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I am confused when should I add the trailing _t to typedef'ed types?

For example, should I do this:

typedef struct image image_t;

or this:

typedef struct image image;

What are the general rules?

Another example, should I do this:

typdef enum { ARRAY_CLOSED, ARRAY_OPEN, ARRAY_HALFOPEN } array_type_t;

or this:

typdef enum { ARRAY_CLOSED, ARRAY_OPEN, ARRAY_HALFOPEN } array_type;

Please enlighten me.

Thanks, Boda Cydo.

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Never. Type names ending with a _t are reserved by some standard (not sure which). Though whatever you do, don't do _type_t. Pick _type or _t (or something else), but please don't stack them. That's just silly. –  Chris Lutz Jul 12 '10 at 1:43
@Billy - A bit of searching and I think it's POSIX. And scrolling down, James McNellis beat me to that one. –  Chris Lutz Jul 12 '10 at 1:47
@Billy @Chris: I don't have a reference link, sorry; the restriction and the citation can be found in the answer to What are the rules about using an underscore in a C++ identifier? –  James McNellis Jul 12 '10 at 1:49
Identifiers that end in _t are reserved in POSIX: opengroup.org/onlinepubs/9699919799/functions/V2_chap02.html. Not that I pay much attention to that (I typedef to names ending in _t pretty often). –  Michael Burr Jul 12 '10 at 1:50
@MichaelBurr that article says "Implementations may add symbols to the headers shown in the following table, provided the identifiers for those symbols either: […] End in the string indicated as a reserved suffix in the table and do not use the reserved prefixes posix_, POSIX_, or POSIX, as long as the reserved suffix is in that part of the name considered significant by the implementation." So the table is saying you may use _t for types defined in ANY header. –  user23743 Apr 11 '13 at 8:43

6 Answers 6

up vote 39 down vote accepted

In POSIX, names ending with _t are reserved, so if you are targeting a POSIX system (e.g., Linux), you should not end your types with _t.

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Empirically, you can often get away with it for a long time - but you have no comeback on anybody if you port to a new platform, or a new version of a platform, and find conflicts. So, it is safest not to use the suffix. –  Jonathan Leffler Jul 12 '10 at 2:14
@Jonathan: True. Of course, empirically, you can get away with a lot of things :-P –  James McNellis Jul 12 '10 at 2:19
So are lots of broken APIs. That doesn't mean you should copy their bad behavior. –  R.. Jul 12 '10 at 8:05
@doc: The Standard C library does not use C++ namespaces. –  dreamlax Jul 13 '10 at 1:17
@JamesMcNellis I find it too big a leap of faith from "implementors may use _t anywhere" to "no-one else may use _t". Unless there's a document that specifically reserves _t for POSIX use, I think this table has been misinterpreted. –  user23743 Apr 12 '13 at 5:46

I personally despise the _t convention. So long as you are consistent, it really does not matter, however.

Note that (as other answers here indicate) if you are coding to some other standard, such as POSIX, you need to check if it's okay in that standard before using such names.

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When should use use _t? Never? It's reserved by a major standard (POSIX) and even if it's not now, your code might someday be used in a POSIX environment, so using _t is a bad idea.

I would go further to say that over-use of typedef is bad in general. If your type is a struct, union, or enum, use these keywords when you declare variables and it makes your code more clear. Use of typedef is best reserved for when you want to make the underlying type invisible for abstraction/encapsulation purposes. A few great examples from standard C are size_t, int32_t, mbstate_t, and the stdio FILE.

Some of the worst abuses of typedef are by the Windows API (WORD, DWORD, INT, LPSTR etc.) and glib (gint, gchar, etc.). Making duplicates of the standard C types with the same intended usage is only confusing and serves to lock developers into your library/platform by polluting all the code with these nonstandard type names.

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agreed on the Windows API part, but not glib, and for that matter Qt as well: when supporting a large amount of platforms, it is necessary to know what types you're dealing with, and a gint/qint could have different underlying types. Also: nobody will force a developer using glib/Qt to use these internal types, as they are just typedefs, you can easily use int instead of gint (of, of course, for your non-exotic platform, they are the same). –  rubenvb Jul 12 '10 at 9:41
Unless you can provide real evidence of the usefulness, I claim you're just plain wrong. gint is not defined as any particular size of integer; it's just as arbitrary as int. If the glib API functions need a particular size then they should just use that type: for example int32_t if they need 32bit integers or size_t if they need an object size or array index, etc. –  R.. Jul 12 '10 at 9:50
They are reserved by standard C library, rather than POSIX (eg. std::size_t or std::ptrdiff_t defined in cstddef). This shouldn't be a problem, since there are namespaces –  doc Jul 12 '10 at 23:06
@doc, no, C reserves only a specific set of type names, some of which end in _t. POSIX reserves absolutely any name ending in _t for potential future use. In C++ it's probably a non-issue as long as you use the headers that isolate the standard types to a namespace... –  R.. Jul 13 '10 at 5:21
@rubenvb Qt is not a case. It uses standard types like int, bool, const char *, etc., whenever possible. Types such as qreal are used when required to solve some problem (Qt manual on qreal: "Typedef for double on all platforms except for those using CPUs with ARM architectures. On ARM-based platforms, qreal is a typedef for float for performance reasons"). –  doc Feb 25 '14 at 13:04

Pick good names for your types, just like you should with your variables, functions and anything else. A good name doesn't have redundant information embedded in it that makes it harder to read the code -- _t never helps you if you have a good name to begin with.

By the way: typedef image image; doesn't make any sense, since it just makes image a typedef to itself.

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The example he used was typedef struct image image which is useful in C. In C++, struct image variables may be declared image x; but in C, you have to declare them struct image x; so C programmers use the above to simplify struct declaration for commonly used types. –  Chris Lutz Jul 12 '10 at 2:19
He didn't write typedef image image — he wrote typedef struct image image. It's common in C. –  Chuck Jul 12 '10 at 2:20
It's common even to typedef an unnamed struct this way. –  Spidey Jul 12 '10 at 2:27
@Chuck, Chris Lutz and Spidey: so he did -- oversight on my part. –  Clearer Jul 12 '10 at 3:53

I use suffixes to increase readability: _t for typedef, and _e for enums since 25/30 years ... sometimes I use _st when typedef defines a struct.

I think that is good practice to get the code be readable and standardized, then I find right to use suffixes! Furthermore, to date, I have not found any POSIX official document stating that the suffix _t is reserved.

Old stdio.h contains _t ... See: grep -i "_t;" stdio.h :) I think POSIX standard is "a little" younger then C!

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I am using _t suffix for enums and primitive types to distinguish them from variables. I put them into namespaces, so I don't care about _t reservations.

To justify it. Very often variable name is an allusion to typedefed type. Like std::size_t size;, array_t array etc. I have found that it's easier to pick up decent name for a variable, when type contains _t suffix. It also reminds me that it's a typedefed primitive and not some other beast like class for example.

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size_t size_t = 0; is legal in C - it declares a variable named size_t of the type size_t. The conflict doesn't matter between types and variables. –  Chris Lutz Jul 12 '10 at 2:16
And then the code readability goes to space. The same applies to size size = 0;. –  Spidey Jul 12 '10 at 2:26
@Chris Lutz: Have you read "to distinguish from variables"? –  doc Jul 12 '10 at 9:33

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