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What's the difference between sizeof and alignof?

#include <iostream>

#define SIZEOF_ALIGNOF(T) std::cout<< sizeof(T) << '/' << alignof(T) << std::endl

int main(int, char**)
        SIZEOF_ALIGNOF(unsigned char);
        SIZEOF_ALIGNOF(unsigned short int);
        SIZEOF_ALIGNOF(short int);
        SIZEOF_ALIGNOF(unsigned int);
        SIZEOF_ALIGNOF(unsigned long int);
        SIZEOF_ALIGNOF(long int);
        SIZEOF_ALIGNOF(unsigned long long int);
        SIZEOF_ALIGNOF(long long int);

will output

1/1 1/1 2/2 2/2 4/4 4/4 4/4 4/4 4/4 8/8 8/8 8/8

I think I don't get what the alignment is...?

share|improve this question
try this again with structs instead of native types. – Robert Rouhani Jul 8 '12 at 21:40
Returns alignment in bytes (an integer power of two) required for any instance of the given type - en.cppreference.com/w/cpp/language/alignof. sizeof just gives the size, in bytes, of course. – chris Jul 8 '12 at 21:41
Maybe worth mentioning - sizeof is always a multiple of alignof – Steve314 Jul 8 '12 at 22:03

Well, "memory" is basically a huge array of bytes. However, most larger things like integers need more than 1 byte to store them -- a 32 bit value, for example, would use 4 consecutive bytes of memory.

Now, the memory modules in your computer aren't usually "bytes"; they are also organized with a few bytes "in parallel", like blocks of 4 bytes.

For a CPU, it's much easier = more efficient = better performance to not "cross" such block-borders when reading something like an integer:

memory byte    0 1 2 3     4 5 6 7       8 9 10 11
 integer       goooood

This is what the "alignment" says: an alignment of 4 means that data of this type should (or must, depends on the CPU) be stored starting at an address that is a multiple of 4.

You observation that sizeof==alignof is incorrect; try structures. Structures will also be aligned (because their individual members need to end up on the correct addresses), but their size will be much larger.

share|improve this answer
Extra point - although x86 will do unaligned reads and writes (slowly but correctly) for most things, some architectures require all operations to be aligned, and even in x86 there's some special cases that must be aligned (SIMD instructions, I think). – Steve314 Jul 8 '12 at 21:56
thanks! now I get it – user1494506 Jul 8 '12 at 21:56
@user1494506 - If this or any other answer correctly answers your question, consider marking it correct. (Of course this is purely your choice. Don't be forced into accepting answers because people say so (e.g. like I'm saying now)) :) – ArjunShankar Jul 9 '12 at 8:46
@Steve314: IIRC, SIMD instructions (at least the floating-point ones) have two variants --- aligned and unaligned. I may be wrong, though. As for architectures requiring all operations to be aligned --- most require that (including the popular MIPS and ARM); x86 being the exception here. In fact, the C standard states that unaligned access is UB. – Tim Čas Feb 11 '15 at 18:10

The two operators do fundamentally different things. sizeof gives the size of a type (how much memory it takes) whereas alignof gives what how many bytes a type must be aligned to. It just so happens that the primitives you tested have an alignment requirement the same as their size (which makes sense if you think about it).

Think about what happens if you have a struct instead:

struct Foo {
     int a;
     float b;
     char c;

alignof(Foo) will return 4.

share|improve this answer
why? what does alignof? – user1494506 Jul 8 '12 at 21:48
@tskuzzy you said alignof(Foo) will return 4. But it's depending on the target ABI. So this could be true on ia32 (x86) but not on ARM, MIPS, PowerPC, etc. – ydroneaud Jan 15 '13 at 10:03
4 ??? I really don't understand – Offirmo Jun 13 '13 at 15:27

The alignof value is the same as the value for sizeof for basic types.

The difference lies in used defined data types such as using struct; for an e.g.

typedef struct { int a; double b; } S;
//cout<<alignof(s);                              outputp: 8;
//cout<<sizeof(S);                               output: 12;

hence the sizeof value is the total size required for the given data type; and alignof value is the alignment requirement of the largest element in the structure.

Use of alignof : allocate memory on a particular alignment boundary.

share|improve this answer

Old question (although not marked as answered..) but thought this example makes the difference a bit more explicit in addition to Christian Stieber's answer. Also Meluha's answer contains an error as sizeof(S) output is 16 not 12.

// c has to occupy 8 bytes so that d (whose size is 8) starts on a 8 bytes boundary
//            | 8 bytes |  | 8 bytes  |    | 8 bytes |
struct Bad  {   char c;      double d;       int i;     }; 
cout << alignof(Bad) << " " << sizeof(Bad) << endl;   // 8 24

//             | 8 bytes |   |   8 bytes    |    
struct Good {   double d;     int i; char c;          };
cout << alignof(Good) << " " << sizeof(Good) << endl; // 8 16

It also demonstrates that it is best ordering members by size with largest first (double in this case), as the others members are constrained by that member.

share|improve this answer

The sizeof operator gives you the size in bytes of an actual type or instance of a type.

The alignof operator gives you the alignment in bytes required for any instance of the given type.

share|improve this answer
what is "alignment" ? – user1494506 Jul 8 '12 at 21:48

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