The ISO C standard says that:

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

I am using GCC-8 on BIT Linux mint (19.1) and the size of long int is 8.

I am using an app which uses GCC 7 and the compiler is 64-bit. The size of long int is 4. Does the compiler or the operating system define the size of a long int?

  • This is probably helpful, but it's not an answer itself: en.wikipedia.org/wiki/64-bit_computing – Andrew Henle May 15 at 19:42
  • To the best of my knowledge, all versions of GCC use 8-byte long ints when compiling Linux x86_64 binaries. On the other hand, they all use 4-byte long ints when compiling Linux x86 binaries. It's not about the form or host of the compiler, it's about the target. – John Bollinger May 15 at 20:03
  • I'm guessing that Windows is probably used with GCC 7. Windows has the LLP64 data model, which defines long as 32-bit (4 bytes). – JL2210 May 15 at 20:30
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    The C standard also requires sizeof(char) == 1, sizeof(short)*CHAR_BIT >= 16, sizeof(int)*CHAR_BIT >= 16, sizeof(long)*CHAR_BIT >= 32. – chux May 15 at 23:03

The compiler calls all the shots. The operating system just runs the resulting binary.

That being said, the compiler will normally make an executable the operating system can use, so there's some interplay here. Since things like the size of int don't really matter so long as they're consistent, you will see variation.

In other words, if the kernel expects long int to be 8 bytes because of how it was compiled, then you'll want to compile that way to match or your compiled code won't match and none of the shared libraries will work.

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    It's worth noting that more modern C code often uses different constants to avoid ambiguity, such as those introduced in C99 like int64_t. – tadman May 15 at 19:45
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    @tadman ABI is not constraining the compiler. Obeying the ABI makes the program runable on the particular system – P__J__ May 15 at 19:48
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    @tadman Pedantically, a compiler produces binaries compatible with the target ABI. But since ABIs and compilers tend to come from the same people at the same time (one without the other isn't very useful unless you like assembler), it's de facto more of a chicken-and-egg problem to say which comes first and which one "rules". – Andrew Henle May 15 at 19:50
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    @AndrewHenle Said it much better than I did. Thanks. – tadman May 15 at 19:50
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    @Michi: Re “I would like to know more about why the same compiler uses different sizes on the same arhitecture with the same Compiler. If the operating system is 64BIT I can not understand the difference.”: The operating system can only control how software interfaces with it. If there is an operating system routine that needs to be passed a 32-bit integer, then you have to pass it a 32-bit integer. But, inside the program, the program (and the compiler) can do anything they want. If a compiler wants to call a 32-bit integer an int and call a 48-bit integer a gromitz, then it can. – Eric Postpischil May 15 at 19:54

The Application Binary Interface for an operating system/architecture specifies the sizes of basic types:

ABIs cover details such as (bolding mine):

  • a processor instruction set (with details like register file structure, stack organization, memory access types, ...)
  • the sizes, layouts, and alignments of basic data types that the processor can directly access
  • the calling convention, which controls how functions' arguments are passed and return values are retrieved; for example, whether all parameters are passed on the stack or some are passed in registers, which registers are used for which function parameters, and whether the first function parameter passed on the stack is pushed first or last onto the stack
  • how an application should make system calls to the operating system and, if the ABI specifies direct system calls rather than procedure calls to system call stubs, the system call numbers
  • and in the case of a complete operating system ABI, the binary format of object files, program libraries and so on.
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    The compiler decides the mapping from its type names to the types in the ABI. – Eric Postpischil May 15 at 19:51
  • @EricPostpischil Feel free to edit. I suspect you know a lot more about this than I do. ;-) – Andrew Henle May 15 at 19:54
  • @EricPostpischil I just changed my answer to a community wiki. It's all yours to improve. – Andrew Henle May 15 at 19:57
  • tadman’s answer is correct. – Eric Postpischil May 15 at 19:57
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    The ABI (which, by the way, is voluntary) can only specify how to pass integers of 8, 16, 32, or other numbers of bits, how to pass floating-point objects of various sizes, how to pass structures, and so on. It cannot control what they are called in the programming language. If long is a 32-bit integer in the programming language, it will be passed as a 32-bit integer in the ABI. If long is a 64-bit integer in the programming language, it will be passed as a 64-bit integer in the ABI. The ABI never sees the name. The compiler decides what the name means. – Eric Postpischil May 15 at 20:06

This is left to the discretion of the implementation.

It's the implementation (compiler and standard library) that defines the size of long, int, and all other types.

As long as they fit the constraints given by the standard, the implementation can make all the decisions as to what sizes the types are (possibly with the exception of pointers).


TL/DR - the exact size is up the compiler.

The Standard requires that a type be able to represent a minimum range of values - for example, an unsigned char must be able to represent at least the range [0..255], an int must be able to represent at least the range [-32767...32767], etc.

That minimum range defines a minimum number of bits - you need at least 16 bits to represent the range [-32767..32767] (some systems may use padding bits or parity bits that are part of the word, but not used to represent the value).

Other architectural considerations come into play - int is usually set to be the same size as the native word size. So on a 16-bit system, int would (usually) be 16 bits, while on a 32-bit system it would be 32 bits. So, ultimately, it comes down the the compiler.

However, it's possible to have one compiler on a 32-bit system use a 16-bit int, while another uses a 32-bit int. That led to a wasted afternoon back in the mid-90s where I had written some code that assumed a 32-bit int that worked fine under one compiler but broke the world under a different compiler on the same hardware.

So, lesson learned - never assume that a type can represent values outside of the minimum guaranteed by the Standard. Either check against the contents of limits.h and float.h to see if the type is big enough, or use one of the sized types from stdint.h (int32_t, uint8_t, etc.).

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    Note: Standard also requires sizeof(char)==1 in addition to various type range requirements. – chux May 15 at 23:07

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