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Recently I ran the following code on ideone.com (gcc-4.3.4)

#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <new>

using namespace std;

void* operator new( size_t size ) throw(std::bad_alloc)
     void* ptr = malloc( 2 * 1024 * 1024 * 1024);
     printf( "%p\n", ptr );
     return ptr;

void operator delete( void* ptr )
    free( ptr );

int main()
    char* ptr = new char;
    if( ptr == 0 ) {
        printf( "unreachable\n" );
    delete ptr;

and got this output:


although new should never return a null pointer and so the caller can count on that and the compiler could have eliminated the ptr == 0 check and treat dependent code as unreachable.

Why would the compiler not eliminate that code? Is it just a missed optimization or is there some other reason for that?

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What do you mean "new should never return a null pointer"? You wrote the operator new()! Clearly your version does happily return a null pointer. If you don't respect the rules of the standard, anything can happen. –  Kerrek SB Nov 21 '11 at 14:48
Yeah, this question makes no sense. You're asking the compiler to perform an optimization that would actually result in incorrect code. Leave in the default implementation of new and then look at the assembly output to see if the compiler eliminates the dead code. –  Omnifarious Nov 21 '11 at 14:52
@Kerren SB: I mean that the compiler should believe the Standard and just assume that new should in no event return null and optimize the check away and if my code breaks because my replacement returns null - that's my fault anyway. –  sharptooth Nov 21 '11 at 14:59
@sharptooth: A new expression is more than a just an allocation. I don't think you can optimize over this entire chain of commands. See my answer for details. (It would be an entirely different question if you had said void * p = ::operator new(1);.) –  Kerrek SB Nov 21 '11 at 15:02

7 Answers 7

up vote 3 down vote accepted

I think you're expecting way too much of the optimizer. By the time the optimizer gets to this code, it considers new char to be just another function call whose return value is stored on the stack. So it doesn't see the if condition as deserving special treatment.

This is probably triggered by the fact that you overrode operator new, and it's beyond the optimizer's pay grade to look in there, see you called malloc, which can return NULL, and decide that this overridden version won't return NULL. malloc looks like Just Another Function Call. Who knows? You might be linking in your own version of that, too.

There are a couple other examples of overridden operators changing their behavior in C++: operator &&, operator ||, and operator ,. Each of these has a special behavior when not overridden, but behave like standard operators when overridden. For example, operator && will not even compute its right hand side at all if the left hand side evaluates as false. However, if overridden, both sides of the operator && are computed before passing them to operator &&; the short-circuit feature goes away completely. (This is done to support using operator overloading to define mini-languages in C++; for one example of this, see the Boost Spirit library.)

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I think this is very simple and you have two fundamentally different things confused:

  1. malloc() can return anything, in particular zero.

  2. the global C++ allocation function void * operator new(size_t) throw(std::bad_alloc) is required by the standard to either return a pointer to the required amount of storage (+ suitably aligned), or otherwise exit through an exception.

If you want to replace the global allocation function, it is your responsibility to provide a replacement that abides by the rules of the standard. The simplest version looks like this:

void * operator new(size_t n) throw(std::bad_alloc) {
  void * const p = std::malloc(n);
  if (p == NULL) throw std::bad_alloc();
  return p;

Any serious implementation should actually contain a loop to call the registered new-handler until the allocation succeeds, and only throw once there are no more new-handlers.

The program that you wrote is simply ill-formed.

Digression: Why is this new defined that way? Consider the standard allocation sequence when you say T * p = ::new T();. It is equivalent to this:

void * addr = ::operator new(sizeof(T));  // allocation
T * p = ::new (addr) T();                 // construction

If the second line throws (i.e. construction fails), the memory is deallocated with the corresponding deallocation function. If the first call fails, though, then the execution must never reach the second line! The only way to achieve this is by exiting through an exception. (The no-throw versions of the allocation functions are only for manual use where the user code can inspect the result of the allocator before proceeding to construction.)

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Okay, it's my responsibility to provide a well-formed replacement which I fail to do, but why would the compiler not count on me and optimize the check away? –  sharptooth Nov 22 '11 at 6:23
@sharptooth: As I said in my other comment, the new expression may well be far too complicated to optimize out this one step half-way down. Also, the standard doesn't say explicitly that new char; will never be zero, only that ::operator new(1), the one with the bad_alloc exception-specification, will never return a null pointer. If at all I imagine you could try and see if that is optimized out... –  Kerrek SB Nov 22 '11 at 12:48
I see your point. The behavior is the same with ::operator new() being called explicitly. –  sharptooth Nov 22 '11 at 12:56
Interesting. Well, the compiler isn't required to optimize anything :-) This is probably such an obscure niche situation that it's not worth bothering with. Any sane user code would never include the null check, so why add an optimization routine for bad code... maybe try a few other compilers, though. –  Kerrek SB Nov 22 '11 at 13:00
Downvoter, care to explain your objection? –  Kerrek SB Nov 26 '11 at 10:26

C++11 is clear on the issue:

void* operator new(std::size_t size); : ... 3 Required behavior: Return a non-null pointer to suitably aligned storage (3.7.4), or else throw a bad_alloc exception. This requirement is binding on a replacement version of this function.

