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I saw this video on YouTube: https://www.youtube.com/watch?v=YQs6IC-vgmo in which Bjarne says it is better to use vectors, rather than linked lists. I am unable to grasp the entire thing, so could anyone explain what he is saying in layman's terms?

P.S: I am an high school student and can easily handle linked lists, but I am struggling to learn vectors on my own. Could you suggest any sources to learn vectors?

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    Linked lists can be really bad for cache misses. Vectors will store the underlying memory in a continuous block which helps alleviate this issue. So while there might be a lower big O complexity for some operations with linked lists in practice because of the implementation of them on common architectures such as x86 you will find their performance rather lacking sometimes.
    – shuttle87
    Commented Dec 9, 2015 at 4:15
  • "learn vectors on my own" learn to implement one, or learn to use one?
    – T.C.
    Commented Dec 9, 2015 at 4:18
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    stackoverflow.com/questions/388242/…
    – T.C.
    Commented Dec 9, 2015 at 4:23
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    @ShankRam: there are heap memory fragmentation problems and memory overhead per single element. std::list require separate memory chunk for each element equipped with two pointers. Commented Dec 9, 2015 at 4:31
  • 1
    The thing to take away is that no container is perfect, they all have their pluses and minuses and for best performance you should always analyse your requirements closely before picking one. Commented Dec 9, 2015 at 4:57

2 Answers 2

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Advantages of vector vs. linked list

The main advantage of vector versus linked lists is memory locality.

Usually, each element is allocated seperately in a linked list. As a consequence those elements probably are not next to each other in memory. (Gaps between the elements in memory.)

A vector is guaranteed to store all contained elements contiguously. (Items next to each other, no gaps;)

Note: Oversimplifications may occur... ;)

Imo, the simplified key points about the superior performance of a contiguously stored data storage pattern versus non-contiguous storage are

1. cache misses

Modern CPUs do not fetch single bytes from memory but slightly larger chunks. Thus, if your data objects size is less than the size of those chunks and if storage is contiguous, you can get more than one element at a time because multiple elements may be in a single chunk.

Example:

A 64byte block (usual cache line size) fits sixteen 32bit integers at a time. Therefore, a cache miss (data not in cache yet -> load from main memory required) occurs at the earliest after processing 16 elements from the moment first one has been brought to cache. If a linked list is used, the first element might well be the only one within a 64byte block. It might in theory happen that a cache miss occurs for every single element of the list.

Concrete example:

std::vector<std::uint32_t> v;
// somehow fill 64 values into v
std::uint32_t s{};
for(std::size_t i{0}; i<v.size(); ++i)
{
  s += v[i];
}

Imagine the contents of v not being cached yet.

What happens during the processing of the data in the for loop?

1)Check whether element v[0] is in cache. --> Nope

2)Fetch 64 bytes starting at the address of v[0] from main memory into a cache line

3)Load v[0] from cache and process by adding its value to s

4)Is element v1 in cache? --> Yes loaded with previous fetch because neighbouring v[0]

5)Load v1 from cache and process by adding its value to s

6)Is element v[2] in cache? --> Yes ...

7) Load v[2] from cache and process by adding its value to s

... etc...

34)Is element v[16] in cache? --> Nope

35) Fetch 64 bytes starting at the address of v[16] from main memory into a cache line

36)Load v[16] from cache and process by adding its value to s

37)Is element v[17] in cache? --> Yes loaded with previous fetch because neighbouring v[16]

etc...

Fetching data from main memory into the cache takes much more time than loading data from cache into processor registers and perform simple operations. Therefore, the fact that multiple values may reside on a single cache line can boost performance significantly.

Linked lists do not provide a contiguous storage guarantee and you cannot hope to get this performance boost. This is also the reason why random iteration (accessing elements randomly) performs worse than forward iteration (accessing elements in order) for contiguous containers.

2. prefetching

The above effect is amplified by a CPU feature called "prefetcher".

If a chunk has been loaded from main memory, the prefetcher prepares loading the next chunk / already puts it into cache, significantly reducing the penality of loading stuff from that part of the main memory.

This is of course effective if and only if you in fact need data from the next prepared chunk.

How do vectors usually work (internally)?

See: c++ Vector, what happens whenever it expands/reallocate on stack?

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Stroustrup has written an article https://isocpp.org/blog/2014/06/stroustrup-lists that says he has been misunderstood and isn't saying to avoid linked lists.

I can't comment on C++ implementations of vectors and linked lists.. But, you say you understand linked lists and not vectors. I can say that in Java, people understood vectors but not necessarily linked lists. C# has a List data type, and most people don't really look into whether that's implemented as a linked list or as a vector. Here is a good discussion on the differences in terms of usage. https://www.reddit.com/r/learnprogramming/comments/15mxrt/what_are_the_real_world_applications_of_linked/ One comment says "Data stored in a Linked List, once allocated in memory, will stay in the same spot. That means as your linked list changes in size, the data of any elements does not move (in memory), so it can be safely pointed at."

Straustrup's article says "And, yes, my recomendation is to use std::vector by default. More generally, use a contiguous representation unless there is a good reason not to. Like C, C++ is designed to do that by default. Also, please don’t make statements about performance without measurements. "

I have seen Stroustrup in an interview say that deleting an element and shifting them all up is really fast, and faster than deleting an element from a linked list. But I suppose one shouldn't conclude from that that he's saying linked lists have no use case.

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