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1

It seems like what you want is to be able to register any callable that takes zero arguments and returns void. Since presumably you will be storing these callbacks somewhere, you also will need type erasure - since you want to be able to call Foo::doSomething() and doSomethingElse() and even Bar::someMethod(with, some, args) agnostically. For all of that, ...


0

You have to assemble some bytecode and keep wrapper with 'hardcoded' self pointer, which manages invocation stack: procOfObj = packed record method : pointer; this : pointer; end; obj = packed object procedure ASIOBufferSwitch( ip: pointer; {the added IP artifact } doubleBufferIndex: longint; directProcess: longbool); cdecl; ...


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The correct syntax is (this->*fptr)(); This is required since it's a member function pointer and you need to explicitly provide an instance to work on when using fptr. It might look like the compiler could already use the implicit *this, but that is not what the standard says and hence you need to take care of it manually.


2

I think it would be easier for you here to make calcMean, calcMeanMinMax and calcMedian static functions and treat like all others non-member functions. Others answers are correct, but in your case i guess that would be better for class design.


2

You can't call a member function without an instance of the class. You need to do something like this: CutDetector cd; double threshold = (cd.*thresholdFunction)(window); Or if you have a CutDetector pointer somewhere: double threshold = (pcd->*thresholdFunction)(window); Or if thresholdForFrameIndex is a member function: double threshold = ...


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To invoke a pointer to member function, you need to supply an object: double threshold = (this->*thresholdFunction)(window); ^^^^^^^^ ^


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The second template parameter for solve is expecting a function, not a functor. Specifically a function with the signature Vector<T> ()(const AbstractMatrix<T>&, const Vector<T>) for the given template parameter T. gauss.operator() doesn't make sense, maybe you meant GaussElim::operator() however that won't work either because it is a ...


2

Pointer-to-members look like Ret (Cls::*)(Args...) [cv-qualifiers] [ref-qualifiers]. So you can extend your class to deduce the first type thusly: template <class F> struct ArgType; template <typename Ret, typename Cls, typename T, typename... Args> struct ArgType<Ret (Cls::*)(T, Args...)> { using type = T: }; Note that you can make ...



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