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I don't understand why a vector's iterator should be invalidated when a reallocation happens.

Couldn't this have been prevented simply by storing an offset -- instead of a pointer -- in the iterator?

Why was vector not designed this way?

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+1 good question. – Nawaz Jun 11 '12 at 1:07
@Nawaz: Thank you! :) – Mehrdad Jun 11 '12 at 2:08
Every time you insert anywhere but the end or sort etc you would have to change all the offsets. – John Dibling Jun 11 '12 at 2:23
@JohnDibling: Ditto w/ pointers. – Mehrdad Jun 11 '12 at 4:47
@curiousguy: If it weren't for performance, it would be certainly worth doing, IMO. But because of the performance issue it isn't. – Mehrdad Aug 11 '12 at 1:00
up vote 15 down vote accepted

Just to add a citation to the performance-related justification: when designing C++, Stroustrup thought it was vital that template classes like std::vector approach the performance characteristics of native arrays:

One reason for the emphasis on run-time efficiency...was that I wanted templates to be efficient enough in time and space to be used for low-level types such as arrays and lists.


Higher-level alternatives -- say, a range-checked array with a size() operation, a multidimensional array, a vector type with proper numeric vector operations and copy semantics, etc. -- would be accepted by users only if their run-time, space, and notational convenience approached those of built-in arrays.

In other words, the language mechanism supplying parameterized types should be such that a concerned user should be able to afford to eliminate the use of arrays in favor of a standard library class.

Bjarne Stroustrup, Design and Evolution of C++, p.342.

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Because for iterators to do that, they'd need to store a pointer to the vector object. For each data access, they'd need to follow the pointer to the vector, then follow the pointer therein to the current location of the data array, then add the offset * the element size. That'd be much slower, and need more memory for the size_type member.

Certainly, it's a good compromise sometimes and it would be nice to be able to choose it when wanted, but it's slower and bulkier than (C-style) direct array usage. std::vector was ruthlessly scrutinised for performance when the STL was being introduced, and the normal implementation is optimised for space and speed over this convenience/reliability factor, just as the array-equivalent operator[] is as fast as arrays but less safe than at().

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+1 would've liked to accept this one but Nate's answer had a citation! :\ Thanks though! – Mehrdad Jun 11 '12 at 4:49
How many times have I wished that [] be the checked access and at the unchecked one :( – Matthieu M. Jun 11 '12 at 6:29
@Matthieu: agreed! It can be nice to brag about how blindingly fast your code is, but more often than not if you use at() and save the debugging time for profiling, you'll end up faster anyway... :-) – Tony D Jun 11 '12 at 6:36

You can add safety by wrapping the standard std::vector<T>::iterator, but you can't add speed by wrapping a extension::vector<T>::safe_iterator. That's a general principle, and explains many C++ design choices.

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There are many reasons for these decisions. As others pointed out, the most basic implementation of iterator for a vector is a plain pointer to the element. To be able to handle push_back iterators would have to be modified to handle a pointer into the vector and a position, on access through the operator, the vector pointer would ave to be dereferenced, the pointer to the data obtained and the position added, with an extra dereference.

While that would not be the most efficient implementation, that is not really a limiting factor. The default implementation of iterators in VS/Dinkumware libraries (even in release) are checked iterators, that manage an equivalent amount of information.

The actual problem comes with other mutating operations. Consider inserting/erasing in the middle of the vector. To maintain validity of all iterators, the container would have to track all the instances of iterators and adapt the position field so that they still refer to the same element (that has been displaced by the insertion/removal).

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+1 for insert/erase reference. – Captain Obvlious Jun 11 '12 at 3:21
"adapt the position field so that they still refer to the same element (that has been displaced by the insertion/removal)." - that's only one notion of "validity" - it's just as likely that the client may want to refer to the Nth element regardless of insertions/removals (accepting responsibility for ensuring there still is an Nth element). Separately, the C++11 Standard and allows invalidation of iterators/references at or after the point of an insert or erase even with "normal" iterators. – Tony D Jun 11 '12 at 4:00
@TonyDelroy: An iterator refers to an element in a container. If after obtaining an iterator the iterator no longer referred to the same element that would be a breach in the contract. Consider the operators on iterators: auto it = std::find( v.begin(), v.end(), value ); v.erase( v.begin()+5 ); at this point (assuming your premise) there is no guarantee that *it == value for a vector, but if v was a list, then it would be guaranteed. Now you have broken the iterator contract into different iterators, with completely different semantics. – David Rodríguez - dribeas Jun 11 '12 at 10:42
@TonyDelroy: Regarding the quotes, yes, no one has said otherwise. All iterators into a vector are invalidated once the vector is modified, regardless of where the iterator was pointing and what the mutating operation is. Summing it up: you cannot provide consistent iterator semantics (across containers) if you do not fix where the iterator points to. You cannot fix the iterator without tracking all of them. Without tracking all iterators, any mutating operation on a vector has to invalidate all iterators. – David Rodríguez - dribeas Jun 11 '12 at 10:45
@DavidRodríguez-dribeas: good point about consistent semantics (assuming value later in both containers) - it would be confusing, but this second semantic model would almost certainly be adopted if indexed iterators were, and there are "pros". "Without tracking... any mutating operation...invalidate[s] all iterators" - nope, C++11 & thereaboutes - erase invalidates from that point on, clear and reallocation invalidate all iterators, NO other mutators invalidate iterators (e.g. not inserts that don't trigger reallocation, nor earlier-than-erased elements). Similar for C++03. – Tony D Jun 11 '12 at 12:00

You would need to store both the offset and a pointer to the vector object itself.

As specified, the iterator can just be a pointer, which takes less space.

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I an iterator wasn't invalidated, should it point to the same element or to the same position after an insertion before it? In other words, even if there were no performance issues, it is non-trivial to decide which alternative definition to use.

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I don't understand this answer... – Mehrdad Jun 11 '12 at 18:39
The question is about reallocations, not insertions. F.ex. a push_back can trigger a reallocation. – curiousguy Aug 11 '12 at 0:47

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