I often find myself wanting to copy the contents of arrays that have a constant size, I usually just write something along the lines of:

float a[4] = {0,1,2,3};
float b[4];

for(int i=0; i<4; i++){

As of lately, I am writing a linear calculus library for educational purposes, and I was wondering if there was a better way to do it.

The first thing that came to my mind, was using memcpy:

memcpy(b, a, sizeof(float) * 4);

But this seems very c-like and error prone to me. I like having my errors at compile time, and this can get ugly for data types with non-trivial copy constructors, or if I forget to multiply with sizeof(datatype).

Since I am writing a math library that I am going to use intensively, performance is very important to me. Are the compilers today smart enough to understand that the first example is just copying a chunk of memory and optimize it to be as efficient as the second solution?

Perhaps there is a function in the standard library that can help me? Something new in c++11? Or should I just create a macro or a template function?

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    What about std::copy? – Mysticial Sep 8 '12 at 5:34
  • @Mysticial I think, you should keep it as an answer :) – Mahesh Sep 8 '12 at 5:36
  • "But this seems very c-like and error prone to me" - What's error prone about it? You know the size, you know the memory is valid... no error will occur. If you are dealing with POD types I would always just use memcpy. – Ed S. Sep 13 '12 at 0:37

If you use std::array instead of a built-in array (which you should), it becomes very simple. Copying an array is then the same as copying any other object.

std::array<float,4> a = {0,1,2,3};
std::array<float,4> b = a;
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    Beat me by 2 seconds! – Robᵩ Sep 8 '12 at 5:42
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    +1 this is clearly the way to go in C++11 (and not the std::copy() methods, as they use run-time size and hence are less prone to optimisation using than compile-time size, which is the very point of using arrays (instead of vector) in the first place – Walter Sep 8 '12 at 20:38
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    @Walter: Actually, the methods using std::copy, as presented by Mysticial and hjbabs, both use a compile time constant. So they can be optimized in the exact same ways. – Benjamin Lindley Sep 8 '12 at 21:39
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    @BenjaminLindley you didn't get my point. The std::copy() function template accepts the size as a run-time constant. If that number is known at compile time, then the compiler may do some optimisation. With std::array<>::operator= this is spelled out at compile time: there is not run-time-size-dependent code to be optimised (or not). I prefer not relying on the compiler to do these types of optimisations. – Walter Sep 9 '12 at 9:33
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    @user650261: The question is not about C-style arrays. It is about constant sized arrays. One way to have a constant size array is to use a c-style array. Another way, which the OP apparently was not aware of before asking the question, is std::array. And as it turns out, std::array is superior for that purpose, in almost every single way. And in particular, it is much better at solving the very problem the OP was actually concerned about. – Benjamin Lindley Dec 1 '16 at 20:55

The C++03 way would be to use std::copy():

float a[4] = {0,1,2,3};
float b[4];

std::copy(a,a + 4, b);

That's about as clean as it gets. On C++11 prefer

std::copy(std::begin(a), std::end(a), std::begin(b));

Or better yet, use std::array and get assignment for free:

std::array<float,4> a = {0,1,2,3};
auto b = a;
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    To avoid things quietly breaking if you change the array size, I suggest std::copy(a, a + sizeof(a)/sizeof(a[0]), b);. Even better, wrap the sizeof() junk in a macro -- or even betterer, use a function template instead: template <typename T, size_t N> size_t size((T&)[N]) { return N; } – j_random_hacker Sep 8 '12 at 7:29
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    @j_random_hacker: In C++11, std:copy(std::begin(a), std::end(a), std::begin(b)). – GManNickG Sep 8 '12 at 8:39
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    @GManNickG: So they finally added generic begin() and end() in C++11? Wonderful! (And such an obvious thing... How did C++03 miss it?!) I can stop carting around my homebrewed ones :) – j_random_hacker Sep 8 '12 at 8:46
  • Interesting. I also didn't know you could use std::begin/end on arrays now. :) – Mysticial Sep 8 '12 at 8:51
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    Downvoters care to comment? It's hard to improve something if I don't know what's wrong. – Mysticial Sep 13 '12 at 0:20

For interested in C++03 (and also C) solution - always use struct containing an array instead of solely array:

struct s { float arr[5]; };

Structs are copyable by default.

Its equivalent in C++11 is,already mentioned, std::array<float,5>;

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    Good point about c++03 struct wrapping. I need to remember this better :) – sehe Sep 13 '12 at 0:32
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    thank you this is the info i was looking for from google. Because nothing much is said about assignation of std/boost::array. its default generated, therefore the standard dictates behavior. but chapters about aggregate are hard to read in santardese legal jargon. – v.oddou Apr 23 '15 at 5:11
#include <algorithm>
std::copy_n(a, 4, b)
  • that can't be the most efficient way in case of arrays, as the number of elements is a run-time argument instead of a compile-time one. – Walter Sep 8 '12 at 20:34
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    @Walter: you are right, std::array should be used for constant size arrays – hjbabs Sep 9 '12 at 2:02

Below method works for usual arrays as well std:array.

float a[4] = {0,1,2,3};
float b[4];

std::copy(std::begin(a), std::end(a), b);
  • Note sure why downvoting. This works, its indeed preferred way in C++, applicable to usual arrays as well and I use it all the time. – Shital Shah Nov 28 '17 at 5:54

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