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Why can't pop_front() be implemented for C++ vectors by simply shifting the pointer contained in the vector's name one spot over? So in a vector containing an array foo, foo is a pointer to foo[0], so pop_front() would make the pointer foo = foo[1] and the bracket operator would just do the normal pointer math. Is this something to do with how C++ keeps track of the memory you're using for what when it allocates space for an array?

This is similar to other questions I've seen about why std::vector doesn't have a pop_front() function, I will admit, but i haven't anyone asking about why you can't shift the pointer.

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You can use deque as a more general and flexible container essentially as a drop-in replacement for vector. Some might even say that deque should be the "default" container in C++, and vector should be reserved for the special need of contiguous storage. –  Kerrek SB Jan 31 '12 at 5:46
@KerrekSB: Isn't deque a doubly-linked list? If so, it should by no means be the default container. –  Violet Giraffe Jan 31 '12 at 12:28
@VioletGiraffe: The emphasis is on "if so". Luckily, we are in the "else" branch here :-) –  Kerrek SB Jan 31 '12 at 15:04
@VioletGiraffe: No it is not. If that were the case, we wouldn't have deque because std::list<> is already doubly linked. –  Samaursa Jan 31 '12 at 15:30
Clarification to my earlier comment: Doubly-linked List may be used for the queue itself but the whole container cannot be a doubly-linked list because then it won't support constant time element access. And +1 to OP for a good question! –  Samaursa Jan 31 '12 at 17:51

7 Answers 7

up vote 2 down vote accepted

The vector wouldn't be able to free its memory if it did this.

Generally, you want the overhead per vector object to be small. That means you only store three items: the pointer to the first element, the capacity, and the length.

In order to implement what you suggest, every vector ever (all of them) would need an additional member variable: the offset from the start pointer at which the zeroth element resides. Otherwise, the memory could not be freed, since the original handle to it would have been lost.

It's a tradeoff, but generally the memory consumption of an object which may have millions of instances is more valuable than the corner case of doing the absolute worst thing you can do performance-wise to the vector.

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thanks, this is exactly what i was looking for. is there no way to call delete/free on only the memory you're leaving out? for example, you store the pointer to element 1 in a temporary variable, shift the vector's pointer to element 2 and then delete element 1? i know delete definitely distinguishes between a single element and a block (delete [] array), though this is for dynamic memory. –  Ian Ooi Feb 1 '12 at 7:12
@IanOoi That allocation strategy would be really inefficient. In order to be freed individually, allocations must be tracked individually - the bookkeeping overhead, both in terms of wasted RAM and in terms of time for new allocations, would get bad very quickly. –  Borealid Feb 1 '12 at 13:44

Because implementers want to optimize the size of a vector. They usually use 3 pointers, one for the beginning, one for the capacity (the allocated end) and one for the end.

Doing what you require adds another 4 bytes to every vector (and there are a lot of those in a c++ program) for very little benefit: the contract of vector is to be fast when pushing back new elements, removing and inserting are "unsual" operations and their performance matter less than the size of the class.

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I don't understand what justifies your hard claim that "performance matter less than the size". Without saying for who and how often it matters less, your statement is pointless at best. –  Violet Giraffe Jan 31 '12 at 12:30
The standard imposes performance constraints on push_back and [] only. The two implementations I know (MSVC / GCC) use 3 pointers because they think that's size matters more than performance on other operation, I merely repeat what I've been reading online (though I admit I won't be able to find the sources easily, I remember a video on C9 by Stephan T. Lavavej that mentionned it at least). Now, of course, some people may care about "front" operations more than others, but the standard guys think it was not worth covering in vector. There are other classes for that. Other answers agree. –  J.N. Feb 1 '12 at 2:02
the main issue i have with this is that my suggestion shouldn't add another pointer's worth of bytes to the vector, unless (as i commented on Borealid's answer) there is no other way to free the memory, in which case the real reason is because there's no other way make sure the memory gets freed. i was mainly suggesting you shift that first pointer to point at a new "head" for the vector, hopefully freeing the old head in the process. this helped me see more of how vectors are implemented though, so thanks! –  Ian Ooi Feb 1 '12 at 7:29

You could, but it would complicate the implementation a bit, and add a pointer of overhead to the type's size (so it could track the actual allocation's address). Is that worth it? Sometimes. First consider other structures which may handle your usage better (maybe deque?).

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You could do that, but vector is designed to be a simple container with constant time index lookups and push/pop from the end. Doing what you suggest would complicate the implementation as it would have to track the allocated beginning and the "current" beginning. Not to mention that you still couldn't guarantee constant time insertion at the front but you might get it sometimes.

If you need a container with constant time front and back insertion and removal, that's precisely what deque is for, there's no need to modify vector to handle it.

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it's mainly a curiosity, since vectors are built around arrays (correct me if i'm mistaken) and you COULD still guarantee constant time removal if not insertion, which was what i was mainly asking. i said it in another comment that even if you did the pointer finagling i don't think push_front would be guaranteed to even be possible if the block right "before" the vector is allocated to something else already, meaning that you'd either have to do the silly shift everything way or give up. the consistency would still be a problem having a pop_front but no push_front. –  Ian Ooi Feb 1 '12 at 7:01

Another shortcoming of your suggestion is that you'll waste memory spaces as you can't make use of those on the left of the array after shifting. The more you execute pop_front(), the more you'll waste until the vector is destructed.

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One could imagine that a later resize might make use of that space. –  UncleBens Jan 31 '12 at 7:32
this is a really good point, and i think Borealid is right that if someone did such an implementation, it's unsure if the destructor COULD free the memory at all since you've left out chunks of data which have no pointers and which can't be freed. you could try having it where you shift the name to point to the next index and call delete/free on the single space instead of the whole block, but that might make it angry still. –  Ian Ooi Feb 1 '12 at 6:53

I started typing out an elaborate answer explaining how the memory is allocated and freed but after typing it all out I realized that memory issues alone don't justify why pop_front isn't there as other answers here suggested.

Having pop_front in a vector where the extra cost is another pointer is justifiable in most circumstances. The problem, in my opinion, is push_front. If the container has pop_front then it should also have push_front otherwise the container is not being consistent. push_front is definitely expensive for a vector container (unless you match your pushes with your pops which is not a good design). Without push_front the vector is really wasting memory if one does lots of pop_front operations with no push_front functionality.

Now the need for pop_front and push_front is there for a container that is similar to a vector (constant time random access) which is why there is deque.

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ok, i was talking with my roommate about how pop_front should work (and it shouldn't be an extra pointer because of how arrays are implemented) and how push_front wouldn't because you COULD use a similar scheme as the pop_front but there's no way to verify the extra slot(s) you're adding will be free and not allocated to something else without doing a lot of magic. this makes sense, but it still seems a little strange. also deque is constant random access? mind is blown. i will look into this. –  Ian Ooi Feb 1 '12 at 6:44
@IanOoi: "i was talking with my roommate about how pop_front should work (and it shouldn't be an extra pointer because of how arrays are implemented)" You cannot free the contiguously allocated memory unless you call free() on the original memory address, which you are losing by moving the pointer. In short, you will require an extra pointer to keep track of the original memory address (or a variable that stores how many times pop_front() was called which takes the same amount of memory as a pointer on 32 bit systems). –  Samaursa Feb 1 '12 at 15:59

You can use std::deque instead of std::vector. It's a double-ended-queue with also the vector-like access members. It implements both front and back push/pop.


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