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In what segment (.BSS, .DATA, other) of an executable file are static variables stored so that they don't have name collision? For example:

foo.c:                         bar.c:
static int foo = 1;            static int foo = 10;
void fooTest() {               void barTest() {
  static int bar = 2;            static int bar = 20;
  foo++;                         foo++;
  bar++;                         bar++;
  printf("%d,%d", foo, bar);     printf("%d, %d", foo, bar);
}                              }

If I compile both files and link it to a main that calls fooTest() and barTest repeatedly, the printf statements increment independently. Makes sense since the foo and bar variables are local to the translation unit.

But where is the storage allocated?

To be clear, the assumption is that you have a toolchain that would output a file in ELF format. Thus, I believe that there has to be some space reserved in the executable file for those static variables.
For discussion purposes, lets assume we use the GCC toolchain.

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Most people are telling you that they should be stored in .DATA section instead of answering your question: where exactly in the .DATA section and how can you find where. I see you already marked an answer, so you already know how to find it? –  lukmac Mar 20 '11 at 20:50
why initialised and uninitialised are placed in different sections : linuxjournal.com/article/1059 –  mhk Jul 26 '12 at 16:39
The storage allocated to your global/static variables at runtime has nothing to do with their name resolution, which happens during build/link time. After the executable has been built - there're no more names. –  valdo Oct 13 '14 at 17:50

14 Answers 14

up vote 62 down vote accepted

Where your statics go depends on if they are 0 initialized or not. 0 initialized static data goes in .BSS (Block Started by Symbol), non 0 initialized data goes in .DATA

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By "non-0 initialized" you probably mean "initialized, but with something other than 0". Because there's no such thing as "non initialized" static data in C/C++. Everything static is zero-initialized by default. –  AnT Jun 19 '10 at 9:33
@Andrey: That's how I would read that sentence anyway. –  Donal Fellows Jun 19 '10 at 10:09
@Don Neufeld: your answer does not answer the question at all. I do not understand why it is accepted. Because the both the 'foo' and 'bar' are non-0 initialized. The question is where to place two static/global variable with the same name in .bss or .data –  lukmac Mar 20 '11 at 20:42
Check this article - queryhome.com/25882/static-variables-in-c –  user2794034 Dec 24 '13 at 5:59
I have used implementations where static data that was explicitly zero-initialized went in .data, and static data with no initializer went in .bss . –  Matt McNabb Aug 17 '14 at 6:22

When a program is loaded into memory, it’s organized into different segments. One of the segment is DATA segment. The Data segment is further sub-divided into two parts:

Initialized data segment: All the global, static and constant data are stored here.
Uninitialized data segment(BSS): All the uninitialized data are stored in this segment.

Here is a diagram to explain this concept:

enter image description here

here is very good link explaining these concepts:


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The pdf link is dead. Can you please update it? –  Nil Jul 7 '14 at 2:03
@Nil The link is working for me..... –  karn Jul 8 '14 at 14:00
My bad, it's working now. I tried 2 times yesterday, without success. Thanks. –  Nil Jul 8 '14 at 22:33

In fact, a variable is tuple (storage, scope, type, address, value):

storage     :   where is it stored, for example data, stack, heap...
scope       :   who can see us, for example global, local...
type        :   what is our type, for example int, int*...
address     :   where are we located
value       :   what is our value

Local scope could mean local to either the translational unit (source file), the function or the block depending on where its defined. To make variable visible to more than one function, it definitely has to be in either DATA or the BSS area (depending on whether its initialized explicitly or not, respectively). Its then scoped accordingly to either all function(s) or function(s) within source file.

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The storage location of the data will be implementation dependent.

However, the meaning of static is "internal linkage". Thus, the symbol is internal to the compilation unit (foo.c, bar.c) and cannot be referenced outside that compilation unit. So, there can be no name collisions.

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no. static keyworld has overloaded meanings: in such a case static is storage modifier, not linkage modifier. –  ugasoft Sep 18 '08 at 14:45
ugasoft: the statics outside the function are linkage modifiers, inside are storage modifiers where there can be no collision to start with. –  wnoise Sep 19 '08 at 0:25
I think this is a better answer to what OP actually asked.. –  Ram Bhat Mar 25 '13 at 7:17

I don't believe there will be a collision. Using static at the file level (outside functions) marks the variable as local to the current compilation unit (file). It's never visible outside the current file so never has to have a name.

Using static inside a function is different - the variable is only visible to the function, it's just its value is preserved across calls to that function.

In effect, static does two different things depending on where it is. In oth cases however, it limits the visibility of the variable to prevent namespace clashes,

Having said that, I believe it would be stored in DATA which tends to have initialized variable. The BSS originally stood for byte-set-<something> which held variables which weren't initialized.

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@paxdiablo: you have mentioned two types of static variables. Which one of them does this article (en.wikipedia.org/wiki/Data_segment ) refer to? Data segment also holds the global variables (which are exactly opposite in nature to static ones). So, how does a segment of memory (Data Segment) store variables that can be accessed from everywhere (global variables) and also those which have limited scope (file scope or function scope in case of static variables)? –  Lazer Apr 18 '10 at 13:13
@eSKay, it haas to do with visibility. There can be things stored in a segment which are local to a compilation unit, others which are fully accessible. One example: think of each comp-unit contributing a block to the DATA segment. It knows where everything is in that block. It also publishes the addresses of those things in the block that it wishes other comp-units to have access to. The linker can resolve those addresses at link time. –  paxdiablo Apr 18 '10 at 14:29

in the "global and static" area :)

there are several memory area in C++

  • heap
  • free store
  • stack
  • global & static
  • const

see here for detailed answer to your question

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Data declared in a compilation unit will go into the .BSS or the .Data of that files output. Initialised data in BSS, uninitalised in DATA.

