C++ Questions and Answers

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Yashas

03:44

template<typename> void operator()(T*){}?

is specifying T for typename optional?

milleniumbug

template parameters can be unnamed, but T is not the typename from that unnamed parameter

is this inside a class template which declares a typename T type parameter

Yashas

struct do_nothing_deleter{
    template<typename> void operator()(T*){}
};

void store_for_later(std::shared_ptr<Y>);

void foo(){
    std::shared_ptr<X> px(std::make_shared<X>());
    std::shared_ptr<Y> py(&px->y,do_nothing_deleter());
    store_for_later(py);
} // our X object is destroyed

I found that here

milleniumbug

probably a typo

foxtrot9

Hello guys, I am trying to learn c++. I have fairly good background in C and programming in general. I am right now reading Accelerated c++ by Moo and etc but I find it slow paced. Could you guys suggest a better book for me?

Something more of documentation and powerful.

milleniumbug

yes, that's a typo

well, if you feel that Accelerated C++ covers stuff that is "obvious", you can always head out directly to en.cppreference.com and the language description and the standard library from there

foxtrot9

03:53

Thank you!

milleniumbug

There's "Modern Effective C++" which you may find helpful in general

And since you say you have a C background, I'll just tell you to doing anything that requires you to call a "free/release" function later

Sep 15 at 16:04, by milleniumbug

@StephanHofmann If you need to release anything, you're doing it wrong. (see: RAII)

Sep 15 at 16:08, by milleniumbug

@StephanHofmann You're using new so it's wrong (see: RAII)

foxtrot9

Well, I tried Modern Effective C++ and it felt overwhelming for now.

I am finding it hard to learn C++ concepts that were not in C.

milleniumbug

I'd say continue reading Accelerated C++ and just skim over the parts

until you find something non-obvious, and then backtrack from there

foxtrot9

Hmm, that's good strategy. Let me try that and find out if it works or not.

milleniumbug

4258

Q: The Definitive C++ Book Guide and List

This question attempts to collect the few pearls among the dozens of bad C++ books that are published every year. Unlike many other programming languages, which are often picked up on the go from tutorials found on the Internet, few are able to quickly pick up C++ without studying a well-written...

I assume you're reading Accelerated C++ because of the recommendations there

unfortunately I can't tell you which book you should read because I learned C++ from horrible and outdated books and very slowly unlearned the bad habits by reading SO questions, cppreference, and C++11 FAQ

foxtrot9

04:35

Yup, I am following this list.

6 hours later…

Ferenc Rozsa

10:47

Dont know, if this can be done better coliru.stacked-crooked.com/a/53e04f858a56dbf6

ratchet freak

you are missing the increments on the iterator

coliru.stacked-crooked.com/a/e12836f0c6f2a02c

Ferenc Rozsa

11:05

o.k. but i thought that with an output iterator (std::back_inserter) it does automatically an append while assigning to the iterator.

ratchet freak

11:30

keep in mind that the iterator concept was created to imitate pointers

when filling a buffer you need to increment the pointer after each assign

so you need to do the same with a output_iterator

Ferenc Rozsa

Is there reason for leftincrement ?

ratchet freak

11:45

avoiding a copy if it's not needed

Yashas

12:09

template <typename T, size_t N>
T* end(T (&arr)[N])
{
	return arr + N;
}

why does the above code work

but not the one below

template <typename T, size_t N>
T* end(T arr[N])
{
	return arr + N;
}

The only change is (&arr)[N] to arr[N]

2. What should I prefer among the following: size_t or std::size_t

I see every library using std::size_t instead of size_t so I was wondering if it is a bad practice to use the C typedefs over the C++ ones (??)

nwp

What do you mean by "work"? The second version is equivalent to T *arr but I don't see why that would make a difference here.

Yashas

I get this in the second version:

error: no matching function for call to ‘end(int [11])’
  std::cout << lower_bound(arr, end(arr), 4) - arr;
                                       ^
bsearch.cpp:5:8: note: candidate: template<class T, long unsigned int N> size_t end(T*)
 size_t end(T arr[N])
        ^

bsearch.cpp:5:8: note: template argument deduction/substitution failed:
bsearch.cpp:28:39: note: couldn't deduce template parameter ‘N’
std::cout << lower_bound(arr, end(arr), 4) - arr;

ignore the size_t return type (I got the same error even after fixing that)

nwp

Right, it couldn't deduce N, because arr is a pointer and doesn't have size information.

Yashas

What does &arr do?

nwp

In this case takes arr by reference. The confusion might stem from the fact that when developing C they thought "Passing arrays by value is slow and never what anyone wants, so let's automatically pass a pointer instead" and C++ inherited that rule.

2 hours later…

Euri Pinhollow

13:57

@EuriPinhollow yes it's UB as per eel.is/c++draft/basic.life#8 which basically says that I can do that trick only if I am not going to use any references to object and it's name anymore.

Yashas

14:53

@nwp Aren't arrays always passed by reference?

nwp

If by array you mean only C arrays (not std::array) and you count pointer to first element as a reference to the array then yes.

Yashas

I am completely lost

why do we have to put (&arr)[N] to make it pass by reference?

nwp

In this case because the built-in "reference" which is a pointer doesn't carry the size information and you need the size information.

But this is the normal case, type &var as a parameter makes it get passed by reference whereas type var doesn't.

Besides the weird array decay thing.

Yashas

Which C++ topic talks about how typeinfo is passed around?

ratchet freak

15:14

I think this is more about template-type deduction

Yashas

15:30

operator=
(implicitly declared)
	overwrites every element of the array with the corresponding element of another array

std::array<std::shared_pt<wire>, width> lines;

what happens to the shared_ptr reference count if I do auto lines2 = this->lines;

does it call the assignment operator of shared_ptr or does it do a memory copy?

nwp

it copy-constructs the array which copies the shared_ptrs

Yashas

what does implicitly declared mean?

nwp

There are special member functions that are usually implicitly declared.

Yashas

how to get a list of all shared_ptr instances managing the same object from a shared_ptr?

I have a shared ptr X which manages an object which is also handled by Y and Z (both shared ptr).

When I change the object they point to in any one of them, I want to update the remaining shared ptrs to point to the new object.

If I did X=k, I want Y and Z to point to k

nwp

15:45

std::shared_ptr doesn't keep such a list. If you need it you have to make it yourself. Although I'm having trouble imagining why anyone would want that.

@Yashas You could use a shared_ptr<T*> for that.

Yashas

I had thought of shared_ptr<unique_ptr> :P

but it looked awful

I have a class wire. I can connect wires to other wires. All connected wires MUST point to the same variable in the memory. Wires can be disconnected too and connected something else.

when all wires refering to a variable in memory is deleted, I want that variable to be deleted

I think I am ending up with a graph problem

nodes are wires and edges indicate that two wires are connected

I need to update all decendants when a parent is changed

ratchet freak

IMO when dealing with graphs it's a bad idea to have each node participate in ownership with smart pointers

instead have the graph parent object own every node and edge and implement some connectivity algorithm when you need cleanup

Yashas

I am thinking of creating a universe forest (has all wires as nodes).

root of every tree in the forest will hold the variable

all nodes (except root) point to the variable in the root

ah this won't work

I should allow for cycles

A -> B -> C and A -> C, if I break A -> B, then A, B, C should still remain connected

ratchet freak

having cycles in ownership graphs is a bad idea in general

Yashas

16:07

If I disallow removal of edges, things simplify but then I wouldn't be able to implement a switch.

even if I implement a switch somehow and if the switch flips millions of times every second, it would take a lot of time to keep updating the graph for removing and addition of an edge

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