…Viktor Sehr and Sbi reccomended instead using a single vector and getting the element with my_vector[x+y*100+z*100*100]. Why is this?
Given the dimensions, it's logical recommendation if the sizes are fixed.
Is it for performance reasons? If so, how does it improve performance?
Consider:
- the number of allocations required to create all arrays
- the time to copy even one dimension
- the complexity it adds to the system's allocator
- the time it takes to free
- the complexity of common operations, such as filling
Edit: Do these reasons still apply when the width/height/depth are not the same and can change?
Resizing this (massive!) array can be extremely slow. You have to understand how your program will operate if you want it to be fastest. The copy and destruction complexity of elements is also a consideration (when using something more complex than int
). If you do a lot of resizing or insertions/deletions, then the flattened vector can be very slow.
However, if its dimensions are fixed, you can do much better than std::vector
. std::array
is one alternative. (If you go the route of std::array
, be careful of what you allocate on the stack)