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In C and C++, the size of the build-in integer types is implementation dependent. But is there any predefined intended meaning of them such that int should represent the machine word size etc?

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You should check this answer: – alestanis Oct 22 '12 at 15:49
I'm not following your question. Are you asking if the size of an int is in anyway tied to the hardware it's running on? – Mike Oct 22 '12 at 15:49
AFAIK there is no explicit intend expressed anywhere, but I could be wrong. However, the language is meant to be implementable and performant so the definitions are at least not explicitly tailored against the reality of existing architectures. – pmr Oct 22 '12 at 15:52
@alestanis It is not really the same question. I was asking for semantical meaning. – user877329 Oct 22 '12 at 16:00
@user877329 I didn't link to the question but to the answer. It states that the meaningful constant is the number of bits in a byte, which depends on your system. – alestanis Oct 22 '12 at 16:03
up vote 5 down vote accepted

Historically, int was supposed to mean the most "natural" type for an integer on the machine hardware; obviously, "natural" is somewhat subjective, but in the past, it was usually pretty obvious, and there weren't that many integral types available anyway, so makeing int the same size as a long or a short was the normal course of things.

For various reasons, most 64 bit platforms make int 32 bits. One could easily argue that this isn't the most "natural" length, but there was a desire that 32 bit integers be the default, and int is clearly the default integral type. Whether it is the most natural for the architecture or not becomes secondary to whether it is the size wanted as a default.

With regards to word size: historically, this was the most natural, but in many ways, it's not clear what is meant by "word size" on a modern machine: the largest size you can do arithmetic on? the size of bus transfers to and from memory? etc. Traditionally, "word size" has been used to mean both the width of internal registers (when the machine had them), or the size of a basic bus transfer. (The 8088 was usually referred to as an 8 bit machine, although it had 32 bit registers.) I wouldn't put too much meaning in it today.

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There's some wording on that, but it's not very rigid:

Objects declared as characters (char) shall be large enough to store any member of the implementation’s basic character set.

There are five standard signed integer types : “signed char”, “short int”, “int”, “long int”, and “long long int”. In this list, each type provides at least as much storage as those preceding it in the list. (...) Plain ints have the natural size suggested by the architecture of the execution environment, the other signed integer types are provided to meet special needs.

No strict recommendations about float sizes either:

There are three floating point types: float, double, and long double. The type double provides at least as much precision as float, and the type long double provides at least as much precision as double. (...) The value representation of floating-point types is implementation-defined.

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This does not appear to be text quoted from the C standard. Can you give a citation? Would it not be preferable to cite the standard? – Eric Postpischil Oct 22 '12 at 15:56
It might be nice if plain ints did have natural size, but there are varying conventions even for that. An int in MSVC under Windows on x86_64 is 32 bits, while an int in gcc under Linux on x86_64 is 64 bits. See: – dajames Oct 22 '12 at 15:58
@EricPostpischil C++11, 3.9.1 (feel free to add another citation from C) – Kos Oct 22 '12 at 15:58
@dajames are you sure? IIRC int is 32 bits on MinGW GCC on Windows, strange if Linux GCC is different – Kos Oct 22 '12 at 16:01
@dajames That's not what the article you cite says (nor does it correspond to my experience). Most 64 bit Unixes use I32LP64, with 32 bit int and 64 bit long. This is the de facto standard for 64 bit machines. – James Kanze Oct 22 '12 at 16:10

C, unlike Java, was designed as a platform enabler and not a stand-alone platform. Cross platform compatibility took a much lower priority than working with data-type sizes that worked optimally for the given platform. Integer types are therefore not specified by the C standard and are totally platform specific

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Java defines integer size at bit level, which is a lower level of abstraction than to say "ints have the natural size suggested by the architecture of the execution environment". Isn't that strange? – user877329 Oct 22 '12 at 16:14
@user877329 What's strange about it. Java makes a conscious decision to not allow implementations on certain more or less exotic hardware, in return for (originally) a guarantee that the same code would give the same results on any machine. (This guarantee has since been broken, since it caused the VM to run excessively slow on Intel architectures.) – James Kanze Oct 22 '12 at 16:19
@JamesKanze Yes, but when programming in a high level language i prefer to choose type by purpose, not by size. It is better to say that a smaller pointer range implies that the program (under JVM or not) simply cannot handle larger amount of data. But sometimes, when reading binary data, it is nessecary to choose by size. – user877329 Oct 22 '12 at 16:25
@user877329 Sometimes, when dealing with raw data, it may be necessary to use size_t. Otherwise, when working at a higher level, the type is int, except in cases where you've actually gone to the effort of implementing subrange types that work. – James Kanze Oct 22 '12 at 16:35

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