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As part of updating the toolchain for a legacy codebase, we would like to move from the Borland C++ 5.02 compiler to the Microsoft compiler (VS2008 or later). This is an embedded environment where the stack address space is predefined and fairly limited. It turns out that we have a function with a large switch statement which causes a much larger stack allocation under the MS compiler than with Borland's and, in fact, results in a stack overflow.

The form of the code is something like this:

#ifdef PKTS
#define RETURN_TYPE SPacket

typedef struct
   int a;
   int b;
   int c;
   int d;
   int e;
   int f;
} SPacket;

SPacket error = {0,0,0,0,0,0};
#define RETURN_TYPE int

int error = 0;

extern RETURN_TYPE pickone(int key);

void findresult(int key, RETURN_TYPE* result)
      case 1   : *result = pickone(5 ); break;
      case 2   : *result = pickone(6 ); break;
      case 3   : *result = pickone(7 ); break;
      case 4   : *result = pickone(8 ); break;
      case 5   : *result = pickone(9 ); break;
      case 6   : *result = pickone(10); break;
      case 7   : *result = pickone(11); break;
      case 8   : *result = pickone(12); break;
      case 9   : *result = pickone(13); break;
      case 10  : *result = pickone(14); break;
      case 11  : *result = pickone(15); break;
      default  : *result = error;       break;

When compiled with cl /O2 /FAs /c /DPKTS stack_alloc.cpp, a portion of the listing file looks like this:

$T2592 = -264                       ; size = 24
$T2582 = -240                       ; size = 24
$T2594 = -216                       ; size = 24
$T2586 = -192                       ; size = 24
$T2596 = -168                       ; size = 24
$T2590 = -144                       ; size = 24
$T2598 = -120                       ; size = 24
$T2588 = -96                        ; size = 24
$T2600 = -72                        ; size = 24
$T2584 = -48                        ; size = 24
$T2602 = -24                        ; size = 24
_key$ = 8                       ; size = 4
_result$ = 12                       ; size = 4
?findresult@@YAXHPAUSPacket@@@Z PROC            ; findresult, COMDAT

; 27   :    switch(key)

    mov eax, DWORD PTR _key$[esp-4]
    dec eax
    sub esp, 264                ; 00000108H


; 30   :       case 2   : *result = pickone(6 ); break;

    push    6
    lea ecx, DWORD PTR $T2584[esp+268]
    push    ecx
    jmp SHORT $LN17@findresult

; 31   :       case 3   : *result = pickone(7 ); break;

    push    7
    lea ecx, DWORD PTR $T2586[esp+268]
    push    ecx
    jmp SHORT $LN17@findresult

    call    ?pickone@@YA?AUSPacket@@H@Z     ; pickone
    mov edx, DWORD PTR [eax]
    mov ecx, DWORD PTR _result$[esp+268]
    mov DWORD PTR [ecx], edx
    mov edx, DWORD PTR [eax+4]
    mov DWORD PTR [ecx+4], edx
    mov edx, DWORD PTR [eax+8]
    mov DWORD PTR [ecx+8], edx
    mov edx, DWORD PTR [eax+12]
    mov DWORD PTR [ecx+12], edx
    mov edx, DWORD PTR [eax+16]
    mov DWORD PTR [ecx+16], edx
    mov eax, DWORD PTR [eax+20]
    add esp, 8
    mov DWORD PTR [ecx+20], eax

; 41   :    }
; 42   : }

    add esp, 264                ; 00000108H
    ret 0

The allocated stack space includes dedicated locations for each case to temporarily store the structure returned from pickone(), though in the end, only one value will be copied to the result structure. As you can imagine, with larger structures, more cases, and recursive calls in this function, the available stack space is consumed rapidly.

If the return type is POD, as when the above is compiled without the /DPKTS directive, each case copies directly to result, and stack usage is more efficient:


; 31   :       case 3   : *result = pickone(7 ); break;

    push    7
    call    ?pickone@@YAHH@Z            ; pickone
    mov ecx, DWORD PTR _result$[esp]
    add esp, 4
    mov DWORD PTR [ecx], eax

; 41   :    }
; 42   : }

    ret 0

Can anyone explain why the compiler takes this approach and whether there's a way to convince it to do otherwise? I have limited freedom to re-architect the code, so pragmas and the like are the more desirable solutions. So far, I have not found any combination of optimization, debug, etc. arguments that make a difference.

