Why do we need to return by reference when doing operator overloading of equal operator?

@jeea It isn't strictly necessary, but you normally want to support things like A = B = C = 0;. In this case, the = groups right to left, so with overloaded operator=, it's equivalent to A.operator=(B.operator=(C.operator=(0)));

That means the result of the rightmost gets assigned to the next most-rightmost, and so on. Returning the assigned object supports that.

@Jerry Ok but still why do we need to return reference? Why not just return the object

#include <iostream>

using namespace std;

class Complex {
	int r, i;
public:
	Complex (const Complex &c) {
		r = c.r;
		i = c.i;
	}
	Complex (int x, int y) {
		r = x;
		i = y;
	}
	Complex () {
		r= 0;
		i = 0;
	}
	Complex operator= (Complex &c) {
		r = c.r;
		i = c.i;
		return *this;
	}
	void display () {
		cout << r << " + " << i << "i\n";
	}
};

int main()
{
	Complex	c1(2,3);
	Complex c2, c3;
	c3 = c2 = c1;
	c2.display();
}

When we say c3 = ..., does it mean c3 is actually reference to itself?

I don't know WHY you need to return a reference for overloaded operators, but why do you have a problem with this?

	Complex& operator= (Complex &c) {
		r = c.r;
		i = c.i;
		return *this;
	}

works just as well

@MiroslavCetojevic That should be a const Complex & in the parameter.

@jeea I think c3 = c2 = c1; gets evaluated as c3 = (c2 = c1); and c2 = c1 produces a Complex as per your operator and c3 = Complex{} doesn't compile because a Complex & doesn't bind to a temporary Complex. You would need to change your parameter to const Complex & or Complex && which can bind to temporaries.

@jeea I don't know what that means. c3 is a Complex, not a reference and cannot reference anything.

hey im having Core Dump errors in my code. Im using threads to listen for connections in a server, and im must be doing something wrong with the threads, i look at the code but it seems fine to me, ill post a link with the code the threads are doing

pastebin.com/erCCgVpb

this is how im calling/ creating the threads

and i have a vector with threads

and these are the variables in my main the i pass as arguments

  int server_socket = -1 , server_port;
    sockaddr_in server_addr;
    sockaddr_in client_addr[5];

it looks fine to me but i keep getting the Core Dumped error

Use tools. Thread sanitizer, undefined behavior sanitizer and address sanitizers are pretty decent.

Core Dumped error is when C++ code tries to write on read-only memory, right?

AFAIK, a core dump isn't a C++ error. IIUC, when some specific kinds of errors happen (e.g. a segfault), the process core dumps

It's more of a linux kernel feature that dumps the state of a crashed program so you can debug it. Windows has something similar through the task manager.

I see

by the way, does boost not have a split function where the sequence that is used to store the split strings, is NOT overwritten, but instead added at the end?

Recently, a question which I wanted to answer has been marked as duplicate (stackoverflow.com/questions/53045197/…). Is there a way this can be disputed?

You could vote to reopen if you had enough rep. And you can add a comment that it is not a duplicate and hope others find it convincing.

You could also just add your answer to the old question if it fits there.

A comment was already added, but I'd recommend adding an @person_who_closed_as_duplicate, especially the gold tag badge holder, ask them to explain why this is a duplicate when considering your explanation on why you think it is not a duplicate

I don't have enough rep. :( Maybe, I am wrong and would need someone with enough rep for conviction.

Yes, so that's why you ping the gold badge holder.

This is more like what chat.stackoverflow.com/rooms/41570/so-close-vote-reviewers does, but I'm not 100% sure it fits well within that room's rules

But, like I said, the best solution is to find a gold badge holder, and there's one who already closed as duplicate. I believe that writing @person in a comment will ping close voters

@nwp @Justin Thanks for the response. I'll try that room and tagging @person.

Looks like @person wouldn't work in this case: meta.stackexchange.com/a/43020/218012

Is there a way I (given my low rep here) can know who (gold badge) marked the question as duplicate?

@MukulGupta There's a banner right below the question which says, "marked as a duplicate by ..." and it shows who was the gold badge holder

if you use new int[10] to allocate memory, you have a block of memory that contains 10 ints, but it's not an array (type)

so I can't use functions like begin() or end or the range for on such memory blocks

what's the rationale for this behavior?

note, I didn't test that, I only read this just now

new int[10] is "the same as" a new int[n] where n is any runtime parameter. If it had a begin() or end() or similar functions, it would be more than just the block of memory with space for n ints

Languages like Java do this. In Java, you can write int[] arr = new int[10]; arr.length

In C++, this extra memory for the length is not required, but you can track it yourself if you want to

For example, std::vector tracks the length of the allocation

might be better off using std::array then

@MiroslavCetojevic Are you asking why, when new T gives you a T* normally, except when T is an array type, then it returns ElementTypeOfT*?

