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Is there any mature C/C++ compiler, capable of optimizing malloc/free (or new/delete) pairs info alloca? In other words, convert from heap-based memory to stack-based (ONLY for some limited cases).

This optimization may be allowed only for pair of malloc/free when both functions are in the same function (or even in the same block of {}), and free is called every time when malloc is called. Also, lets consider that pointer to malloced memory is not saved in some global variable.

So, will GCC/LLVM+clang/Intel Compiler convert such block of code:

{
   char *carray;
   carray = malloc(100);          // or malloc(N)
   // some string-like work with carray
   free(carray);
}

into

{
    char*carray;
    carray = alloca(100);  // or if(N<const1) carray=alloca(N);else carray=malloc(N)
    // the same work
    // nothing                       // or if(N>=const1) free(carray)
}

This conversion may be not very useful for every program, but I think, there may be some special compiler option.

PS (update1) We can limit our discussion only to cases when compiler Knows that malloc and free is from libc (stdlib)

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Year ago one man in llvm list said no and other man said yes and points to actual code –  osgx Apr 28 '12 at 16:00
3  
I think malloc is not an intrinsic. And it is quite dangerous to do so, since the compiler has no information about the run-time stack size. –  BlueWanderer Apr 28 '12 at 16:01
    
The transformation is unsafe if any other function of which the compiler cannot see the definition is called and is passed the result of malloc: the function might store the pointer somewhere and then skip the free by longjmp (C, usually) or an exception (C++). I suspect, keeping that in mind, that the transformation is less frequently useful than you imagine. –  hvd Apr 28 '12 at 16:37
1  
@osgx: the "actual code" relates to a malloc/free pair in which the allocated memory isn't used at all (but the pointer perhaps is compared with null). You're talking about something different, a malloc/free pair in which the allocated memory is accessed. –  Steve Jessop Apr 28 '12 at 16:58
1  
@osgx The 'other man said yes' to a different question. Neither that question nor the 'actual code' has anything to do with alloca(). –  EJP Apr 29 '12 at 1:03

3 Answers 3

In general, no compiler performs this optimization. That's good, because this thing can be potentially very harmful: bear in mind that the stack is usually very limited in its size. If a compiler optimized malloc+free into an alloca, the observable behavior of the code would change: for some inputs, it wouldn't crash with malloc+free, but it would with alloca (because the stack space got exhausted). Therefore, this optimization is unsafe (and illegal according to the standard, because it changes the observable behavior) and compilers don't even try to perform it.

That said, in some very specific circumstances, a compiler could perform it, but no compiler I'm aware of does.

The optimization performed by LLVM and mentioned in the comments is a different thing, it only optimizes out mallocs that are only compared to null and then freed.

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Actually, llvm 3.0 does similar optimization (malloced memory -> register), if malloc and free are used for storing scalar values (double in my test). But it didn't optimize example with 100 char array. –  osgx Apr 28 '12 at 16:33
    
@osgx: it's still not malloc -> alloca, though. –  Fanael Apr 28 '12 at 16:34
    
Your argument assumes that the stack size can be exhausted in situations in which malloc would succeed. That isn't necessarily true. Systems may allow the stack size to expand as needed, or more rarely, they don't use a linear stack at all. –  hvd Apr 28 '12 at 16:42
    
@hvd: you're right. Still, on typical systems this assumptions is true, and the OP specifically mentions compilers for typical systems; and on typical systems "expanding as needed" doesn't mean "arbitrarily big". –  Fanael Apr 28 '12 at 16:48
    
As I usually think, typical is not a Windows (with several-MB default stack); but typical is unix/linux (with growing stack, up to tens of 100 MB). Also, I'm interested in handling of lot number of small allocations. PS: Just got a code in LLVM to convert global_ptr=malloc() to global_array; but this is still not what I want. –  osgx Apr 28 '12 at 16:51

There's an off-shoot of LLVM called poolalloc that does this optimization. It's being maintained as part of SAFECode, and isn't in the mainline LLVM distribution.

It's described in Chris Lattner's PhD thesis and in this PLDI paper. The code is here.

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Technically, the compilers can optimize anything as long as they follow the As-If rule.
So, optimizing heap allocations to stack allocations would be possible but do to the compiler needs to be intelligent enough to probe the usage and determine that changing the allocation to stack won't affect the observable behavior of the program.

I am not aware of any compiler which does this.

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