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I have a matrix:

#ifndef MATRIX_H
#define MATRIX_H

class Matrix
        Matrix(int rows, int columns);
        Matrix(int, int, int** matrix); 
        Matrix(Matrix* copy);

        void Set(int, int, int);
        void SetMatrix(int, int, int** matrix);             
        void Print();
        void ZeroMatrix(int,int,int** matrix);      
        void Add(Matrix* B);
        void Subtract(Matrix* B);
        void Copy(Matrix* B);

        int** Multiply(Matrix* B);
        int** Create(int,int);
        int** Get();
        int** Transpose();
        int** Scalar(int);

        int Get(int,int);
        int Rows();
        int Columns();

        Matrix operator*(int);

        int** _matrix;
        int _rows;
        int _columns;


Here's the implementation:

Matrix Matrix::operator*(int scale)
    return Matrix(_rows, _columns, Scalar(scale));

And for a school assignment we have to overload the multiple operator to work with integer scalar. The problem is I keep getting this error:

main.cpp: In function ‘int main(int, char*)’: main.cpp:18:15: error: no match for ‘operator’ in ‘4 * B’

Breaking code:

#include "Matrix.h"
#include <fstream>
#include <iostream>

int main(int argc, char *argv[])
    Matrix* A = new Matrix(4,2);


    Matrix B(A);

    Matrix C(4 * B); //this line

    delete A;

    return 0;

Any ideas?

edit # 1:

the code:

Matrix operator*(int); 
        Matrix operator* (int, const Matrix &);


In file included from main.cpp:1:0:
Matrix.h:31:40: error: ‘Matrix Matrix::operator*(int, const Matrix&)’ must take either zero or one argument
In file included from matrix.cpp:1:0:
Matrix.h:31:40: error: ‘Matrix Matrix::operator*(int, const Matrix&)’ must take either zero or one argument
matrix.cpp:207:50: error: ‘Matrix Matrix::operator*(int, const Matrix&)’ must take either zero or one argument
share|improve this question
By the way, you don't need either fstream or iostream in the main file, as nothing from either is actually used in main. Best to just include what you need on a per-file basis. –  chris Apr 24 '12 at 1:09
homework should have the homework tag –  Jasper Apr 24 '12 at 1:11
thank you, didnt know that. –  Storm Kiernan Apr 24 '12 at 1:12
@chris: it was for something i was testing earlier. –  Storm Kiernan Apr 24 '12 at 1:12

2 Answers 2

up vote 4 down vote accepted

When you specify your member function, your class must be the left hand side.

B * 4 is equivalent to B.operator* (4). When you say 4 * B, this does not work.

To remedy this, simply use B * 4 instead of 4 * B, or provide an external overload

Matrix operator* (int, const Matrix &);

Then, the 4 * B will match this overload.

share|improve this answer
That works now, but how can I fix that? –  Storm Kiernan Apr 24 '12 at 1:05
I tried this and got errors, updated post –  Storm Kiernan Apr 24 '12 at 1:13
you're doing Matrix Matrix::operator*, while you should (as posted above) do Matrix operator* (thus, define it outside the class (or externally, in chris's words)) –  Jasper Apr 24 '12 at 1:15
@Jasper, thanks, I was wondering what was going wrong. I made my own little test and it worked perfectly. @StormKiernan, remember B * 4 is compatible with what you have right now :/ –  chris Apr 24 '12 at 1:16
@StormKiernan, I'm not sure if you did this, but you need to define a body for that Matrix operator* (int, const Matrix &). Use the same body as your other operator overload. If you need access to private members, declare it as a friend in your class. The one above it, with just an int is pointless. –  chris Apr 24 '12 at 1:28

This will work in either direction...

#include <iostream>

class Matrix
  Matrix(int x) // This works as a convert constructor
    : _x(x) { } // if you don't use the explicit keyword

  friend Matrix operator*(const Matrix& left, const Matrix& right);

  int _x;

Matrix operator*(const Matrix& left, const Matrix& right)
  return Matrix(left._x * right._x);

int main()
  Matrix m(3);
  int a = 4;

  Matrix m1(m * a);
  Matrix m2(a * m);

  std::cout << m._x  << endl  // 3
            << a     << endl  // 4
            << m1._x << endl  // 12
            << m2._x << endl; // 12
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