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AFAIK, this question applies equally to C and C++

Step 6 of the "translation phases" specified in the C standard ( in the draft C99 standard) states that adjacent string literals have to be concatenated into a single literal. I.e.

printf("helloworld.c" ": %d: Hello "
       "world\n", 10);

Is equivalent (syntactically) to:

printf("helloworld.c: %d: Hello world\n", 10);

However, the standard doesn't seem to specify which part of the compiler has to handle this - should it be the preprocessor (cpp) or the compiler itself. Some online research tells me that this function is generally expected to be performed by the preprocessor (source #1, source #2, and there are more), which makes sense.

However, running cpp in Linux shows that cpp doesn't do it:

eliben@eliben-desktop:~/test$ cat cpptest.c 
int a = 5;

"string 1" "string 2"
"string 3"

eliben@eliben-desktop:~/test$ cpp cpptest.c 
# 1 "cpptest.c"
# 1 "<built-in>"
# 1 "<command-line>"
# 1 "cpptest.c"
int a = 5;

"string 1" "string 2"
"string 3"

So, my question is: where should this feature of the language be handled, in the preprocessor or the compiler itself?

Perhaps there's no single good answer. Heuristic answers based on experience, known compilers, and general good engineering practice will be appreciated.

Thanks in advance.

P.S. If you're wondering why I care about this... I'm trying to figure out whether my Python based C parser should handle string literal concatenation (which it doesn't do, at the moment), or leave it to cpp which it assumes runs before it.

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I figure it couldn't possibly be handled by the pre-processor because you can use macros to emit string literals, which may be adjacent to others. Since the preprocessor isn't multi-pass, it doesn't have an opportunity to address this case. –  Evan Teran Jun 29 '10 at 17:57
@Evan: Couldn't this be handled by the string concatenation pass happening after the macro expansion pass? If you think about it, if string concat is the last thing cpp does, it's indistinguishable from its being in the compiler :-) –  Eli Bendersky Jul 1 '10 at 15:11
fair enough I suppose. –  Evan Teran Jul 1 '10 at 15:42

5 Answers 5

up vote 7 down vote accepted

The standard doesn't specify a preprocessor vs. a compiler, it just specifies the phases of translation you already noted. Traditionally, phases 1 through 4 were in the preprocessor, Phases 5 though 7 in the compiler, and phase 8 the linker -- but none of that is required by the standard.

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does this mean that gcc's cpp doesn't conform to this tradition of handling 1-6 in cpp? –  Eli Bendersky Jun 29 '10 at 16:31
@Eli: See edited/correct answer. I think it sticks pretty close to the (real) tradition. –  Jerry Coffin Jun 29 '10 at 16:40

Unless the preprocessor is specified to handle this, it's safe to assume it's the compiler's job.


Your "I.e." link at the beginning of the post answers the question:

Adjacent string literals are concatenated at compile time; this allows long strings to be split over multiple lines, and also allows string literals resulting from C preprocessor defines and macros to be appended to strings at compile time...

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However in any case it happens before converting preprocessor tokens to real tokens. For example the following yields 5 instead of a parse-error: sizeof "12" "34" –  Johannes Schaub - litb Jun 29 '10 at 16:29
@Johannes: What about sizeof "12" "23" has anything to do with preprocessor tokens? –  David Thornley Jun 29 '10 at 16:35
@David: the sizeof keyword takes only single argument. Give it two variables and it will complain. –  Karmastan Jun 29 '10 at 17:03
@Karmastan: Strings are concatenated in phase 6 of translation, and sizeof is evaluated in phase 7. Phase 4 is when preprocessor tokens are dealt with. sizeof is not a preprocessor token by the time it is evaluated. –  David Thornley Jun 29 '10 at 17:16
@David what I am saying is that string literals are concatenated before preprocessor tokens are converted to real token streams. Because the abstract syntax is sizeof literal and not sizeof literal literal. It's one non-pp token when the token-stream has been converted and is being analyzed by phase 7 in C++ and C. I'm not saying that sizeof is evaluated at preprocessing time. –  Johannes Schaub - litb Jun 29 '10 at 17:29

In the ANSI C standard, this detail is covered in section, item (6): Translation phases

4. Preprocessing directives are executed and macro invocations are expanded. ...

5. Each source character set member and escape sequence in character constants and string literals is converted to a member of the execution character set.

6. Adjacent character string literal tokens are concatenated and adjacent wide string literal tokens are concatenated.

The standard does not define that the implementation must use a pre-processor and compiler, per se.

Step 4 is clearly a preprocessor responsibility.

Step 5 requires that the "execution character set" be known. This information is also required by the compiler. It is easier to port the compiler to a new platform if the preprocessor does not contain platform dependendencies, so the tendency is to implement step 5, and thus step 6, in the compiler.

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There are tricky rules for how string literal concatenation interacts with escape sequences. Suppose you have

const char x1[] = "a\15" "4";
const char y1[] = "a\154";
const char x2[] = "a\r4";
const char y2[] = "al";

then x1 and x2 must wind up equal according to strcmp, and the same for y1 and y2. (This is what Heath is getting at in quoting the translation steps - escape conversion happens before string constant concatenation.) There's also a requirement that if any of the string constants in a concatenation group has an L or U prefix, you get a wide or Unicode string. Put it all together and it winds up being significantly more convenient to do this work as part of the "compiler" rather than the "preprocessor."

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I would handle it in the scanning token part of the parser, so in the compiler. It seems more logical. The preprocessor has not to know the "structure" of the language, and in fact it ignores it usually so that macros can generate uncompilable code. It handles nothing more than what it is entitled to handle by directives that are specifically addressed to it (# ...), and the "consequences" of them (like those of a #define x h, which would make the preprocessor change a lot of x into h)

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i.e. opening ", stuffs, a closing ", followed by "blanks", then followed by opening " the by closing " (and so on), won't cause to produce two string tokens to be then merged: it would produce a single string token directly –  ShinTakezou Jul 5 '10 at 20:39

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