I'm trying to wrap my head around why there is an issue trying to compile this

#include <iostream>
template <unsigned int ROWS,unsigned int COLS>
class Matrix{
        double dotProd(const Matrix<1,COLS>& other){
            static_assert(ROWS==1,"dotProd only valid for two vectors");
            return COLS;//place holder for dot product with row vectors
        double dotProd(const Matrix<ROWS,1>& other){
            static_assert(COLS==1,"dotProd only valid for two vectors");
            return ROWS;//place holder for dot product with col vectors
int main(){
    Matrix<1,32> bob;
    Matrix<1,32> fred;
    return 0;

which is giving me this error:

overloadedTemplateMethod2.cpp: In instantiation of ‘class Matrix<1u, 1u>’:
overloadedTemplateMethod2.cpp:17:32:   required from here
overloadedTemplateMethod2.cpp:9:16: error: ‘double Matrix<ROWS,COLS>::dotProd(const Matrix<ROWS, 1u>&) [with unsigned int ROWS = 1u; unsigned int COLS = 1u]’ cannot be overloaded
     double dotProd(const Matrix<ROWS,1>& other){
overloadedTemplateMethod2.cpp:5:16: error: with ‘double Matrix<ROWS, COLS>::dotProd(const Matrix<1u, COLS>&) [with unsigned int ROWS = 1u; unsigned int COLS = 1u]’
     double dotProd(const Matrix<1,COLS>& other){

I understand that the template filling out the parameters would cause the second function to resolve to double dotProd(const Matrix<1,1>& other) but I would think the other one should resolve to double dotProd(const Matrix<1,32>& other), not Matrix<1,1> again.

what's going on here?

1 Answer 1


When you do this:


The dotProd functions are instantiated to resolve the call for Matrix<1,32>.
We can say that (disclaimer: it's not exactly how it works, but it gives the idea of what's happening under the hood) they end up being declared as:

double dotProd(const Matrix<1,32>& other);
double dotProd(const Matrix<1,1>& other);

Ignore the first one and let's concentrate on the second one. It requires a new specialization of Matrix, that is: Matrix<1,1>.
If you consider such a specialization, what are the declarations you would obtain for dotProd if you replace template parameters with actual values?

double dotProd(const Matrix<1,1>& other); // Matrix<1, COLS>
double dotProd(const Matrix<1,1>& other); // Matrix<ROWS, 1>

That is, you end up declaring an overloaded function that doesn't differ in its list of parameters. Thus the error.

You can obtain exactly the same error if you replace the body of your main function with the following line:

 Matrix<1,1> someone;

In other terms, your class template Matrix is ill-formed in those cases where COLS and ROWS are equal.

  • so what you're saying is, when the second function's arguments get resolved to Matrix<1,1>, that class has to be generated, and since it's ill formed with those arguments that causes the issue? Jul 17, 2017 at 21:33
  • @Austin_Anderson Yep. I'd say that's more or less what happens. The error message mentions a type Matrix<1,1> along with the error actually.
    – skypjack
    Jul 17, 2017 at 21:36
  • cool I was just trying to demystify the error message and that clears it up real nicely, I guess my next step would be to make these function templates and static_assert the parameters are equal to the corresponding class parameter Jul 17, 2017 at 21:46
  • Darn, that's indeed what's happening, very very nice answer! Didn't realize that the argument itself Matrix<1,1> is ill-formed. I was waiting for an answer to this question for almost 8 hours :)
    – vsoftco
    Jul 18, 2017 at 0:07

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