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I have the following code fragment,

  char *chptr;
  int *numptr;

  printf("\nSize of char is %d\n",sizeof(chptr));
  printf("\nSize of int is %d\n",sizeof(numptr));

For which I got the following Output,

Size of char is 4
Size of int is 4   

Obviously the pointers can store addresses up to 232 - 1.

I am using Windows 7 32-bit Operating System with Code::Blocks 10.05 and MingW.

But my system is having an Pentium Dual-Core Processor with 36 Bit Address Bus. Currently I have 4 GB RAM. But suppose if I increase the size of my RAM to say 8 GB, How could the C Pointers deal with such an expanded address space? The size of the C pointer is just 32 bits but the address space is well over 232.

Any Suggestions? Thank You in Advance.

PS : I have checked the answers given here which deals with address storage in pointers, But they do not cover my question I believe.

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A single process on a 32-bit machine can only use 4GB of memory at once, but you can run more than one process. The magic of mapping multiple 4GB spaces into your bigger physical memory is done using the MMU which has a 32 bit address bus to the CPU, and a 36 bit address bus to memory. –  Joachim Isaksson Apr 23 '13 at 12:24
In a single process - single virtual memory space you are still limited to 4GB. –  zch Apr 23 '13 at 12:25
Your process can only handle 32 bits of address space, but the operating system and hardware can place it (almost) anywhere in the 36 bit space. The extra four bits is an extension of the hardware, used for its virtual memory translation, it can't actually be used by processes. I don't think "true" 36-bit systems have been made this side the 1990's. –  Joachim Pileborg Apr 23 '13 at 12:25
Not sure how relevant it is, but there's a good article by Raymond Chen which covers the fact that C describes an abstract machine, not a real one - specifically "There is no rule in the C language specification that the language must permit you to access any byte of memory in the computer". –  icabod Apr 23 '13 at 12:27
@Deepu A single process can (normally) only access 4GB at once, if you need to use more, you can start more processes or use a 64-bit CPU. If you're running something like a web server that starts a process for each request, you won't see a limitation (4GB is usually plenty for a single request, and each request can use up to 4GB), but if you need huge memory spaces in a single process, a 64 bit CPU is what you need. –  Joachim Isaksson Apr 23 '13 at 12:31

3 Answers 3

up vote 1 down vote accepted

The easiest solution for C pointers to deal with 8 GB is to again separate code and data. You'd then be able to have 4 GB of code and 4 GB of data, so 8 GB in total. You can't legally compare code pointer 0x00010000 and data pointer 0x00010000 anyway.

But realistically, the solution is to move to 64 bits. The 36 bits hack isn't useful; 128 GB of RAM is entirely possible today.

share|improve this answer

The addresses your pointers will use is in the virtual address space, not the physical address space (assuming you are using a modern O/S; you don't say in your question).

The O/S kernel will map virtual memory pages to physical address pages as-and-when necessary and manage that whole memory system without the user processes being aware.

If you are using a 32-bit O/S then you will probably have 2GB of user address space to address, which will dramatically increase when you move to a 64-bit O/S.

Check out this Wikipedia article on Virtual Memory.

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Erm... which 32bit OS actually still limits you to 2GB of user address space? I can say from personal experience that Solaris, Linux and Windows allow you at least 3GB, and quite possibly more. –  DevSolar Apr 23 '13 at 12:35
@DevSolar: 3GB on windows is not quite so easy as you have to change your boot.ini to allow 2GB+ apps to work. –  Goz Apr 23 '13 at 12:38
“32-bit O/S” is unclear terminology, because the address space used by an operating system may differ from the address space it supports in user processes. A single OS may even support address spaces of multiple sizes for different processes. –  Eric Postpischil Apr 23 '13 at 14:37
@EricPostpischil Yeah, agreed; lots of my answer was a bit wishy-washy, but I wanted to get the idea of the virtual address space across to the OP, who didn't appear to know of its existance. –  trojanfoe Apr 23 '13 at 14:41

Some hints:

  1. Check if your OS is 32 bit or 64 bit.
  2. Check if your compiler is capable of generating 64 bit pointers.
  3. Check if your compiler has additional data types for 64 bit pointers.
  4. Check if your compiler has extension to C language like keyword far or __far etc.
share|improve this answer
far pointer? The MS-DOG days are over, mate ;-) –  Nikos C. Apr 23 '13 at 12:35
^^ I hope so, but I don't know OP's compiler ;-) –  anishsane Apr 23 '13 at 12:37

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