# Is it possible to swap arrays of structs (in linear time)?

I have a small program computing the forces of planets on each other. My program has two arrays of structs, one that holds the positions and velocities before iterations, and the other holds what their positions and velocities will be after the iterations.

At the end of each iteration, I'd like to move the values from the second array into the first and the second array can become garbage (but needs to point to some valid memory location I can write to later). I thought I could simply switch the arrays since an array is a pointer, but the compiler won't let me.

Consider this example:

``````typedef struct { int a; } Foo;

int main()
{
Foo bar[8], baz[8];

Foo *temp = baz;
baz = bar;   //ISO C++ forbids the assignment of arrays
bar = temp;  //incompatible types in assignment of Foo* to Foo[8]
}
``````

This is what I'd like to do. It would certainly be faster than a for loop from 1 to N.

-
possible duplicate of Pointer vs array in C, non-trivial difference –  Bo Persson Feb 11 '12 at 18:55
"since an array is a pointer" - wrong. Whoever told you that is a liar and a thief, never speak to them again. –  Steve Jessop Feb 11 '12 at 18:57
@Steve: +1 despite the comma abuse –  Lightness Races in Orbit Feb 11 '12 at 19:29

You should consider using `std::vector` which can be swapped in constant time:

``````std::vector<Foo> bar(8), baz(8);

std::swap(bar, baz);
``````

Or if you don't want to do that and instead want to manually manage your memory, you can use `new[]` to get a pointer to an array on the free store and swap the pointers when you want to swap the arrays.

If you must have your arrays on the stack, the only way to do this without actually swapping each element would be to create the arrays on the stack and instead of using the arrays, use pointers to the arrays:

``````Foo bar[8], baz[8], *pbar = bar, *pbaz = baz;

// ...
// this code only using pbar and pbaz
// ...

// swap the pointers
std::swap(pbar, pbaz);

// ...
// use pbar and pbaz some more
// ...
``````
-
I would certainly prefer having my arrays on the stack, simply because it is very easy to initialize using curly bracket notation. I will consider implementing this suggestion. –  eternalmatt Feb 11 '12 at 19:03
@eternalmatt if your compiler supports C++11, you can use curly braces to initialise a `vector` too (this feature is called uniform initialisation): `std::vector<Foo> bar { 23, 21, 55, 268, 31, 0, -34, 23 };`. And if you still don't want to use `vector`, the only other way is to use the other suggestion in my answer. –  Seth Carnegie Feb 11 '12 at 19:04

Here's where you went wrong:

since an array is a pointer

This is not true. Arrays decay to a pointer, but they are not the same thing.

However you can easily do what you want here by actually getting pointers from those arrays.

``````   Foo bar[8], baz[8];

// load bar up with valid data
Foo *data = bar;
Foo *garbage = baz;

// compute next step

std::swap(data,garbage);
``````

Also consider using `std::array` rather than raw arrays (it has properties more consistent with other types in C++ and is less 'special' than raw arrays). Then when you use pointers to these arrays the size of the array won't be discarded the way it is for pointers to raw arrays.

``````   std::array<Foo,8> bar, baz;

std::array<Foo,8> *data = &bar;
std::array<Foo,8> *garbage = &baz;

// compute next step

std::swap(data,garbage);
``````

If you need dynamically sized arrays use `std::vector`, and then you can just swap the vectors directly rather than swapping pointers to the vectors, because swapping vectors will be implemented to swap the pointers inside the vectors.

``````   std::vector<Foo> data, garbage;

// compute next step

std::swap(data,garbage);
``````
-
Note that `std::array` can only be swapped in linear time and is the same as copying each element from one to the other and from the other to one –  Seth Carnegie Feb 11 '12 at 19:01
@SethCarnegie I'm swapping pointers to `std::array`, not the `std::array` itself. –  bames53 Feb 11 '12 at 19:10
Arrays don't decay to pointers, either. Names of arrays decay to names of pointers. The actual object in memory is still an array though –  Lightness Races in Orbit Feb 11 '12 at 19:30
@LightnessRacesinOrbit I suppose someone might take my wording to mean that, e.g. an array decays to a pointer, and that pointer is an lvalue, but that's not what I meant. For absolute accuracy I'll simply quote the standard: "An lvalue or rvalue of type “array of N T” or “array of unknown bound of T” can be converted to a prvalue of type “pointer to T”. The result is a pointer to the first element of the array." [conv.array] –  bames53 Feb 11 '12 at 21:02
@bames53: I know ;) –  Lightness Races in Orbit Feb 11 '12 at 21:03

The problem is that you're using a stack-allocated array.

When you say `Foo bar[8];`, you're creating space for eight `Foo` structs in the current stack frame. So the reason you can't assign it to something else is that it'd have to move outside the frame somehow, escaping the memory management and scoping it's supposed to have.

You want a dynamically-allocated array - `Foo* bar = new Foo[8];`. When you're done with it, `delete[] bar;`. The difference here is that now the pointer is on the stack, but the actual contents are on the heap - so you can change the location the pointer references without having to worry about moving the actual pointer itself.

Another option is to use a class with a copy-constructor and `operator=`, like `std::vector`, `std::list`, or `std::deque`.

Incidentally, the procedure of copying the array contents is linear time. A pointer assignment is constant time (`O(1)`) because it doesn't matter how large your array gets - it's always one operation to move the pointer.

-

You could use memcpy:

``````int main()
{
Foo bar[8], baz[8], temp[8];

memcpy(temp, baz, sizeof(Foo) * 8);
memcpy(baz, bar, sizeof(Foo) * 8);
memcpy(bar, temp, sizeof(Foo) * 8);
}
``````
-
`memcpy()` is done in linear time –  amit Feb 11 '12 at 18:49

You can declare your arrays as temps, and also declare pointers - which you will use for the rest of the function.

Those ponters can be easily swapped.

``````int main()
{
Foo temp1[8], temp2[8];
Foo *bar = temp1, *baz = temp2;

Foo *temp = baz;
baz = bar;  //no problems now
bar = temp;
}
``````
-
``````   Foo bar[8], baz[8];
``````

Then

``````   Foo* arr1 = bar, arr2 = bax;
``````

Forget about `baz` & `bar`, work only with `arr1` and `arr2`.

Swap:

``````  int* temp = arr1;
arr1 = arr2;
arr2 = temp;
``````
-
Don't forget the `*` before `arr2` to declare it as a `Foo*` instead of a `Foo` –  Seth Carnegie Feb 11 '12 at 19:02