So the title is somewhat misleading... I'll keep this simple: I'm comparing these two data structures:
- An array, whereby it starts at size 1, and for each subsequent addition, there is a realloc() call to expand the memory, and then append the new (malloced) element to the n-1 position.
- A linked list, whereby I keep track of the head, tail, and size. And addition involves mallocing for a new element and updating the tail pointer and size.
Don't worry about any of the other details of these data structures. This is the only functionality I'm concerned with for this testing.
In theory, the LL should be performing better. However, they're near identical in time tests involving 10, 100, 1000... up to 5,000,000 elements.
My gut feeling is that the heap is large. I think the data segment defaults to 10 MB on Redhat? I could be wrong. Anyway, realloc() is first checking to see if space is available at the end of the already-allocated contiguous memory location (0-[n-1]). If the n-th position is available, there is not a relocation of the elements. Instead, realloc() just reserves the old space + the immediately following space. I'm having a hard time finding evidence of this, and I'm having a harder time proving that this array should, in practice, perform worse than the LL.
Here is some further analysis, after reading posts below:
[Update #1] I've modified the code to have a separate list that mallocs memory every 50th iteration for both the LL and the Array. For 1 million additions to the array, there are almost consistently 18 moves. There's no concept of moving for the LL. I've done a time comparison, they're still nearly identical. Here's some output for 10 million additions:
(Array) time ./a.out a 10,000,000 real 0m31.266s user 0m4.482s sys 0m1.493s (LL) time ./a.out l 10,000,000 real 0m31.057s user 0m4.696s sys 0m1.297s
I would expect the times to be drastically different with 18 moves. The array addition is requiring 1 more assignment and 1 more comparison to get and check the return value of realloc to ensure a move occurred.
[Update #2] I ran an ltrace on the testing that I posted above, and I think this is an interesting result... It looks like realloc (or some memory manager) is preemptively moving the array to larger contiguous locations based on the current size. For 500 iterations, a memory move was triggered on iterations: 1, 2, 4, 7, 11, 18, 28, 43, 66, 101, 154, 235, 358 Which is pretty close to a summation sequence. I find this to be pretty interesting - thought I'd post it.