Whenever I assign an already declared `Matrix`

to somethnig else my program exits unexpectedly.

I really don't know why this happens, I was under the impression that leaving assignment operators for the compiler to generate was the best thing to do unless you absolutely had to overload it, which makes me think there's something wrong with my constructor or something?

Example:

```
Matrix rotation = rotationMatrix3(Y, degToRad(20.0f));
Vector3 left = rotation * direction_;
rotation = rotationMatrix3(Y, degToRad(-20.0f)); //crash
Vector3 right = rotation * direction_;
```

Here's my Matrix class:

Matrix.h

```
enum Axis {
X, Y, Z,
};
class Matrix {
public:
Matrix(int cols, int rows);
Matrix(int cols, int rows, const float values[]);
~Matrix();
float& operator()(int col, int row);
float operator()(int col, int row) const;
inline int cols() const { return cols_; }
inline int rows() const { return rows_; }
private:
int cols_, rows_;
float* values_;
};
Vector3 operator*(const Matrix& m, const Vector3& v);
Matrix rotationMatrix3(int axis, float rads);
```

Matrix.cpp

```
Matrix::Matrix(int cols, int rows) : cols_(cols), rows_(rows), values_(NULL) {
values_ = new float[rows_ * cols_];
}
Matrix::Matrix(int cols, int rows, const float values[]) : cols_(cols), rows_(rows), values_(NULL) {
values_ = new float[rows_ * cols_];
for(int c = 0; c < cols; ++c) {
for(int r = 0; r < rows; ++r) {
(*this)(c, r) = values[r * cols + c];
}
}
}
Matrix::~Matrix() {
delete [] values_;
}
float& Matrix::operator()(int col, int row) {
return values_[row * cols_ + col];
}
float Matrix::operator()(int col, int row) const {
return values_[row * cols_ + col];
}
Vector3 operator*(const Matrix& m, const Vector3& v) {
if(m.cols() != 3) {
throw std::logic_error("Matrix must have only 3 cols");
}
Vector3 result;
result.x = m(0, 0) * v.x + m(1, 0) * v.y + m(2, 0) * v.z;
result.y = m(0, 1) * v.x + m(1, 1) * v.y + m(2, 1) * v.z;
result.z = m(0, 2) * v.x + m(1, 2) * v.y + m(2, 2) * v.z;
return result;
}
Matrix rotationMatrix3(int axis, float rads) {
float c = static_cast<float>(cos(rads));
float s = static_cast<float>(sin(rads));
if(axis == X) {
const float mat[] = { 1.0f, 0.0f, 0.0f,
0.0f, c, -s,
0.0f, s, c };
return Matrix(3, 3, mat);
} else if(axis == Y) {
const float mat[] = { c, 0.0f, s,
0.0f, 1.0f, 0.0f,
-s, 0.0f, c };
return Matrix(3, 3, mat);
} else if(axis == Z) {
const float mat[] = { c, -s, 0.0f,
s, c, 0.0f,
0.0f, 0.0f, 1.0f };
return Matrix(3, 3, mat);
} else {
throw std::logic_error("Unknown axis");
}
}
```

absolutely have toprovide your own implementation of a copy constructor and assignment operator. – Greg Hewgill Jul 30 '12 at 23:13`Vector3 operator*(const Matrix& m, const Vector3& v);`

I'm not sure what you are trying to do here, but if you're trying to overload the`Matrix *`

operator then it should be`Vector3 Matrix::operator*(const Vector3& v);`

– ctor Jul 30 '12 at 23:22`operator*(const Matrix& m, const Vector3& v);`

Overloaded operators can be implemented either as member functions or as free functions. Rarge is taking the free function approach. – David Hammen Jul 30 '12 at 23:36