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I was wondering... what if when you do a new, the address where the reservation starts is 0x0? I guess it is not possible, but why? is the new operator prepared for that? is that part of the first byte not usable? it is always reserved when the OS starts?

Thanks!

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Note that NULL doesn't have to correspond to an address of 0... –  Oliver Charlesworth Jan 18 '13 at 21:39
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Related: stackoverflow.com/a/7547168/544198 –  PearsonArtPhoto Jan 18 '13 at 21:40
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Perhaps you meant OS and not SO? –  Jesse Good Jan 18 '13 at 21:44
    
I hope someone answers if C/C++ standard guarantees that &x != NULL. –  zch Jan 18 '13 at 21:46
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While NULL doesn't have to correspond to address zero, it's a royal PITA to implement a conforming runtime environment where that's not the case. –  Hot Licks Jan 18 '13 at 21:52

4 Answers 4

up vote 9 down vote accepted

The null pointer is not necessarily address 0x0, so potentially an architecture could choose another address to represent the null pointer and you could get 0x0 from new as a valid address. (I don't think anyone does that, btw, it would break the logic behind tons of memset calls and its just harder to implement anyway).

Whether the null pointer is reserved by the Operative System or the C++ implementation is unspecified, but plain new will never return a null pointer, whatever its address is (nothrow new is a different beast). So, to answer your question:

Is memory address 0x0 usable?

Maybe, it depends on the particular implementation/architecture.

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Are you sure about that? Is the following code wrong? int * p = new( std::nothrow ) int; if( !p ) { ... } –  Peter Ruderman Jan 18 '13 at 21:51
    
@PeterRuderman: Why would that code be wrong? Have you read the note about nothrow new in my answer? –  K-ballo Jan 18 '13 at 21:52
    
This is the best answer –  PinkElephantsOnParade Jan 18 '13 at 21:53
    
Well, the intent of the if is to check if p is non-null. But isn't it assuming that the null pointer is equivalent to 0? –  Peter Ruderman Jan 18 '13 at 21:54
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Yes, p == 0 && reinterpret_cast<intptr_t>( p ) != 0 is permitted to be false. The mapping via reinterpret_cast from addresses to integers is implementation-defined, and a null pointer does not have to map to 0. For that matter, reinterpret_cast<void*>(strlen("")) == (void*)0 can be false, because the special rule that says a null pointer constant must convert to a null pointer doesn't apply to all integer values equal to 0, only to integer constant expressions with value 0. –  Steve Jessop Jan 18 '13 at 23:16

"Early" memory addresses are typically reserved for the operating system. The OS does not use early physical memory addresses to match to virtual memory addresses for use by user programs. Depending on the OS, many things can be there - the Interrupt Vector Table, Page table, etc.

Here is a non-specific graph of layout of physical and virtual memory in Linux; could vary sligthly from distro to distro and release to release:

http://etutorials.org/shared/images/tutorials/tutorial_101/bels_0206.gif

^Don't be confused by the graphic - the Bootloader IS NOT in physical memory... don't know why they included that... but otherwise it's accurate.

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I thought that was late memory addresses. –  Puppy Jan 18 '13 at 21:41
    
What about inside a kernel? –  zch Jan 18 '13 at 21:43
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It is possible to put anything anywhere inside the kernel, since you have direct hardware access to the memory. Since the virtual addressing mechanism is "outside of" the kernel, the answer is "it depends on the kernel" –  Matt Jan 18 '13 at 21:47
    
@DeadMG That "High Memory" is in virtual memory. –  PinkElephantsOnParade Jan 18 '13 at 21:48

I think you're asking why virtual memory doesn't map all the way down to 0x0. One of the biggest reasons is so that it's painfully obvious when you failed to assign a pointer - if it's 0x0, it's pointing to "nothing" and always wrong.

Of course, it's possible for NULL to be any value (as it's implementation-dependent), but as an uninitialized int's value is 0, on every implementation I've seen they've chosen to keep NULL 0 for consistency's sake.

There are a whole number of other reasons, but this is a good one. Here is a Wikipedia article talking a little bit more about virtual addressing.

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In fact, in MSVC debug builds, the memory behind most addresses in the low range is filled with a specific pattern so it's easier to detect wrong pointer operations. –  lethal-guitar Jan 18 '13 at 21:42
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@lethal-guitar: I know they do that with uninitialized memory, and out of bounds memory, but I'm pretty sure they dont do that with low range addresses. –  Mooing Duck Jan 18 '13 at 21:47
    
Hmm, maybe I'm wrong, but I think they do - so if you have a pointer to an object and it's a NULL pointer for some reason, trying to access a member will be 0+something, and by filling the pattern there, it's easy to detect as well. But yeah, I'm not 100% sure.. –  lethal-guitar Jan 18 '13 at 21:54
    
@Matt The bootloader certainly is in physical memory, at least when you're booting. A lot of systems, especially those with small address spaces, will remap the addresses corresponding to the bootloader once they've finished loading, but this isn't necessarily the case. –  James Kanze Jan 19 '13 at 1:14
    
@lethal-guitar Most modern VM based systems will simply leave the first page of your address space unmapped, so you the program will trap if you try to access it. It's not filled with anything, since it's simply not there. –  James Kanze Jan 19 '13 at 1:19

Many memory addresses are reserved by the system to help with debugging.

0x00000000 Returned by keyword "new" if memory allocation failed

0xCDCDCDCD Allocated in heap, but not initialized

0xDDDDDDDD Released heap memory.

0xFDFDFDFD "NoMansLand" fences automatically placed at boundary of heap memory. Should never be overwritten. If you do overwrite one, you're probably walking off the end of an array.

0xCCCCCCCC Allocated on stack, but not initialized

But like a few others have pointed out, there is a distinction between physical memory addresses which is what the OS uses, and logical memory addresses which are assigned to your application by the OS. Example image shown here.

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new throws an exception if allocation failed. –  Luchian Grigore Jan 18 '13 at 21:52
    
sorry I was thinking malloc not new. –  Porkbutts Jan 18 '13 at 22:35
    
@Porkbutts And malloc returns a null pointer, which isn't necessarily 0x00000000. All of the others are very system specific; on most systems, at least when optimization is active, uninitialized memory can be anything, and released heap memory retains its last values. –  James Kanze Jan 19 '13 at 1:21

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