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I understand that the standard says that the size of a long integer is implementation dependant, but I am not sure why.

All it needs to do is to be able to store -2147483647 to 2147483647 or 0 to 4294967295.

Assuming that 1 byte is 8 bits, this should never need more than 4 bytes. Is it safe to say, then, that a long integer will take more than 4 bytes only if a byte has less than 8 bits? Or could there be other possibilities as well? Like maybe inefficient implementations wasting space?

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Some people like to have longer integers. They can be very handy at times. (The history of the various integer sizes in C is quite convoluted.) –  Hot Licks May 27 '12 at 2:43
But the range is fixed! –  Lazer May 27 '12 at 2:44
Yet it might be sometimes faster to compute on larger entities. AFAIK original Itanium and Alpha –  qdot May 27 '12 at 2:45
@K-ballo: C89 and C++98 both specifically require that UCHAR_MAX/std::limits<unsigned char>::max be at least 256 (and that signed char cover (at least) -127..127. –  Jerry Coffin May 27 '12 at 2:50
Probably because the situation on 32-bit systems, where int and long are the same size, is a bit silly. –  Steven Burnap May 27 '12 at 4:59

5 Answers 5

up vote 1 down vote accepted

The extra bytes aren't a waste of space. A larger range is quite useful. The standard specifies minimum ranges, not the precise range itself; there's nothing wrong with having wider types.

When the standard originally specified an int should be at least 16 bits, common processors had registers no larger than that. Representing a long took two registers and special operations!

But then 32 bits became the norm, and now ints are 32 bits everywhere and longs are 64. Nowadays most processors have 64-bit instructions, and a long can often be stored in a single register.

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long long is 64-bit, at least on 32-bit compiler on 32-bit system. Never heard about 128-bit. Do you have any link for that? –  nhahtdh May 27 '12 at 2:50
@nhahtdh -- I was totally wrong. A little Googling shows that 128-bit long long was killed by the C99 committee. I have removed the whole sentence from my post. –  Ernest Friedman-Hill May 27 '12 at 2:54
Another thing: long is not always 64-bit. It can be 32-bit, actually. –  nhahtdh May 27 '12 at 2:56
@nhahtdh there's __int128 on gcc stackoverflow.com/questions/tagged/int128 –  Lưu Vĩnh Phúc May 30 at 9:48
@LưuVĩnhPhúc: It is GNU C extension (which means you can only use it if you use gcc as your compiler). It is not part of the C standard. –  nhahtdh Jun 9 at 21:25

An obvious use for a long larger than 32 bits is to have a larger range available.

For example, before long long int (and company) were in the standard, DEC was selling 64-bit (Alpha) processors and a 64-bit operating system. They built a (conforming) system with:

char = 1 byte
short = 2 bytes
int = 4 bytes
long = 8 bytes

As to why they'd do this: well, an obvious reason was so their customers would have access to a 64-bit type and take advantage of their 64-bit hardware.

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You're assuming quite a few things:

  • A byte is CHAR_BIT bits wide

The PDP-10 had bytes ranging from 1 to 36 bits. The DEC VAX supported operations on 128-bit integer types. So, there's plenty reason to go over and above what the standard mandates.

  • The limits for data types are given in §3.9.1/8

Specializations of the standard template std::numeric_limits (18.3) shall specify the maximum and minimum values of each arithmetic type for an implementation.

Lookup <limits> header.

This article by Jack Klein may be of interest to you!

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If you want an integer of a specific size, then you want to use the types with the size specified:

int8_t int16_t int32_t int64_t int128_t ...

These are available in some random header file (it varies depending on the OS you're using, although in C++ it seems to be <stdint>)

You have the unsigned version using a u at the beginning (uint32_t).

The others already answered why the size would be so and so.

Note that the newest Intel processors support numbers of 256 bits too. What a waste, hey?! 8-)

Oh! And time_t is starting to use 64 bits too. In 2068, time_t in 32 bits will go negative and give you a date in late 1800... That's a good reason to adopt 64 bits for a few things.

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One reason for using an 8 byte integer is to be able to address more than 4 gigs of memory. Ie. 2^32 = 4 gigabytes. 2^64 = well, it's a lot!

Personally, I've used 8 byte ints for implementing a radix sort on double floats (casting the floats as ints then doing magical things with it that aren't worth describing here. :))

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