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I was just wondering how placement new would behave when it is passed a buffer thats not sufficient for allocation. But it seems like it succeeds anyway. Here's my code:

#include <stdio.h>
#include <malloc.h>
#include <new>

class MyClass
{
    public:
        char data;
        char data1;
};


int main() {
    printf("sizeof MyClass: %lu\n", (unsigned long)sizeof(MyClass));

    void *place = malloc(sizeof(MyClass) - 2);

    MyClass *ptr = new (place) MyClass();

    ptr->data = 10;
    ptr->data1 = 20;
    printf("%d\n", ptr->data1); //This seems to have work fine, storing the data as always
}

Is this the expected behavior? Somebody please explain how come this works. Thanks.

PS: I'm using a 64 bit Ubuntu system, g++ compiler.

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6  
Undefined behaviour like writing past the end of an array. –  Seth Carnegie Nov 6 '11 at 4:49

2 Answers 2

up vote 3 down vote accepted

Calling placement new on a block of memory that isn't big enough for the type is undefined behavior. It can (and likely will in a real program) trash your heap.

Undefined behavior is undefined, so the program can appear to proceed as normal, even though you're likely trashing memory that doesn't belong to you. Your simple example doesn't even attempt to free the memory it allocated, so you never really test the heap to see if it was corrupted.

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Any operating system worth their salt will kill any process if it tries to write to memory that it does not own. So a segfault is much more likely than actually thrashing the memory of another process. –  Etienne de Martel Nov 6 '11 at 4:59
    
@EtiennedeMartel: I didn't say anything about trashing the memory of another process. I didn't say anything about processes at all. By "own" and "heap", I didn't mean the OS's concept of memory ownership and heap (ie: pages of memory from the virtual memory table assigned to a process). I meant malloc's heap and what malloc considers to be your memory. –  Nicol Bolas Nov 6 '11 at 5:27
    
@EtiennedeMartel But trashing a bit over a buffer, or random memory that is allocated to your program, can just screw up your program. Valgrind will still catch it though, and a segfault definitely is likely. –  Aria Buckles Nov 6 '11 at 5:30
    
@Nicol I was refering to the "thrashing memory that doesn't belong to you". If it doesn't belong to you, it belongs to someone else, and you'll get a segfault. You can't write to memory you don't own. –  Etienne de Martel Nov 6 '11 at 5:31
1  
It's very possible to write to memory that is mapped to your local process but which is not memory that you are supposed to be writing to. Doing that will not trigger an immediate segfault, because the segfault mechanism is based on watching which pages your process reads/writes to, and this particular error involves writing to a page that your process owns. In practice, the result of doing that can range from (no observable symptoms) to (corrupt data causes a segfault later on) to (no crash, just strange behavior). Subtle bugs like that are what cause C++ programmers to age prematurely :) –  Jeremy Friesner Nov 6 '11 at 8:10

Placement new has nothing to do with allocation. It doesn't know nor does it care how big the buffer you pass is - its only job, really, is to call the constructor on an object that shall begin its allocation (and presumably fit at) the address you passed to it.

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This is somewhat misleading. Yes, the actual placement new just calls the constructor. But you cannot construct an object on memory that you don't own. So while the placement new itself isn't technically the problem, placement new is what allows the problem to manifest. –  Nicol Bolas Nov 6 '11 at 8:08
    
But that's the point I'm making. It's a dumb function. It doesn't know or care what you pass it - that's your job. –  Mahmoud Al-Qudsi Nov 6 '11 at 8:23
    
My point is that what you said is why the behavior is undefined. It's misleading because you never actually say that it does in fact cause undefined behavior. Only that it calls the constructor on memory that's too small for the object. –  Nicol Bolas Nov 6 '11 at 8:29

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