The difference between static and global data comes in the inclusion of symbol information in the file. Compilers tend to include the symbol information but only mark the global information as such.

The linker respects this information. The symbol information for the static variables is either discarded or mangled so that static variables can still be referenced in some way (with debug or symbol options). In neither case can the compilation units gets affected as the linker resolves local references first.

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It depends on the platform and compiler that you're using. Some compilers store directly in the code segment. Static variables are always only accessible to the current translation unit and the names are not exported thus the reason name collisions never occur.

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Well this question is bit too old, but since nobody points out any useful information: Check the post by 'mohit12379' explaining the store of static variables with same name in the symbol table: http://www.geekinterview.com/question_details/24745

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The answer might very well depend on the compiler, so you probably want to edit your question (I mean, even the notion of segments is not mandated by ISO C nor ISO C++). For instance, on Windows an executable doesn't carry symbol names. One 'foo' would be offset 0x100, the other perhaps 0x2B0, and code from both translation units is compiled knowing the offsets for "their" foo.

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they're both going to be stored independently, however if you want to make it clear to other developers you might want to wrap them up in namespaces.

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static variable stored in data segment or code segment as mentioned before.
You can be sure that it will not be allocated on stack or heap.
There is no risk for collision since static keyword define the scope of the variable to be a file or function, in case of collision there is a compiler/linker to warn you about.
A nice example

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you already know either it store in bss(block start by symbol) also referred as uninitialized data segment or in initialized data segment.

lets take an simple example

void main(void)
static int i;

the above static variable is not initialized , so it goes to uninitialized data segment(bss).

void main(void)
static int i=10;

and of course it initialized by 10 so it goes to initialized data segment.

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I tried it with objdump and gdb, here is the result what I get:

(gdb) disas fooTest
Dump of assembler code for function fooTest:
   0x000000000040052d <+0>: push   %rbp
   0x000000000040052e <+1>: mov    %rsp,%rbp
   0x0000000000400531 <+4>: mov    0x200b09(%rip),%eax        # 0x601040 <foo>
   0x0000000000400537 <+10>:    add    $0x1,%eax
   0x000000000040053a <+13>:    mov    %eax,0x200b00(%rip)        # 0x601040 <foo>
   0x0000000000400540 <+19>:    mov    0x200afe(%rip),%eax        # 0x601044 <bar.2180>
   0x0000000000400546 <+25>:    add    $0x1,%eax
   0x0000000000400549 <+28>:    mov    %eax,0x200af5(%rip)        # 0x601044 <bar.2180>
   0x000000000040054f <+34>:    mov    0x200aef(%rip),%edx        # 0x601044 <bar.2180>
   0x0000000000400555 <+40>:    mov    0x200ae5(%rip),%eax        # 0x601040 <foo>
   0x000000000040055b <+46>:    mov    %eax,%esi
   0x000000000040055d <+48>:    mov    $0x400654,%edi
   0x0000000000400562 <+53>:    mov    $0x0,%eax
   0x0000000000400567 <+58>:    callq  0x400410 <printf@plt>
   0x000000000040056c <+63>:    pop    %rbp
   0x000000000040056d <+64>:    retq   
End of assembler dump.

(gdb) disas barTest
Dump of assembler code for function barTest:
   0x000000000040056e <+0>: push   %rbp
   0x000000000040056f <+1>: mov    %rsp,%rbp
   0x0000000000400572 <+4>: mov    0x200ad0(%rip),%eax        # 0x601048 <foo>
   0x0000000000400578 <+10>:    add    $0x1,%eax
   0x000000000040057b <+13>:    mov    %eax,0x200ac7(%rip)        # 0x601048 <foo>
   0x0000000000400581 <+19>:    mov    0x200ac5(%rip),%eax        # 0x60104c <bar.2180>
   0x0000000000400587 <+25>:    add    $0x1,%eax
   0x000000000040058a <+28>:    mov    %eax,0x200abc(%rip)        # 0x60104c <bar.2180>
   0x0000000000400590 <+34>:    mov    0x200ab6(%rip),%edx        # 0x60104c <bar.2180>
   0x0000000000400596 <+40>:    mov    0x200aac(%rip),%eax        # 0x601048 <foo>
   0x000000000040059c <+46>:    mov    %eax,%esi
   0x000000000040059e <+48>:    mov    $0x40065c,%edi
   0x00000000004005a3 <+53>:    mov    $0x0,%eax
   0x00000000004005a8 <+58>:    callq  0x400410 <printf@plt>
   0x00000000004005ad <+63>:    pop    %rbp
   0x00000000004005ae <+64>:    retq   
End of assembler dump.

here is the objdump result

Disassembly of section .data:

0000000000601030 <__data_start>:

0000000000601038 <__dso_handle>:

0000000000601040 <foo>:
  601040:   01 00                   add    %eax,(%rax)

0000000000601044 <bar.2180>:
  601044:   02 00                   add    (%rax),%al

0000000000601048 <foo>:
  601048:   0a 00                   or     (%rax),%al

000000000060104c <bar.2180>:
  60104c:   14 00                   adc    $0x0,%al

So, that's to say, your four variables are located in data section event the the same name, but with different offset.

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There is much much more than that. Even existing answers are not complete. Just to mention something else: thread locals. –  Adriano Repetti Oct 13 '14 at 17:49

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