I'm reading about the rule of three, five and zero
what's the meaning of the rule of zero?
"Classes that declare custom destructors, copy/move constructors or copy/move assignment operators should deal exclusively with ownership. Other classes should not declare custom destructors, copy/move constructors or copy/move assignment operators."
Hi all, perhaps a silly question, too simple and maybe duplicated, but I can't get this to work:
int main()
{
char* vars[2];
for (int i = 0; i < 2; i++)
{
vars[i] = '0' + i;
std::cout << " vars[" << i << "]: " << vars[i] << std::endl;
}
}
The idea is to convert from int to char* in a loop
> An essential part of RAII is the concept of resource ownership: the object responsible for cleaning up a resource in its destructor owns that resource.
@user8469759 Given that we all expect the owner of a resource to release the resource, I suppose a possible conclusion from this is that whoever cleans up after you used a resource is the owner.
@user8469759 It means that, if a class manages resources, each object should manage a single resource, and the class should do nothing else. If a class implements behavior, it shouldn't also manage resources, but delegate that to resource-managing classes.
Yeah I just realized that if you use adjacency lists with a raw pointer (equivalent to the shared) as the key for looking up the list, you might not have cycles of shared_ptrs. At any rate, it's harder to have a shared_ptr cycle than I first thought even if the graph has a cycle
There's no way I'd want to prove it though. It's likely much easier to just use indices / raw pointers.
@user8469759 The talk Better Code: Runtime Polymorphism by Sean Parent does cover one use case of shared_ptr, although the talk is more about type erasure. The example was by using std::shared_ptr<const BaseClass> to have an immutable document; changes were made by "copying" the entire document and making changes, but shared_ptr makes the "copy" cheap, as it shares most of the state.
I have a file and objects are described in that file, meaning there are multiple blocks with multiple lines where as the i-th line always has the same "meaning"...as I want to make it very easy to change number of arguments, I want to have an enum PARAMETERS_ Edit: Wait pls for the full question :)
where the elements in the enum are the parameters in each line. Each line contains a number or a text. to check whether file containing those lines has no syntax errors I want to check whether the lines represent the right "type" e.g. int or string...also since I want to make everything dynamically I want to use for(i = 0; i < SIZE_; ++i) to iterate over arrays that will be filled with the appropriate arguments, that doesn't work if I give them values in {0,1} as proposed in @Justin solution
All elements described in the file are then instanciated in c++ where as the attribute NAME_ gives them a unique name, but I don't want to have the "attributes" as member fields but rather as a vector...perhaps a dumb idea...
It might make sense to have an enum (I'd use enum class) for the parameter type. But for the actual parameters, I wouldn't use an enum. I'd use some object that I can ask what its parameter type is
perhaps a bit too complicated, I just want to push_back a std::unique<Part>(new Part())) onto a vector for every element that has a description within the file
@Justin ok thx for the advice and @milleniumbug thx for the link
@sehe Yeah but I use godbolt more, so it's easier for me to think of it. It doesn't really matter to me unless I want to actually execute code / use other libraries
It so fun to try guessing what someone meant when they argued about something completely irrelevant and hold myself from asking a question about the reason for doing it.