6

I have a deque:

deque<char> My_Deque;
My_Path.push_front('a');
My_Path.push_front('b');
My_Path.push_front('c');
My_Path.push_front('d');
My_Path.push_front('e');

There are such ways to output it.

The first:

deque<char>::iterator It;
for ( It = My_Deque.begin(); It != My_Deque.end(); It++ )
    cout << *It <<  " ";

The second:

for (i=0;i<My_Deque.size();i++) {
    cout << My_Deque[i] <<  " ";
}

What is the best way to access deque's element - through iterator or like this: My_Deque[i]? Has a deque<...> element an array of pointers to each element for fast access to it's data or it provides access to it's random element in consequtive way (like on a picture below)? enter image description here

4 Answers 4

11

Since you asked for "the best way":

for (char c : My_Deque) { std::cout << c <<  " "; }
3
  • What version of C++ do you need for something like this to work?
    – tjwrona
    Feb 8, 2016 at 18:45
  • @tjwrona1992: C++11 or later.
    – Kerrek SB
    Feb 9, 2016 at 2:22
  • 5
    It's too bad my company still lives in the stone age. Oh well maybe in a few years when they finally upgrade I'll be able to make nice clean looking loops like this one.
    – tjwrona
    Feb 9, 2016 at 14:04
6

An STL deque is usually implemented as a dynamic array of fixed-size arrays, so indexed access is perfectly efficient.

2

The standard specifies that deque should support random access in constant time. So yeah, [i] should be reasonably fast.

But there still might, I think, be an advantage to using the iterators. It could (theoretically at least) be a constant multiple faster (or slower maybe!). Anyway, every use of [i] will involve looking up some table(s) and calculating offsets and so on. I would imagine that operator++ for deque::iterator is slightly more than just "find my offset; add 1 to it; lookup with the new offset"

1

Since you asked for "the best way":

std::copy(My_Deque.begin(), My_Deque.end(),
          std::ostream_iterator<char>(std::cout, " "));

Admittedly, for formatting of individual object it won't make much of a difference but using the algorithms on segmented data structure can make a major difference! There is an interesting optimization possible when processing the segments individually when processing an entire range. For example, if you have a large std::deque<char> you want to write verbatim to a file, something like

std::copy(deque.begin(), deque.end(), std::ostreambuf_iterator<char>(out));

which is copying from one segmented data structure to another segmented data structure (under the hood stream buffers use a buffer of characters which becomes their segment) can take substantially less time (depending somewhat on the speed the data can be written to the destination, though).

2
  • 2
    Your std::for_each example won't compile. That algorithm expects a unary function object for the third parameter. Jan 22, 2012 at 23:59
  • @Blastfurnace: This indeed true. Somehow I was too eager to match the answer of Kerrek SB. I will fix this: it should read std::copy(). Thanks! Jan 23, 2012 at 0:08

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