One answer would be because new T is fucking retarded

@MiroslavCetojevic If the size of the array is not a runtime variable, then yes std::array is good. You shouldn't use new if you were using a C-style array; just write int my_array[10] = { ... }; But std::array has a nice interface

@milleniumbug no, I'm asking why C++ doesn't treat new int[10] as an array type (which I'm assuming means vector, string and std::array)

Other answer is that two different use cases are being supported here, in a bad way, and in a generic code-hostile way

The two use cases are 1.) supporting creating objects dynamically 2.) supporting creating arrays of size known at runtime.

and 1) is bad why?

Yet another answer to your previous question would be "because new[] is a low-level memory management primitive"

@MiroslavCetojevic Because the language got better in the last 30 years and we have better alternatives now

so new[] is basically a legacy feature?

To me, definitely

The lowest level feature that effectively replaces all the use cases of new is std::unique_ptr<T>/std::make_unique<T>() and for new[], std::unique_ptr<T[]>/std::make_unique<T[]>(). These are direct wrappers, with a saner interface. The latter shares the same limitation as new[] in that you can't get the size of the stored array, because, again, it's a low-level feature.

std::vector<T> is what you want if you want a runtime-sized array, as opposed to a memory management primitive

I'm surprised the std::shared_ptr does not support dynamically allocated arrays the same way std::unique_ptr does (no subscript operation, no automatic call to delete[])

It does from C++17, though one thing that weirds me out is that std::shared_ptr<T[]>::operator[] accepts a signed integer

I even asked a question about it

sounds like an oversight

not much feedback

C++17 isn't yet finalized, is it?

it is by now

I guess there's no easy way to ask someone who was involved in passing the C++17 standard...

The cpplang slack would be your best bet. There are a lot of standards committee members who hang out there

Or you could email the person who wrote the proposal to add the operator[] to std::shared_ptr

what's slack?

cpplang-inviter.cppalliance.org

so it's a sort of chatroom made by slack?

Slack is an application. You can have a slack server (I think that's the term) which is a community of users and chatrooms. From what I hear about IRC, slack is basically IRC but made more accessible

suppose, I were to use the allocator for any reason whatsoever, would this be an acceptable way to go about it?

#include <iostream>
#include <memory>
#include <random>

int main() {

	std::allocator<std::size_t> a;
	const std::size_t size = 100;
	auto p = a.allocate(size);

	const std::size_t min_value = 0;
	const std::size_t max_value = 9;

	std::default_random_engine rng;
	rng.seed(std::random_device()());
	std::uniform_int_distribution<> distro{min_value, max_value};
	for(std::size_t i = 0; i < size; ++i) {
		a.construct(&p[i], distro(rng));
	}

	for(std::size_t i = 0; i < size; ++i) {
		a.destroy(&p[i]);

construct and destroy are deprecated in C++17 and will be removed in C++20, apparently

anyone know, why?

Don't use std::allocator. If you were going to write std::allocator<std::size_t> a;, just use new

meh

Are you writing a container? No? Don't use std::allocator

^ std::allocator should only be used as a default allocator object in generic code. Don't use it if you just want to interface with the default allocator

If you're writing a container, the intended usage of allocators is through std::allocator_traits<Allocator>::whatever(alloc, stuff), and not to call them directly through alloc.whatever(stuff)

my bad, I thought you guys were aware that I'm a C++ newbie going through C++ Primer

I don't think I'm smart or resourceful enough to write custom containers (yet)

The purpose of std::allocator_traits<Allocator>::whatever(alloc, stuff) is to call alloc.whatever(stuff) if it exists, and if it doesn't exist, to provide a default implementation that will be called. That makes it easier to write your own custom allocator, but doesn't make usage of allocators easier

That's why std::allocator<T>::construct and std::allocator<T>::destruct are deprecated - because they do the same thing as default implementation provided by std::allocator_traits<T>, but std::allocator_traits<T> only appeared in C++11

@jeea There are obscure cases where returning a reference allows code to work that wouldn't if you returned a value. The most common (admittedly silly) one is code like (a=b)=c; If memory serves, there's also a case with something like return a = b; that can be problematic when/if you return a value (but it's been long enough since I looked at it that I don't recall the details).

@milleniumbug the damn book should've used allocator_traits then...

C++ allocator API is quite a mess, I'm not a fan

hey, im having trouble understanding how to use select() so i can set a timer for the function read() in sockets. i read the documentation but is a littla confusion

i dont get what i have to do with fp_set and all that