Let's start from something very easy, you have the simple function:
soon you realize you need another one but for float and before you even need the third one you write it like this:
looks like you are done, everything goes well until, while compiling your huge project, the compiler gives the following error:
right, you think, the type Point needs to have defined the operator+, after defining it and after some precious minutes you get now
and finally this is the last error and fixing it fixes your whole compilation.
Sometime that Point type is defined in an header that makes your entire project to recompile every time you add a missing feature.
Let see how can concepts can save our time and some headache.
Basically that sumScale function has a strong requirement on the type T. It should be a summable type (it has to support the operator+) and it should be scalable (it has to support operator* with an int), we can express these two concepts in the following way:
and then use this defined concept rewriting the sumScale function:
doing so the error would have been a more useful one:
wow, within a single iteration the compiler was able to gives us all the information we needed in order to fix the issue.
In case you missed it I'll report for convenience the old and the new version of sumScale function.
and this is, in my humble opinion, one of the main advantages of concepts: simplify the generic programming taking rid of the cumbersome template syntax.
Let's go back now to our concept:
this concept is the refining of a Scalable concept indeed we can define the SummableScalable concept writing first a Summable concept then refining it in the following way:
even better we can combine two concepts Summale + Scalable obtaining a third one:
I believe when we will get the concepts available on our preferred compiler, for instance the concepts didn't make C++17 and today (at my knowledge) the concepts are implemented only in GCC 6 (using the flag -fconcepts), it will change the face of c++ code even more the c++11 specification did.