How do reference-type functions work when they are used as l-values? I mean, what is the order in which things get done in such a function so that the return variable gets a new value and how is it different from what happens in a normal r-value function?

For example in the following piece of code,

```
double& matrix::operator()(int i, int j) const //parenthesis operator
{
if (!validdex(*this,i,j)) throw(-23); //index out of bounds
return mat[(i-1)*ncols+(j-1)]; //A(i,j)=mat[(i-1)*ncols+(j-1)]
}
```

which is used to overload parentheses for instances of a class named matrix (validdex chacks if k is a valid index for the matrix), I need to know how the way in which the function (the paranthesis operator in this case) is processed differs when it is used as an r-value (to get `mat[(i-1)*ncols+(j-1)]`

) from when it is used as an l-value (to set the value of `mat[(i-1)*ncols+(j-1)]`

).

Sorry if the question is vague or if it sounds too basic. I tried to find the answer on the web but I didn't find anything besides some very basic tutorials on l-value functions with only a return line and nothing else.