Is the size of a pointer the same as the size as the type it's pointing to, or do pointers always have a fixed size? For example...

int x = 10;
int * xPtr = &x;
char y = 'a';
char * yPtr = &y;

std::cout << sizeof(x) << "\n";
std::cout << sizeof(xPtr) << "\n";
std::cout << sizeof(y) << "\n";
std::cout << sizeof(yPtr) << "\n";

What would the output of this be? Would sizeof(xPtr) return 4 and sizeof(yPtr) return 1, or would the 2 pointers actually return the same size?

The reason I ask this is because the pointers are storing a memory address and not the values of their respective stored addresses.

  • @cigien This is a 10 year old question that is still viewed on a regular basis, and is still useful to those searching. You should really reconsider opening this question, and probably closing the 5-day old question as the duplicate.
    – MGZero
    Apr 19 at 18:33
  • @MGZero: Marked as duplicate a question can be viewed and voted in the same way as non-marked one. All existing answers are still accessible too. The only thing which is disabled by the "duplicate" mark is adding new answers.
    – Tsyvarev
    Apr 19 at 23:56
  • @Tsyvarev Understood. However, the latest answer on this thread was in 2020 and was relevant to the year posted, along with discussion from 2021. It seems silly to close this thread when it already suffices to address the topic with concise answers, while the newer thread has largely verbose answers (which arguably make them WORSE).
    – MGZero
    Apr 20 at 0:50
  • @MGZero The newer question is of much higher quality than this one. Same goes for the answers posted there.
    – Anoop Rana
    Apr 21 at 16:46
  • @Anya I respectfully disagree for the reasons above. It seems the community does as well, as this has been reopened via community votes.
    – MGZero
    Apr 21 at 19:33

8 Answers 8


Function Pointers can have very different sizes, from 4 to 20 bytes on an x86 machine, depending on the compiler. So the answer is no - sizes can vary.

Another example: take an 8051 program. It has three memory ranges and thus has three different pointer sizes, from 8 bit, 16 bit, 24 bit, depending on where the target is located, even though the target's size is always the same (e.g., char).

  • 1
    This only applies if you're looking at the assembly. In C++ the varying sizes are hidden from your view.
    – Jay
    Jun 29, 2012 at 19:00
  • 4
    @Jay: Not true at all. sizeof(p) can give different results for different types of pointers.
    – Nemo
    Oct 2, 2012 at 0:09
  • 2
    Sorry, I was not clear and specific. On a specific x86 machine the pointer size will not vary. On a different architecture or compiler the pointer size can be different. Being very careful to use the strict definition of 'vary'.
    – Jay
    Oct 2, 2012 at 11:49
  • 2
    @Jay A pointer to a member function can change its size when casting it (Pointers to member functions are very strange animals). Apr 14, 2014 at 8:53
  • 3
    @Jay This is not MSC-specific: All C++ compilers supporting multiple inheritance have to adjust the object pointer when invoking a member function pointer, and thus provide appropriate facilities to calculate the correct offset at run-time. Many compilers implement member function pointers through structures holding the required information. The only exception I know of is Digital Mars: It generates a thunk that performs the object pointer adjustment and member function pointers point to this stub code instead. This allows all pointers to be the same size. Apr 21, 2014 at 13:40

Pointers generally have a fixed size, for ex. on a 32-bit executable they're usually 32-bit. There are some exceptions, like on old 16-bit windows when you had to distinguish between 32-bit pointers and 16-bit... It's usually pretty safe to assume they're going to be uniform within a given executable on modern desktop OS's.

Edit: Even so, I would strongly caution against making this assumption in your code. If you're going to write something that absolutely has to have a pointers of a certain size, you'd better check it!

Function pointers are a different story -- see Jens' answer for more info.

  • 3
    @cf16 They can, but my answer only asserts that for modern desktop OS's, i.e. Win32/64, Linux... Can you give me an example of it differing on one of those systems? Mar 11, 2013 at 18:11
  • you mentioned some exceptions yourself, for example, but OK
    – 4pie0
    Mar 11, 2013 at 18:15
  • @cf16 Not trying to shut you down :) Do you know of any exceptions on say Windows 7? Mar 11, 2013 at 18:17
  • 1
    what a general example, windows, yes I know this guy. I refer to near/far pointers
    – 4pie0
    Mar 11, 2013 at 18:27
  • @4pie0 the link you provided does not indicate that in C, the sizes of those pointers would be different.
    – iheanyi
    Jan 30, 2018 at 20:55

On 32-bit machine sizeof pointer is 32 bits ( 4 bytes), while on 64 bit machine it's 8 byte. Regardless of what data type they are pointing to, they have fixed size.

  • 20
    What about a 32 bit executable on a 64 bit machine?
    – Ident
    Sep 8, 2015 at 14:58
  • It's also 32 bit. @Ident
    – learner
    Jul 8, 2021 at 7:44
  • @Ident Why do you think "32 bit executable on a 64 bit machine, pointer is 32 bit " is wrong? I just compiled a 32bit C program on my 64bit Ubunut, sizeof output is 4 bytes.
    – Rick
    Aug 10, 2021 at 11:10
  • 1
    @Rick it is about what word size it is compiled or and not about the machine it runs on, so if it is compiled for 32 bit then it will be 32 bit on a 64 machine, which makes the original answer incorrect.
    – Ident
    Aug 11, 2021 at 12:30

To answer your other question. The size of a pointer and the size of what it points to are not related. A good analogy is to consider them like postal addresses. The size of the address of a house has no relationship to the size of the house.

  • 1
    But the zip codes can have different size in different areas, See Are all data pointers of the same size. There is some relation in that pointers to different types can have different sizes.
    – Bo Persson
    Jun 29, 2012 at 10:20
  • 1
    If you look at the CPU there are different kinds of addressing methods (depends on the processor). The smallest encode the address relative to where the instruction is instead of giving an absolute address. Some are relative to a CPU register. They're a little larger than the first type (if you include the register). The largest have an absolute address. These are usually the largest since they need to have enough bits to encode the entire processor address space. C and C++ hide these details from you. You use absolute addresses and the compiler determines how it can get what you want.
    – Jay
    Jun 29, 2012 at 14:17

Pointers are not always the same size on the same architecture.

You can read more on the concept of "near", "far" and "huge" pointers, just as an example of a case where pointer sizes differ...



They can be different on word-addressable machines (e.g., Cray PVP systems).

Most computers today are byte-addressable machines, where each address refers to a byte of memory. There, all data pointers are usually the same size, namely the size of a machine address.

On word-adressable machines, each machine address refers instead to a word larger than a byte. On these, a (char *) or (void *) pointer to a byte of memory has to contain both a word address plus a byte offset within the addresed word.



Recently came upon a case where this was not true, TI C28x boards can have a sizeof pointer == 1, since a byte for those boards is 16-bits, and pointer size is 16 bits. To make matters more confusing, they also have far pointers which are 22-bits. I'm not really sure what sizeof far pointer would be.

In general, DSP boards can have weird integer sizes.

So pointer sizes can still be weird in 2020 if you are looking in weird places


The size of a pointer is the size required by your system to hold a unique memory address (since a pointer just holds the address it points to)

  • Except when pointing to things like a char on a word addressed machine.
    – Bo Persson
    Jul 19, 2011 at 18:29

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.