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Is it better to use memcpy as shown below or is it better to use std::copy() in terms to performance? Why?

char *bits = NULL;

bits = new (std::nothrow) char[((int *) copyMe->bits)[0]];
if (bits == NULL)
    cout << "ERROR Not enough memory.\n";

memcpy (bits, copyMe->bits, ((int *) copyMe->bits)[0]);
share|improve this question
Note that char can be signed or unsigned, depending on the implementation. If the number of bytes can be >= 128, then use unsigned char for your byte arrays. (The (int *) cast would be safer as (unsigned int *), too.) –  Dan Breslau Jan 16 '11 at 18:03
Why aren't you using std::vector<char>? Or since you say bits, std::bitset? –  GManNickG Jan 16 '11 at 19:20

5 Answers 5

I'm going to go against the general wisdom here that std::copy will have a slight, almost imperceptible performance loss. I just did a test and found that to be untrue: I did notice a performance difference. However, the winner was std::copy.

I wrote a C++ SHA-2 implementation. In my test, I hash 5 strings using all four SHA-2 versions (224, 256, 384, 512), and I loop 300 times. I measure times using Boost.timer. That 300 loop counter is enough to completely stabilize my results. I ran the test 5 times each, alternating between the memcpy version and the std::copy version. My code takes advantage of grabbing data in as large of chunks as possible (many other implementations operate with char / char *, whereas I operate with T / T * (where T is the largest type in the user's implementation that has correct overflow behavior), so fast memory access on the largest types I can is central to the performance of my algorithm. These are my results:

Time (in seconds) to complete run of SHA-2 tests

std::copy   memcpy  % increase
6.11        6.29    2.86%
6.09        6.28    3.03%
6.10        6.29    3.02%
6.08        6.27    3.03%
6.08        6.27    3.03%

Total average increase in speed of std::copy over memcpy: 2.99%

My compiler is gcc 4.6.3 on Fedora 16 x86_64. My optimization flags are -Ofast -march=native -funsafe-loop-optimizations.

Code for my SHA-2 implementations.

I decided to run a test on my MD5 implementation as well. The results were much less stable, so I decided to do 10 runs. However, after my first few attempts, I got results that varied wildly from one run to the next, so I'm guessing there was some sort of OS activity going on. I decided to start over.

Same compiler settings and flags. There is only one version of MD5, and it's faster than SHA-2, so I did 3000 loops on a similar set of 5 test strings.

These are my final 10 results:

Time (in seconds) to complete run of MD5 tests

std::copy   memcpy      % difference
5.52        5.56        +0.72%
5.56        5.55        -0.18%
5.57        5.53        -0.72%
5.57        5.52        -0.91%
5.56        5.57        +0.18%
5.56        5.57        +0.18%
5.56        5.53        -0.54%
5.53        5.57        +0.72%
5.59        5.57        -0.36%
5.57        5.56        -0.18%

Total average decrease in speed of std::copy over memcpy: 0.11%

Code for my MD5 implementation

These results suggest that there is some optimization that std::copy used in my SHA-2 tests that std::copy could not use in my MD5 tests. In the SHA-2 tests, both arrays were created in the same function that called std::copy / memcpy. In my MD5 tests, one of the arrays was passed in to the function as a function parameter.

I did a little bit more testing to see what I could do to make std::copy faster again. The answer turned out to be simple: turn on link time optimization. These are my results with LTO turned on (option -flto in gcc):

Time (in seconds) to complete run of MD5 tests with -flto

std::copy   memcpy      % difference
5.54        5.57        +0.54%
5.50        5.53        +0.54%
5.54        5.58        +0.72%
5.50        5.57        +1.26%
5.54        5.58        +0.72%
5.54        5.57        +0.54%
5.54        5.56        +0.36%
5.54        5.58        +0.72%
5.51        5.58        +1.25%
5.54        5.57        +0.54%

Total average increase in speed of std::copy over memcpy: 0.72%

In summary, there does not appear to be a performance penalty for using std::copy. In fact, there appears to be a performance gain.

share|improve this answer
I want to emphasize that this doesn't mean that std::copy is 2.99% or 0.72% or -0.11% faster than memcpy, these times are for the entire program to execute. However, I generally feel that benchmarks in real code are more useful than benchmarks in fake code. My entire program got that change in execution speed. The real effects of just the two copying schemes will have greater differences than shown here when taken in isolation, but this shows that they can have measurable differences in actual code. –  David Stone Apr 3 '12 at 17:31
thank you David, I've greatly appreciated it! –  alcor Mar 4 '13 at 16:45

All compilers I know will replace a simple std::copy with a memcpy when it is appropriate, or even better, vectorize the copy so that it would be even faster than a memcpy.

In any case: profile and find out yourself. Different compilers will do different things, and it's quite possible it won't do exactly what you ask.

