Rubber duck debugging, Rubber Ducking, or the Rubber Duckie Test is an informal term used in software engineering to refer to a method of debugging code. The name is a reference to an apocryphal story in which an unnamed expert programmer would keep a rubber duck by his desk at all times, and debug his code by forcing himself to explain it, line-by-line, to the duck.
The process is to meticulously explain code to an inanimate object, such as a rubber duck. It is expected that when the programmer comes across a piece of code that is incorrect, they will realize this
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*Cardbo...
I ran this program at ideone.com
#include <iostream>
int main()
{
int a[0];
int b[0][100];
int c[100][0];
std::cout << "sizeof(a) = " << sizeof(a) << std::endl;
std::cout << "sizeof(b) = " << sizeof(b) << std::endl;
std::cout &l...
I don't want to use some extremely verbose trickery like std::/boost::function
That is, my calling syntax is extremely short and, most importantly, consistent regardless of what was bound
for example on x86, compiled with visual studio: with a delegate<R()> (i.e., no parameters) these two lines will allow me to invoke a bound free function pointer, a member function pointer and a functor:
__asm mov ecx, dword ptr [this]; // visual studio way of passing `this`, GCC passes as hidden first parameter
__asm call dword ptr [this+4]; // call the function pointer, regardless of member or free one
And this assembly magic will be hidden behind a platform-dependent macro
Now, this ambiguity is easily fixed by introducing overloads based on the functors constness: ideone.com/dfziK
Okay, now I see the flaw in my question. If the user does delegate<T> d; d.bind(f); d(); it's never clear which overload should be chosen..
Lets take a look how boost solves that...
Okay, overload is chosen on the const-ness of the function<Sig> itself
makes sense
Dang, I got to go, but I made a valuable conclusion. Thanks for rubber ducking for me @FredO. :P