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I understand the purpose of the NULL constant in C/C++, and I understand that it needs to be represented some way internally.

My question is: Is there some fundamental reason why the 0-address would be an invalid memory-location for an object in C/C++? Or are we in theory "wasting" one byte of memory due to this reservation?

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Possible duplicate stackoverflow.com/questions/2759845/… –  srikanta Jun 2 '10 at 18:45
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0 is not necessary an invalid memory location. Related question: stackoverflow.com/questions/2511921/… –  Kirill V. Lyadvinsky Jun 2 '10 at 18:57
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@aioobe: If you understand the purpose of NULL and that null-pointer has to be represented some way internally, then you must understand that it has absolutely nothing to do with 0-address. Null-pointer can be numerically tied to any address, not necessarily to 0-address. –  AnT Jun 2 '10 at 19:05
    
In all hw architecture I am aware of, the "begin" of the memory (address 0 and beyond) is used to store things like interrupt vectors and more stuffs. So it is a reasonable pick to intend 0 as a not-valid address for user applications, even when indeed because of MMU that address could be something different from the 0-address before MMU were used. the important is that NULL must be an invalid address, i.e. an address that can't be "mapped" to the program; likely it's numerically 0 always, but it's not a need –  ShinTakezou Jun 2 '10 at 20:17
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I've worked with several microprocessors that had no such limitations on address 0. The null pointer can, and sometimes is, a perfectly valid address. What is important is that the compiler not create objects there. Technically, it is a compiler limitation, not an architectural one. –  Dennis Zickefoose Jun 2 '10 at 21:22

12 Answers 12

up vote 19 down vote accepted

The null pointer does not actually have to be 0. It's guaranteed in the C spec that when a constant 0 value is given in the context of a pointer it is treated as null by the compiler, however if you do

char *foo = (void *)1;
--foo;
// do something with foo

You will access the 0-address, not necessarily the null pointer. In most cases this happens to actually be the case, but it's not necessary, so we don't really have to waste that byte. Although, in the larger picture, if it isn't 0, it has to be something, so a byte is being wasted somewhere

Edit: Edited out the use of NULL due to the confusion in the comments. Also, the main message here is "null pointer != 0, and here's some C/pseudo code that shows the point I'm trying to make." Please don't actually try to compile this or worry about whether the types are proper; the meaning is clear.

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void *foo = 1 is not valid in neither C nor C++. Must be void *foo = (void *) 1. –  AnT Jun 2 '10 at 19:09
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Theoretically, there doesn't have to be a null pointer set aside anywhere. But then programmers would have to have isValid flags associated with all their pointers instead. So the options are to have a byte wasted somewhere, or lots of bytes wasted everywhere. –  Dennis Zickefoose Jun 2 '10 at 19:19
    
Your code snippet invokes undefined behavior, but I won't downvote because the meaning is clear. –  jalf Jun 2 '10 at 19:21
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Alternately, int z = 0; void *foo = (void *)z; won't necessarily produce a null pointer (at least in C++; I'm not as up on the C standards). –  David Thornley Jun 2 '10 at 19:32
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Nitpick: NULL (in all caps) means the preprocessor macro (which is, by definition, 0 (or possibly (void*) 0 for some C implementations). You mean the null pointer. c-faq.com/null/varieties.html –  jamesdlin Jun 2 '10 at 20:21

This has nothing to do with wasting memory and more with memory organization.

When you work with the memory space, you have to assume that anything not directly "Belonging to you" is shared by the entire system or illegal for you to access. An address "belongs to you" if you have taken the address of something on the stack that is still on the stack, or if you have received it from a dynamic memory allocator and have not yet recycled it. Some OS calls will also provide you with legal areas.

In the good old days of real mode (e.g., DOS), all the beginning of the machine's address space was not meant to be written by user programs at all. Some of it even mapped to things like I/O. For instance, writing to the address space at 0xB800 (fairly low) would actually let you capture the screen! Nothing was ever placed at address 0, and many memory controller would not let you access it, so it was a great choice for NULL. In fact, the memory controller on some PCs would have gone bonkers if you tried writing there.

