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I was recently bitten by a subtle bug.

char ** int2str = {
   "zero", // 0
   "one",  // 1
   "two"   // 2
   "three",// 3
   nullptr };

assert( int2str[1] == std::string("one") ); // passes
assert( int2str[2] == std::string("two") ); // fails

If you have godlike code review powers you'll notice I forgot the , after "two".

After the considerable effort to find that bug I've got to ask why would anyone ever want this behavior?

I can see how this might be useful for macro magic, but then why is this a "feature" in a modern language like python?

Have you ever used string literal concatenation in production code?

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3  
I had a bug like this but I had numbers on different rows and the row after the missing comma had a negative sign so I didn't get a compilation error. –  Jared Updike Mar 24 '10 at 0:11
    
what's with the underscores? –  Zoltan Mar 24 '10 at 0:52
    
I guess C++0x' user-defined literals: public.research.att.com/~bs/C++0xFAQ.html#UD-literals –  Georg Fritzsche Mar 24 '10 at 1:44
    
In the same spirit, what happens if you forget the _s after string literals? –  visitor Mar 24 '10 at 12:15
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9 Answers

up vote 22 down vote accepted

Sure, it's the easy way to make your code look good:

char *someGlobalString = "very long "
                         "so broken "
                         "onto multiple "
                         "lines";

The best reason, though, is for weird printf formats, like type forcing:

uint64_t num = 5;
printf("Here is a number:  %"PRIX64", what do you think of that?", num);

There are a bunch of those defined, and they can come in handy if you have type size requirements. Check them all out at this link. A few examples:

PRIo8 PRIoLEAST16 PRIoFAST32 PRIoMAX PRIoPTR
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@Carl - you should modify your printf example to have a uint64_t argument. –  R Samuel Klatchko Mar 24 '10 at 0:18
    
Thanks for that! Fixed. –  Carl Norum Mar 24 '10 at 0:21
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It's a great feature that allows you to combine preprocessor strings with your strings.

// Here we define the correct printf modifier for time_t
#ifdef TIME_T_LONG
    #define TIME_T_MOD "l"
#elif defined(TIME_T_LONG_LONG)
    #define TIME_T_MOD "ll"
#else
    #define TIME_T_MOD ""
#endif

// And he we merge the modifier into the rest of our format string
printf("time is %" TIME_T_MOD "u\n", time(0));
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1  
@STingRaySC, what about PRIx32 or PRIuLEAST32 and friends? opengroup.org/onlinepubs/9699919799/basedefs/inttypes.h.html –  Carl Norum Mar 24 '10 at 0:19
2  
@STingRaySC - while I agree that there are better way to do this in C++, his question is also tagged as C (where this is very useful). –  R Samuel Klatchko Mar 24 '10 at 0:20
2  
There is a very good reason for printf (and friends') format strings to be compile-time constants - the compiler can tell you if your argument types don't match the format strings. –  caf Mar 24 '10 at 0:36
1  
@STingRaySC: it might not be necessary, but it's a common use. I'd like to see a pointer to a simple example of an alternative solution to this problem that doesn't use the preprocessor for comparison. –  Michael Burr Mar 24 '10 at 0:42
1  
@STingRaySC - rather than being implemented as a single library call, printf can get optimized down to a series of calls specific to the formats included in that string -- which is why it takes only a constant string for its first argument! If you're compiling for a tiny embedded platform, not needing to have a do-it-all print-everything function with tons of code you'll never use linked in can be a huge win (and do remember that embedded space is one of the markets C still dominates, so there are lots of folks this is important to). –  Charles Duffy Mar 24 '10 at 1:21
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Cases where this can be useful:

  • Generating strings including components defined by the preprocessor (this is perhaps the largest use case in C, and it's one I see very, very frequently).
  • Splitting string constants over multiple lines

To provide a more concrete example for the former:

// in version.h
#define MYPROG_NAME "FOO"
#define MYPROG_VERSION "0.1.2"

