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I've been using a fair amount of file descriptors recently, and I've been wondering why they're implemented as integers?

It means that they're easy to confuse for other integers, and there's no way of knowing without context what they are, what they point to, whether they're open, etc.

In C, FILE is an opaque struct type. Many people also typedef e.g. status_t as an integer so their function is obvious. It seems the best thing would be to either implement them as an opaque type, or (e.g. in C++) as a class that can take care of some of the implementation, and also clean up the namespace a bit (a call to pipe() or open() seems so innocuous, and it's not obvious what you're piping or opening without context). Like e.g. std::file_descriptor, with constructors/factory functions for creating pipes or opening files and so on.

I hope this is on topic for this site; I've tried to phrase it as "Why was this particular decision made?" If anyone knows somewhere it'd fit better, please let me know.

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closed as primarily opinion-based by user93353, jball, Cheesebaron, Peres, John Doyle Jul 22 '13 at 22:19

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

Why? Because POSIX doesn't define a C++-specific API. – R. Martinho Fernandes Jul 22 '13 at 13:13
Do you mean: why doesn't C++ redefine the C API with a typedef, or why does the C API not use a typedef in the first place? – Useless Jul 22 '13 at 13:14
File descriptors need to be universal, ints are pretty much as universal as you can get for data types. – jozefg Jul 22 '13 at 13:17
Neither C nor C++ have any filedescriptor defined; it is POSIX that currently standardizes this concept (and btw. it may or may not exist on any given OS) – PlasmaHH Jul 22 '13 at 13:40
@FrankH. Except that when it was fixed, int was only 16 bits (and the internal implementation limited it to 19 files). – James Kanze Jul 22 '13 at 14:14
up vote 16 down vote accepted

Your question can be divided in two:

Why is POSIX file descriptor int?

Like most of things in already established tools and libraries, the answer is probably historical reasons. James' answer points this out.

Making the file descriptor opaque is probably a good idea, but not for the reason you mentioned. Making the type opaque is good for having a different type based on some parameters. For example, on some systems you may want a long long as file descriptor. However, as it seems to happen, no one nowhere has needed 2 billion open files at the same time and therefore no one has cared to fix this non-existing problem.

On the other hand, such a thing as typedef int file_descriptor; won't fix any of the problems you mentioned above:

It means that they're easy to confuse for other integers...

If you confuse your variables, I have bad news for you. The compiler won't help you either since file_descriptor and int are the same type, so any operation on one is allowed on the other.

... and there's no way of knowing without context what they are, what they point to, whether they're open, etc.

You can't do that with FILE either. That's why you have functions that query the information you seek and return it, just like with FILE. typedefing the type won't give you any extra information.

Why doesn't POSIX have a C++ wrapper for it?

In short, because except Microsoft, no operating system developer is in love with C++. Windows is barely even POSIX, so there is no hope for Microsoft in trying to improve anything POSIX. Other operating systems which are POSIX-compliant have a C API as the de facto system programming language (partly because as n.m. says, almost all languages can bind to C).

In fact, C++ is popular among application developers, but not as much among system programmers. The POSIX committee doesn't seem to be particularly interested in C++ either. That's why you'd see C and only C solutions and arguments with respect to the POSIX API. Also note that POSIX was created to standardize UNIX's interface in particular, which was written in C and one of its most important descendants, Linux, is also strongly bound to C.

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Another point: when UNIX was first developed, there is no C++ yet. Bjarne was in Europe at that time. – xis Jul 22 '13 at 15:43
Most sources agree Java is more popular than C++. Why should POSIX support C++ before Java? (It shouldn't; it defines APIs that any language can bind to). – n.m. Jul 22 '13 at 16:24
@n.m. Which sources? If I look around, Java seems almost moribund except in Web servers and small embedded applications in smart phones. And Java creates its own environment, independently of the surrounding OS. And from what I know, C is mainly used in Linux kernels for historical reasons. Except for Linux, most new Linux development is in C++. (In the Rationale for pthread_cleanup_push/pthread_cleanup_pop, Posix even states that the ideal solution would involve exceptions--a strong indication that they'd like C++.) – James Kanze Jul 22 '13 at 16:54
This Wikipedia article lists several language popularity surveys, Google has more. "Java creates its own environment" --- any language does to some extent. C and C++ have their language-specific I/O facilities too but POSIX mandates a set of its own. "C is mainly used in Linux kernels for historical reasons." -- Perhaps it may have to do with Linus despising C++ and C++ programmers. "a strong indication that they'd like C++" -- or maybe Objective C, who knows? – n.m. Jul 22 '13 at 17:23
+ to nice answer for nice badge. This is really an awesome answer. Ahaa I noticed you are Phd! that the reason depth knowledge. – Grijesh Chauhan Jul 22 '13 at 18:50

History, if nothing else. Back in the 1970s, it probably didn't seem like a problem to just use int (and the value was, in fact, an index into a fixed size table). Later, changing it to another type would have broken code.

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And it still doesn't seem to be a problem :) – user405725 Jul 22 '13 at 13:36
@VladLazarenko It's true that I can't remember ever having seen an error due to someone doing something like ++fd, just because fd was an int. – James Kanze Jul 22 '13 at 14:13
+1 to the comment – Santhosh Pai Jul 22 '13 at 15:56

The Unix interface is described in terms of the C language, but it is equally important that systems have an ABI, not only an API.

Fancy data structures specific to a programming language complicate the ABI. At the ABI level, you have only low level data types like "32 bit unsigned integer" and simple aggregates thereof.

That being said, the Unix interface does make use of types like pid_t and whatnot, so why not one of these typedefs for file descriptors?

File descriptors have certain well-known values, and when a new file descriptor is opened, the smallest positive value which is available is always used. File descriptor values effectively acts as array indices into a table of descriptors, and the design is deliberately that way. The programmer's model of file descriptors is that there is array-like structure of them in the kernel. The dup2 function can actually duplicate a file descriptor from one slot to another. Such array indices might as well be int, with a negative value for signaling errors.

C typedefs do not buy additional type checking, but they do bring in a little bit of readability and also abstraction: independence from a particular integer type. A fd_t type could be an int on one system and a long on another. But since int has grown to be almost ubiquitously 32 bits wide several decades ago, there is no real need to abstract it for the sake of being able to make it wider under the same name. It's very unusual for a program to need more than two billion open file descriptors.

By contrast, it would be very inconvenient for implementors if a plain int were used instead of, say, pthread_t.

int descriptors did prove to be difficult to swallow for the designers of the Windows Socket API, who invented a SOCKET typedef, whose values are not the lowest available positive integers; just one of the quirks leading to portability annoyances. However, there is a real semantic difference there in that code which relies on these descriptors being small values in a range will either not work or behave inefficiently.

There are historic instances of Unix having been revised to replace a plain int type with some typedef. For instance, in an accept function, the size of the remote address structure used to be just int. Then it became socklen_t. There is no technical need for socklen_t to exist; it was invented as a band-aid solution to bridge the differences between systems that used the traditional int and ones whose maintainers zealously changed the argument to use size_t. While those two types led to the same ABI, there was no problem, until systems with 64 bit size_t, and 32 bit int.

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Can you link to where you took the quote out of? Reading the rest of the article may be interesting. – Shahbaz Jul 23 '13 at 8:42

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