Today the operating system protects you with a virtual address space. Nevertheless, no process is allowed to access addresses not allocated to it. Most of the addresses are not even mapped to an actual memory page, so accessing them will trigger a general protection fault or the equivalent in your operating system. This is why 0 is not wasted - even though all the processes on your machine "have an address 0", if they try to access it, it is not mapped anywhere.

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This is only peripherally related to the issue, but wasn't page 0 reserved for the interrupt table? If so, then 0 would be a valid address. –  Steven Sudit Jun 2 '10 at 19:01
    
@Steven On the x86, only in real mode. In protected mode, the physical location of the interrupt table is specified in the IDTR register. A reasonable kernel would never map a page of an unprivileged process's virtual memory onto the interrupt table. –  user168715 Jun 2 '10 at 19:53
    
@user168715: Which is one of many good reasons why Windows 9x/Me kernels can't be called reasonable... –  slacker Jun 2 '10 at 20:46
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@slacker: In their defense, MS wasn't trying to be reasonable. Rather it wanted to ensure backward compatibility at any cost, even sanity. –  Steven Sudit Jun 2 '10 at 21:10
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The color text mode video memory is actually mapped to the real mode segment 0xB800, which is actually quite a high address in real mode (it is above the famous "640k limit"). –  caf Jun 2 '10 at 23:55

The zero address and the NULL pointer are not (necessarily) the same thing. Only a literal zero is a null pointer. In other words:

char* p = 0; // p is a null pointer

char* q = 1;
q--; // q is NOT necessarily a null pointer

Systems are free to represent the null pointer internally in any way they choose, and this representation may or may not "waste" a byte of memory by making the actual 0 address illegal. However, a compiler is required to convert a literal zero pointer into whatever the system's internal representation of NULL is. A pointer that comes to point to the zero address by some way other than being assigned a literal zero is not necessarily null.

Now, most systems do use 0 for NULL, but they don't have to.

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There is no requirement that a null pointer be equal to the 0-address, it's just that most compilers implement it this way. It is perfectly possible to implement a null pointer by storing some other value and in fact some systems do this. The C99 specification §6.3.2.3 (Pointers) specifies only that an integer constant expression with the value 0 is a null pointer constant, but it does not say that a null pointer when converted to an integer has value 0.

An integer constant expression with the value 0, or such an expression cast to type void *, is called a null pointer constant.

Any pointer type may be converted to an integer type. Except as previously specified, the result is implementation-defined. If the result cannot be represented in the integer type, the behavior is undefined. The result need not be in the range of values of any integer type.

On some embedded systems the zero memory address is used for something addressable.

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+1 for consideration of embedded systems. –  Thomas Matthews Jun 2 '10 at 19:32
    
+1 for technical accuracy –  Johannes Schaub - litb Jun 3 '10 at 17:09
    
Would there be any means by which an embedded system where the machine representation of the null pointer constant was something other than 0 could allow code to "smoothly" create a pointer to physical address zero? The only approach I can think of would be to store pointer addresses as something like of the real address and the null pointer constant, but that seems really icky. –  supercat Mar 6 '12 at 0:57

It is not necessarily an illegal memory location. I have stored data by dereferencing a pointer to zero... it happens the datum was an interrupt vector being stored at the vector located at address zero.

By convention it is not normally used by application code since historically many systems had important system information starting at zero. It could be the boot rom or a vector table or even unused address space.

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On many processors address zero is the reset vector, wherein lies the bootrom (BIOS on a PC), so you are unlikely to be storing anything at that physical address. On a processor with an MMU and a supporting OS, the physical and logical address addresses need not be the same, and the address zero may not be a valid logical address in the executing process context.

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NULL is typically the zero address, but it is the zero address in your applications virtual address space. The virtual addresses that you use in most modern operating systems have exactly nothing to do with actual physical addresses, the OS maps from the virtual address space to the physical addresses for you. So, no, having the virtual address 0 representing NULL does not waste any memory.

Read up on virtual memory for a more involved discussion if you're curious.

