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I have the following code:

import std.stdio;

int main(string[] args)
   int[3] my_array = [1, 2];
   return 0;

This compiles fine, and then aborts when executed, giving this error:

object.Exception@src/rt/arraycat.d(31): lengths don't match for array copy
arrays_init(_Dmain+0x64) [0x416bbc]
arrays_init(extern (C) int rt.dmain2.main(int, char**).void runMain()+0x1c) [0x418c5c]
arrays_init(extern (C) int rt.dmain2.main(int, char**).void tryExec(scope void delegate())+0x2a) [0x4185d6]
arrays_init(extern (C) int rt.dmain2.main(int, char**).void runAll()+0x3b) [0x418ca3]
arrays_init(extern (C) int rt.dmain2.main(int, char**).void tryExec(scope void delegate())+0x2a) [0x4185d6]
arrays_init(main+0xd1) [0x418561]
/lib/x86_64-linux-gnu/ [0x7f60bc41d30d]

This runs fine if the array literal has 3 items, so apparently the array literal has to match the size of the static array. But shouldn't this give a compile error since the size of both can be calculated at compile time?

share|improve this question
up vote 9 down vote accepted

Array literals are of type T[], i.e. they are dynamic arrays that are unaware of their size at compile time.

Your code compiles for the same reason this compiles:

void foo(int[] xs)
    int[3] ys = xs;

The compiler simply doesn't know how big xs is.

In your case, the compiler could know at compile time because all the information is there, but it would be going above and beyond what the compiler is obligated to do. Interpreting the code strictly, there is no type mismatch, so it compiles.

Another side effect of array literals being dynamic arrays is that the code you have will actually allocate memory. It allocates the dynamic array on the heap, copies into the static array, and then you have to wait for a garbage collection cycle before the memory is reclaimed. This can be a cause of bad performance if you initialise arrays like that in a tight loop.

Again, the compiler could avoid the allocation, but DMD at least does not in the current version (2.060).

share|improve this answer
+1: The correct answer! – PreferenceBean Dec 18 '12 at 14:36
Fortunately, it is the plan to make it so that the OP's code won't allocate anymore (in which case, it'll probably produce an error), but it hasn't been high enough on the TODO list to be done yet. – Jonathan M Davis Dec 18 '12 at 22:09
Maybe they could use the C array literal syntax for initializing static arrays. – Scooter Dec 19 '12 at 2:22
@Scooter That's not really any reason to. The only reason that assigning an array literal to a static array allocates is because it required creating an optimization for it to not allocate. It was simpler to allocate like is done with all other array literals. Changing it to not allocate in this case costs us nothing (aside from the effort required to make the change), and using another syntax doesn't buy us anything. It would require mostly the same stuff underneath the hood anyway, so why bother creating a new syntax for it? Just properly optimize what we currently have. – Jonathan M Davis Dec 19 '12 at 2:26
@JonathanMDavis Why is an array literal a dynamic array in the first place? – Scooter Dec 19 '12 at 2:44

That would be because the type of [1, 2] (dynamic array) does not preserve the number of elements in the array, so by the time the compiler gets to the assignment (=), it doesn't know how many elements are in the expression on the right side.

To put it simply: the compiler simply isn't smart enough.

share|improve this answer
What does the .length property of dynamic arrays say - just the capacity?? – Scooter Dec 18 '12 at 12:18
@Scooter: The length property is dynamic i.e. a runtime thang. The compiler could be made in theory to deduce all this information at compile-time, the same way your eyes can; but the language doesn't require it and it simply doesn't. – PreferenceBean Dec 18 '12 at 14:35

Probably because of this line:

int[3] my_array = [1, 2];

on left hand side you are saying 3 values in array i.e you are defining static array of 3 ints , but assigning two values only.

Change it to:

int[3] my_array = [1, 2, 3];

and problem should get solved.

share|improve this answer
Way to completely misread the question? – Vladimir Panteleev Dec 18 '12 at 12:06
@CyberShadow: Yes, missed it first time. – Azodious Dec 18 '12 at 13:05
And the second time. – PreferenceBean Dec 18 '12 at 14:34

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