The following code compiles without problems:

int main() {
    printf("Hi" "Bye");

However, this does not compile:

int main() {
    int test = 0;
    printf("Hi" (test ? "Bye" : "Goodbye"));

What is the reason for that?

  • 95
    String concatenation is part of the early lexing phase; it's not part of the expression synatx of C. In other words, there is no value of type "string literal". Rather, string literals are lexical elements of the source code that form values. – Kerrek SB May 16 '16 at 17:12
  • 24
    Just to clarify @KerrekSB answer - concatenation of the strings is a part of preprocessing of the code text prior compiling it. While the ternary operator is evaluated in the runtime, after the code is compiled (or in case everything is constant it can be done in the compile-time). – Eugene Sh. May 16 '16 at 17:15
  • 2
    Detail: In this post, "Hi" and "Bye" are string literals, not strings as used in the C standard library. With string literals, the compiler will concatenate "H\0i" "B\0ye". Not the same with sprintf(buf,"%s%s", "H\0i" "B\0ye"); – chux - Reinstate Monica May 16 '16 at 19:18
  • 15
    More-or-less the same reason you can't do a (some_condition ? + : - ) b – user253751 May 17 '16 at 10:15
  • 4
    Note that even printf("Hi" ("Bye")); won't work — it doesn't require the ternary operator; the parenthesis is sufficient (though printf("Hi" test ? "Bye" : "Goodbye") also wouldn't compile). There are only a limited number of tokens that can follow a string literal. Comma ,, open square bracket [, close square bracket ] (as in 1["abc"] — and yes, it is gruesome), close round bracket ), close curly bracket } (in an initializer or similar context), and semicolon ; are legitimate (and another string literal); I'm not sure there are any others. – Jonathan Leffler May 17 '16 at 19:43

According to the C Standard ( Translation phases)

1 The precedence among the syntax rules of translation is specified by the following phases.6)

  1. Adjacent string literal tokens are concatenated.

And only after that

  1. White-space characters separating tokens are no longer significant. Each preprocessing token is converted into a token. The resulting tokens are syntactically and semantically analyzed and translated as a translation unit.

In this construction

"Hi" (test ? "Bye" : "Goodbye")

there are no adjacent string literal tokens. So this construction is invalid.

  • 43
    This only repeats the assertion that it's not allowed in C. It does not explain why, which was the question. Don't know why it accumulated 26 upvotes in 5 hours.... and the accept, no less! Congratulations. – Lightness Races in Orbit May 16 '16 at 23:03
  • 4
    Have to agree with @LightnessRacesinOrbit here. Why shouldn't (test ? "Bye" : "Goodbye") evaulate to either of the string literals essentially making "Hi" "Bye" or "Hi Goodbye"? (my question is answered in the other answers) – Insane May 17 '16 at 0:30
  • 49
    @LightnessRacesinOrbit, because when people normally ask why something doesn't compile in C, they're asking for clarification on which rule it breaks, not why Standards Authors of Antiquity chose it to be that way. – user1717828 May 17 '16 at 0:57
  • 4
    @LightnessRacesinOrbit The question you describe would probably be off topic. I can't see any technical reason why it wouldn't be possible to implement that, so without a definitive answer from the authors of the specification, all answers would be opinion based. And it would generally not fall into the category of "practical" or "answerable" questions (as the help center indicates we require). – jpmc26 May 17 '16 at 7:37
  • 12
    @LightnessRacesinOrbit It's explains why: "because C standard said so". Question about why this rule is defined as defined would be off topic. – user11153 May 17 '16 at 9:26

As per the C11 standard, chapter §, concatenation of adjacent string literals:

Adjacent string literal tokens are concatenated.

happens in translation phase. On the other hand:

printf("Hi" (test ? "Bye" : "Goodbye"));

involves the conditional operator, which is evaluated at run-time. So, at compile time, during the translation phase, there are no adjacent string literals present, hence the concatenation is not possible. The syntax is invalid and thus reported by your compiler.

To elaborate a bit on the why part, during the preprocessing phase, the adjacent string literals are concatenated and represented as a single string literal (token). The storage is allocated accordingly and the concatenated string literal is considered as a single entity (one string literal).

On the other hand, in case of run-time concatenation, the destination should have enough memory to hold the concatenated string literal otherwise, there will be no way that the expected concatenated output can be accessed. Now, in case of string literals, they are already allocated memory at compile-time and cannot be extended to fit in any more incoming input into or appended to the original content. In other words, there will be no way that the concatenated result can be accessed (presented) as a single string literal. So, this construct in inherently incorrect.

