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When compiling this:

// external definitions
int value1 = 0;
static int value2 = 0;

the gcc compiler generates the following assembly:

.globl value1
        .bss
        .align 4
        .type   value1, @object
        .size   value1, 4
value1:
        .zero   4
        .local  value2
        .comm   value2,4,4

However, when i initialize the variables to a value other than zero such as:

// external definitions
int value1 = 1;
static int value2 = 1;

the gcc compiler generated the following:

.globl value1
        .data
        .align 4
        .type   value1, @object
        .size   value1, 4
value1:
        .long   1
        .align 4
        .type   value2, @object
        .size   value2, 4
value2:
        .long   1

My questions are:

  1. Why in the first case the values are allocated in the bss segment while in the second case in the data segment.
  2. Why value2 variable is defined as .local and .comm in the first case, while not in the second.
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1  
It's difficult to tell from your C code snippet but value1 seems to be a global variable (rather than a local one). A local variable would be allocated on the stack. –  Codo Nov 27 '12 at 9:31
    
Hard to say. I would consider putting that into .bss a bug. While there is no difference from the view of the standard (uninitialized variables should be initialized to 0), it has become use that init'ing to 0 is distinct from being uninitialized. –  glglgl Nov 27 '12 at 9:33
    
@Codo both variable definitions in my snippets are external definitions and not locals. –  lefty Nov 27 '12 at 9:33
1  
@lefty: What you mean then is that they are defined at file scope. (As opposed to block scope, function scope, etc.) Internal / external are technical terms with specific definitions that means something else. –  Dietrich Epp Nov 27 '12 at 9:40
2  
@glglgl: But it's wrong to say that putting zero-initialized data in .bss is a bug. Sure, on some systems you can coerce the compiler to behave in non-standards-compliant ways, but that's not really relevant. –  Dietrich Epp Nov 27 '12 at 9:43

3 Answers 3

up vote 11 down vote accepted

Generally speaking, the bss section contains uninitialized values and the data section contains initialized values. However, gcc places values that are initialized to zero into the bss section instead of the data section, as the bss section is zeroed out in runtime anyway, it doesn't make much sense to store zeros in the data section, this saves some disk space, from man gcc:

-fno-zero-initialized-in-bss If the target supports a BSS section, GCC by default puts variables that are initialized to zero into BSS. This can save space in the resulting code. This option turns off this behavior because some programs explicitly rely on variables going to the data section

I'm not sure why .comm is used with static storage which is local to an object file, it is usually used to declare common symbols that, if not defined/initialized, should be merged by the linker with symbol that have the same name from other object files and that's why it's not used in the second example because the variables are initialized, from the as manual

.comm declares a common symbol named symbol. When linking, a common symbol in one object file may be merged with a defined or common symbol of the same name in another object file

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Any ideas on the second part of my question? –  lefty Nov 27 '12 at 9:35
4  
@lefty: That's why it's not a good idea to ask two questions in one on Stack Overflow. You can't choose two answers. –  Dietrich Epp Nov 27 '12 at 9:37
    
Saying that BSS contains uninitialized data is a little misleading since it is actually initialized at run time. Difference is mainly between whether it is done in program binary at compile time vs run time. –  fayyazkl Nov 27 '12 at 9:55
    
@fayyazkl I did say that it's initialized at runtime. –  mux Nov 27 '12 at 9:59
    
@mux I agree. Just emphasizing the initialization. I actually saw your initial answer, where i felt the run time initialization part wasn't mentioned. So i started writing one. Saw that latter once you edited. –  fayyazkl Nov 27 '12 at 10:03

The first case is because you initialized the values with zero. It's part of the C standard (section 6.7.8) that a global integer gets initialized with 0 if none is specified. So file formats made a provision to keep binaries smaller by having a special section these get placed in: bss. If you take a look at some of the ELF specification (on page I-15), you'll find this:

.bss This section holds uninitialized data that contribute to the program's memory image. By definition, the system initializes the data with zeros when the program begins to run. The section occupies no file space, as indicated by the section type, SHT_NOBITS.

In the first case, the compiler made an optimization. It doesn't need to take up room in the actual binary to store the initializer, since it can use the bss segment and get the one you want for free.

Now, the fact that you have a static coming in from an external source is a bit interesting (it's not typically done). In the module being compiled though, that should not be shared with other modules, and should be marked with .local. I suspect it does it this way because there is no actual value to be stored for the initializer.

In the second example, because you've given a non-zero initializer, it know resides in the initialized data segment data. value1 looks very similar, but for value2, the compiler needs to reserve space for the initializer. In this case, it doesn't need to be marked as .local because it can just lay down the value and be done with it. It's not global because there is no .globl statement for it.

BTW, http://refspecs.linuxbase.org/ is a good place to visit for some of the low-level details about binary formats and such.

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+1 for the second part of the question. –  fayyazkl Nov 27 '12 at 10:00

BSS is the segment containing data initialized at run time where as data segment contains data initialized in the program binary.

Now static variables are always initialized whether done explicitly in program or not. But there are two separate categories, initialized (DS) and uninitialized (BSS) statics.

All values present in BSS are those which are not initialized in the code of program and hence initialized when program is loaded at run time to 0 (if integer), null for pointers etc.

So when you initialize with 0, the value goes to BSS where as any other value assigned will allocate the variable in Data segment.

An interesting consequence is, the size of data initialized in BSS will not be included in program binary, where as that of the one in data segment is included.

Try allocating a large static array and use it in a program. See the executable size when it is not initialized explicitly in code. Then initialize it with non zero values like

static int arr[1000] = {2};

The size of executable in the latter case will be significantly greater

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