// in main.c
puts("Welcome to " MYPROG_NAME " version " MYPROG_VERSION ".");
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From the python lexical analysis reference, section 2.4.2:

This feature can be used to reduce the number of backslashes needed, to split long strings conveniently across long lines, or even to add comments to parts of strings

http://docs.python.org/reference/lexical_analysis.html

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Wouldn't a ''' string do the same? –  deft_code Mar 24 '10 at 2:56
    
@Caspin - a raw string (r'', or triple quoted) will include all newline characters and whitespace. Separate string literals will only be concatenated. –  JimB Mar 24 '10 at 15:02
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So that you can split long string literals across lines.

And yes, I've seen it in production code.

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I'm not sure about other programming languages, but for example C# doesn't allow you to do this (and I think this is a good thing). As far as I can tell, most of the examples that show why this is useful in C++ would still work if you could use some special operator for string concatenation:

string someGlobalString = "very long " +
                          "so broken " +
                          "onto multiple " +
                          "lines"; 

This may not be as comfortable, but it is certainly safer. In your motivating example, the code would be invalid unless you added either , to separate elements or + to concatenate strings...

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That would not be valid. At least one of those strings would have to have a cast to std::string before that would compile. Also, the question is tagged with C. –  Billy ONeal Mar 24 '10 at 1:14
    
@BillyONeal: The question is tagged with Python/C++ and it asks why "modern languages such as Python" allow this, so I thought I would post one counter-example. And I wanted to show that you don't need the feature (in general) to support things like line-breaks and macro expansion. –  Tomas Petricek Mar 24 '10 at 1:50
    
Hmm.. what was I smoking? +1 –  Billy ONeal Mar 24 '10 at 13:51
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I certainly have in both C and C++. Offhand, I don't see much relationship between its utility and how "modern" the language is.

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I don't mean the older languages shouldn't be used modernly. I was referring to when the language spec was originally written. C# has definitely learned from Java and avoided it's warts. The same is true for Java/C# learning from C++. –  deft_code Mar 24 '10 at 14:05
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While people have taken the words out of my mouth about the practical uses of the feature, nobody has so far tried to defend the choice of syntax.

For all I know, the typo that can slip through as a result was probably just overlooked. After all, it seems robustness against typos wasn't at the front of Dennis's mind, as shown further by:

if (a = b);
{
    printf("%d", a);
}

Furthermore, there's the possible view that it wasn't worth using up an extra symbol for concatenation of string literals - after all, there isn't much else that can be done with two of them, and having a symbol there might create temptation to try to use it for runtime string concatenation, which is above the level of C's built-in features.

Some modern, higher-level languages based on C syntax have discarded this notation presumably because it is typo-prone. But these languages have an operator for string concatenation, such as + (JS, C#), . (Perl, PHP), ~ (D, though this has also kept C's juxtaposition syntax), and constant folding (in compiled languages, anyway) means that there is no runtime performance overhead.

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I see several C and C++ answers but none of the really answer why or really what was the rationale for this feature? In C++ this is feature comes from C99 and we can find the rationale foe this feature by going to Rationale for International Standard—Programming Languages—C section 6.4.5 String literals which says:

A string can be continued across multiple lines by using the backslash–newline line continuation, but this requires that the continuation of the string start in the first position of the next line. To permit more flexible layout, and to solve some preprocessing problems (see §6.10.3), the C89 Committee introduced string literal concatenation. Two string literals in a row are pasted together, with no null character in the middle, to make one combined string literal. This addition to the C language allows a programmer to extend a string literal beyond the end of a physical line without having to use the backslash–newline mechanism and thereby destroying the indentation scheme of the program. An explicit concatenation operator was not introduced because the concatenation is a lexical construct rather than a run-time operation.

which as Dan pointed out for Python which seems to have the same reason, this reduces the need for ugly \ to continue long string literals. Which is covered in section 2.4.2 String literal concatenation of the The Python Language Reference.

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