# Size of pointers: Dependent factors

I am finding difficulties in understanding the factors on which the size of pointer variables in `C` is dependent on. I checked few references, the only information I got until now is `pointer` size is dependent on the processor architecture.I would like to know the following details

• Please explain more on how the architecure impacts the pointer size.
• In general, if the pointer is of `x bits` then `0 to 2^(X)-1` number of address locations should be there.I am losing track while relating the number of address locations and the actual amount of memory available to the program.
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It is 4 bytes on a 32 bit machine and 8 bytes on a 64 bit machine. This is not guaranteed by the Standard and even sometimes false in the real life. –  ouah Oct 28 '12 at 14:34
It is not guaranteed at all that 32-bit-cpu = 32bit pointers, etc. A small-footprint 32bit arch CPU on OS/400 uses 128-bit pointers and a single global 128-bit virtual address space. Your entering assumptions are wrong. See this question for more info if you're interested. –  WhozCraig Oct 28 '12 at 14:37
Many 64-bit machines can run both 32-bit and 64-bit executables. –  Jonathan Leffler Oct 28 '12 at 17:05

A pointer is a variable that holds the address of another memory location.

Now if you are running on a 32-bit architecture, the CPU's registers that hold memory references(and most likely, all other registers too) will be of 32-bit length; that's basically what's meant by 32-bit(the registers are of 32-bit word length) and hence a pointer(which is a memory location) would usually be 32-bits long(4 bytes)

Same applies to 64-bit CPUs, and hence the pointers in a C program compiled for 64-bit CPUs will usually have 8 bytes length(64 bits)

EDIT:
Please also note that in most modern architectures you don't really address physical memory with your code; you run and address what's called a Virtual Memory.

The basic concept is that the CPU/OS combination illusion your program that you have the full address space for you.

Again, the address-space(the space you can address in memory) length will depend on how far the CPU can address locations and that (in the general case) would depend on its word-size.

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Pointer size depends on a lot of factors (hardware, operating system, compiler, etc.), and not all pointer types on the same platform may have the same size. For example, there are embedded processors that use a Harvard architecture, where code and data are in separate memory areas, and each may have a different bus size (e.g., 8 bits for data, 16 bits for code). This means that object pointers (`int *`, `char *`, `double *`) may be 8 bits wide, but function pointers (`int (*)()`) may be 16 bits wide.

For another example, consider a word-addressed architecture, where the basic unit of memory is not an 8-bit byte, but a larger unit (where the width can be 16, 18, 24, 32, 36, 64, or 128 bits, or some other value; powers of 2 have proven to be convenient, but not necessary). Some of these architectures may choose to pack multiple `char` values into a single word, meaning that a `char *` needs a few extra bits to specify an offset into the word.

In the book C: A Reference Manual, Harbison & Steele describe an architecture with 36-bit words. Character data were stored as 7-bit ASCII values, meaning each word could hold 5 characters with one bit unused; all other types took up full words.

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