could simply instanciate your matrix this way:

Matrix<Matrix<int>> m;

This way the first [ ] returns another matrix which will return the item you want. Of course a much better name for your class then would be Vector, and a wrapper class called Matrix that creates an internal Vector<Vector<T>>.

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The method you are using to create the matrix doesn't have anything to do with a class, as your requirements state. You are creating a simple T**, it doesn't make a difference that you are doing it in a class method.

Creating a matrix of T that can be used as in matrix[i][j] means that the expression matrix[i] must return a type on which operator [] is also defined to return a T. Therefore, the usual way to do it is break it down in steps:

  • Matrix<T> operator[] (int) returns a MatrixRow<T>&
  • MatrixRow<T>& operator[] (int) returns a T&

There will also be const versions of these operators to be used when reading values from the matrix (non-const versions will be used when writing to the matrix).

So, at the minimum, you should create a class with this interface:

template <typename T>
class Matrix {
        Matrix(int rows, int cols);

        const MatrixRow<T>& operator[] (int row) const;
        MatrixRow<T>& operator[] (int row);

PS: This reads like a homework question, is it one?

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Yes it is. I done the determinant method, multiplication method and so on...Now at last I done this :). –  user551761 Dec 27 '10 at 16:37

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