Just a general question about programming: When you define a value in C (or any language I suppose), How does the compiler known how to treat the value? For example:

#define CountCycle  100000

I would assume CountCycle is a "long integer" data type, but that's just an assumption. I suppose it could also be a float, a double (not an int as it maxes out at ~32k), etc.

How does the compiler choose the data type for a #define value? I have no application for the answer to this question; I'm just curious.

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    The compiler doesn't care about #define directives at all. It's the preprocessor's job. And the preprocessor knows nothing about types: it merely does text substitution.
    – ForceBru
    Aug 31, 2017 at 13:22
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    A define is literally a text replacement, so it's an integer literal in this case. Aug 31, 2017 at 13:23
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    The question perhaps belies a misunderstanding. Within the #define the value doesn't have a type, it is just a token. Only when you use it in "real code" does it take a type, and that would be the same type as if you used the literal value.
    – davmac
    Aug 31, 2017 at 13:23
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    Even if it doesn't matter in this particular case, be aware that C and C++ are two very different languages and the tags shouldn't be used together usually.
    – muXXmit2X
    Aug 31, 2017 at 13:30
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    @muXXmit2X: By sheer coincidence, the languages have not diverged on this point.
    – Bathsheba
    Aug 31, 2017 at 13:30

5 Answers 5


The compiler does no such thing. The preprocessor substitues 100000 for CountCycle.

Once that substitution has been completed, the compiler can take over. 100000 has the type int if it can fit in that range, a long if it can't.

See a C++ Reference and a C Reference.

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    Doesn't that require the literal 'L'? Aug 31, 2017 at 13:24
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    How did you get 15 characters into a 'no' Aug 31, 2017 at 13:26
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    @RickAstley That's U+034F COMBINING GRAPHEME JOINER.
    – user784668
    Aug 31, 2017 at 13:32
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    @Diesel: See the two references I've added. That tells you about the type of an integer literal. Note that 2E500, if your platform supports it, would be a floating point literal, due to the scientific notation.
    – Bathsheba
    Aug 31, 2017 at 13:51
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    @RickAstley to find out how to get 15 characters into a 'no', see here
    – M.M
    Aug 31, 2017 at 14:12

CountCycle does not have a type. It can be substituted for the integer constant 100000 by the preprocessor everywhere in the program where this name is encountered.

It is the integer constant 100000 that has a type.

If an integer decimal constant does not have a suffix then (The C Standard, Integer constants)

5 The type of an integer constant is the first of the corresponding list in which its value can be represented.

long int
long long int

If you want that the constant had the type long int you could specify a suffix. For example

#define CountCycle  100000l

if the value of the constant is in the domain of the type long int then the constant will have the type. Otherwise it will have type long long int.

If you want to specify a floating constant you should use one of its representations. For example

#define CountCycle  100000.0
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    Not everywhere. E.g. std::cout << "CountCycle = " << CountCycle;. Only the second occurrence is replaced. The first occurrence is within a string literal. (cf. UNIX shell scripting, where quotes do not prevent variable replacement)
    – MSalters
    Aug 31, 2017 at 14:19
  • @MSalters Everywhere. Your example does not show a preprocessor name. Aug 31, 2017 at 14:31
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    It is substituted for the integer constant 100000 No, it's substituted as an untyped token, not an integer constant. Where that token get substituted into determines whether or not it gets treated as an integer constant. Aug 31, 2017 at 14:52
  • @underscore_d Iupdated the phrase like "it can be substituted..." Aug 31, 2017 at 14:56

No research behind this, but I think it probably has to do with where/how you use the #define value. If you have #define MAX 9 for example, and use it to represent the length of an array like people[MAX], the compiler probably interprets MAX as an int. but if you use a placeholder to place it in a string as a char, then it probably interprets it as a char.

  • Macros are not C objects and thus don't have a type. They are used by preprocessor to do text substitution in source file before compilation. Check another answers to this question.
    – YurkoFlisk
    Jul 21 at 3:29

There are four stages for a C program to become an executable:

  1. Pre-processing
  2. Compilation
  3. Assembly
  4. Linking

The "Pre-processing" is the first stage.

"#define" is a preprocessor which process before compilation. You create macros with the #define directive. #define is followed by the name of the macro and then the token sequence it should be an abbreviation for, which is variously referred to as the macro's body, expansion or replacement list.

For example-

If you specify the following in your program

#define BUFFER_SIZE 1000

The preprocessor will replace the macro name BUFFER_SIZE with macro expansion 1000 in your source code file before handing it over to the compiler.


The compiler does no such thing. The preprocessor substitues 100000 for CountCycle.

It's true, but you have to care about some compiler options that truncates the value defined. For example, if you are working with an embedded plataform that can't do floating point calc at run time, the compiler maybe implicit converts your float definition for an integer definition. Anyway, you can do flating point math in compiler time. Why? Because many paramethers can increase the final result precision by do this calculation, and you can use the final result truncated in run time.

So, the correct way to use it is to take care in where you use: in the middle of a fixed point math; as floating data; or something else. A good way to prevent erros is explicit casting any numer, by do something like:

#define MY_FLOAT_DATA   (float)4.55
#define MY_INTEGER_DATA (int)4

  • I'm not sure I agree with any of this. If your embedded platform doesn't support flating [sic] point math then it's not a C or C++ compiler and any deviation from the standard will be documented, and you would program accordingly.
    – Bathsheba
    Aug 31, 2017 at 18:56

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