See this presentation on compiler optimisations (pdf).

Here's what GCC does for a simple std::copy of a POD type.

#include <algorithm>

struct foo
  int x, y;    

void bar(foo* a, foo* b, size_t n)
  std::copy(a, a + n, b);

Here's the disassembly (with only -O optimisation), showing the call to memmove:

bar(foo*, foo*, unsigned long):
    salq    $3, %rdx
    sarq    $3, %rdx
    testq   %rdx, %rdx
    je  .L5
    subq    $8, %rsp
    movq    %rsi, %rax
    salq    $3, %rdx
    movq    %rdi, %rsi
    movq    %rax, %rdi
    call    memmove
    addq    $8, %rsp

If you change the function signature to

void bar(foo* __restrict a, foo* __restrict b, size_t n)

then the memmove becomes a memcpy for a slight performance improvement. Note that memcpy itself will be heavily vectorised.

share|improve this answer
How can I do profiling. What tool to use (in windows and linux)? –  user576670 Jan 16 '11 at 18:00
@Konrad, you're correct. But memmove shouldn't be faster - rather, it should be slighter slower because it has to take into account the possibility that the two data ranges overlap. I think std::copy permits overlapping data, and so it has to call memmove. –  Charles Salvia Jan 16 '11 at 18:04
@Konrad: If memmove was always faster than memcpy, then memcpy would call memmove. What std::copy actually might dispatch to (if anything) is implementation-defined, so it's not useful to mention specifics without mentioning implementation. –  Fred Nurk Jan 16 '11 at 18:04
Although, a simple program to reproduce this behavior, compiled with -O3 under GCC shows me a memcpy. It leads me to believe GCC checks whether there's memory overlap. –  jweyrich Jan 16 '11 at 18:31
@Konrad: standard std::copy allows overlap in one direction but not the other. The beginning of the output can't lie within the input range, but the beginning of the input is allowed to lie within the output range. This is a little odd, because the order of assignments is defined, and a call might be UB even though the effect of those assignments, in that order, is defined. But I suppose the restriction allows vectorization optimizations. –  Steve Jessop Jan 16 '11 at 20:58

Always use std::copy because memcpy is limited to only C-style POD structures, and the compiler will likely replace calls to std::copy with memcpy if the targets are in fact POD.

Plus, std::copy can be used with many iterator types, not just pointers. std::copy is more flexible for no performance loss and is the clear winner.

share|improve this answer
Why should you wanna copy around iterators? –  Atmocreations Oct 14 '11 at 15:41
You're not copying the iterators, but rather the range defined by two iterators. For instance, std::copy(container.begin(), container.end(), destination); will copy the contents of container (everything between begin and end) into the buffer indicated by destination. std::copy doesn't require shenanigans like &*container.begin() or &container.back() + 1. –  David Stone Apr 26 '12 at 17:13

In theory, memcpy might have a slight, imperceptible, infinitesimal, performance advantage, only because it doesn't have the same requirements as std::copy. From the man page of memcpy:

To avoid overflows, the size of the arrays pointed by both the destination and source parameters, shall be at least num bytes, and should not overlap (for overlapping memory blocks, memmove is a safer approach).

In other words, memcpy can ignore the possibility of overlapping data. (Passing overlapping arrays to memcpy is undefined behavior.) So memcpy doesn't need to explicitly check for this condition, whereas std::copy can be used as long as the OutputIterator parameter is not in the source range. Note this is not the same as saying that the source range and destination range can't overlap.

So since std::copy has somewhat different requirements, in theory it should be slightly (with an extreme emphasis on slightly) slower, since it probably will check for overlapping C-arrays, or else delegate the copying of C-arrays to memmove, which needs to perform the check. But in practice, you (and most profilers) probably won't even detect any difference.

Of course, if you're not working with PODs, you can't use memcpy anyway.

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This is true for std::copy<char>. But std::copy<int> can assume that its inputs are int-aligned. That will make a far bigger difference, because it affects every element. Overlap is a one-time check. –  MSalters Jan 17 '11 at 8:39
@MSalters, true, but most implementations of memcpy I've seen check for alignment and attempt to copy words rather than byte by byte. –  Charles Salvia Apr 28 '12 at 8:13
std::copy() can ignore overlapping memory, too. If you want to support overlapping memory, you have to write the logic yourself to call std::reverse_copy() in the appropriate situations. –  Cygon Jun 6 '12 at 11:23

My rule is simple. If you are using C++ prefer C++ libraries and not C :)

share|improve this answer
C++ was explicitly designed to allow using C libraries. This was not an accident. It is often better to use std::copy than memcpy in C++, but this has nothing to do with which one is C, and that kind of argument is usually the wrong approach. –  Fred Nurk Jan 16 '11 at 18:06
@Fred Nurk: Agreed. –  Puppy Jan 16 '11 at 18:16

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