Just FYI, for run-time string (not literals) concatenation, we have the library function strcat() which concatenates two strings. Notice, the description mentions:

char *strcat(char * restrict s1,const char * restrict s2);

The strcat() function appends a copy of the string pointed to by s2 (including the terminating null character) to the end of the string pointed to by s1. The initial character of s2 overwrites the null character at the end of s1. [...]

So, we can see, the s1 is a string, not a string literal. However, as the content of s2 is not altered in any way, it can very well be a string literal.

  • 1
    you might want to add an extra explanation about strcat: the destination array must be long enough to receive the characters from s2 plus a null terminator after the characters present there already. – chqrlie Apr 30 '19 at 20:00

String literal concatenation is performed by the preprocessor at compile-time. There is no way for this concatenation to be aware of the value of test, which is not known until the program actually executes. Therefore, these string literals cannot be concatenated.

Because the general case is that you wouldn't have a construction like this for values known at compile-time, the C standard was designed to restrict the auto-concatenation feature to the most basic case: when the literals are literally right alongside each other.

But even if it did not word this restriction in that way, or if the restriction were differently-constructed, your example would still be impossible to realise without making the concatenation a runtime process. And, for that, we have the library functions such as strcat.

  • 3
    I just read assumptions. While what you say is pretty much valid, you can't provide sources for it since there are none. The only source in regards to C is the standard document which (while it is in many cases obvisious) doesn't state why some things are the way they are but just states that they have to be that specific way. So beeing that nit-picky about Vlad from Moscow's answer is inappropiate. Since OP can be breaken down to "Why is it that way?" -Where the only correct sourced answer is "Because it is C, and thats the way C is defined" thats the only literarly straight correct answer. – dhein May 17 '16 at 13:43
  • 1
    This is (admited) lacking of explanation. But here again beeing said is Vlad's answer serving much more as an explanation to the core problem then yours does. Again said: While the information you give I can confirm is related and correct, I disaggree with your complaints. and while I wouldn't consider you'rs offtopic aswell, its from my POV more offtopic then Vlads actually is. – dhein May 17 '16 at 13:43
  • 11
    @Zaibis: The source is me. Vlad's answer is not an explanation at all; it is merely a confirmation of the premise of the question. Certainly neither of them is "off topic" (you might want to look up what that term means). But you are entitled to your opinion. – Lightness Races in Orbit May 17 '16 at 13:48
  • Even after reading above comments, I still wonder who downvoted this answer ᶘ ᵒᴥᵒᶅ I believe this is a perfect answer unless OP asks for further clarifications on this answer. – Mohit Jain May 18 '16 at 8:52
  • 2
    I am unable to distinguish why this answer is acceptable to you and @VladfromMoscow's isn't, when they both say the same thing, and when his is backed by a citation and yours isn't. – user207421 May 19 '16 at 2:03

Because C has no string type. String literals are compiled to char arrays, referenced by a char* pointer.

C allows adjacent literals to be combined at compile-time, as in your first example. The C compiler itself has some knowledge about strings. But this information is not present at runtime, and thus concatenation cannot happen.

During the compilation process, your first example is "translated" to:

int main() {
    static const char char_ptr_1[] = {'H', 'i', 'B', 'y', 'e', '\0'};

Note how the two strings are combined to a single static array by the compiler, before the program ever executes.

However, your second example is "translated" to something like this:

int main() {
    static const char char_ptr_1[] = {'H', 'i', '\0'};
    static const char char_ptr_2[] = {'B', 'y', 'e', '\0'};
    static const char char_ptr_3[] = {'G', 'o', 'o', 'd', 'b', 'y', 'e', '\0'};
    int test = 0;
    printf(char_ptr_1 (test ? char_ptr_2 : char_ptr_3));

It should be clear why this does not compile. The ternary operator ? is evaluated at runtime, not compile-time, when the "strings" no longer exist as such, but only as simple char arrays, referenced by char* pointers. Unlike adjacent string literals, adjacent char pointers are simply a syntax error.

