@StackedCrooked With it stopping working for no particularly good reason, then starting again with even less reason, you'd almost think it was on the web or something.
It's not caused by COW being incompatible with move-semantics. I don't understand why QVector<std::unique_ptr<int>> doesn't compile. Apparently they want to support C++03 and can't be arsed to add #ifdefs.
@ratchetfreak std::vector has the same semantics and it solves itself by template instantiations not instantiating copy constructors when unused. I guess they have some potential copy code in their detach which always gets compiled because the destructor uses it or something. I'm sure they could fix that if they cared.
@JerryCoffin Well, Qt is not one of them. They even have a standalone designer so you don't have to use Qt Creator.
@nwp There are (at least) two groups of people who've shown that while moc may have some advantages under some circumstances, it's not strictly necessary any more.
Well, I do hope someone comes around and makes a proper GUI framework for C++. Might be Qt fixing their stuff or someone else. Unfortunately copperspice seems to not get much traction. I will give Verdigris a try.
By simply not using moc they should automatically support stuff like templates and typedefs which would be some improvement.
If someone replaced raw owning pointers with std::unique_ptr I'd almost consider it passable.
@nwp Are you talking about raw pointers in qt? I think they are pretty reasonable as the parent is responsible for deleting children. I wouldnt call them owning .
Yeah, but if you directly used unique_ptr with a normal deleter you might get in trouble. The underlying mistake is holding pointers in qt instead of traversing the layout or container on each access...
The other part is teaching. I like to say "Don't worry about memory management in C++. Simply don't use new. It solves most problems." Which works great until Qt comes along and requires passing raw owning pointers.
&I've been told that a class' memory always has the same structure:
So if I have the pointer to a member of a class, can I somehow calculate the pointer to that class?
class num
{
public:
num() {}
int a;
int b;
};
int* ptr; // we have the pointer to num.b
num* number; // we want th...
Mobile internet used to be super-slow compared to wifi. Intuitively that made sense for me because the distance to the cell tower is much larger and the tower is used by many people at the same time. However, these days I reach 100 Mbit/s on an internet speed test using my phone. How is this possible?
@Mysticial I think it's mostly because JEDEC simply hasn't defined what the pinout for a 32+ GB desktop DIMM should be. To make things work, those are logically laid out as two entirely separate 16 GB DIMMs that happen to physically connect to a single DIMM slot.
@StackedCrooked WiFi and 4G use similar techniques. Cell towers are licensed, so they can use extra power to make up some of the loss due to greater distance. Mostly, however, it's just hidden. Theoretical max for 4G is something like 400 Mbit/s, and for 802.11ac is a little over 1 Gbit/s. Most people's Internet connection is capped lower than that though, so usually your limit is imposed by the cap, not the theoretical bandwidth the technology could provide.
@StackedCrooked Yes--in fact it helps. A cell tower uses an array of small antennas, and the directionality is controlled by changing the phases of signals sent to those antenna elements. The phone and tower are constantly (every few milliseconds) re-training to steer the signals in the right directions.
@JerryCoffin IOW, desktop and ECC ram have different pinouts. Otherwise, you can just rebrand a server 32gb stick and call it a new desktop part and it would work.
They're almost as bad as US ISPs. But I'll cut them a bit of slack since I'm less informed on this area and I assume that wireless is more costly/bit than wired.
@StackedCrooked Point is, it doesn't matter much. Even when you're outdoors, it's entirely possible the main signal you're getting was (for example) reflected off some building, or (for a few milliseconds) off the roof of a nearby car or something.
@Mysticial Yeah, I think they do (more specifically, ECC and/or registered RAM has a different pinout).
I've come across a situation several times where I've wanted to call std algorithms but instead of being passed the value at each location I want the iterator at that point. Do such APIs exist in core? I couldn't find them if they do.
Given a contiguous buffer of std::bytes, a reinterpretation of a std::byte* to a char* is legal by design and doesn't violate the strict aliasing rule:
(wording from the most recent revision of the std::byte proposal)
Lvalues and rvalues [basic.lval]
If a program attempts to access t...
That's really not about c++, but as there seem to be a few hardware-aware people around here I'll take a chance: how do I start understanding better what actually makes a good gpu over a normal one? I think I'm starting to understand that total memory is not everything, that bandwith is important, and that higher bit count is better, but I'm unsure how this translates into a good gpu.
For instance, I think that some gpus will have better support for physics intensive games (totally speaking out of my ass here)?
Where do I start looking to understand what gpu technology supports what kind of gaming feature (and how to value those)?
@FélixGagnon-Grenier your right about the bandwidth, and other recent advance is in the way threads talk to each other, but it's hard to characterize applications by bandwidth usage. Newer gpu have more loose thread launch rules which helped with tasks such as fluid dynamics.
I mean. If I have an object and passes it's address as a void* to a function. Inside that function I the void* cast to std::byte*. Then I do auto x = byte[0]. Then I overwrite the first member of the original object. After that I do auto y = byte[0]. Will x be equal to y (according to the compiler)?
Never worked on a team with it, I was secretly trolling for somebody to send me a license.
My experience with static analysis tools has been positive in the sense they catch a percentage of errors I would not have caught otherwise. But I assume that nobody in the lounge still uses C++ at work :-)
&I've been told that a class' memory always has the same structure:
So if I have the pointer to a member of a class, can I somehow calculate the pointer to that class?
class num
{
public:
num() {}
int a;
int b;
};
int* ptr; // we have the pointer to num.b
num* number; // we want th...
Given a contiguous buffer of std::bytes, a reinterpretation of a std::byte* to a char* is legal by design and doesn't violate the strict aliasing rule:
(wording from the most recent revision of the std::byte proposal)
Lvalues and rvalues [basic.lval]
If a program attempts to access t...