You hit Undefined Behavior.

[edit] Now, why would this impede optimization? Compiler vendors tend to spend their time dreaming up optimizations for code patterns that are commonly used. There's usually little benefit for them to optimize for faster Undefined Behavior. (Some UB may be well-defined on that particular compiler and still be optimized, but the above example likely wouldn't be).

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This doesn't prohibit the compiler from performing the optimization I was asking about in any way. –  sharptooth Nov 22 '11 at 6:20
@sharptooth: True, added. –  MSalters Nov 22 '11 at 8:07
"There's usually little benefit for them to optimize for faster Undefined Behavior" -- But that's not what is being asked for; checking for null after new is not UB. Suppose the coding standard says to always check for NULL pointers, without exception (I have such a client). For them, the optimization is valuable. –  Jim Balter Feb 25 '13 at 6:19
@JimBalter: Then fix the client. Given int *p, the postconditions of both p = new int and if (p) are that p is not null. If you'd need to check in the first case, you must logically also check in the second case. I.e. if (p) { if (p) .... And since the latter is obviously redundant, so is the former. –  MSalters Feb 25 '13 at 15:47
client = customer. I can't fix them. I'm well aware of your point about logical equivalence ... but it works against your argument: the compiler does optimize a null test of p after if(p). –  Jim Balter Feb 25 '13 at 17:42

Why should the compiler do so ?

With an opaque implementation of new it's impossible to know whether the implementation is correct or not. Yours is non-standard, so you are lucky that it did check after all.

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There are more than one operator new; See here. And you did not declare your one as possiblity throwing an exception. So the compiler should not infer it does never return a null pointer.

I don't know very well the latest C++11 standard, but I guess that it is only the standard defined operator new(the one throwing exception) which is supposed to return a non-nil pointer, not any user defined ones.

And in the current GCC trunk, file libstdc++-v3/libsupc++/new don't seem to contain any specific attribute telling GCC that nil is never returned... even if I believe it is undefined behavior to get nil with a throwing new.

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Well, I tried to add throw(std::bad_alloc) - the behavior is the same. –  sharptooth Nov 21 '11 at 14:35
I'm confused. I thought that the standard declaration for operator new(size_t) was for the exception-throwing version, and you had to do operator new(size_t, std::nothrow) to get the null-returning version. –  Mike DeSimone Nov 21 '11 at 14:36
Exceptions specifications are not intended to declare the presence of exceptions, but the absence of any other kind of exceptions. And even then, it's a runtime check... –  Matthieu M. Nov 21 '11 at 14:37
@MikeDeSimone: you are right. The standard form takes just the size as argument, any other form may exist, and the supplementary arguments have to be explicitly passed at invocation new(std::nothrow()) T() for the no throw version. –  Matthieu M. Nov 21 '11 at 14:38
What is more suprising, is that most compilers (including GCC) don't suppose that this is never nil when optimizing & inlining. –  Basile Starynkevitch Nov 21 '11 at 17:19

although new should never return a null pointer

It shouldn't in normal operation. But how about a crazy situation when someone plugs out the memory, or it simply died, or it just gets full?

Why would the compiler not eliminate that code? Is it just a missed optimization or is there some other reason for that?

Because new can fail. If you use no-throw version, it can return NULL (or nulptr in c++11).

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I suspect the compiler has enough data to see that it's not a nothrow version. –  sharptooth Nov 21 '11 at 14:31
@sharptooth You are overloading operators new and delete, which do not throw. –  BЈовић Nov 21 '11 at 14:43
@VJo: The standard ones do not throw. Overridden ones can throw, and throwing would generally result in a call to std::terminate(). –  Mike DeSimone Nov 21 '11 at 14:48
@MikeDeSimone "Overridden ones can throw" you cannot "override" operator new, you can only replace or overload it. –  curiousguy Nov 26 '11 at 4:44
I meant replacement. –  Mike DeSimone Nov 26 '11 at 5:02

I checked the assembly produced with g++ -O3 -S and the standard new, gcc (4.4.5) does not remove the if(ptr == 0). It seems that gcc does not have compiler flags or function attributes to optimize NULL checks either.

So it appears that gcc does not support this kind of optimization at the current time.

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