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I've been programming in C++ for quite a while now and I am pretty familiar with most of the stuff. One thing that I've never understood though is the 'long' data type.

I googled it but I still don't know what it is for. I've found pages that say it is the same size and has the same range as an int. So what would be the point in using it?

I found another stack overflow question regarding this here: difference in long vs int data types in C++

And it seems that the only difference between the two is that sometimes the size is different on different systems. Does that mean that an application that uses long on a 64bit machine won't work on a 32bit machine? If so then wouldn't it be better to not use them at all?

Also I noticed stuff called "long int" or even "long long"! Is it a data type or a modifier?

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i love C++, but man... 'long long' as a datatype is pretty hilarious. –  tenfour Dec 1 '10 at 21:30
I typically use it to store monetary values, e.g. long myMoney; // yeah my money looonnnnggg –  matt_h Dec 1 '10 at 21:34
@Tabber33 long long is in the next standard afaik –  matt_h Dec 1 '10 at 21:35
@turd: correct -- which is why my sentence was written in present tense and not future tense. –  Tabber33 Dec 1 '10 at 21:36
Would the new keyword be "very"? –  DanDan Dec 1 '10 at 21:40

7 Answers 7

It is compiler dependent. My standards-fu is a bit rusty but I believe it is defined as follows:

char <= short <= int <= long <= long long


char      >= 8 bits
short     >= 16 bits
int       >= 16 bits
long      >= 32 bits
long long >= 64 bits

Which means that it is perfectly valid to have char = short = int = long = long long = 64bits and in fact compilers of some DSPs are designed that way.

This underscores the importance of actually reading your compiler documentation.

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And a 'long int'? ;-) –  user166390 Dec 1 '10 at 21:31
@Anon: Can you cite where in the standard it says so? I have seen compilers in real life where char is 32 and 64 bits. Or maybe that's just C and not C++. –  slebetman Dec 1 '10 at 21:33
@Anon: that's an incorrect correction. the size of char in bits is given by e.g. CHAR_BIT from <limits.h>. it must >= 8. –  Cheers and hth. - Alf Dec 1 '10 at 21:34
Almost, sizeof(char) == 1 but CHAR_BIT can be an arbitrary number. The only requirement is that will hold the entire basic charset for the platform. –  Let_Me_Be Dec 1 '10 at 21:34
@pst: I believe long is a modifier to int that implies int so that the int keyword is optional. Some people prefer it there to clarify that we are dealing with integers, not floats. –  slebetman Dec 1 '10 at 21:36

I noticed stuff called "long int" or even "long long"! Is it a data type or a modifier?

long int is the same as long (just as short int is the same as short).

long long is a distinct data type introduced by several compilers and adopted by C++0x.

Note that there is no such thing as long long long:

error: 'long long long' is too long for GCC
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+1 for GCC error. ;) –  greyfade Dec 1 '10 at 22:11

From one of the answers in the question you linked:

The long must be at least the same size as an int, and possibly, but not necessarily, longer.

I can't think of a better way to explain it.

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long is guaranteed (at least) 32 bits. int is only guaranteed (at least) 16 bits. on 16- and 8-bit systems long provided range at a cost of efficiency.

cheers & hth.,

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Really? Where are these guarantees? –  Tabber33 Dec 1 '10 at 21:33
@Tabber33: in the C standard, which the C++ standard refers to. Hth., –  Cheers and hth. - Alf Dec 1 '10 at 21:38
The C++ standard refers to the C standard? Which C standard? This is news to me... I've read the C++03 standard, and I was never referred to the C standard (which I don't have). –  Tabber33 Dec 1 '10 at 21:39
@Tabber33: the current C++ standard is C++98, with the error corrections of Technical Corrigendum 1, known as C++03. Since 1998 comes before 1999, you can easily deduce that the current C++ standard does not refer to C99. Hence it refers to? –  Cheers and hth. - Alf Dec 1 '10 at 21:40
@Tabber33: C++03 §3.9, footnote 37 says, "The intent is that the memory model of C++ is compatible with that of ISO/IEC 9899 Programming Language C." This implies that all statements regarding POD types have a basis in C89. It also refers to <climits> in footnote 39 in §3.9.1 for this definition. I don't have a copy of C89, but C99 § says long must be able to hold at least a 32-bit integer. Therefore, long is guaranteed to be at least 32-bit. QED. –  greyfade Dec 1 '10 at 22:22

This is what the C++03 standard says (3.9.1/2) :

There are four signed integer types: “signed char”, “short int”, “int”, and “long int.” In this list, each type provides at least as much storage as those preceding it in the list.

So : sizeof(char) <= sizeof(short) <= sizeof(int) <= sizeof(long)

This is what the C++0x (3.9.1/2) and C99 (6.2.5/4) standards say :

There are five standard signed integer types, designated as signed char, short int, int, long int, and long long int.

  • long is synonym of long int
  • long long doesn't exist in C++03, but will in C++0x.
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I googled it but I still don't know what its for. I've found pages that say its the same size and has the same range as an int. So what would be the point in using it?

I've wondered the same thing. And concluded that long is now useless.

Prior to the rise of 64-bit systems, the de facto standard for C integer types was:

  • char = (u)int8_t (Note that C predates Unicode.)
  • short = int16_t
  • int = intptr_t [until 64-bit], int_fast16_t
  • long = int32_t [until 64-bit], intmax_t [until 1999]
  • long long = int64_t or intmax_t

Today, however, long has no consistent semantics.

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If you want an integer that is guaranteed to be 32 bit or 64 bit, there are such types, e.g. int64_t. If you really want to ensure your int are of such a size, use these types instead of long, long long, etc. You'll need to include cstdint for these (stdint.h in C).

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