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typedef intptr_t        ngx_int_t; 
typedef uintptr_t       ngx_uint_t; 
typedef intptr_t        ngx_flag_t;

What can we benifit from this ?I can't think of one to be honest...

The above code are from the famous nginx project,check it if interested.

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2  
sorry, I think the asker of this question understands what is typedef..His question is what is the use of typedef's which is quoted in the question... –  Krishnabhadra May 26 '11 at 9:17
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For me, these kind of typedef's make code ugly..Bad programming.. –  Krishnabhadra May 26 '11 at 9:18
    
I'd need to see them in action in order to have an idea of their benefits... –  Oleiade May 26 '11 at 9:24
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I agree with you that Typedef's are really useful..But it should be used correctly..note the way which is given in the question.. –  Krishnabhadra May 26 '11 at 9:31

5 Answers 5

One of the typedef purposes is portability. E.g. different compilers and platforms have various type sizes, e.g. sizeof(int) on x86, Linux, gcc is not the same as on Texas Instrument's processors :) But it's still int.

So,

typedef int INT32 

saves one when porting the code.

Another purpose of typedef, is to declare types in order to make shorter declarations.

typedef sharted_ptr<MyClass> MyClassPtr;

And now, you can use MyClassPtr as a type, instead of writing the whole shared_ptr... string.

And the very common usage of typedef with structures:

typedef struct {
   int x;
   int y;
} Point;

or

struct point {
   int x;
   int y;
}

typedef struct point Point;

Both typedefs let you avoid typing struct keyword every time.

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@Zaur Nasibov,how can typedef int INT32 saves one when porting the code? –  DriverBoy May 26 '11 at 9:30
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Because if the code requires a 32-bit int, but you're compiling on a platform where int is, say, 16 bits, you can just change the typedef to 'typedef long INT32' and it'll all work without having to change all occurances of int in the code. –  David Given May 26 '11 at 9:44
    
There are int types with fixed sizes in C99, so if you are using C99, use those instead of your own typedefs. –  Lundin May 26 '11 at 9:51
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@Lundin, If you're looking for portability, then don't assume that you're on C99 with fixed size types. –  BMitch May 26 '11 at 11:06
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@Lundin: actually, if you're not on C99, then the C99 types are trivial to define yourself. These days there no reason not to use them in all code. –  David Given May 27 '11 at 8:45

It's often done for code portability, and is particularly relevant for embedded systems.

Suppose you have some integer values that absolutlely MUST be 32-bits long. Maybe they need to map to network/disk structures, maybe they need to hold values of that magnitude, or whatever.

Now, suppose you develop your code on a compiler where 'int' is 32 bits. You write...

struct s {
 int a,b,c,d;
}

...and it works fine. But, if you need to switch to a compiler where int is only 16-bits, but long is 32, you would need to change all those declarations to

struct s {
 long a,b,c,d;
}

Worse yet, you can't do just search/replace, because some of the 'ints' you probably don't care about the size. So, the best approach is to to this:

typedef long INT32; // change this typedef according to compiler

struct s {
 INT32 a,b,c,d;
}

Then, all you need to is change the typedefs.

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I know two reasons:

  • Aliasing, turning complex declaration something simpler
  • Portability, at different architecture, a type could be differently just, as very simple example: u32, where at some places could be defined as unsigned int, other unsigned long type.
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Can agree with portability point. But the first one..nope –  Krishnabhadra May 26 '11 at 9:21

The reason could be that they wish to change the pointer type when porting the code. On another system, there might be different addressing modes ("banking" etc), and then they might need to use non-standard syntax, like

typedef far intptr_t        ngx_int_t; 

If they never port the code to any system with more than one addressing mode on the same system, portability of pointers would never be an issue and the typedef would be redundant.

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One of the reason I have seen people do this is that they think the if there is a need to change the actual type they just have to change the typedef. I am not too convined about that argument though.

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