@Morwenn Are you aware of a proposal that extends deduction guides to allow more than one user defined conversion? Something like having constructors A(int); B(A); C(B); and making C c(42); compile by specifying C(int) -> C(B(A(int)));.
@ratchetfreak Not sure. I know that compilers try to avoid O(n²) algorithms, but maybe the spec implicitly mandates some. I have indeed heard tales of O(n²) overload resolution back in the day.
There aren't that many French words ending in « -ong » (there are like 15 of them, mostly taken from foreign languages), so « patong » looks more Chinese to me :p
@Telkitty Programmer expects overload A to be called when in fact overload B gets called. Maybe overload B didn't even exist when the call was written but was added later. Something like that.
I won't pretend that OR is the simplest thing in the world or that it can't be taken too far but there is a basic level which is not complicated or dangerous at all
@Telkitty So no implicit conversions? Some modern languages choose that path.
For example, Kotlin has overloading, but no implicit conversions. If a function expects a double, you can't pass an int, you have to convert explicitly.
Ceylon has neither overloading nor implicit conversions.
having both implicit conversion and overloads required that you consider what should happen for foo(1,2) for overloads foo(double, int) and foo(int, double)
then there is also function pointers, when taking a function pointer from an overloaded function which function do you get? and how to force getting a certain overload
long long a = 1LL << 53;
long long b = a + 1;
double x = a;
double y = b;
printf("%lld\n", a);
printf("%f\n", x);
printf("%lld\n", b);
printf("%f\n", y);
say, I have the following situation: method A calls B, which calls C, which calls A again for some reason — how do I call this situation in common English IT language? "call loop"?
it's not a() -> b() -> c() -> a() in terms of functions, true recursion is happening very rarely there, I need to specifically name this behavior and nothing else :)
@nwp it's definetely not normal: on a very high load these scenarios often lead to spectacular crashes, when on some groups of servers there are suddenly no more space to plug in another RPC-call
I cringe when I see how these developers get tens or hundreds of error tickets per months, when I have a few, and often they are not even mine (not talking about tasks), it's a pure mess :D
I had a bug when a hook was perpetually added in a chain call modiyfing a search function to search in all possible languages... At least it wasn'T purely cyclic just getting way way more complicated to process
@LoïcFaure-Lacroix it's an evnironment with a true, large scale server farms, true RPC calls, with multiple groups of servers indolved, when BL method comes to some server, it comes with a bunch of parameters, so it most likely have a TTL set, in example, — so this problem occurs when servers under a very heavy load, when a server have no more capacity to handle that extra -> A()
With each recursive calls, memory of calling function gets pushed into stack. When it's completed, the memory gets popped back regardless whether is passed by value or reference?
@ratchetfreak Tellkitty said that all recursion can be written in loops. If it was true we could have a TCO version of any loop which goes against what you said: "TCO isn't always possible"
My point is that his argument that TCO isn't always possible is irrelevant as if it's not possible to do TCO it also means the algorithm cannot be written without recursion
Hey does anyone know how to traverse a binary search tree using loops instead of recursion?
I have the recursive method
public static int countMatches(BinaryNodeInterface<Integer> tree, Integer key)
{
int matches = 0;
if (tree != null)
{
if (tree.getData().equals(key))
...
related, but not the same. Non-threaded code can call functions re-entrantly. And yeah, locks can be re-entrant (e.g. recursive_mutex) but that's the other way around
But nobody was supposed to use recursive mutexes. For the original
intended purpose, only the global mutex would work anyway. And if you
could analyze the code paths enough to know that a separate mutex was
safe, why the heck would anyone want the overhead and complication of a
recursive mutex instead of just doing it right? I still didn't delete
it, but I more or less stopped thinking about it for many years.
@fredoverflow Oh right, I think I learned something today... I read a lot of bad C code. It always confused me when reading code defining structs like this: struct Something {} _something_super_complex;
I always wondered why people name their struct twice
You are probably right. I am also going to do machine learning with this. Maybe the positions could be of use then? I will certainly drop them If I don't find an use soon.
Apparently they broke warning disabling in clang 5. -Wno-unused-function no longer stops it from producing warning: unused function 'debug_print' [-Wunused-function].