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double d[10];
int length = 10;

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


for (int i = length; i--;)
  d[i] = 0.0;
share|improve this question
If you want to know what's faster you get the best answer by measuring it in your specific target environment(s). – foraidt Sep 3 '09 at 13:53
Anyway, if you do it for initialization, new is always a good idea: new double[N]() – Johannes Schaub - litb Sep 3 '09 at 14:25
With current gcc/clang (early 2016): The loop compiles the same as std::fill with gcc for x86: to a normal loop with 8B stores. memset and an array initializer both compile to rep stosq. clang likes to use AVX stores, rather than rep stosq, though. Fun fact: gcc will optimize malloc; memset ( ..., 0, ...) to calloc, but clang doesn't. clang compiles std::fill into a call to memset, though. – Peter Cordes Mar 12 at 22:12

15 Answers 15

up vote 13 down vote accepted

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.

share|improve this answer
Your sizeof use is wrong. It should be "sizeof (double)" or just "sizeof *d", but you can't mix the two. You need the parenthesis to get the size of a named type. – unwind Sep 3 '09 at 13:42
Sorry, there are plenty of implementations that specialize std::fill and std::copy for POD. And because these specializations can assume aligned pointers, they'll likely be faster than std::memset(). Memset has to deal with all edge cases. – MSalters Sep 4 '09 at 10:52
+1 for std:fill(), this is the C++ way, unless a real need in performance is needed. – Stephane Rolland Dec 5 '12 at 10:39
@StephaneRolland at least in GCC with -O2 std∷fill is faster. You can check it for yourself by asking the compiler generate an assembly with -S option — you'd see that memset turn's out to be a call to a library function, whilst std∷fill becomes just a few assembly instructions without a call at all. – Hi-Angel Jun 9 '15 at 8:26
@Hi-Angel: As I commented on the OP, depending on compile options, constant-size memset is inlined to rep stosq, which will perform very well (Probably better than the loop you get from std::fill, except for very small arrays because it has a little bit of startup overhead). – Peter Cordes Mar 13 at 10:02

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 );
share|improve this answer
IMO the perfect answer. If std::memset() is possible, I would expect the std lib implementation to call this, if not, it does the right thing, too. – sbi Sep 3 '09 at 13:26
Did you guys see this is A C question and NOT C++. AFAIK, C doesn't have fill function, much less std namespace – vehomzzz Sep 3 '09 at 14:23
I swear it was tagged c++ when it was first published! (not that I would prefer c++ way here). – Michael Krelin - hacker Sep 3 '09 at 15:04
@hacker: Enigma retagged it as a C question about 1 minute before complaining about this answer. Which is fine, though his comment strikes me as unjustly aggressive, when you take this into account. – Brian Sep 3 '09 at 15:08
So I guess the answer to the question "did you guys see this is a C question", is "no, obviously not, because it was a C++ question". Am tempted to change the question to setting a Java array of doubles to 12.4, then complain that all the answers are irrelevant ;-) – Steve Jessop Sep 3 '09 at 16:13

Try this, if only to be cool xD

    double *to = d;
    int n=(length+7)/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;
share|improve this answer
Yes, it's called a Duff's Device: – fbrereto Sep 3 '09 at 17:37
This probably made you cool when Tom Duff came out with it. Nowadays it probably makes the other programmers hate you. And (both) rightly so. – sbi Sep 4 '09 at 9:59
@sbi your inability to detect irony is fascinating – fortran Sep 4 '09 at 10:22
@frast it is good to filter out good programmers from bad ones xD – fortran Sep 4 '09 at 10:47
memset is probably faster. Some compilers implement it in assembly and do 128bit moves with cache prefetching. Can't really beat that. – Dan Jan 13 '11 at 19:07

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


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

share|improve this answer
+1 for using count * sizeof, but you should drop the parenthesis too. :) – unwind Sep 3 '09 at 13:26
Note that, AFAIK, the standard doesn't guarantee that 0.0 is implemented as all bits set to 0. (In fact, all bits set to 0 might be an invalid floating point value that's trapped by the hardware.) So filling double with zeroed bytes is not portable and std::memset() shouldn't be used. – sbi Sep 3 '09 at 13:27
unwind, I like their roundness. – Michael Krelin - hacker Sep 3 '09 at 13:30
I prefer the fill_n way, since that one stays in the same context as the double variable. – xtofl Sep 3 '09 at 13:34
Although I'm sure that "memset(d, length, 0);" is still much faster by far ;) – stefaanv Sep 3 '09 at 15:43

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.

share|improve this answer
You can make that assumption if you are using IEEE-754, and there are very few reasons to justify trying to make your floating-point code tolerant of implementations that wildly differ from the IEEE standard. In fact, the only reason I can imagine tolerating less than full compliance is if you are writing gpgpu code targeting a platform that doesn't implement all the rounding modes and NaN handling according to spec. – user57368 Sep 3 '09 at 15:04
@unknown: Well, it's usually IEEE-754, but not always. So make sure by including BOOST_STATIC_ASSERT(numeric_limits<double>::is_iec559); somewhere in your code. Then things will fail fast if the assumption is wrong. – j_random_hacker Sep 4 '09 at 3:34

