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Because our app has hard performance and memory constraints, our coding standards forbid the use of the default heap — ie, no malloc, no default new. Every memory allocation has to choose one of a few specific allocators; something like

// declared globally
void* operator new( size_t size, CustomAllocHeap* heap, const char* perpetrator_name )
  return heap->Allocate( size, perpetrator_name );
// imagine a bunch of CustomAllocHeap's declared globally or statically, thus

Vector* v = new( gPhysicsHeap, __FUNCTION__ ) Vector( 1.0f, 2.0f, 3.0f, 4.0f );
// or in a class
Thingy* p = new( this->LocalArenaHeap, __FUNCTION__ ) Thingy();

Although we've maintained good discipline on this with our code, some standard C++ components ( containers, std::function ) covertly make calls to the default new heap, which is very bad.

It would be nice to disable the default new altogether in some way, so that any line of code that implicitly results in a default allocation immediately throws a compiler error. That would let us notice these things right away.

We can obviously make new throw a runtime error ie

void* operator new ( size_t ) { __debugbreak(); return NULL; }  

but it would be much better to get warnings about this at compile time. Is that possible?

Our app is built for a fixed platform (x64 with Visual Studio); portability is irrelevant.

share|improve this question
Have you tried looking at linker output? I would think that you'd be able to tell from the linker map output whether the allocator routines are being called. It's not pointing at the offending line, but at least it would be able to break at build time. – Michael Kohne Aug 21 '13 at 19:21
an interesting pointer there:… – SirDarius Aug 21 '13 at 19:23
is it an option to implement the default (all forms of) new/delete in terms of your custom new? I seem to remember it's possible to export new/delete using a .def file, resulting in the (entire?) process using the exported version. – stijn Aug 21 '13 at 19:32
@stijn nice idea but it would not allow detection at compile-time – SirDarius Aug 21 '13 at 19:36
@stijn That is precisely what void* operator new ( size_t ) { __debugbreak(); return NULL; } is about: it replaces the default new operator that is used by the process, it just needs to be linked in. So, the OP knows about this mechanism, and doesn't think it can be used to solve his problem. – cmaster Aug 21 '13 at 19:38

You can implement the default new to call an unimplemented function. Then, at link time, you will get an error to the users of the bare new call:

#include <stdexcept>
inline void * operator new (std::size_t) throw(std::bad_alloc) {
    extern void *bare_new_erroneously_called();
    return bare_new_erroneously_called();

When I tested it on IDEONE, I got this error:

/home/geXgjE/ccrEKfzG.o: In function `main':
prog.cpp:(.text.startup+0xa): undefined reference to `bare_new_erroneously_called()'
collect2: error: ld returned 1 exit status

In my tests, using g++, there is no link error if there are no references to the bare new in the program. This is because g++ does not emit code for unused inline functions.

I don't have Visual Studio installed on my system, so the following information is just based on some documentation I have found. In order to get the inlined new operator to be seen everywhere, you should put its definition in a header file, and then use the /FI detect_bare_new.h option in your compiler.* According to this answer, Visual Studio will not generate code for unused inline functions (like g++). However, you should check to see if there is an optimization level that needs to be enabled for that behavior or not.

* g++ has a similar compiler option: -include detect_bare_new.h.

This assumes that you intend to pass your own allocators to C++ templates and classes in the standard C++ library. If you do not, then inlined code in the standard headers that call the default allocator (which will call new) will trigger the linking error as well. If you wish to allow the standard C++ library to use the default new, then an easy way to make it work (at the expense of longer compile times) is to add all the standard C++ headers you intend to include at the top of the detect_bare_new.h file.

You state that portability of the solution is not important to you. But for the sake of completeness, I should highlight the issue that Ben Voigt correctly points out: The C++ standard does not guarantee the behavior of not generating code for unused inline functions. So, one may get a linking error even if the function is not used. But, if the code has no other references to the unimplemented function except within the stubbed new implementation, the error would be within the new definition itself. For example, g++ could generate an error like:

/home/QixX3R/cczri4AW.o: In function `operator new(unsigned int)':
prog.cpp:(.text+0x1): undefined reference to `bare_new_erroneously_called()'
collect2: error: ld returned 1 exit status

If your system is one that generates code for unused inline functions, you may still have a workaround. The workaround will work if the linker will report all erroneous references to the undefined function. In that case, if the only linking error observed is due to the definition of the new operator itself, there are no unexpected calls to the bare new. After verifying that the code only has that single error, you could then change the link line to include an object or library that has an appropriate definition of bare_new_erroneously_called() that would throw a runtime exception.

share|improve this answer
Neat trick, I need to remember that :-) – cmaster Aug 21 '13 at 19:44
Are you sure this is legal according to the standard? Answers to this question suggest that it may not be legal. – dasblinkenlight Aug 21 '13 at 19:44
Since operator new isn't a template, this will cause an error whether it is called or not. – Ben Voigt Aug 21 '13 at 19:44
@jxh: On one particular toolchain and set of compiler and linker options, perhaps, but that's not Standard behavior. – Ben Voigt Aug 21 '13 at 19:54
@jxh: There's nothing wrong with the syntax, but the function is odr-used and you haven't provided a definition. – Ben Voigt Aug 21 '13 at 19:56

If your own "new" operator is not named "new" but differently (e.g. "myNew") you could use a "#define" in a way replacing "new" by rubbish:

#define new *+-/&

The pre-compiler would now replace a "new":

x = new mytype;

By the rubbish:

x = *+-/& mytype;

The advantage compared to a message at linking time is that this will generating a compiler message immediately while compiling the C++ file, not in the end when linking. You also see the line where the "new" is located.

The disadvantage is that you'll have to "#include" the file containing this "#define" in all C++ files in your project.

share|improve this answer
I don't know if this will work when linking against pre-compiled libs – Dan F Aug 22 '13 at 12:39
@DanF: Usually, coding standards don't extend to third-party libraries provided in pre-compiled form. A non-inline version of my suggestion (and an extension of it that covers malloc() and friends) could detect if the library is using dynamic allocation, but the only solution then would be to override malloc() and new() itself with different behavior, or recompile modified versions of the offending libraries. – jxh Aug 22 '13 at 16:54
But this will also break new (g_SpecificAllocator) Thingy() which we do use. – Crashworks Aug 22 '13 at 18:25

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