On one of many unofficial C++ reference websites, there are listed member functions front() and back() for std::queue. However, std::stack only has top() function.

It makes sense for the stack to not have a bottom() function because that's the definition of a stack.

What I don't get is why did the C++ standard committee chose not to follow the definition of a queue and provide with back() function for queue and chose to follow the definition of a stack and not provide with bottom() function.

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    This might sound be a bit pedantic, but cplusplus.com is not the C++ reference. It's a (= some) website about C++. – dyp Feb 1 '14 at 22:44
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    Hmm... stack::bottom is not really analogous to queue::back. I don't think supplying back is really an interesting violation. You are still limited to push_back and pop_front, fulfilling the expectations of a FIFO queue. – Magnus Hoff Feb 1 '14 at 22:45
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    @dyp what do you suggest as an alternative reference? The standard itself is paywalled and not deep-linkable. – Adam Feb 1 '14 at 22:48
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    @Adam You can use n3337, which is the Standard plus purely editorial changes, or the latest C++1y draft (e.g. via the github repository) which also contains some fixes that the compilers will implement in their C++11 mode (sic!). There's also another (= some) website cppreference.com which has a good reputation in the StackOverflow C++ community. – dyp Feb 1 '14 at 22:51
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    @dyp Nope. I am asking why queue has accessors for both sides when stack only has accessor for one side when both data structures are only one way push and back structures. – whiteSkar Feb 1 '14 at 22:57

There might be other reasons for back(), but you needed it for a queue because of the idiom from C++03 of cheaply copying an "empty" object into a container and then swapping that new element with a "full" object that would be very expensive to copy. This reason is more or less obsolete in C++11 thanks to move semantics, but of course back() is still needed for compatibility.

You don't need bottom() for a stack for that (or any other) reason.

  • Can you elaborate more on why copying an empty object and then swapping need a back() function or link to where I can read about it? Other than that, this seems like the answer, Thanks – whiteSkar Feb 1 '14 at 22:56
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    @whiteSkar example: think a queue of vectors. Let's say each vector has thousands or more elements. To push v onto q, you could do q.push(v), but this would copy the entire vector. Instead, q.push(vector<int>()); q.back().swap(v);. This simply swaps the pointers, it doesn't actually touch any vector elements. If v isn't used after the push, then this method is much faster. – Adam Feb 1 '14 at 23:40
  • Awesome! Now I understand. Thanks – whiteSkar Feb 1 '14 at 23:42
  • @Adam: You can also do q.push(std::move(v)); – Ben Voigt Feb 2 '14 at 0:08
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    @BenVoigt in C++11 definitely, but Steve's talking about C++03. – Adam Feb 2 '14 at 1:22

It actually makes sense in a weird way. In a queue, you push on one side and pop from the other so both sides are very likely to change a lot. With a stack, you push and pop both from the top, and the bottom of the stack very rarely changes. So, it's rarely interesting to query the current value of the bottom of a stack.

  • But after you push you're not supposed to be able to see that pushed element until it's made it to the front of the queue. – Lightness Races in Orbit Feb 1 '14 at 23:11
  • @Lightness: It's useful for debugging purposes, to see internal elements. – Ben Voigt Feb 1 '14 at 23:25
  • @BenVoigt: I'm not disputing that access to non-front elements would be great for debugging (and anyway, as Steve says, there are actually some important real-world use cases for it that go beyond debugging); just the claim that it makes any sort of semantic sense. – Lightness Races in Orbit Feb 1 '14 at 23:29
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    @Lightness Races in Orbit: That's true, but there are many queue based algorithms where it's useful to decide whether or not to push a new item based on the last pushed item. There aren't many stack based algorithms where you can make useful decision based on what's in the bottom of the stack. – Lie Ryan Feb 1 '14 at 23:54

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