Is there a way to warn or prohibit literal string concatenations such as:

const char *a = "foo" " bar";

I spent hours finding a bug in a big static array that had

const char * a[] = {"foo" "bar"};

instead of

const char * a[] = {"foo", "bar"};
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    I sympathize with your pain. We've probably all been there. But you wouldn't want to disallow string concatenation outright, because much code depends on it deliberately. Commented May 19, 2023 at 11:44
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    I use this when I have very log string, so warning of such kind would be annoying thing for me. Since there is valid usage of this feature, I do not think there is easy way to automate detection of this typo. You should ensure code is well tested.
    – Marek R
    Commented May 19, 2023 at 11:47
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    @MarekR Yes, it's not foolproof. but it doesn't have to be. It's more important not to miss any. In practice, your example is probably very rare. Another thing to check is lines that end with ", possible will trailing whitespace. Those can be caught with grep '"\s*$' if desired.
    – Tom Karzes
    Commented May 19, 2023 at 12:17
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    Literal string concatenation is logical phase 6 in the compilation process, which happens before tokenisation. Probably nothing you can do about the problem. Commented May 19, 2023 at 12:17
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    Some candidates (and/or starting points): Is there a GCC flag to detect string literal concatenation? (2015. "I recently fixed a bug ... someone forgot a , after string3") and Why allow concatenation of string literals? (2010. "I was recently bitten by a subtle bug ... I forgot the , after two) Commented May 21, 2023 at 11:29

4 Answers 4


Clang has a warning -Wstring-concatenation that is explicitly designed to catch such bugs:

warning: suspicious concatenation of string literals in an array initialization; did you mean to separate the elements with a comma? [-Wstring-concatenation]
char const *a[]  = { "ok", "foo" "bar", "ok"};

This won't exactly work for the toy example you showed because you need to have several initializers and only miss commas in a couple of places, i.e.:

// no warning
char const *b[]  = {"foo" "bar"};
// no warning
char const *c[]  = {"ok", "foo" "bar"};
// no warning
char const *d[]  = {"foo" "bar", "ok"};

But when you have a large number of initializers in an array and only make a typo in a couple of places, this seems ideal.

Here's a demo.

GCC doesn't appear to have an equivalent warning, but there is a request for it to be added.

Note that this only works for array initialization. Your example of

const char *x = "foo" " bar";

won't be detected by this warning (or any other that I'm aware of).

Also note that enabling this warning may yield a lot of false positives, but you can use it sparingly when trying to catch bugs.


Not really. String literal concatenation is an indispensable part of the C/C++ grammar and has many use cases. So some kind of effort is needed and that may defeat the goal of catching a blunder.

However, string concatenation works very strictly on two string literals appearing after each other with only white space in between, so breaking the white space will cause an error. E.g., in this case you could have written:

const *char[] = {("foo") ("bar")};  // Error

which would cause an error while the intended statement would not:

const *char[] = {("foo"), ("bar")};  // OK

So, in short, you cannot have some way to explicitly tell the compiler that two string literals may be concatenated and have it fail in all other cases, so you will have to tell the compiler explicitly when a string literal may not be concatenated.

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    "...tell the compiler explicitly when a string literal may not be concatenated..." how about putting a , between them? I feel we have gone full circle. Commented May 19, 2023 at 12:19
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    @RichardCritten Yes, the main point is that I think the solution which the OP is looking for does not exist within the C/C++ compiler services.
    – nielsen
    Commented May 19, 2023 at 12:24
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    I think most of the "indispensible" uses involve concatenating string literals with macros, e.g. the macros used in printf format strings. It's rarer that you really need to concatenate just string literals.
    – Barmar
    Commented May 20, 2023 at 23:04
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    I concatenate bare string literals all the time without any macros being involved, simply because I like to wrap lines of code. The proposed solution of wrapping each individual string/element in parenthesis is intriguing. Despite quite extensive experience writing and reading C and C++ code, I would not have known immediately whether that syntax was valid. It certainly makes sense that it is, but it also strikes me as fishy. I'd be inclined to flag this in a code review. While interesting and a possible workaround to the issue mentioned, it does, as Richard suggests, bring us full circle. Commented May 21, 2023 at 7:10
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    @CodyGray: I found the parens were surprising initially, but it didn't take me long to think through why it's valid: a string literal is an object of type const char* (or possibly char* in C, I forget). Parens can appear in expressions, and evaluate to the wrapped sub-expression. An initializer-list wants a list of const char* expressions. I did have to think about it for a couple seconds, but if a code-base used this everywhere, I'd be used to it. So the bigger question is whether this extra syntactical noise for reading the code is worse than the possible problem. Commented May 22, 2023 at 4:33

Either of the macros below make it impossible to accidentally concatenate two strings.

CPP (C preprocessor) macros are awesome in general. It is also legal to have a trailing comma at the end of a list of element.

You can do something like this:

#define STRINGCOMMA(a) a,

const char *x[] = {

Or even:


const char *x[] = {

The comma is added for you, and it would be illegal for you to accidentally do it yourself.

If you are interested, it is also possible to take this concept further to allow creation of parallel lists with the same arguments, but different processing:

X Macro

#define VARLIST \
  DO(foo) \

#define DO(a) #a,
  const char *x[] = {
#undef DO

This would be useful if you wanted to create a list of enums and a list of strings, from the same list of names.


I spent hours finding a bug in a big static array ...

Well, you can do this:

char const * a [] = 
    { "foo"
    , "bar"
    , "baz"
    , "asdf"
    , "ghjk"

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