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I've been trying to decrease every single char value in a std::stringstream by 100:

std::string str = stream.str();

auto decrement = [](char c) { return c - 100; };

std::string out;
out.reserve(str.size());
std::transform(str.begin(), str.end(), std::back_inserter(out), decrement);

stream = std::stringstream(out);

But it took 7 minutes stuck on the std::transform instruction. That for a 150mb text file.

I'm not using an optimized build. This is the debug build. The goal is to be able to have the code running faster for debugging purposes. Release results are secondary for this question.

Any suggestions on how to improve efficiency?

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  • 1
    also, wouldn't reserving the necessary space in out beforehand improve performance a bit?
    – dwcanillas
    Jun 12, 2015 at 17:43
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    There must be something you haven't shown as I can't duplicate your results. For a 170MB text file the transform takes 3.3sec (2.7sec if I reserve()). Are you sure it is the transform portion taking the time and not the streaming in/out at the beginning and end?
    – uesp
    Jun 12, 2015 at 17:55
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    @AlexandreSeverino If you're using Visual Studio, the reason for the slow unoptimized code is that there are a lot of debugging checks, iterator validation, etc. that goes on when calling STL functions. It makes absolutely no sense to post timings from such builds. Jun 12, 2015 at 18:10
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    @PaulMcKenzie I disagree: being able to work with your code base in debug is critical, and having everything be optimized (and harder to debug) just because one narrow bit is too slow in debug makes your debug build less useful. Things being abysmally slow in debug is a serious problem. But once things are "fast enough" to be runnable, getting the last little bit of speed (in debug) matters less than in release. Jun 12, 2015 at 18:52
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    @Yakk That may be possible if the code to change is not dramatic. But imagine if you're using, say a std::map, and you find out it is slow in debug. Does that mean you dump using it and code a home-made, possibly buggy map, just to satisfy debug purposes? And let's say that the map really outperformed the home-made replacement when run in release? That's the danger of changing code just to satisfy debug requirements. Jun 12, 2015 at 18:56

3 Answers 3

16

One thing I'd consider would be transforming it in place if you don't use your str for anything else. That way you write back to the same location you read from and might get better caching behaviour. Simply change

std::transform(str.begin(), str.end(), std::back_inserter(out), decrement);

to

std::transform(str.begin(), str.end(), str.begin(), decrement);

and you can get rid of your out string completely. The 3rd (destination) parameter is allowed to be the same as the first parameter.

Not only does that get rid completely of the extra 150MB string variable, you previously had to access two different locations in the memory that should be quite a bit apart. With reading from and writing back to the same place you make sure that there really is maximum use of the cache.

Of course this mutates str so it's only really useful if you don't need the original str variable for something else.

End result:

std::string str = stream.str();

auto decrement = [](char c) { return c - 100; };
std::transform(str.begin(), str.end(), str.begin(), decrement);
stream = std::stringstream(str);
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  • 1
    Editing in place sounds like a good try. Will give that a chance. Jun 12, 2015 at 17:50
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    BOOM! Works perfectly. It took the code less than 3 seconds to run!!! And it feels so obvious now... I recommend editing and adding a further explanation on why it is better to change the string in place (avoid copying and all that stuff). Jun 12, 2015 at 17:54
  • Even better would be to transform the data on its way into stream, if that's possible here. Jun 12, 2015 at 18:12
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    @RaphaelMiedl: It depends on his data flow. The data's got to get into the stream somehow, and it may be convenient to transform the characters on their way in in the first place: the transformation has been made since the very beginning of the stream's lifetime and you need no new strings or streams at all. But that may not fit his application; we just don't know. Jun 12, 2015 at 18:28
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    nits: you don't have to capture anything in the lambda, just plain [] will do, and you also can return c - 100 instead of c -= 100. Jun 12, 2015 at 20:04
5

There are two obvious speedups.

The first is to transform in-place.

std::string str = stream.str();

auto decrement = [=](char c) { return c -= 100; };

std::transform(str.begin(), str.end(), str.begin(), decrement);

stream = std::stringstream(str);

which was covered by Raphael.

The second, which is only because you want DEBUG optimized speed, is to bypass possibly debug iterator checks.

std::string str = stream.str();

auto decrement = [=](char c) { return c -= 100; };

std::transform(&str[0], (&str[0])+str.size(), (&str[0]), decrement);

stream = std::stringstream(str);

here we replace begin() with &str[0], a raw pointer to the character buffer contents. If you are working with extremely strange basic_strings, use std::addressof instead of &.

In a system with a iterators encumbered with debugging instrumentation, this could be much faster. In an optimized build, I would expect it to be the same speed.

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  • C++11 guarantees that data() and c_str() return a pointer to the internal array used by string, so we can use either of these in place of &str[0]. Jun 13, 2015 at 5:18
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    Ah, data() and c_str() return const char*, so we can only use them for specifying the input range. Jun 13, 2015 at 5:50
4

Slightly less elegant but I think still acceptable (also depends on your target machine) would be use of sse intrinsics (SSE2) if you need extra speed (around 5x faster than solution presented by Raphael).

#include <emmintrin.h>

__m128i dec = _mm_set1_epi8(100);
size_t x = 0;
for (; x < str.size()-15; x+=16)
{
    __m128i sse = _mm_loadu_si128((__m128i*)&str[x]);
    _mm_storeu_si128((__m128i*)&str[x], _mm_sub_epi8(sse, dec));
}

for (; x < str.size(); ++x)
    str[x] -= 100;
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  • you might want an alignas(16) on that string buffer too, to be able to use the aligned version of the load. which probably would mean you'd have to allocate the array manually rather than using std::string (or use some other SIMD friendly container)
    – Arvid
    Jun 12, 2015 at 20:47
  • Interesting and useful but I don't need that much of increase in performance. Jun 12, 2015 at 20:54

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