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So I'm far from an expert on C, but something's been bugging me about code I've been reading for a long time: can someone explain to me why C(++) programmers use typedefs to rename simple types? I understand why you would use them for structs, but what exactly is the reason for declarations I see like

typedef unsigned char uch;
typedef uch UBYTE;
typedef unsigned long ulg;
typedef unsigned int u32;
typedef signed short s16;

Is there some advantage to this that isn't clear to me (a programmer whose experience begins with Java and hasn't ventured far outside of strictly type-safe languages)? Because I can't think of any reason for it--it looks like it would just make the code less readable for people unfamiliar with the project.

Feel free to treat me like a C newbie, I honestly know very little about it and it's likely there are things I've misunderstood from the outset. ;)

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You should look at stdint.h . Also they are used when the type of something may differ from system, but code needs to stay compatible. –  nategoose Jul 27 '10 at 20:39

10 Answers 10

up vote 52 down vote accepted

Renaming types without changing their exposed semantics/characteristics doesn't make much sense. In your example

typedef unsigned char uch;
typedef unsigned long ulg;

belong to that category. I don't see the point, aside from making a shorter name.

But these ones

typedef uch UBYTE;
typedef unsigned int u32;
typedef signed short s16;

are a completely different story. For example, s16 stands for "signed 16 bit type". This type is not necessarily signed short. Which specific type will hide behind s16 is platform-dependent. Programmers introduce this extra level of naming indirection to simplify the support for multiple platforms. If on some other platform signed 16 bit type happens to be signed int, the programmer will only have to change one typedef definition. UBYTE apparently stands for an unsigned machine byte type, which is not necessarily unsigned char.

It's worth noting that the C99 specification already provides a standard nomenclature for integral types of specific width, like int16_t, uint32_t and so on. It probably makes more sense to stick with this standard naming convention on platforms that don't support C99.

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+1 for recommending using the standard names but being more diplomatic about it than I would.. :-) –  R.. Jul 27 '10 at 6:07
Haha, @R.., you put a smile on my face. :-) –  Prof. Falken Apr 5 '11 at 5:47

This allows for portability. For example you need an unsigned 32-bit integer type. Which standard type is that? You don't know - it's implementation defined. That's why you typedef a separate type to be 32-bit unsigned integer and use the new type in your code. When you need to compile on another C implementation you just change the typedefs.

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This usage is deprecated because C has uint32_t etc. –  R.. Jul 27 '10 at 5:23
@R: Only if your compiler has started implementing C99. Last I checked, Microsoft for one has not. –  Nicholas Knight Jul 27 '10 at 5:43
A compiler hardly has to implement C99 to have inttypes.h and stdint.h. If your compiler is missing them, simply drop-in replacements with the right definitions for your target architecture. There's no excuse for using nonstandard names. –  R.. Jul 27 '10 at 6:07
@R: In which case you are effectively providing typedefs yourself anyway. Your approach is advisable, but not meaningfully different from adding typedefs to your project on your own. –  Nicholas Knight Jul 27 '10 at 6:10
@R: uint32_t is a typedef from stdint.h, so the usage is hardly deprecated. It's merely standardised and done for you. –  JeremyP Jul 27 '10 at 12:42

Sometimes it is used to reduce an unwieldy thing like volatile unsigned long to something a little more compact such as vuint32_t.

Other times it is to help with portability since types like int are not always the same on each platform. By using a typedef you can set the storage class you are interested in to the platform's closest match without changing all the source code.

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to add to that, in c++, it can even go so far as to replace what may be a native type under the hood (like float) on one platform, with a whole class that emulates a float (such as for fixed point, on a platform with no floats) –  matt Jul 27 '10 at 5:06
Although, POSIX reserves type names ending with _t. –  dreamlax Jul 27 '10 at 6:25

Following is a quote from The C Programming Language (K&R)

Besides purely aesthetic issues, there are two main reasons for using typedefs.

