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For program from GCC produces ~130MB executable. Why?

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This array t[1<<25] takes up about 129 MB of memory, i think. – Mithrandir Dec 13 '12 at 8:24
up vote 12 down vote accepted

Try changing t[1<<25]={2} to t[1<<25] and the size of the executable* will drop down to 7.3 K. (Needless to say, you won't get the right results)

If it was just t[1<<25], it wouldn't have taken any space at all.

The catch here is that the array is being initialized (first element=2, the next 2^25-1 elements all 0), and the global array gets placed in the data segment only because it is initialized.

Generating the assembly for the 2 versions and examining the difference makes it even more clear:

[axiom@axiom ~]$ diff without_mem.s with_mem.s 
<   .comm   t,134217728,32
>   .globl  t
>   .align 32
>   .type   t, @object
>   .size   t, 134217728
> t:                                ***<- HERE!***
>   .long   2                
>   .zero   134217724

As we can notice, in the original version, the assembler is directed to generate 2^27 (134217728 ) bytes in the data segment. So it becomes a part of the object file itself. ( You can generate assembly by compiling with -S switch gcc -S -fverbose-asm t1.c)

But why 129 MBs?
   1<< n= 2^n (1 left shifted n times). 
 =>  1<<25=2^25. 
     now 1 Integer= 4 bytes =2^2 bytes 
 => 2^25 Integers=2^27 bytes=2^7 * 1 M bytes= 128 MBs 

For more details, see :

*Note 1: It is an object file in strict terms.

Note 2: As pointed out in the comments, It may also be noted that the total size of the process (program in execution) will be 129Mb even if the executable is of 7.3K. (The memory will be allocated once the program starts executing). You can see the memory usage of your program by using the top command.

Note 3: It is worth emphasizing that this holds only because t is global. Allocation for data local to a function still happens at runtime on the stack. So if t was local, the object file would've taken 7.3K only.

Note 4: Initialized static local variables, like initialized globals, are also kept in the data segment. A static global is same as a global except that you are limiting the scope of the variable to the current file only.

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Even if the executable size is 7.3K the process size will still be 130 MB. – brian beuning Dec 13 '12 at 15:31
@brianbeuning It is quite obvious, but still added for completeness. – axiom Dec 13 '12 at 16:22
This is stunning, I've been brace-initializing arrays of considerable size many times with GCC and never seen such a thing. Only non-uniform data is placed in the executable, everything else is initialized with a memset like loop. Maybe it's some odd optimization or debug flags being used? – Damon Dec 14 '12 at 17:33
@Damon It sure is. But turns out the data segment is indeed filled with global data that's initialized. I compiled without any optimization and debug flags ( debug symbols take up 1.4 K for this program anyways). For data local to a function, allocation happens at runtime (on the stack), so if this was a local array, the size would've been 7.3K only. Once loaded, the process would take up 129Mb, so this only becomes a problem if we were to deal with a situation where secondary memory is less than main memory . – axiom Dec 14 '12 at 18:02
@axiom: That would (in most implementations) put that huge array on the stack. Many systems allocate less space for stack than for static data. – Keith Thompson Dec 14 '12 at 22:23

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