I'm making a little memory leak finder in my program, but my way of overloading new and delete (and also new[] and delete[]) doesn't seem to do anything.

void* operator new (unsigned int size, const char* filename, int line)
    void* ptr = new void[size];
    return ptr;

The way I overloaded new is shown in the code snippet above. I guess it's something with the operator returning void* but I do not know what to do about it.

  • 8
    "doesn't seem to do anything": what do you mean? You overloaded the operator, but you haven't overridden the default operator new, so "new x" calls the default new while "new (filename, line) x" calls your overloaded version. – Max Lybbert Feb 24 '09 at 21:22
void* ptr = new void[size];

Can't do that. Fix it.

Never ever try to overload new/delete globally. Either have them in a base class and derive all your objects from this class or use a namespace or a template allocator parameter. Why, you may ask. Because in case your program is more than a single file and using STL or other libraries you are going to screw up.

Here's a distilled version of new operator from VS2005 new.cpp:

void * operator new(size_t size) _THROW1(_STD bad_alloc)
{       // try to allocate size bytes
   void *p;
   while ((p = malloc(size)) == 0)
    if (_callnewh(size) == 0)
     {       // report no memory
        static const std::bad_alloc nomem;

     return (p);
  • 7
    Actually, I had a good reason to do that once. We had a compiler "issue" where it was using heaps in an unsafe way across DLL boundries. The fix was to create a custom version of "new" that used a specific named heap. – T.E.D. Feb 24 '09 at 18:50
  • 2
    Why did you not file a bug and instead chose to play with fire? – dirkgently Feb 24 '09 at 18:52
  • We did. The response we got back was something along the lines of "DLLs don't work very well cross-process in our system". We eventually quit using them, but in the short term this fixed the problem. – T.E.D. Feb 24 '09 at 20:33
  • 5
    There will be no problems with libraries and everything else if you will not try to deallocate memory that wasn't allocated by you (and vice versa). And STL can use custom memory allocators. We use custom new/delete operators in debug builds for long time and have no problems. – n0rd Feb 25 '09 at 8:23
  • 5
    "Why did you not file a bug and instead chose to play with fire?" If you ever had to work with a vendor you would know the answer to that question. Some are better than others, some would just say "thanks for the bug report - it will be fixed in the next version - oh by the way your license doesn't cover the next version..." Some may even go so far as to say "it's not a bug, it's a feature" as was stated by @T.E.D. – Natalie Adams Sep 14 '13 at 1:59

Never ever try to overload new/delete globally

Why is it whenever someone tries to use a less common feature of C++, someone acts like it should never be done?

It's done all the time, it is quite common, and I have not worked for a company that did not do this.

Globally overloaded new and delete are extremely helpful in tracking memory, memory bugs, buffer overruns, etc.

Nobody in their right mind is going to go through a program with several million lines of code, and add a new and delete member to each and every class. That's just stupid.

  • 1
    What would be needed here is an override of new/delete rather than overload. I have had to do this recently (and the reason I came across this question) on an embedded system using an RTOS. Although the RTOS provided thread-safe wrappers for malloc/free, the application was written in C++ with new/delete. To force teh use of the thread-safe malloc/delete, it was necessary to override new/delete globally. However new[], delete[] and new(std::nothrow) and delete(std::nothrow) also need to be considered. – Clifford Oct 8 '11 at 12:39
  • 1
    The truth is it is much better to abstract the new and delete away with a macro. NEW(), DELETE(). This will alow you to do additional tasks like pull a stack frame, Log a file and line #, Allocate from a predefined heap and placement new it into existance. Overloading just does not have the full range of flexibility that can be achieved through a full abstraction. – Dan Apr 10 '12 at 16:15
  • 37
    "Why is it whenever someone try's to use a less common feature of C++, someone acts like it should never be done?" I find it's a kneejerk reaction by people who are inexperienced. For example they read in some blog post using raw pointers is bad, using smart pointers makes you cool. So anyone using raw pointers (even if they have to due to the hardware limitations of the system) are wrong. – Natalie Adams Sep 14 '13 at 2:02
  • 10
    Many game engines also override global new and delete – Paul Renton Jun 22 '14 at 22:54

Maybe you can do what you want with a little bit of preprocessor magic:

#include <iostream>

using namespace std;

void* operator new (size_t size, const char* filename, int line) {
    void* ptr = new char[size];
    cout << "size = " << size << " filename = " << filename << " line = " << line << endl;
    return ptr;

#define new new(__FILE__, __LINE__)

int main() {
    int* x = new int;
  • 3
    should it be size_t instead of unsigned int? I believe on some platforms these types are not equivalent. – iggy Mar 30 '15 at 17:16
  • Why void* operator new (size_t size, const char* filename, int line)'s 1st argument is size_t? If I want to override delete operator, what should I write? – naive231 Sep 13 '17 at 11:57
  • 1
    @naive231: new always takes a size as its 1st parameter. It receives the byte size of the data that is being allocated (in this example, sizeof(int)). Anything extra passed to new is passed in secondary parameters – Remy Lebeau Mar 22 '18 at 19:02
  • 1
    Doesn't this torch placement new? – Jack Aidley Nov 18 '18 at 14:48

I think the problem here is that your new's parameter profile doesn't match that of the standard operator new, so that one isn't getting hidden (and is thus still being used).

Your parameter profiles for new and delete need to look like this:

void* operator new(size_t);
void operator delete(void*, size_t);

Are you invoking the overloaded operator correctly, i.e., passing it the additional parameters?


The problem relies with the two arguments that you have added to the overloaded new operator. Try making filename and line global in some way (or member variables if you're overloading new and delete for a single class). That should work better.

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