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  1. When is it appropriate to include a type conversion in a symbolic constant/macro, like this:

    #define MIN_BUF_SIZE ((size_t) 256)
    

    Is it a good way to make it behave more like a real variable, with type checking?

  2. When is it appropriate to use the L or U (or LL) suffixes:

    #define NBULLETS 8U
    #define SEEK_TO 150L
    
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Just remember that macros are just copy + paste. So it'll take whatever type the context makes it take. –  Mysticial Nov 22 '12 at 17:03
    
If the casting is necessary where the macro is placed then you would have the need to add the casting anytime you placed the macro. Doing it the way you propose it propably saves you typing (and perhaps some debugging ;-)). –  alk Nov 22 '12 at 17:20
1  
Never mind the "behave more like a real variable". The literal value 256 alone would have a type too, of course. –  potrzebie Nov 22 '12 at 17:39

4 Answers 4

up vote 3 down vote accepted

You need to do it any time the default type isn't appropriate. That's it.

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Typing a constant can be important at places where the automatic conversions are not applied, in particular functions with variable argument list

printf("my size is %zu\n", MIN_BUF_SIZE);

could easily crash when the width of int and size_t are different and you wouldn't do the cast.

But your macro leaves room for improvement. I'd do that as

#define MIN_BUF_SIZE ((size_t)+256U)

(see the little + sign, there?)

When given like that the macro still can be used in preprocessor expressions (with #if). This is because in the preprocessor the (size_t) evaluates to 0 and thus the result is an unsigned 256 there, too.

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I like your first example. gcc and clang (and probably others) will warn about mismatched format/argument pairs these days, though. –  Carl Norum Nov 23 '12 at 3:06
1  
Warnings are often ignored, and won't save you from undefined behaviour on platforms where they're different (e.g. 64-bit platforms with 32-bit ints). Defining the constant so the behaviour is always correct seems good to me. –  Jules Mar 3 '13 at 9:30

#define is just token pasting preprocessor.

Whatever you write in #define it will replace with the replacement text before compilation.

So either way is correct

#define A a

int main
{
 int A; // A will be replaced by a
}

There are many variations in #define like variadic macro or multiline macro

But the main aim of #define is the only one explained above.

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Explicitly indicating the types in a constant was more relevant in Kernighan and Richie C (before ANSI/Standard C and its function prototypes came along).

Function prototypes like double fabs(double value); now allow the compiler to generate proper type conversions when needed.

You still want to explicitly indicate the constant sizes in some cases. The examples that come to my mind right now are bit masks:

  • #define VALUE_1 ((short) -1) might be 16 bits long while #define VALUE_2 ((char) -1) might be 8. Therefore, given a long x, x & VALUE_1 and x & VALUE_2would give very different results.

    • This would also be the case for the L or LL suffixes: the constants would use different numbers of bits.
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Given a long x, VALUE_1 and VALUE_2 will be promoted and sign extended, so you should get the same results. –  Carl Norum Nov 22 '12 at 17:40
    
Carl, you're right. So much for contrived examples off the top of the head :-/ –  Luis Nov 22 '12 at 19:32
    
@Luis Pretend you assumed that char was unsigned in the implementation under discussion. ;) –  Daniel Fischer Nov 22 '12 at 19:59

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