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Is it possible to determine if an argument passed in macro or function is a string literal at compile time or run time ?

For example,

#define is_string_literal(X)

is_string_literal("hello") == true;
const char * p = "hello";
is_string_literal(p) == false;


bool is_string_literal(const char * s);

is_string_literal("hello") == true;
const char * p = "hello";
is_string_literal(p) == false;


share|improve this question
For a purpose, or just wondering? – GManNickG Apr 17 '11 at 3:27
What if I initialized a named pointer to a string literal like const char* p = "hello"; somewhere else, then passed the value of that pointer p to is_string_literal()? Should it return true or false? – In silico Apr 17 '11 at 3:45
@absurd: Again, what is this for? – GManNickG Apr 17 '11 at 4:00
@absurd: Well your non-literal strings should be std::string's, so just toss the literal cases into one and send it over. – GManNickG Apr 17 '11 at 4:12
@absurd: Efficiency isn't as important as getting things working in a clear and succinct fashion. std::string does that. (Yes, it's unfortunately literals aren't as improved as they could be, but it's not something to worry about until it's a measurable problem.) – GManNickG Apr 17 '11 at 5:07

YES! (Thanks to James McNellis and GMan for corrections. Updated to correctly handle concatenated literals like "Hello, " "World!" which get stringized before concatenation.)

#define is_literal_(x) is_literal_f(#x, sizeof(#x) - 1)
#define is_literal(x) is_literal_(x)

bool is_literal_f(const char *s, size_t l)
    const char *e = s + l;
    if(s[0] == 'L') s++;
    if(s[0] != '"') return false;
    for(; s != e; s = strchr(s + 1, '"'))
        if(s == NULL) return false;
        while(isspace(*s)) s++;
        if(*s != '"') return false;
    return true;

This will stringify the argument before passing it to the function, so if the argument was a string literal, the argument passed to our function will be surrounded with quote characters.

If you consider this a string literal:

const char *p = "string";
// should is_literal(p) be true or false?

I cannot help you. You might be able to use some implementation-defined (or *shudder* undefined) behavior to test whether or not a string is stored in read-only memory, but on some (probably older) systems p could be modified.

For those who question the use of such a function, consider:

enum string_type { LITERAL, ARRAY, POINTER };

void string_func(/*const? */char *c, enum string_type t);

Rather than explicitly specifying the second argument to string_function on every call, is_literal allows us to wrap it with a macro:

#define string_func(s) \
    (string_func)(s, is_literal(s)  ? LITERAL :
        (void *)s == (void *)&s ? ARRAY : POINTER)

I can't imagine why it would make a difference, except in plain C where literals aren't const and for some reason you don't want to/can't write the function as taking a const char * instead of a char. But there are all kinds of reasons to want to do something. Someday you, too may feel the need to resort to a horrible hack.

share|improve this answer
Even if it works, I would immediately reject it in a code review. It's such a massive WTF. – In silico Apr 17 '11 at 3:48
+1 Very nice example of thinking outside the box. – Ben Voigt Apr 17 '11 at 3:54
Ok; I'll buy that: it does test whether the argument is a string literal; you just can't do anything useful with the function. [Edit: actually, you need to walk the whole string in the function to handle e.g. is_literal("Hello, " omghax "World!").] – James McNellis Apr 17 '11 at 4:03
@GMan - Actually, no overload needed. L":P :)" will stringize to "L\":P :)\"", which is still a char * rather than a wchar_t *. Instead of an overload, you just need to do s[0] == '"' || (s[0] == 'L' && s[1] == '"') – Chris Lutz Apr 17 '11 at 4:19
Just as a side remark, I think double underscore is not allowed for C++ identifiers, I think. – Jens Gustedt Apr 17 '11 at 7:01

No. A string literal is just an array of char (in C) or const char (in C++).

You can't distinguish between a string literal and some other array of char like this one (in C++):

const char x[] = "Hello, World!";
share|improve this answer
But could you use a sizeof(s) != sizeof(void *) hack to differentiate string literals (or arrays) from a char*. You'd get tripped up by s = "sss" on 32bit systems of course. I'm not recommending such a thing of course. – mu is too short Apr 17 '11 at 3:41
@mu is too short: sizeof("Hello, World!") is 14. sizeof(x) (given the x in my example) is 14. A string literal is an array like any other. – James McNellis Apr 17 '11 at 3:43
@James - False! It can be done. See my answer. – Chris Lutz Apr 17 '11 at 3:43
Yes, I know a string literal is just an array with an automatic null terminator, hence the char* reference in my comment. – mu is too short Apr 17 '11 at 3:47
@iammilind: I find it interesting that you downvoted this answer but your so-called elegant "solution" doesn't even work for the trivial case I present here in my answer. – James McNellis Apr 17 '11 at 7:20

Knowing at compile time (as mentioned in question), with following technique. You can determine if the a given argument is string literal or not. If it's some array or pointer like const char x[], *p; then it will throw compiler error.

#define is_string_literal(X) _is_string_literal("" X)
bool _is_string_literal (const char *str) { return true; } // practically not needed

[Note: My previous answer was down voted by experts and it's yet not accepted or up voted after edits. I am putting an another answer with same content.]

share|improve this answer

I had a similar question: I wanted to say that

MY_MACRO("compile-time string")

was legal, and that

char buffer[200]="a string";

was legal, but not to allow


I used GCC's __builtin_types_compatible_p and MSVC's _countof, which seem to work correctly at the expense of rejecting short string literals.

share|improve this answer

Try this one:

#define is_string_literal(s) \
  (memcmp(#s, "\"", 1) == 0)

According to C/C++ variable naming convention, variable name must be start with '_' or an alphabet.

share|improve this answer
If you're going to steal my technique and take out all the precautions I've taken to make sure faulty input doesn't ge processed, why bother calling memcmp for one character? Just do (#s[0] == '"'). Also, macro names won't stringize properly the way you've written it. – Chris Lutz Apr 21 '11 at 18:37

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