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Lets say I have a std::vector of const std::strings.

std::vector<const std::string> strs;

Now the default behavior here is that the actual string containers can be allocated anywhere on the heap, which pretty much disables any prefetching of data when iterating over the contained strings.

strs.push_back("Foo"); // allocates char block on heap
strs.push_back("Boo"); // allocates char block on heap

However, since the strings are "const" I would like the char blocks to be allocated contiguously or close to each other (when possible) in order to have the most efficient cache behavior when iterating over the strings.

Is there any way to achieve this behavior?

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1  
In addition to the problems shown in the answers, you cannot even have a vector of const objects. The requirements for the stored type include being copyable (or movable, depending on C++ version). Const objects would fail that. –  Bo Persson Dec 31 '11 at 12:45
    
@BoPersson: Good point. I guess it's up to the programmer to make sure that the strings are not changed. –  ronag Dec 31 '11 at 12:59
    
If you make the vector itself const, its members cannot be changed. However, neither the vector nor the strings will really be aware of that. –  Bo Persson Dec 31 '11 at 13:03

6 Answers 6

up vote 4 down vote accepted

You need a custom allocator known as a memory region allocator. You can look on Wikipedia or Google for more information, but the basic idea is something akin to the hardware stack- allocate one large chunk and then simply increment the pointer to mark it as used. It can serve many contiguous requests very quickly but can't deal with frees and allocations- all freeing is done at once.

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Well, it can deal with freeing in a limited way - when you free the most recently allocated block, you can just reset the internal pointer. –  Xeo Dec 31 '11 at 11:15
    
@DeadMG can you also address the issue with small string optimisation which I've mentioned in my answer? –  Kos Dec 31 '11 at 17:32

If it really is that simple - pushing strings that will never change, it is easy to write your own allocator. Allocate a large block of memory, set a pointer free to offset 0 in the block. When you need storage for a new string strncpy it to free and increase free with the strlen. Keep track of the end of the memory block and allocate another block when needed.

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Mocking around with C-style string handling is not a good idea. std::basic_string is allocator-aware, so I'd use that. –  Xeo Dec 31 '11 at 11:16

Not really.

std::string isn't a POD, it doesn't keep its contents "inside of the object". What's more - it doesn't even require to store its contents in a single memory block.

Also a std::vector (as all arrays) needs its contents to be of one type (= of equal size), so you can't make a literal "array" of strings of different lengths.

Your best shot is to assume a length and use std::vector<std::array<char, N> >

If you need really different lengths, an alternative is just a std::vector<char> for the data plus a std::vector<unsigned> for the indices where consecutive strings start.


Rolling your own allocator for the string is a tempting idea, you could base it on std::vector<char> and then roll up your own std::basic_string on it, then make a collection of those.

Note that you are actually depending much on a specific std::string implementation. Some do have an internal buffer of N chars and only allocate memory externally if the string length is bigger than the buffer. If that's the case on your implementation, you still wouldn't get a contiguous memory for the whole buffer of strings.

On that grounds, I conclude that with std::string you won't be generally able to accomplish what you want (unless you rely on a specific STL implementation) and you need to provide another string implementation to suit your needs.

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Well, what I had in mind was some sort of custom allocator to use for the strings, e.g. std::vector<std::basic_string<char, std::char_traits<char>, contigious_string_allocator<char>>. Unsure how that would work though. –  ronag Dec 31 '11 at 11:13
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Hmm I figured that out after reading the thread/answers again; see the edit –  Kos Dec 31 '11 at 11:19
    
std::string is indirectly forced to store it's contents in contiguous memory. For certain in C++11, I think also already in c++03. Every major implementation (MSVC,GCC,libc++) uses contiguous std::strings. –  rubenvb Dec 31 '11 at 11:40
    
@up but still there's the possibility of using either internal or external buffer, right? –  Kos Dec 31 '11 at 11:46
    
@Kos: That's called the "small string optimization". Since the buffer is internal, it will be allocated at the same time the vector space is allocated, which means it is even more compact than the external buffer version. –  Xeo Dec 31 '11 at 12:13

A custom allocator is great, but why not store all the strings in a single std::vector<char> or std::string, and access the original strings by offset?

Simple and effective.

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Because then when I want to access a specific string I would need to copy the sub-string into a new std::string which I return. –  ronag Dec 31 '11 at 11:43
    
Since the strings can't change size, this is indeed a good option. –  Xeo Dec 31 '11 at 11:43
    
@ronag: You might be able to simulate a string reference with pair<iterator,iterator> into the std::string or std::vector<char>. –  Xeo Dec 31 '11 at 11:44
    
@Xeo: Good idea. Although it is not as elegant, it would be a simpler solution than a custom allocator. –  ronag Dec 31 '11 at 11:46
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@ronag: Immutable strings (also called ref-strings) are really something C++ is missing. It would help tremendously with things like string literals, which don't need to be copied so-long you don't write to them. –  Xeo Dec 31 '11 at 11:48

You can always write a private allocator (second template parameter for std::vector) that will allocate all the strings from a continuous pool. Also you can use std::basic_string instead of std::string (which is a private case of std::basic_string), which allows specifying your own allocator similarly. Generally I would say its a case of "premature optimization", but I trust you've measured and saw a performance hit here... I believe the price to pay would be some memory wasted, though.

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I don't think it's enough to have a private allocator for std::vector, one would also need one for std::string. –  ronag Dec 31 '11 at 11:09
    
@ronag - added to the answer. –  littleadv Dec 31 '11 at 11:12
    
Here's an example of using a scoped allocator for strings in a vector: www2.research.att.com/~bs/C++0xFAQ.html#scoped-allocator –  bames53 Dec 31 '11 at 11:13

A vector is guaranteed to be contiguous memory and is interoperable with an array. It is not a singly linked list.

"Contiguity is in fact part of the vector abstraction. It’s so important, in fact, the C++03 standard was amended to explicitly add the guarantee."

Source : http://herbsutter.com/2008/04/07/cringe-not-vectors-are-guaranteed-to-be-contiguous/

Use reserve() to force it to be contiguous and not reallocate.

#include <iostream>
#include <vector>
#include <string>
#include <algorithm>
#include <iterator>
using namespace std;

int main()
{
    // create empty vector for strings
    vector<const string> sentence;

    // reserve memory for five elements to avoid reallocation
    sentence.reserve(5);

    // append some elements
    sentence.push_back("Hello,");
    sentence.push_back("how");
    sentence.push_back("are");
    sentence.push_back("you");
    sentence.push_back("?");

    // print elements separated with spaces
    copy (sentence.begin(), sentence.end(),
          ostream_iterator<string>(cout," "));
    cout << endl;

return 0;
}
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The vector might be contiguous, but the memory blocks allocated by different std::string:s to store the string data are not. –  ronag Dec 31 '11 at 11:12

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