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If I define a macro as #define LOGIC_ONE 1 and want to use the LOGIC_ONE in a case statement, what type is LOGIC_ONE considered?

Is it recognized as an int since I am defining it for value 1?

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marked as duplicate by tpg2114, Community Feb 13 at 19:50

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

To see what the pre-processor does, pass -E to the compiler. (msvc, gcc, clang all accept -E) – Ben Feb 13 at 10:39
up vote 19 down vote accepted

C++ macros are simple text replacements.

At the time the compiler starts, your LOGIC_ONE has already been replaced by 1by the precompiler. Its just the same as if you would have written 1right away. (Which, in this case, is an int literal...)

Edit to include the discussion in the comments:
If you (or someone else with access to your code) changes your #define LOGIC_ONE 1 to #define LOGIC_ONE "1"it would change its behaviour in your program and become a const char[] literal.

Since this post got more attention than i expected, i thought i add the references to the C++ 14 Standard for those curious:

2.2 Phases of translation [lex.phases]
4. Preprocessing directives are executed, macro invocations are expanded, and _Pragma unary operator expressions are executed. (...) All preprocessing directives are then deleted.
7. White-space characters separating tokens are no longer significant. Each preprocessing token is converted into a token. (2.6). The resulting tokens are syntactically and semantically analyzed and translated as a translation unit.

As stated, macros are replaced in phase 4 and no longer present afterwards. "Syntactical and semantical" analysation take place in phase 7, where the code gets compiled ("translated").

Integer literals are specified in

2.13.2 Integer literals [lex.icon]
An integer literal is a sequence of digits that has no period or exponent part, with optional separating single quotes that are ignored when determining its value. An integer literal may have a prefix that specifies its base and a suffix that specifies its type.

Table 5 — Types of integer literals

   Suffix    |    Decimal literal     | Binary, octal, or hexadecimal literal  
none         | int                    | int
             | long int               | unsigned int
             | long long int          | long int
             |                        | unsigned long int
             |                        | long long int
             |                        | unsigned long long int
u or U       | unsigned int           | unsigned int
             | unsigned long int      | unsigned long int
             | unsigned long long int | unsigned long long int
l or L       | long int               | long int
             | long long int          | unsigned long int
             |                        | long long int
             |                        | unsigned long long int
Both u or U  | unsigned long int      | unsigned long int
and l or L   | unsigned long long int | unsigned long long int 
ll or LL     | long long int          | long long int
                                      | unsigned long long int
Both u or U  |unsigned long long int  | unsigned long long int
and ll or LL |                        |

String literals are specified in

2.13.5 String literals [lex.string]
1 A string-literal is a sequence of characters (as defined in 2.13.3) surrounded by double quotes, optionally prefixed by R, u8, u8R, u, uR, U, UR, L, rLR, as in "...", R"(...)", u8"...", u8R"**(...)**", u"...", uR"*~(...)*~", U"...", UR"zzz(...)zzz", L"...", or LR"(...)", respectively.
6 After translation phase 6, a string-literal that does not begin with an encoding-prefix is an ordinary string literal, and is initialized with the given characters.
7 A string-literal that begins with u8, such as u8"asdf", is a UTF-8 string literal.
8 Ordinary string literals and UTF-8 string literals are also referred to as narrow string literals. A narrow string literal has type “array of n const char”, where n is the size of the string as defined below, and has static storage duration (3.7).

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I.e. I can treat LOGIC_ONE as if it is an int? – Noobgineer Feb 13 at 1:11
@Noobgineer for the current value yes, but what if someone changes it to "1" – Daniel A. White Feb 13 at 1:12
You can treat it in any way you can treat 1- so yes, its an int literal. – Anedar Feb 13 at 1:12
@DanielA.White What do you mean? Change what to "1"? – Noobgineer Feb 13 at 1:13
@user4581301 Nah, it will become const char []. – HolyBlackCat Feb 13 at 9:02

Preprocessor defines have no type - they are fundamentally just "pasted" in to the code where they appear. If for example, you use it in the statement;

int foo = LOGIC_ONE;

Then it'll be interpreted as integer. (The compiler, which runs after the preprocessor, just sees that code as int foo = 1;) You can even use it in a grotty statement such as;

int foo##LOGIC_ONE;

Then you'll be creating a variable foo1. Yuk!

Take an alternative example of macro definition;

#define LOGIC_ONE hello
int LOGIC_ONE = 5;
printf("%d\n", hello);

That's perfectly valid, and declares an int called hello, but shows that there is no "type" for defines - hello was merely substituted wherever LOGIC_ONE was encountered in the code.

Avoid using preprocessor macros unless absolutely necessary. Professional coding standards often prohibit or severely restrict the use of the preprocessor. There are generally always better ways to do things than use macros. For example, consider these alternatives;

static const int LOGIC_ONE = 1;
enum { LOGIC_ONE = 1 };

The preprocessor is a quick way for a learner to get in a real mess in C.

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Thank you for the detailed explanation. The macros were provided as apart of an API that i have to use and am not allowed to modify, but I will take your advice on avoiding preprocessor macros for future endeavors! – Noobgineer Feb 13 at 2:01
I thought token pasting only worked with macro arguments, and was not applied to macros in general? – supercat Feb 13 at 6:57
The advice against anything but very limited uses of macros is 10-fold in C++ (which this question is tagged). There's almost certainly a better type-safe way of whatever it is you can achieve with macros. File inclusion, include guards and conditional compilation are the remaining main-stays of pre-processing. – Dan Allen Feb 13 at 10:29

LOGIC_ONE is replaced by 1 everywhere it appears. As far as the compiler is concerned LOGIC_ONE doesn't exist , it just sees 1. So your question is 'is 1 an int?'. The answer to that is -> it depends where you type the 1

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Ok. I did not know if the compiler looks for 1 or LOGIC_ONE. Thank you for the clarification! – Noobgineer Feb 13 at 1:17

A macro is a text replacement. 1 is of type constexpr int.

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