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Before reading this question, I had never taken exception handling seriously. Now I see the necessity but still feel "Writing exception safe code is very hard".

See this example in that question's accepted answer:

void doSomething(T & t)
   if(std::numeric_limits<int>::max() > t.integer)  // 1.   nothrow/nofail
      t.integer += 1 ;                              // 1'.  nothrow/nofail
   X * x = new X() ;                // 2. basic : can throw with new and X constructor
   t.list.push_back(x) ;            // 3. strong : can throw
   x->doSomethingThatCanThrow() ;   // 4. basic : can throw

As the answer says, I can easily offer the basic guarantee by using std::unique_ptr. However when I catch a std::bad_alloc, I don't know whether it happens in the push_back or x->doSomethingThatCanThrow(), so I can't know whether t.list is still "good" or its last element is not fully prepared. Then the only choice is to discard t, show a scary message and abort, if t is essential for the entire program.

Code with strong guarantee doesn't have the problem, but “it can become costly” (this example involves a copy of the large list), and not so readable.

A possible solution may be making new wait until memory is available, removing the most annoying exception std::bad_alloc. Then 2. and 3. won't throw (provided X's construction and copy always succeed). I can just wrap 4. in a try block and deal with exceptions here (and pop_back the list). Then the function will provide nothrow guarantee, and the list will always contain good things.

The users won't care the difference between 100% CPU and 100% RAM. When they see a program hangs, they will close other programs so new finds enough memory and continues.

My question: Can this be implemented? Is there a nothrow new that waits until memory is available? Can I apply it globally (e.g. by #define new ...) so libraries before C++ was standardized can survive a temporary 100% RAM?

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Sanity Check: What if it tries to new 100 TB of memory when you only have 4 GB? Do you wait forever? –  Mysticial Dec 3 '13 at 6:25
"A possible solution may be making new wait until memory is available" — won't work in a single-threaded scenario. And also, std::bad_alloc and 100% RAM usage are absolutely unrelated. –  Joker_vD Dec 3 '13 at 6:26
What the? When a user sees your program hang, they don't close other programs. They close yours. –  chris Dec 3 '13 at 6:26
@Mysticial: then the program is not compatible with the hardware or x86. Waiting forever and letting the user do the force close has no difference from showing "your machine is too old" and forcing close itself. –  jingyu9575 Dec 3 '13 at 6:29
@chris it's the user's choice. If you find your Dota starting to lag do you close the game or other services? I often open many other programs when copying large files, and if the copy process hangs, I will rather stop reading webpages than have the file half-copy and try to fix it later. –  jingyu9575 Dec 3 '13 at 6:38

1 Answer 1

up vote 1 down vote accepted

It's a questionable design, but you can certainly do this with a 'new-handler'. The default new-handler simply throws std::bad_alloc. If the new-handler returns, new will loop, and attempt to allocate again. It is also used by the nothrow new operator, but a std::bad_alloc thrown by the new-handler is caught, and NULL returned, in that case.

You simply need to set the new-handler to your custom void (*)() handler function. At the very least, you might want to put the process to sleep for a while - say, 1/10 sec. Again, it might not be possible for the program to continue anyway - Linux, for example, has the 'OOM killer' which can be configured by an admin.

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IIRC, on Linux std::bad_alloc is almost never thrown due to the "overcommiting" feature. –  Joker_vD Dec 3 '13 at 13:36

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