Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

-edit- Note: I tried map instead of deque and map was SLOWER. I'm going to wait until later to test the containers. Adding a .empty check made a big difference.

Alright, so i'll remind you when profiling, timing can be misleading. Using visual studios 2010 i profiles my app. The function tryAsDefine is 23% of my runtime. It took 70secs to run BUT remember profiling is slow. A normal run is about >7 but profiling in this case is 10x longer. This one function is 16sec of that 70secs.

Looking at the function list new strdup ranks near the top. I'd be able to give better info if the profiler was able to load all the symbols. I'm not sure whats interfering with it as i have the source and dont link to any libs.

In that example tryAsDefine is ran 2,025,005 times. I have a few dozen functions that uses new multiple times each call. Its pretty heap intensive.

My question is

  1. What is another stl container i can use that allows me to a) push/push back b) iterate from begining to end (stack didnt allow this so i went to deque as its my default container) ?
  2. How do i get stl to use a memory allocator globally and optimize it?
  3. How do i make new faster? I am sure a global declaration/definition is required but i wouldn't know how to make it fast.

Note: Although 7sec fully optimize doesn't sound like a lot. This is a small sample. The Large data which we expect to work with is roughly 100x larger. Thats a good few minutes each pass.

enter image description here

const char *tryAsDefine(csz)
    string name=sz;
    deque<string>::const_iterator cii, ciiVal;
    for(cii = defines.begin(), ciiVal=definesVal.begin(); cii!=defines.end(); ++cii, ++ciiVal)
        if(*cii == name)
            return ciiVal->c_str();
    return 0;
share|improve this question
There's a whopper of a bug in this code, you cannot return c_str() as a function return value, it is a temporary. You'll have to fix that, timing is going to be completely different. –  Hans Passant Apr 7 '11 at 1:06
I believe you'd be better off using an unordered_map –  Pablo Apr 7 '11 at 1:07
Make sure to compile in release mode, deque has really bad traversal time until compiled with optimisation flags (at least for me, performance cost of around 40,000%) –  Daniel Apr 7 '11 at 1:07
@acidzombie24 were you using the map's find method instead of iterating through all of the items? –  wheaties Apr 7 '11 at 3:39
@acidzombie24: Wait -- you're profiling in debug mode? That's a problem! (Under debug mode things like buffer overflow checks and things can suck up huge amounts of time -- and that's where you're seeing the slowdown!) –  Billy ONeal Apr 7 '11 at 6:01
show 9 more comments

4 Answers

up vote 7 down vote accepted

I'd recommend avoiding std::deque if you are going to target Visual C++.

If you open up the <deque> header shipped with Visual C++ 2010, you'll find the following macro that it uses to compute the number of elements to store in each "block"

#define _DEQUESIZ   (sizeof (value_type) <= 1 ? 16 \
    : sizeof (value_type) <= 2 ? 8 \
    : sizeof (value_type) <= 4 ? 4 \
    : sizeof (value_type) <= 8 ? 2 \
    : 1)    /* elements per block (a power of 2) */

For a std::deque<T>, if sizeof(T) > 8, the container has effectively the same performance characteristics as a std::vector<T*>, where each element is dynamically allocated independently.

With normal debug build settings, sizeof(std::string) is 28. If you really want to use a sequence container, you are almost assuredly better off using std::vector, especially since std::string is move-aware in Visual C++ 2010.

share|improve this answer
Any chance you could lobby Mr. STL to fix this ludicrously small block size in VC12? Pretty please? –  ildjarn Apr 19 '13 at 3:04
@ildjarn: It's on his to-do list, but I am sorry to report that it won't be changed for VC12. It's just never been high enough priority, relative to all of the other things that we can spend time doing (we are doing a lot of work to improve the libraries for VC12). Perhaps the next next version. –  James McNellis Apr 19 '13 at 5:35
sorry to ask about old A, but why is that such a big problem to fix? Cant you at least specialize it for std::string or something... or Implementation gets broken if _DEQUESIZ is not exactly as defined here ? –  NoSenseEtAl Jul 31 '13 at 15:14
add comment

Your profile shows that of the functions called by your code, basic_string<...>::basic_string... (the std::string constructor) takes the most time.

Your code is making a copy of "sz" every time the function is called, but that copy is only used in comparison. If you take out the name variable completely and just compare *cii == sz instead you can save that construction, and thereby save 7% of the execution time of this function right away.