First- to parameterize a program

The first is to parameterize a program against portability problems. If typedefs are used for data types that may be machine-dependent, only the typedefs need change when the program is moved.

One common situation is to use typedef names for various integer quantities, then make an appropriate set of choices of short, int, and long for each host machine. Types like size_t and ptrdiff_t from the standard library are examples.

The italicized portions tells us that programmers typedef basic type for portability. If I want to make sure my program works on different platforms, using different compiler, I will try to ensure that its portability in every possible way and typedef is one of them.

When I started programming using Turbo C compiler on Windows platform, it gave us the size of int 2. When I moved to Linux platform and GCC complier, the size I get is 4. If I had developed a program using Turbo C which relied on the assertion that sizeof( int ) is always two, it would have not ported properly to my new platform.

Hope it helps.

Following quote from K&R is not related to your query but I have posted it too for the sake of completion.

Second- to provide better documentation

The second purpose of typedefs is to provide better documentation for a program - a type called Treeptr may be easier to understand than one declared only as a pointer to a complicated structure.

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There are many reasons to it. What I think is:

  1. Typename becomes shorter and thus code also smaller and more readable.
  2. Aliasing effect for longer structure names.
  3. Convention used in particular team/companies/style.
  4. Porting - Have same name across all OS and machine. Its native data-structure might be slightly different.
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Most of these patterns are bad practices that come from reading and copying existing bad code. Often they reflect misunderstandings about what C does or does not require.

  1. Is akin to #define BEGIN { except it saves some typing instead of making for more.
  2. Is akin to #define FALSE 0. If your idea of "byte" is the smallest addressable unit, char is a byte by definition. If your idea of "byte" is an octet, then either char is the octet type, or your machine has no octet type.
  3. Is really ugly shorthand for people who can't touch type...
  4. Is a mistake. It should be typedef uint32_t u32; or better yet, uint32_t should just be used directly.
  5. Is the same as 4. Replace uint32_t with int16_t.

Please put a "considered harmful" stamp on them all. typedef should be used when you really need to create a new type whose definition could change over the life cycle of your code or when the code is ported to different hardware, not because you think C would be "prettier" with different type names.

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Given that there's no context to the underlying arch the typedefs are compiled on, I don't think it's proper to ban them like that. char is not an octet by definition. sizeof(char) == 1 by definition, and it does not mean one byte, but "at least CHAR_BIT bits" (CHAR_BIT may well be more than 8, albeit a rare sight nowadays). Also, all [|u]intN_t types, where N=8|16|32|64 and so forth, are defined per architecture in this exact manner. The only bad pattern is exposing ulg and uch, one could prefix them with __ since they are in fact reserved names. –  Michael Foukarakis Jul 27 '10 at 6:03
I never said char was an octet by definition. I said either char is an octet or your system has no octet type. This statement is completely true. –  R.. Jul 27 '10 at 6:12
Also, you cannot (in an application) prefix those types with __. The implementation can (and must) do so if it makes such typedefs. I think you're very confused about what "reserved" means. –  R.. Jul 27 '10 at 6:13

We use it to make it Project/platform specific, everything has a common naming convention

pname_int32, pname_uint32, pname_uint8 -- pname is project/platform/module name

And some #defines

pname_malloc, pname_strlen

It easier to read and shortens long datatypes like unsigned char to pname_uint8 also making it a convention across all modules.

When porting you need to just modify the single file , thus making porting easy.

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Why do you need your own replacements for everything the standard library already provides? –  R.. Jul 27 '10 at 5:22
@ R.. Is this fine? #define pname_free(ptr) free(ptr) #define pname_safe_free(ptr) \ if(ptr!=NULL) \ { pname_free((void*) ptr); \ ptr =NULL;\ } How about OEM functions too? Its looks not so readable when you replace the above macro and retain other standard names. May be its individual opinion again. –  Praveen S Jul 27 '10 at 5:45
@R.. Microsoft specific keywords are __int8,__int16 etc. How would you write code for Microsoft C compiler which will even compile on linux with gcc? Does this make sense? #ifdef(_MSC_VER) typedef unsigned __int8 PNAME_INT #elif defined(__GNUC) typedef unsigned int8_t PNAME_INT #endif –  Praveen S Jul 27 '10 at 5:55
@Praveen, on broken compilers that lack the right standard types, simply provide a drop-in header that provides them with the standard names. There is no need for hideous PNAME_ pollution. BTW your pname_safe_free macro is broken. Consider: if (foo) pname_safe_free(foo); else ... –  R.. Jul 27 '10 at 6:03
@R.. Why would you do if(foo). I dint get your point here. –  Praveen S Jul 27 '10 at 6:07

