Which is faster/preferred: memset or for loop to zero out an array of doubles?

Question

double d[10];
int length = 10;

memset(d, length * sizeof(double), 0);

//or

for (int i = length; i--;)
  d[i] = 0.0;

Answer 1

If you really care you should try and measure. However the most portable way is using std::fill():

std::fill( array, array + numberOfElements, 0.0 );

Answer 2

Note that for memset you have to pass the number of bytes, not the number of elements because this is an old C function:

memset(d, 0, sizeof(double)*length);

memset can be faster since it is written in assembler, whereas std::fill is a template function which simply does a loop internally.

But for type safety and more readable code I would recommend std::fill() - it is the c++ way of doing things, and consider memset if a performance optimization is needed at this place in the code.

Answer 3

Try this, if only to be cool xD

{
    double *to = d;
    int n=(length+7)/8;
    switch(length%8){
        case 0: do{ *to++ = 0.0;
        case 7:     *to++ = 0.0;
        case 6:     *to++ = 0.0;
        case 5:     *to++ = 0.0;
        case 4:     *to++ = 0.0;
        case 3:     *to++ = 0.0;
        case 2:     *to++ = 0.0;
        case 1:     *to++ = 0.0;
        }while(--n>0);
    }
}

Answer 4

Assuming the loop length is an integral constant expression, the most probable outcome it that a good optimizer will recognize both the for-loop and the memset(0). The result would be that the assembly generated is essentially equal. Perhaps the choice of registers could differ, or the setup. But the marginal costs per double should really be the same.

Answer 5

In addition to the several bugs and omissions in your code, using memset is not portable. You can't assume that a double with all zero bits is equal to 0.0. First make your code correct, then worry about optimizing.

Answer 6

memset(d,0,10*sizeof(*d));

is likely to be faster. Like they say you can also

std::fill_n(d,10,0.);

but it is most likely a prettier way to do the loop.

Answer 7

calloc(length, sizeof(double))

According to IEEE-754, the bit representation of a positive zero is all zero bits, and there's nothing wrong with requiring IEEE-754 compliance. (If you need to zero out the array to reuse it, then pick one of the above solutions).

Answer 8

According to this Wikipedia article on IEEE 754-1975 64-bit floating point a bit pattern of all 0s will indeed properly initialize a double to 0.0. Unfortunately your memset code doesn't do that.

Here is the code you ought to be using:

memset(d, 0, length * sizeof(double));

As part of a more complete package...

{
    double *d;
    int length = 10;
    d = malloc(sizeof(d[0]) * length);
    memset(d, 0, length * sizeof(d[0]));
}

Of course, that's dropping the error checking you should be doing on the return value of malloc. sizeof(d[0]) is slightly better than sizeof(double) because it's robust against changes in the type of d.

Also, if you use calloc(length, sizeof(d[0])) it will clear the memory for you and the subsequent memset will no longer be necessary. I didn't use it in the example because then it seems like your question wouldn't be answered.

Answer 9

Memset will always be faster, if debug mode or a low level of optimization is used. At higher levels of optimization, it will still be equivalent to std::fill or std::fill_n. For example, for the following code under Google Benchmark: (Test setup: xubuntu 18, GCC 7.3, Clang 6.0)

#include <cstring>
#include <algorithm>
#include <benchmark/benchmark.h>

double total = 0;


static void memory_memset(benchmark::State& state)
{
    int ints[50000];

    for (auto _ : state)
    {
        std::memset(ints, 0, sizeof(int) * 50000);
    }

    for (int counter = 0; counter != 50000; ++counter)
    {
        total += ints[counter];
    }
}


static void memory_filln(benchmark::State& state)
{
    int ints[50000];

    for (auto _ : state)
    {
        std::fill_n(ints, 50000, 0);
    }

    for (int counter = 0; counter != 50000; ++counter)
    {
        total += ints[counter];
    }
}


static void memory_fill(benchmark::State& state)
{
    int ints[50000];

    for (auto _ : state)
    {
        std::fill(std::begin(ints), std::end(ints), 0);
    }

    for (int counter = 0; counter != 50000; ++counter)
    {
        total += ints[counter];
    }
}