  • 2
    Excellent answer, possibly the best here. "It should be clear why this does not compile." You might consider expanding that with "because the ternary operator is a conditional evaluated at run time not compile time". – cat May 17 '16 at 1:02
  • Shouldn't static const char *char_ptr_1 = {'H', 'i', 'B', 'y', 'e', '\0'}; be static const char *char_ptr_1 = "HiBye"; and similarly for the rest of the pointers? – Spikatrix May 17 '16 at 6:05
  • @CoolGuy When you write static const char *char_ptr_1 = "HiBye"; the compiler translates the line to static const char *char_ptr_1 = {'H', 'i', 'B', 'y', 'e', '\0'};, so no, it should not be wrote "like a string". As the Answer says, strings are compiled to an array of chars, and if you were assigning an array of chars in it's most "raw" form, you would use a comma separated list of chars, just like static const char *char_ptr_1 = {'H', 'i', 'B', 'y', 'e', '\0'}; – Ankush May 17 '16 at 10:42
  • 3
    @Ankush Yes. But although static const char str[] = {'t', 'e', 's', 't', '\0'}; is the same as static const char str[] = "test";, static const char* ptr = "test"; is not the same as static const char* ptr = {'t', 'e', 's', 't', '\0'};. The former is valid and will compile but the latter is invalid and does do what you expect. – Spikatrix May 17 '16 at 13:06
  • I have fleshed out the last paragraph and corrected the code examples, thanks! – Unsigned May 18 '16 at 18:01

If you really want to have both branches produce compile-time string constants to be chosen at runtime, you'll need a macro.

#include <stdio.h>
#define ccat(s, t, a, b) ((t)?(s a):(s b))

main ( int argc, char **argv){
  printf("%s\n", ccat("hello ", argc > 2 , "y'all", "you"));
  return 0;

What is the reason for that?

Your code using ternary operator conditionally chooses between two string literals. No matter condition known or unknown, this can't be evaluated at compile time, so it can't compile. Even this statement printf("Hi" (1 ? "Bye" : "Goodbye")); wouldn't compile. The reason is in depth explained in the answers above. Another possibility of making such a statement using ternary operator valid to compile, would also involve a format tag and the result of the ternary operator statement formatted as additional argument to printf. Even then, printf() printout would give an impression of "having concatenated" those strings only at, and as early as runtime.

#include <stdio.h>

int main() {
    int test = 0;
    printf("Hi %s\n", (test ? "Bye" : "Goodbye")); //specify format and print as result
  • 3
    SO is not a Tutorial site. You should give an Answer to the OP and not a tutorial. – Michi May 16 '16 at 17:41
  • 1
    This does not answer the OP's question. It may be an attempt to solve the OP's underlying problem, but we don't really know what that is. – Keith Thompson May 16 '16 at 17:47
  • 1
    printf doesn't require a format specifier; if only the concatenation were done at compile time (which it isn't), OP's use of printf would be valid. – David Conrad May 17 '16 at 7:22
  • Thanks for your remark, @David Conrad. My sloppy wording would indeed make appear as if stating printf() would require a format tag, which is absolutely not true. Corrected! – user3078414 May 17 '16 at 8:45
  • That's a better wording. +1 Thanks. – David Conrad May 17 '16 at 9:08

In printf("Hi" "Bye"); you have two consecutive arrays of char which the compiler can make into a single array.

In printf("Hi" (test ? "Bye" : "Goodbye")); you have one array followed by a pointer to char (an array converted to a pointer to its first element). The compiler cannot merge an array and a pointer.


To answer the question - I would go to the definition of printf. The function printf expects const char* as argument. Any string literal such as "Hi" is a const char*; however an expression such as (test)? "str1" : "str2" is NOT a const char* because the result of such expression is found only at run-time and hence is indeterminate at compile time, a fact which duly causes the compiler to complain. On the other hand - this works perfectly well printf("hi %s", test? "yes":"no")

  • *however an expression such as (test)? "str1" : "str2" is NOT a const char*... Of course it is! It is not a constant expression, but its type is const char *. It would be perfectly fine to write printf(test ? "hi " "yes" : "hi " "no"). The OP's problem has nothing to do with printf, "Hi" (test ? "Bye" : "Goodbye") is a syntax error no matter what the expression context is. – chqrlie Apr 30 '19 at 19:57
  • Agreed. I confused the output of an expression with the expression itself – Stats_Lover May 1 '19 at 1:24

This does not compile because the parameter list for the printf function is

(const char *format, ...)


("Hi" (test ? "Bye" : "Goodbye"))

does not fit the parameter list.

gcc tries to make sense of it by imagining that

(test ? "Bye" : "Goodbye")

is a parameter list, and complains that "Hi" is not a function.

  • 6
    Welcome to Stack Overflow. You're right that it doesn't match the printf() argument list, but that's because the expression isn't valid anywhere — not just in a printf() argument list. In other words, you've picked a far too specialized reason for the problem; the general problem is that "Hi" ( is not valid in C, let alone in a call to printf(). I suggest you delete this answer before it is down-voted. – Jonathan Leffler May 17 '16 at 19:28
  • That is not how C works. This is not parsed as trying to call a string literal like PHP. – cat May 17 '16 at 20:24

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