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This only works on those OS's that support a virtual address range. On embedded systems, the address 0 is valid (especially if there is something located there, like RAM or a UART). –  Thomas Matthews Jun 2 '10 at 19:32

I don't see the answers directly addressing what i think you were asking, so here goes:

Yes, at least 1 address value is "wasted" (made unavailable for use) because of the constant used for null. Whether it maps to 0 in linear map of process memory is not relevant.

And the reason that address won't be used for data storage is that you need that special status of the null pointer, to be able to distinguish from any other real pointer. Just like in the case of ASCIIZ strings (C-string, NUL-terminated), where the NUL character is designated as end of character string and cannot be used inside strings. Can you still use it inside? Yeah but that will mislead library functions as of where string ends.

I can think of at least one implementation of LISP i was learning, in which NIL (Lisp's null) was not 0, nor was it an invalid address but a real object. The reason was very clever - the standard required that CAR(NIL)=NIL and CDR(NIL)=NIL (Note: CAR(l) returns pointer to the head/first element of a list, where CDR(l) returns ptr to the tail/rest of the list.). So instead of adding if-checks in CAR and CDR whether the pointer is NIL - which will slow every call - they just allocated a CONS (think list) and assigned its head and tail to point to itself. There! - this way CAR and CDR will work and that address in memory won't be reused (because it is taken by the object devised as NIL)

ps. i just remembered that many-many years ago i read about some bug of Lattice-C that was related to NULL - must have been in the dark MS-DOS segmentation times, where you worked with separate code segment and data segment - so i remember there was an issue that it was possible for the first function from a linked library to have address 0, thus pointer to it will be considered invalid since ==NULL

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Thanks for the interesting answer. However, char *foo = (void *)1; --foo; // do something with foo seems to indicate that the addres is not actually wasted after all? –  aioobe Jun 4 '10 at 22:11
    
@aioobe - it is more the case of "you shouldn't", not "you can't". It depends on the compiler/environment - in some runtime de-referencing of NULL will be detected and prevented. Not to mention that use of memory not provided by malloc/OS is heresy! :-) –  Nas Banov Jun 5 '10 at 4:36

But since modern operating systems can map the physical memory to logical memory addresses (or better: modern CPUs starting with the 386), not even a single byte is wasted.

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If I had three GB of RAM and a 32-bit OS, it would waste a whole 4096 byte page. –  kmm Jun 2 '10 at 19:11
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@kmm No. It's just that the bottom page of the virtual address space of each process is not mapped. The actual physical page 0 can still be used (assuming it is RAM) and can be mapped anywhere into any of the processes' address space. –  JeremyP Jun 2 '10 at 19:21
    
The virtual address space of a 32 bit OS is only 3 GB for each process. If I have 3 GB RAM, and there needs to be at least one NULL pointer, somewhere, you're wasting a page of memory. –  kmm Jun 3 '10 at 8:50

As people already have pointed out, the bit representation of the NULL pointer has not to be the same as the bit represention of a 0 value. It is though in nearly all cases (the old dinosaur computers that had special addresses can be neglected) because a NULL pointer can also be used as a boolean and by using an integer (of suffisent size) to hold the pointer value it is easier to represent in the common ISAs of modern CPU. The code to handle it is then much more straight forward, thus less error prone.

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You are correct in noting that the address space at 0 is not usable storate for your program. For a number of reasons a variety of systems do not consider this a valid address space for your program anyway.

Allowing any valid address to be used would require a null value flag for all pointers. This would exceed the overhead of the lost memory at address 0. It would also require additional code to check and see if the address were null or not, wasting memory and processor cycles.

Ideally, the address that NULL pointer is using (usually 0) should return an error on access. VAX/VMS never mapped a page to address 0 so following the NULL pointer would result in a failure.

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The memory at that address is reserved for use by the operating system. 0 - 64k is reserved. 0 is used as a special value to indicate to developers "not a valid address".

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Not necessarily, in embedded systems (which may or may not have an OS) all bytes within the pointer's range are possible. Valid addresses are defined by the implementation. The address 0 may be valid and may be in RAM and needs to have code copied there. –  Thomas Matthews Jun 2 '10 at 19:28
    
Ah, yes, true. I was thinking strictly from a Windows POV. –  Amy Jun 2 '10 at 19:43

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