If I want to pass a function of some class into the constructor of another class, I can just use a pointer double(*myFunction) inside the classes constructor. Should I though, be using smart pointers from the standard library for this as I've read using raw pointers is almost always bad
random question: if you were to try and implement a matrix and you wanted to be able to access the values inside via subscript (-->[x, y]<--), is there any way to go about it? Templates?
I don't think it's possible to have multiple params inside operator[], you can return a proxy object from operator[] which caches the first dimension and implements operator[] also which then actually does the indexing
@Mgetz from en.cppreference.com/w/cpp/utility/functional/function "Class template std::function is a general-purpose polymorphic function wrapper. Instances of std::function can store, copy, and invoke any Callable target -- functions, lambda expressions, bind expressions, or other function objects, as well as pointers to member functions and pointers to data members"
#include <functional>
#include <iostream>
class A {
public:
int func(){return 0;}
};
int main() {
A a;
std::function<int(A&)> f (&A::func);
std::cout << f(a) << std::endl;
}
@Mgetz are you saying the above code is technically a UB without mem_fn?
hmm, seems to me if the powers that be bothered to declare "undefined behavior" they might as well have bothered to figure out a "defined behavior" in the first place
I'd even wager that compiler writers don't like "undefined behavior"
@MiroslavCetojevic you can't you're right, but you can in theory take a mem_fn callable to one and then use that to call that v-table member on fully instantiated instances
I've yet to find standardese prohibiting it
and I've seen it done (although why anyone would do that is beyond me)
@MiroslavCetojevic not that I care to remember, but it was some COM code someone had written to host .NET a few years ago (not the MS sample which made sense but had memory issues). Basically they were using it to cache a specific interface function
@DexterCD would you please stop insulting people by assuming they can't read and don't know how things work?
@Mgetz, I'm sorry I made you feel insulted. That was not my intention. I know std::function is meant to work for things like pointer to member function, and wish to explain how.
@Mgetz okay, let me try to understand: you can theoretically take a mem_fn callable to one (virtual method) and use that to call the (virtual method) on instances (of which class?)
There isn't, the issue is that taking a direct function pointer would fail as it would be nullptr in theory (in reality it's a lot more complicated). In order to do it the compiler actually has to emit a bounce function that actually casts the passed in this pointer to the interface type then makes the v-table call
which is also why I think the whole thing is pointless... because if you already know the interface why not just do that yourself
lambdas are cheap and easy
and would do that without the need for a member pointer
Guys, can you recommend some good materials about concurrent pogramming (or should I call it asynchronous programming or multithreading programming? ) of C++? I am doing a exercise and it basically asks me to do 3 three things: 1. Write a producer 2. Write a consumer 3. Write a ring buffer connects producer and consumer.
Producer -> ring buffer -> consumer
So I think I need to learn some asynchronous stuff to accomplish that.
I know there's a book list. But now I don't need such a thorough introduction and just wanna see if any Big Boss here would give me some of their "favourite stuffs". :D
// friends defined inside class body are inline and are hidden from non-ADL lookup
// passing lhs by value helps optimize chained a+b+c otherwise, both parameters may be const references
friend X operator+(X lhs, const X& rhs) {
lhs += rhs; // reuse compound assignment
return lhs; // return the result by value (uses move constructor)
}
return value optimization (named or otherwise) relies on the fact that the location of the returned object is allocated by the caller and the pointer to it is passed as a hidden parameter
a+b; gets translated to a.operator+(b); which after translating into free function and refs to pointers and adding return slot becomes impl_operator+(&a,&b,&ret);
ret is uninitialized when the call begins and the called function will fill it with the return value.
There's probably some vendor-specific builtin which will never access main memory; you'll have to search for your particular vendor.
Otherwise, if you write a conversion function which takes its parameters by value and it converts via std::memcpy (or equivalent), you are practically guaranteed it will be optimized away (with optimizations on). You only have to check the output for the compilers you wish to support.
