If I create a struct in function a and then pass it by-reference into another function (b), will b have access to it although function a has completed?
@cybermonkey No, because the struct lived in the stack. By definition, "when a has completed" means "a" is no longer on the stack, and all local variables could have been overwritten (or the memory allocated to the stack has decreased).
@Rick Perhaps, especially if its causing a ton of cache misses. Linked lists are structures that are almost never used. Although graphs (which are more complicated linked lists) are often used.
@Dariusz it's not inlined because of the fact it's virtual so the base must have a unique address, but it isn't horribly inefficient either. The child doesn't need to use the vtable to call the base because the target is explicit.
@Mikhail seriously? "Linked lists are structures that are almost never used." Damn I was spending quite a lot time on it...
@Mgetz Yes, I am allocating new memory for every node... But 28s compared with 33ms, is just far beyond my expectation.
Thank you guys. I would like to ask a new question maybe on code review SO. I wrote a mergeSort of linked list and I just don't know if it's really O(nlogn).... That's killing me.
I would share the question link here when I am done.
If my code is right, ya I do think what you said is right.. I mean, only 65536 input ints have already took 28s, what can you even do with that efficency in industry with larger data?
Interesting. `std::deque` : > As opposed to std::vector, the elements of a deque are not stored contiguously: typical implementations use a sequence of individually allocated fixed-size arrays,
I thought deque was implemented with linked list and have O(n) random access :D
Because in vector_pre no extra allocations are performed
The first test that is performed is to fill the data structures by adding elements to the back of the container (using push_back). Two variations of vector are used, vector_pre being a std::vector using vector::reserve at the beginning, resulting in only one allocation of memory.
@Mikhail Don't understand. ? But it would allocate again and again when you push_back more elements into them. Let's say vector allocates 100 elements by default and vector_pre is 1. When you push 1000 elements, ( I haven't read vector::reserve() precisely ), doesn't vector need less extra allocations compared to vector_pre?
I thought vector_pre was initialized with 1 single datatype memory each time...
Sorry :)
Why are data structures are performing more or less the same for the 3th graph? Shouldn't the 3th graph looks similar with the first 2? Is it because the " non-trivial data type" it said? ( I don't know what the a non-trival data type is that he's talking about :( )
It should, somehow the data type in the 2nd graph defeats the pre-allocation strategy. A well crafted std::vector would have similar performance for pre-allocated vs non-preallocated.
Which contaner should I use Qvector/list/qqueue/etc if I want to add /remove items to it -a lot - like selection changes, select/deselect/add/remove nodes ?
