1
vote
1answer
47 views

How should ownership for two closely tied data structures be designed?

I have a class A and a struct B (it's a plain old data structure). These two model a system in the way that A represents, in a sense, the state of the entire system, and is composed of both multiple ...
6
votes
1answer
156 views

C++ - Representing ownership via pointers

In my game engine, there are three classes: EntityCharacter, EntityVehicle and EntityVehicleSeat. EntityVehicle contains seat objects with pointers to instances of EntityCharacter. If seat object's ...
2
votes
7answers
134 views

Am I passing array ownership back to caller from my library function?

I came to C from Python. Python has a delightfully simplistic white glove approach to manipulating strings. The more I use arrays in C, the more I think how convenient it would be to have certain ...
0
votes
1answer
639 views

smart pointer array

I have created a smart pointer class like: template <class T> class Owner { T* m_p; public: Owner(T *p=0) : m_p(p) {} ~Owner() { if (m_p) delete m_p; } T* operator ->() { ...
0
votes
1answer
67 views

Ownership issues when dealing with abstract base classes as members

When passing classes as arguments in constructors I end up passing pointers in most cases. The main reason for that is I have to pass abstract classes that cannot be instantiated, and as a reference ...
3
votes
3answers
1k views

Manual Object Ownership vs Smart Pointers

Right now, object ownership/deletion in my C++ project is manually tracked (via comments mostly). Almost every heap allocated object is created using a factory of sorts e.g. auto b = ...
1
vote
1answer
394 views

An intrusive list of unique_ptrs?

I have a program that is highly multi-threaded and it contains an intrusive linked list of objects. I need to pass off the objects in this list to several threads, but only 1 thread will ever own the ...
1
vote
4answers
253 views

How to deal with different ownership strategies for a pointer member?

Consider the following class structure: class Filter { virtual void filter() = 0; virtual ~Filter() { } }; class FilterChain : public Filter { FilterChain(collection<Filter*> ...