@Ron Yes, the main reason to know about them is so you can enable move or if you have a class that is otherwise immutable to provide mutability for efficiency in some cases
@Ron lets say that operations on bar create lots of little bars you can rvalue qualify a mutation methods e.g. bar& doFoo() && so that doFoo() acts differently with an rvalue (modifies the temporary) so you can be more efficient.
That said, I've never actually seen this in practice because nobody has found a reason using a profiler yet to do it.
Other reasons to know about rvalues is to ban them for example. as const bar & will bind to a temporary which may be bad if you're returning references to the interior of bar (see std::regex) so you can delete a method taking an rvalue to prevent people from passing you temporaries
@FerencRozsa You should have learned by now that "doesn't work" is not helpful. What is the error message? And since the obvious attempts failed, where is the code on coliru to show the issue?
@Kaizen You did pretty much everything right. A clear question and example code. Unfortunately it looks like none of the people here right now can help you. Either be patient or try elsewhere.
@user8469759 I'd try std::array<float, 11> first and then do a reinterpret_cast<char*>(inputs.data()) when passing it in. Don't forget to pass the right size though
Compares two shared_ptr<T> objects or compares shared_ptr<T> with a null pointer.
Note that the comparison operators for shared_ptr simply compare pointer values; the actual objects pointed to are not compared. Having operator< defined for shared_ptr allows shared_ptrs to be used as keys in associative containers, like std::map and std::set.
it compares pointer values, not objects they point to
@Dariusz yes, you use .get() to pass the value to a function that doesn't take ownership. Tbh I'm concerned you're using std::shared_ptr at all... it's a code smell because 99.99999999999999999999999999999999999999999% of the time std::unique_ptr is the correct way to go
I don't understand how unique_ptr works. I know, only one object can hold it at a time.. but I dont get it. I have 3 classes, each have map with shared_ptr<> of objects that they share between eachother. I dunno how the unique_ptr handles that. if only 1 class has that object and rest null or what
say I have shared_ptr x point to 0x0032523 object shared_ptr y point to 0x0032523 object shared_ptr z point to 0x0032523 object now if I want to say do *x = *c points to 0x0111111 object, how can the y and z also change their point to *c?
esentially I want to replace object that all of my shared_ptr point to
Is it possible to replace the object where multiple instances of a shared_ptr refer to?
Maybe I am not really clear, so I'll give an example:
shared_ptr<Base> a = new Derived1();
auto b = a;
auto c = b;
// This function replaces the object where a, b, and c point to.
magic(a, new Derived2());
...
Are there tools I can use to ensure I've done garbage cleanup on my application? I'm looking at the call stack but not really sure I understand whats going on
I thoroughly endorse all the advice about RAII and smart pointers, but I'd also like to add a slightly higher-level tip: the easiest memory to manage is the memory you never allocated. Unlike languages like C# and Java, where pretty much everything is a reference, in C++ you should put objects on...
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...
C++ is an ownership obsessed language because it's a resource oriented language. The goal being to access a resource and release it as soon as possible
@VioAriton a) you may need to share it around with only a single owner that manages lifetime. b) it might be optional (e.g. nullptr) c) it might need to have inheritance where you access it via the parent and don't know what the type will be until runtime
@ratchetfreak I think you can but I've been hesitant to do that because pointers are cheap and easy and preform the same function in that case
also I'm pretty sure you can't do an optional reference
> There are no optional references; a program is ill-formed if it instantiates an optional with a reference type. Alternatively, an optional of a std::reference_wrapper of type T may be used to hold a reference. In addition, a program is ill-formed if it instantiates an optional with the tag types std::nullopt_t or std::in_place_t.
@ratchetfreak correct, which is prohibited so if you want to make a reference parameter optional you'd have to go through a lot of hoops to get the same thing as T* = nullptr
I think that's clearly expressive of an optional non-owned parameter
I'm getting CL_INVALID_WORK_GROUP_SIZE, but my local work size is 299 and my max supported WORK_GROUP_SIZE is 1024
is any of you familiar with this?
CL_INVALID_WORK_GROUP_SIZE if local_work_size is specified and number of work-items specified by global_work_size is not evenly divisable by size of work-group given by local_work_size or does not match the work-group size specified for kernel using the __attribute__((reqd_work_group_size(X, Y, Z))) qualifier in program source.
This is a big question, so I'm asking for a reference rather than a booklet-sized response. I'm going through Stroustrup's Tour of C++, and it seems like the way objects are laid out is memory is fundamental to the design of many C++ features, e.g. PODs vs aggregates vs classes with virtual membe...
I'm getting CL_INVALID_WORK_GROUP_SIZE, but my local work size is 299 and my max supported WORK_GROUP_SIZE is 1024.
According to the documentation:
CL_INVALID_WORK_GROUP_SIZE if local_work_size is specified and number
of work-items specified by global_work_size is not evenly divisable by
...
so, in this situation there isn't an obvious line of code that is displayed from the compiler. It's not about the push_back either, I presume
I'll figure it out and report back
Ah, it's an extremely ugly error telling me that I'm not binding to a function pointer correctly. I'm guessing here is no implicit casting for the types
In file included from src/main.cpp:1:0:
src/xxx.h:17:7: note: 'mynamespace::thread_guard::thread_guard(const mynamespace::thread_guard&)' is implicitly deleted because the default definition would be ill-formed:
class thread_guard{
Unfortunately I can't really go on the ideone type websites at work
I would've tried like 30 mins ago to give you guys an MVCE
/usr/lib/gcc/x86_64-redhat-linux/4.8.5/../../../../include/c++/4.8.5/bits/stl_construct.h:75:7: error: use of deleted function 'mynamespace::thread_guard::thread_guard(const mynamespace::thread_guard&)'
{ ::new(static_cast<void*>(__p)) _T1(std::forward<_Args>(__args)...); }
Ehm. Here's my full dump redacting some information. I hope you'd trust me that I have solely a single line of code that I wrote that the error complains about
ERROR: /src/BUILD:96:1: C++ compilation of rule '//src:main' failed (Exit 1)
In file included from /usr/lib/gcc/x86_64-redhat-linux/4.8.5/../../../../include/c++/4.8.5/memory:64:0,
from external/boost_1_67_0/include/boost/config/no_tr1/memory.hpp:21,
from external/boost_1_67_0/include/boost/get_pointer.hpp:14,
from external/boost_1_67_0/include/boost/proto/transform/default.hpp:21,
from external/boost_1_67_0/include/boost/phoenix/core/meta_grammar.hpp:17,
as I said before, only class thread_guard{ line was my code
Hi guys! Cpp beginner here ... is there a possibility that a pointer I previously set to NULL changes to some random (and invalid) reference when the object gets copied, or because of something else?
The thing is I have a STL list containing objects, which themselves contain a pointer that points to NULL by default. I pass this list as parameter of a function (not as pointer though), and suddenly some of the objects in the list (within the scope of said function) have their pointers point to adresses other than NULL ...
C++ is not a memory safe language. Once you start corrupting memory, you'll see that variables which used to hold specific value may not hold it anymore
also: pointers
You're using containers, that's very good
but this sounds like you're managing memory yourself, given your description
Try passing -fsanitize=undefined,address to your compiler (which is probably apple-clang) and you should get better diagnosis of various issues including memory corruption.
every time you have a function that returns something, and you need to pass it to another function "when you're done", you're dealing with manual memory management
90% of the time I spend in this chat is to tell people to not do that
that thing is a resource, and a resource has an owner. The owner is a class with a destructor and the rest of the "Big Five" that properly releases the resource