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

share|improve this answer
No, it doesn't null any bytes. It tens 0 bytes. – Michael Krelin - hacker Sep 3 '09 at 13:23
another reason to use std::fill – stefaanv Sep 3 '09 at 13:25
I do not hold anything against std::fill, but how is it another reason? – Michael Krelin - hacker Sep 3 '09 at 13:27
With memset, I always forget the order of the parameters, which I took over from the question. – stefaanv Sep 3 '09 at 13:36
I'm now considering, on principle, never again using any function that takes two integer parameters. Possible exception if the order doesn't matter, so std::min is OK ;-) – Steve Jessop Sep 3 '09 at 14:16
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).

share|improve this answer
To make sure your assumption is correct, include BOOST_STATIC_ASSERT(numeric_limits<double>::is_iec559); somewhere in your code. – j_random_hacker Sep 4 '09 at 3:35

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.

share|improve this answer
Doesn't the 0 need to be the 2nd argument to memset? Doesn't calloc clear what it allocates to zero? – Mike Dunlavey Sep 3 '09 at 16:45
Oops. I should've been more careful with memset. I'll fix that. You're also right about calloc... That's an interesting observation. I'll change the code to use malloc, then mention calloc as an option. – Omnifarious Sep 3 '09 at 17:30
However, the more important point is that C/C++ do not mandate IEEE 754 floating point! Although it is the most common representation, it is perfectly OK for a conforming compiler to use a different representation where all-bits-off in fact represents -42.69, so this code is not portable. – j_random_hacker Sep 4 '09 at 3:27
So don't drop the error checking. How hard is it to add "if (d) " in front of the memset. It's just 7 chars. It took you far more than 7 chars to note the lack of error checking. (And don't mention dangling elses, the block ends after the memset.) – jmucchiello Sep 4 '09 at 5:15
Adding error checking increases the complexity of the example. Clarity is more important than having the code be exactly correct when you're trying to show something. – Omnifarious Sep 4 '09 at 16:31

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.

share|improve this answer
Spelling it out: if you supply an initialiser for an aggregate (struct or array), C and C++ will zero-initialise any remaining members. – j_random_hacker Sep 5 '09 at 12:44

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.

share|improve this answer
I tested this with visual c++ and found that "std::fill_n(d, 1000000, 0.0f)" indeed compiles to xor edx, edx mov r8d, 8000000 ; 007a1200H mov rcx, rax call memset So for efficiency there really is no difference at all – jcoder Jan 4 '10 at 11:54
+1, thanks for actually trying this. – MSalters Jan 4 '10 at 13:56

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?

share|improve this answer
I think for primitive types it doesn't matter whether it's prefix or suffix (as long as result isn't used), but it's nice to develop an habit of using prefix whenever you don't care about the result — next loop may employ some complicated iterator instead. – Michael Krelin - hacker Sep 3 '09 at 13:29
Unrolled loops tend to suffer if they are bigger than the CPU's code cache line size. – Barry Dec 2 '14 at 1:28

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).

share|improve this answer

I think you mean

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


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

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

share|improve this answer
is fill better because it is faster? I need faster, not more readable :)))) – vehomzzz Sep 3 '09 at 13:39
I find the latter very cruel and unreadable. Initializing with length and not length-1 and doing the decrement inside the condition. – codymanix Sep 3 '09 at 15:01
@enigma: Which is faster? I would have to time it, which you can do also. (Just wrap it in a 10^9 loop and look at your watch - seconds = nanoseconds.) – Mike Dunlavey Sep 3 '09 at 16:24
@codymanix: Cruel? Unreadable? (Sounds like ignorant professor-speak.) It's been done that way for ages, and that's how the processors used to do it also - very clean code. – Mike Dunlavey Sep 3 '09 at 16:38
@Mike: One thing to be aware of when you loop downwards like in your 2nd snippet is that the loop will run forever if i has unsigned type rather than signed as it does here. – j_random_hacker Sep 5 '09 at 12:38

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

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

ZeroMemory at least makes the intent clear.

share|improve this answer
Why wouldst thy not use the stl when using C++? – xtofl Sep 3 '09 at 13:35
@xtofl: It's probably not the case here but for example when using an older Symbian version, there is no STL available. – foraidt Sep 3 '09 at 13:49
I don't think ZeroMemory is available on older Symbian versions either... – Steve Jessop Sep 3 '09 at 14:17
@onebyone - but ZeroMemory() has to be among the easiest functions to write out there. – Michael Burr Sep 4 '09 at 0:21
@Michael: Yes, but is this a fast implementation then? – sbi Sep 4 '09 at 10:05

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.

share|improve this answer
How would it be faster? If the array truly needs to be zeroed out, then doing it on the fly would require a separate data structure to keep track of which entries are dirty, and lookups in that data structure would almost certainly take longer than just writing the zeros. – user57368 Sep 3 '09 at 23:39
If you actually access first 100 cells out of 1 000 000 element array, setting it all to zeros is slower. Especially if instead of that "structure" you just keep track of the lowest uninitialized index. – Pavel Shved Sep 4 '09 at 2:18
How is maintaining a separate structure faster in terms of maintenance? – jmucchiello Sep 4 '09 at 5:17
How maintaining one integer number makes you call it a "structure"? – Pavel Shved Sep 4 '09 at 15:11

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