To cut the long story short, you might want to do that to make your code portable (with less effort/editing). This way you don't depend to 'int', instead you are using INTEGER that can be anything you want.

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All [|u]intN_t types, where N=8|16|32|64 and so forth, are defined per architecture in this exact manner. This is a direct consequence of the fact that the standard does not mandate that char,int,float, etc. have exactly N bits - that would be insane. Instead, the standard defines minimum and maximum values of each type as guarantees to the programmer, and in various architectures types may well exceed those boundaries. It is not an uncommon sight.

The typedefs in your post are used to defined types of a certain length, in a specific architecture. It's probably not the best choice of naming; u32 and s16 are a bit too short, in my opinion. Also, it's kind of a bad thing to expose the names ulg and uch, one could prefix them with an application specific string since they obviously will not be exposed.

Hope this helps.

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You absolutely cannot prefix them with _ or __. These names are reserved for the implementation not for your application. –  R.. Jul 27 '10 at 6:04
Only identifiers with one underscore following by an uppercase letter or another underscore are completely off lim –  dreamlax Jul 27 '10 at 6:36
But it's still better to avoid _ prefixes at all. –  SiPlus May 13 '12 at 8:14
@SiPlus Why? Says who? –  Mahmoud Al-Qudsi May 13 '12 at 9:06
What's point of using _ prefix? I think it only increases size and decreases readability of your code. –  SiPlus May 17 '12 at 13:49

Typedef for basic type :-

  • Typedefs can make your code more clear

One purpose of having types is to make sure that variables are always used in the way that they were intended to be used. C and C++ provide several built-in types that are based on the underlying representation of the data. Sometimes this is good enough; but when you're working to save memory or perform numerical computations that require the right level of precision, you want to have tight control over these matters. This constraint is to actually create "wrapper" classes for the different types. This allows your compiler to spot incorrect assignments and prevent you from making them.

error_t get_data( char *data );

Where error_t is typed as:

unsigned int error_t;
  • Typedefs can make your code easier to modify

Typedefs provide a level of abstraction away from the actual types being used, allowing you, the programmer, to focus more on the concept of just what a variable should mean. This makes it easier to write clean code, but it also makes it far easier to modify your code. Example: If you decided you really needed to support sizes that were too big to store in an unsigned int, you could make a change in one place in your code--the typedef itself--to make size_t equivalent to, for instance, an unsigned long. Almost none of your code would need to change!

Some people are opposed to the extensive use of typedefs. Most arguments center on the idea that typedefs simply hide the actual data type of a variable. For example, Greg Kroah-Hartman, a Linux kernel hacker and documenter, discourages their use for anything except function prototype declarations. He argues that this practice not only unnecessarily obfuscates code, it can also cause programmers to accidentally misuse large structures thinking them to be simple types.

Others argue that the use of typedefs can make code easier to maintain. K&R states that there are two reasons for using a typedef. First, it provides a means to make a program more portable. Instead of having to change a type everywhere it appears throughout the program's source files, only a single typedef statement needs to be changed. Second, a typedef can make a complex declaration like pointers, structures, function pointer etc easier to understand.

Hope this will help you.

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Source: cprogramming.com/tutorial/typedef.html Stealing is wrong. –  Will Jul 27 '10 at 10:14
-1 for creating something with _t suffix not in RTL/compiler. –  SiPlus May 13 '12 at 8:12

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