// Register the function as a benchmark
BENCHMARK(memory_filln);
BENCHMARK(memory_fill);
BENCHMARK(memory_memset);



int main (int argc, char ** argv)
{
    benchmark::Initialize (&argc, argv);
    benchmark::RunSpecifiedBenchmarks ();
    printf("Total = %f\n", total);
    getchar();
    return 0;
}

Gives the following results in release mode for GCC (-O2;-march=native):

-----------------------------------------------------
Benchmark              Time           CPU Iterations
-----------------------------------------------------
memory_filln       16488 ns      16477 ns      42460
memory_fill        16493 ns      16493 ns      42440
memory_memset       8414 ns       8408 ns      83022

And the following results in debug mode (-O0):

-----------------------------------------------------
Benchmark              Time           CPU Iterations
-----------------------------------------------------
memory_filln       87209 ns      87139 ns       8029
memory_fill        94593 ns      94533 ns       7411
memory_memset       8441 ns       8434 ns      82833

While at -O3 or with clang at -O2, the following is obtained:

-----------------------------------------------------
Benchmark              Time           CPU Iterations
-----------------------------------------------------
memory_filln        8437 ns       8437 ns      82799
memory_fill         8437 ns       8437 ns      82756
memory_memset       8436 ns       8436 ns      82754

TLDR: use memset unless told you absolutely have to use std::fill or a for-loop, at least for POD types which are not non-IEEE-754 floating-points. There are no strong reasons not to.

(note: the for loops counting the array contents are necessary for clang not to optimize away the google benchmark loops entirely (it will detect they're not used otherwise))

Answer 10

The example will not work because you have to allocate memory for your array. You can do this on the stack or on the heap.

This is an example to do it on the stack:

double d[50] = {0.0};

No memset is needed after that.

Answer 11

Don't forget to compare a properly optimized for loop if you really care about performance.

Some variant of Duff's device if the array is sufficiently long, and prefix --i not suffix i-- (although most compilers will probably correct that automatically.).

Although I'd question if this is the most valuable thing to be optimising. Is this genuinely a bottleneck for the system?

Answer 12

memset(d, 10, 0) is wrong as it only nulls 10 bytes. prefer std::fill as the intent is clearest.

Answer 13

In general the memset is going to be much faster, make sure you get your length right, obviously your example has not (m)allocated or defined the array of doubles. Now if it truly is going to end up with only a handful of doubles then the loop may turn out to be faster. But as get to the point where the fill loop shadows the handful of setup instructions memset will typically use larger and sometimes aligned chunks to maximize speed.

As usual, test and measure. (although in this case you end up in the cache and the measurement may turn out to be bogus).

Answer 14

One way of answering this question is to quickly run the code through Compiler Explorer: If you check this link, you'll see assembly for the following code:

void do_memset(std::array<char, 1024>& a) {
    memset(&a, 'q', a.size());
}

void do_fill(std::array<char, 1024>& a) {
    std::fill(a.begin(), a.end(), 'q');
}

void do_loop(std::array<char, 1024>& a) {
    for (int i = 0; i < a.size(); ++i) {
        a[i] = 'q';
    }
}

The answer (at least for clang) is that with optimization levels -O0 and -O1, the assembly is different and std::fill will be slower because the use of the iterators is not optimized out. For -O2 and higher, do_memset and do_fill produce the same assembly. The loop ends up calling memset on every item in the array even with -O3.

Assuming release builds tend to run -O2 or higher, there are no performance considerations and I'd recommend using std::fill when it's available, and memset for C.

Answer 15

If you're required to not use STL...

double aValues [10];
ZeroMemory (aValues, sizeof(aValues));

ZeroMemory at least makes the intent clear.

Answer 16

As an alternative to all stuff proposed, I can suggest you NOT to set array to all zeros at startup. Instead, set up value to zero only when you first access the value in a particular cell. This will stave your question off and may be faster.

Answer 17

I think you mean

memset(d, 0, length * sizeof(d[0]))

and

for (int i = length; --i >= 0; ) d[i] = 0;

Personally, I do either one, but I suppose std::fill() is probably better.