Thank you!


I understand that findresult() needs to allocate space for the return value of pickone(). What I don't understand is why the compiler allocates additional space for each possible case in the switch. It seems that space for one temporary would be sufficient. This is, in fact, how gcc handles the same code. Borland, on the other hand, appears to use RVO, passing the pointer all the way down and avoiding use of a temporary. The MS C++ compiler is the only one of the three that reserves space for each case in the switch.

I know that it's difficult to suggest refactoring options when you don't know which portions of the test code can change -- that's why my first question is why does the compiler behave this way in the test case. I'm hoping that if I can understand that, I can choose the best refactoring/pragma/command-line option to fix it.

share|improve this question
Rewrite the function to use a single call to pickone? –  K-ballo Jan 4 '13 at 18:10
@K-ballo: He said he isn't allowed to rewrite it. –  Ben Voigt Jan 4 '13 at 18:11
He said he isn't allowed to re-architect it: I didn't interpret that as barring a trivial rewrite of a single function body. –  Useless Jan 4 '13 at 18:12
@Useless: It's trivial in a minimal example. Probably not in the real codebase. And you have to assume that any changes require new testing. –  Ben Voigt Jan 4 '13 at 18:13
@Ben Voigt: He said he has limited freedom to rewrite it... –  K-ballo Jan 4 '13 at 18:13

2 Answers 2

Why not just

void findresult(int key, RETURN_TYPE* result)
   if (key >= 1 && key <= 11)
     *result = pickone(4+key);
     *result = error;

Assuming this counts as a smaller change, I just remembered an old question about scope, specifically related to embedded compilers. Does the optimizer do any better if you wrap each case in braces to explicitly limit the temporary scope?

   case 1   : { *result = pickone(5 ); break; }

Another scope-changing option:

void findresult(int key, RETURN_TYPE* result)
    RETURN_TYPE tmp;
      case 1   : tmp = pickone(5 ); break;
    *result = tmp;

This is all a bit hand-wavy, because we're just trying to guess which input will coax a sensible response from this unfortunate optimizer.

share|improve this answer
First, I'm sure the 4+key relationship doesn't exist in the real code. But you could use the switch to get the arguments, and make a single call as K-ballo suggested. However, OP said "I have limited freedom to re-architect the code". –  Ben Voigt Jan 4 '13 at 18:12
Yeah, perhaps OP can clarify whether changing the function body counts as architecture in this context. –  Useless Jan 4 '13 at 18:13
I had the same thought on scope changing. Unfortunately, neither change makes a difference. Reduced examples are difficult to deal with, I know... In this case, assume the function can't be altered. There are multiple functions, and they don't all necessarily take arguments. The pickone() with arg was just a way to keep the example small while keeping the compiler from assuming it would always get the same return value from pickone(). –  M.G. Jan 4 '13 at 18:30
I recalled this question when reading the gcc 4.7 release notes, since it ... now properly re-uses stack space allocated for temporary objects when their lifetime ends, which can significantly lower stack consumption for some C++ functions. I don't suppose you're able to use gcc? –  Useless Jan 11 '13 at 16:17

I'm going to assume that rewriting that function is allowed, as long as the changes don't "leak" outside the function. I'm also assuming that (as mentioned in the comments) you actually have a number of separate functions to call (but that they all receive the same type of input and return the same result type).

For such a case, I'd probably change the function to something like:

RETURN_TYPE func1(int) { /* ... */ }
RETURN_TYPE func2(int) { /* ... */ }
// ...

void findresult(int key, RETURN_TYPE *result) { 
    typedef RETURN_TYPE (*f)(int);

    f funcs[] = (func1, func2, func3, func4, func5, /* ... */ };

    if (in_range(key))
        *result = funcs[key](key+4);
        *result = error;
share|improve this answer
I appreciate the idea. Essentially, it's a "build your own jump table" approach that mimics what the compiler ordinarily does with a switch statement, but forces efficient handling of the return value. Unfortunately, the real code won't neatly reduce to this format. –  M.G. Jan 4 '13 at 19:04
@M.G. You may need to show us the real code then so we can offer appropriate solutions. –  Mark B Jan 4 '13 at 19:15

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