@R.MartinhoFernandes Do you? I don't have much problem answering like ~ "I'm gonna be developing all kinds of stuff and generally having fun doing it" ~
@R.MartinhoFernandes Oh, I lack ambition like that. I'm not sure I'd want to be boss. I can see about the raises. That I would probably be able to accomodate if need be.
@Xeo At a local output iterator somewhere. That's the catch: you only get the lazy in the chaining. The entire thing still runs immediately as it is forced by std::transform.
There are two ways to start a coroutine depending on which side you want to 'drive' the other. Try coroutine(f) vs coroutine(f, initial_value) and putting an initial get() or not in the coroutine function.
If you do it wrong you'll call a get on some side when you shouldn't have and it'll assert.
@Rapptz not the same, find_end searches for an entire subsequence, find_first_of looks for any element in a subsequence (from what i understood of cppreference)
Please explain to me why the following piece of code complies and works perfectly.
I am very confused.
#include<iostream>
template<class A = int, class B=double>
class Base
{};
template<class B>
class Base <int, B>
{
public:
Base()
{
std::cout<<"it works!!!!!\n";
}
};
int main()
{
...
I am toying around with some code when I noticed something totally unexpected - traversing an array and assigning each element the sum of the next two is about 4-5 times slower using the = and + operators than when using a function with just a single void * parameter.
Why is that?
#include <QTe...
> There are at least two National Body comments on the C++14 draft saying that either std:function should support move-only types (which is very difficult given its current specification) or there should be some alternative or wrapper which supports move-only types.
Why is this not allowed, for example:
std::array<auto, 5> myArray {
};
It would make my life so much easier, as I would be allowed to store multiple data-types inside the array. I'm sure there's a logical explanation, just wondered what it was.
Thanks
@Xeo I don't really know. I'm happy with the ones that I have, but then again I thought I'd have to use naked pointers as long as I used C++, and that changed (which is awesome).
So... by your explanation we can expect the new question: _"Why doesn't std::array<auto, 5> arr { 1,2,3,4,5 }; work, while auto arr[] = { 1,2,3,4,5 }; works as expected? — sehe14 secs ago
When do we need LFENCE and SFENCE instructions on x86? AFAIK loads are not re-ordered with other loads and stores are not re-ordered with other stores. The only non-guarantee I know of is that loads can be re-ordered with old stores (in which case we may need an MFENCE).
@R.MartinhoFernandes it could mean you're linking to some shitty ancient library which links to the shitty ancient std lib from back before it was called msvcrt
you could build with /NODEFAULTLIB:LIBCMTD to get it to link successfully. Then run depends on whatever you built, and you should be able to see what each of your dependencies link to from there
So by default premake seems to generate VS project files with incompatible build options (runtime checks on + no debug runtime), and to include in the project some files I explicitly excluded. Wondering if CMake would have been a better choice.
Everyone laughing at you? Click here to learn how to make friends and not be hated!* We also have a list of acronyms, but it turns out that linking it here is extremely redundant. (* We reserve the right to laugh at you anyway)
What is the advantage of allocating a memory for some data. Instead we could use an array of them.
Like
int *lis;
lis = (int*) malloc ( sizeof( int ) * n );
/* Initialize LIS values for all indexes */
for ( i = 0; i < n; i++ )
lis[i] = 1;
we could have used an ordinary array.
Well I do...
> WARNING This video includes a bunch of SCARY & BLOODY stuff as well as me SCREAMING like a little girl and SWEARING like three sailors with Tourettes!
Please explain to me why the following piece of code complies and works perfectly.
I am very confused.
#include<iostream>
template<class A = int, class B=double>
class Base
{};
template<class B>
class Base <int, B>
{
public:
Base()
{
std::cout<<"it works!!!!!\n";
}
};
int main()
{
...
I am toying around with some code when I noticed something totally unexpected - traversing an array and assigning each element the sum of the next two is about 4-5 times slower using the = and + operators than when using a function with just a single void * parameter.
Why is that?
#include <QTe...
Why is this not allowed, for example:
std::array<auto, 5> myArray {
};
It would make my life so much easier, as I would be allowed to store multiple data-types inside the array. I'm sure there's a logical explanation, just wondered what it was.
Thanks
What is the advantage of allocating a memory for some data. Instead we could use an array of them.
Like
int *lis;
lis = (int*) malloc ( sizeof( int ) * n );
/* Initialize LIS values for all indexes */
for ( i = 0; i < n; i++ )
lis[i] = 1;
we could have used an ordinary array.
Well I do...
