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Is there any way to tell GCC to not initialize a particular global array to zero?

I want to reserve a large chunk of memory for storing a large data structure that my code manages, so I say:

#define SIZE_16_MB 0x01000000
BYTE mChunkSpace[SIZE_16_MB];

The problem is that crtinit() takes a million years to initialize this space to zero, and it is not at all necessary.

Is there any way I can force it not to initialize that space?

Currently I am hard-coding a memory address that is outside what the linker knows about, but that is not a particularly robust way of doing things.

Additionally, this is a slow embedded proc (50MHz Microblaze), so don't assume that i am talking about a PC. It really does take a long time to zero that space.

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up vote 6 down vote accepted

You can use the gcc attributes to store the object in another new memory section, like for example in the .noinit memory section.

 BYTE mChunkSpace[SIZE_16_MB] __attribute__ ((section (".noinit")));
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I stumbled across this myself, but I had a hard time figuring out exactly how it is implemented and if it would be available to the OP on his target platform. From what I can tell a .noinit section is created in the .bss section. Does this mean it is not zero initialized and does not take up ~16MB of space in the executable? – Ed S. Jun 24 '12 at 20:41
@EdS. size -A -x shows me the addresses of the memory section is different than the addresses of the .bsssection. – ouah Jun 24 '12 at 20:43
I am repeating what I read here: – Ed S. Jun 24 '12 at 20:44
...though now I notice this is avr-libc specific, not sure if it applies here. – Ed S. Jun 24 '12 at 20:45
@EdS. crt0 can still zeroize any new memory section by default on x86, this need to be checked I think. – ouah Jun 24 '12 at 20:46

Try dynamic initialization:

BYTE* mChunkSpace = (BYTE*)malloc(SIZE_16_MB * sizeof(BYTE));

Then this data is uninitialized and waiting for you to initialize it.

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That is a good solution, but it would mean making my heap segment much larger. That might be OK if it doesn't impact the performance of the heap in other contexts. – NXT Jun 24 '12 at 21:10

Most answers you’ll get here on SO will be slanted toward either Visual Studio or GCC, both on general purpose platforms (i.e. PC’s, whether Windows or Linux), and will be heavy on the “the standard says...” citations, none of which apply all that much for small embedded systems, unless you happen to be running embedded Linux or Windows CE.

ouah’s answer is probably the closest to what you need... perhaps EXACTLY what you need, if you're truly using GCC. Since the memory chunk you want is so large, probably consuming the lion’s share of your system’s memory, your best bet is to define a special section in your build’s linker command file, or by linker directives in either a C, C++, or assembly file. The syntax for doing so will vary by compiler. If you use linker directives in a source/assembly file, there are probably attributes you'll need to specify regarding the memory region's read/write-ability, etc... or perhaps not, if the Microblaze has no MMU/Memory-controller. You’ll need to put a linker symbol at the start of the section, and in your C code, use an “extern char symName[]” directive so your C code can compile in relocs that the linker will overwrite with the actual address of the section. Depending on the compiler and architecture, you may also need to declare the symName[] extern with some sort of “far” attribute; I don’t know enough about the Microblaze to say anything about that.

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I would actually think that non-static memory is by default not initialized to zero ?

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Objects defined at file scope have static storage duration so are initialized to zero. – ouah Jun 24 '12 at 20:41
This is not true at all (is it a question or statement?). Do you believe that i is initialized to 0 in the following code? int main() { int i; return 0; } – Ed S. Jun 24 '12 at 20:43
I suppose I could put it on the stack and store a pointer to it in a global, but that really seems like an abuse of the stack. :-) – NXT Jun 24 '12 at 21:17
static int i; is indeed initialized to zero but int i; (outside of a function, so not on the stack° is not. – Paul Praet Jun 25 '12 at 6:40

The standard states that static data which is not explicitly initialized at the point of declaration will be zero-initialized. You can avoid runtime initialization by initializing the first element to a non-zero value yourself:

#define SIZE_16_MB 0x01000000
BYTE mChunkSpace[SIZE_16_MB] = {1};

Note that, if you specify 0, the compiler will likely just store it in the .bss section anyway, i.e., it will still be initialized at runtime. It doesn't have to do this, but it would be stupid not to. So now your array gets thrown into the .data segment.

Of course, this will make the resultant executable much larger (~16MB larger to be exact), but the memory will not be initialized at runtime. So the question comes down to what maters to you; the time needed to zero that memory, or the resultant executable size?

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Sorry for this non-constructive comment—I don't have a good solution, I almost suggested making mChunkSpace a local of main(), as a joke, but it is unlikely to work in practice. Anyway, when you say “but the memory will not be initialized at runtime”: it will be loaded from permanent storage instead. This is unlikely to be faster. – Pascal Cuoq Jun 24 '12 at 20:41
You can control whether gcc puts zero-initialized variables into .bss with the -f[no-]zero-initialized-in-bss flag. The default is -fzero-initialized-in-bss – Jim Balter Jun 24 '12 at 20:44
@PascalCuoq: Hardly non-constructive! I think it is very constructive as I had not considered that at all. – Ed S. Jun 24 '12 at 20:45
@PascalCuoq On a paged system, the mChunkSpace will be read from disk as needed, so startup time will be less. Although, on such systems, crtinit should not be clearing pages that are allocated and zeroed by the OS on demand. – Jim Balter Jun 24 '12 at 20:52
This answer is completely wrong: BYTE mChinkSpace[16_MB] = {1}; asks the compiler to initialize the element 0 to 1, and to default-initialize all other elements to 0. This is strictly worse than the original. – Employed Russian Jun 24 '12 at 20:52

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