Without knowing the details of what you're using these deques for it is difficult to recommend a different container. It looks like this function is searching one deque for a string, and then returning a different string from the same position in a different deque. That sounds a lot like a key/value pair, in which case you will get significantly better performance using an std::map<std::string, std::string>. The only issue here is that you loose the temoral ordering of the elements (they will be in string order rather than the order you added them to the container). But if the only reason for that ordering was to keep the associations then you don't need to worry about it because map will keep the associations for you. If you do need the temporal ordering, consider using a multi-keyed container, or using multiple containers.

share|improve this answer
+1 for spotting this, but re "just compare *cii == sz": need to use strcmp for ASCIIZ comparison. –  Tony D Apr 7 '11 at 1:28
cii is a deque<string>::const_iterator, so it can use the == operator to compare with a const char *. –  SoapBox Apr 7 '11 at 1:35
@SoapBox: right you are, sorry - I suggested taking cii->c_str() in my comment directly on the question, and hadn't really noticed you not doing that :-/. –  Tony D Apr 7 '11 at 2:00
Comparing two std::strings can be faster than strcmp, because the length of the strings are known and can be compared first. If they are of different length, they cannot be equal. –  Bo Persson Apr 7 '11 at 8:43
@Soapbox - The idea is that for a std::string the length is already known. You only compute it once during construction. If you then have to compare it to a long sequence of other strings, you can just skip those with a different length. –  Bo Persson Apr 7 '11 at 20:26
show 1 more comment

The (primary) problem here is that you're using entirely the wrong container. At least from the looks of your code, you're doing something like macro definitions, with the names in defines and the expansion for each in definesVal.

Assuming that's at least sort of close to correct, what you almost certainly want is something like:

std::map<std::string, std::string> defines;

std::string tryAsDefine(std::string const &name) { 
    return defines.find(name);

Adding a new definition will also be just a tad more convenient, something like:

defines[new_name] = "New expansion";

Edit: I should also mention that you might want to use std::unordered_map instead of std::map -- especially if you insert a lot of items, it can have a decided speed advantage.

share|improve this answer
oddly enough, map was slower. Although my code was auto v = defines.find(sz); return v == defines.end()? 0 : v->second.c_str(); –  acidzombie24 Apr 7 '11 at 2:22
@acidzombie24: If, as implied in your comment, you're only searching empty containers, I guess that's not surprising. If you have the 1000 or so items you mentioned otherwise, map will almost certainly be faster. –  Jerry Coffin Apr 7 '11 at 2:58
@acidzombie24: I just tested doing map::find() a million times on an empty map<string,string>. It took less than 0.125 seconds (low-res timer). This is with no optimization and with debug enabled on GCC 4.4.3. I don't understand why it's so slow for you. –  Emile Cormier Apr 7 '11 at 5:30
@acidzombie24 - The first thing is to run it in release mode. Is that fast enough? If so, you are done! If not, disable any iterator-debug checks from release mode. Is it fast enough now? If not, run the profiler on that code. –  Bo Persson Apr 7 '11 at 8:59
@acidzombie24: Even with full optimizations enabled, it's still not too difficult to profile the program; you get less in-depth details due to inlining, but the profiler can still tell you the general areas that are performance hot spots. Profiling debug code is futile because code that performs poorly in a debug build may perform very well in an optimized build, and vice-versa. –  James McNellis Apr 9 '11 at 20:33
show 3 more comments

You might reach for vector as a default container. deque can come in handy sometimes. But it is the most complicated container in the std::lib imho. Complication can lead to greater code size and slower performance. vector is dirt simple in comparison.

share|improve this answer
I am a bit worried that adding items to it constantly might make it slow. In this example i have 0 items in it. (hmm. no wonder why the loop body has no % time...) But a file may use it 1000 times. Actually i think it may be common to not use it. I'll add that in as an optimization until further test –  acidzombie24 Apr 7 '11 at 1:07
Appending to a vector is amortized constant time. That is about as good as it gets. Appending to a deque is also amortized constant time, but the multiplier is larger. You should also ensure that you don't have "debug mode" enabled. I'm not familiar enough with VC++2010 to instruct you with that. But it could be a significant factor. If after switching to vector and your performance is still not acceptable, consider the ordered-container/binary-search strategies suggested here by others. –  Howard Hinnant Apr 7 '11 at 2:41
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.