0

Maybe i'm missing something obvious, but isn't it during runtime that local variables get placed on the stack when the function containing the variables gets called.

Therefore when the compiler will step through our source code, it will place the operations of the function in the .text segment, but where do the variables get placed at compile time so they can be placed onto the stack at run-time? Thanks

  • 2
    Why don't you use the compiler option to save the assembly code, and see how it does it? – Barmar Apr 21 '16 at 20:07
  • 5
    Q: What do you put in your closet before you've built your house? A "variable" gets stored in "memory" - which doesn't exist before the program is loaded at runtime. What's "compiled" is instructions for how to access the memory. For example, local variable "x" might be stored at offset "2" from register "stack pointer". The assembly instruction mov eax, [esp + 2] will read "x" into register "a" (presumably for further computation). – paulsm4 Apr 21 '16 at 20:08
  • 2
    There is no requirement by the standard for the compiler to use a stack or other management for storage at all. – too honest for this site Apr 21 '16 at 20:13
  • 1
    @Olaf: If I have static char buf[10000]; (which is implicitly initialized to all zeros), there probably won't be 10000 bytes stored anywhere in the object file or executable. The space will be allocated at program load time. The executable just has to specify how much. – Keith Thompson Apr 21 '16 at 20:17
  • 1
    C does not specify anything about a stack nor .text segment. These are artifacts of a given compiler. Post the compiler of interest. – chux Apr 21 '16 at 20:18
7

Local variables aren't placed anywhere at compile time.

The compiler generates code that, when executed at run time, will allocate space on the stack (typically; other schemes are possible). The compiler records information about each variable (name, type, size, offset relative to the stack pointer, etc.) and uses that information to generate code that creates, accesses, and finally deallocates the variable.

A technical digression: C doesn't have "local" and "global" variables, or at least the language standard doesn't use those terms. An object has a lifetime (storage duration), which is the span of time during execution when it exists. More or less independently othat, an object's name has a scope, which is the region of program text in which the name is visible. A variable declared inside a function has block scope. It has automatic storage duration by default (meaning it exists only while the containing block is executing), but it has static storage duration if it's defined with the static keyword or if it's defined outside any function. A "local" static variable will be stored the same way as a "global" variable, which is different from the way a "local" automatic variable is stored.

  • 1
    Actually, global variables are placed somewhere. They're typically put in the BSS section of the object file. When an executable is loaded, the BSS is copied by the OS into the data segment of the process. – Barmar Apr 21 '16 at 20:10
  • 1
    That's for global variables with literal initializers. If it's initialized using a function, BSS just contains a default value and the generated code contains startup code that calls the function and updates it. – Barmar Apr 21 '16 at 20:12
  • 2
    Not sure about C++, but C does not mandate a stack or other specific memory management to place automatic variables. There are implementations which allocate them in "normal"/unmanaged memory. Also local variables like static are never put onto the normal stack. – too honest for this site Apr 21 '16 at 20:12
  • @Barmar: Ok, I've deleted the reference to global variables. But for uninitialized (implicitly zero-initialized) global (static) variables, no space is allocated in the object file or executable, just an indication of how much zero-initialized static space is needed. (I think.) – Keith Thompson Apr 21 '16 at 20:13
  • Right. Although local variables with constant initial values might be put into the data segment, and then the code that initializes local variables can just do a memcpy from there to the stack. – Barmar Apr 21 '16 at 20:14
1

With regard to your comment above:

I think you're asking "Q: how does the compiler know how to map a source-level construct (for example,int x) to a run-time location (such as [esp + 2]).

Yes, symbol tables play an important role as the compiler parses the source and generates the binary object file.

From the above link:

Symbol table is an important data structure created and maintained by compilers in order to store information about the occurrence of various entities such as variable names, function names, objects, classes, interfaces, etc. Symbol table is used by both the analysis and the synthesis parts of a compiler.

A symbol table may serve the following purposes depending upon the language in hand:

  • To store the names of all entities in a structured form at one place.

  • To verify if a variable has been declared.

  • To implement type checking, by verifying assignments and expressions in the source code are semantically correct.

  • To determine the scope of a name (scope resolution).

But generating and maintaining the symbol table is just one part of the compiler's job. Here are some good overviews of the entire process:

  • A pointer must get stored in a symbol table right? Otherwise how does the compiler know how many bytes to increment the pointer? If this pointer is then casted into a different pointer for example from double * to int * , does this information get updated in a symbol table? – Engineer999 Apr 21 '16 at 20:31
  • No. The "pointer" in the example above would be [esp + 2]. But the actual machine code implementation could be anything, depending on the platform (this example, x86) and how the compiler chooses to implement locals (in this example, as an offset from the current stack pointer). The symbol table doesn't store a pointer. The main point is that compiler's code generator looks up the variable in the symbol table (to generate the appropriate code). – paulsm4 Apr 21 '16 at 22:17
  • but aren't symbol tables also used to find the address of static variables etc. at runtime? – Engineer999 Apr 22 '16 at 10:10
0

Neither C, nor C++ dictate compilers where to store local (or global for that matter) variables.

Depending on the compiler, local variables might be stored in the stack, CPU registers, something else or not stored at all.

0

Local variables are processed at run time, but global variables are at compile time since their scope is predefined. Global variables are stored in data segment of process memory, whereas local gets stored in stack segment.

It can be cross verified with this piece of code:

int a= 0;
int main()
{
     int b =0 ;
}


After compiling:

       .file   "test4.c"
        .globl  a
        .bss
        .align 4
        .type   a, @object
        .size   a, 4
a:
        .zero   4
        .text
        .globl  main
        .type   main, @function
~                               

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.