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I'm just now seeing another naive C++ code using sprintf to append C builtins into an array of chars, and I guess enough is enough.

I could help providing with simple, lightweight, appending and non-formatting functions for std::string, but as it would be check-in-ed into the team's common code, I want it to be perfect, so I need some advice on the interface of this feature (i.e. not on the actual implementation).

The following could be possible (I did not test it, it's just a hunch):

  1. Overloading the "+=" operator (probably in another namespace than std or global)
  2. Overloading the "<<" operator (again, in another namespace)
  3. Providing non-operator non-member functions (I guess, again in another namespace)
  4. Another easy solution I did not see?

What would be the pros and the cons of each solution (I have a preference for "+=", or even "<<") ?

Notes

  • the point is not about formatting. If someone wants formatting, C++ streams are good for that. I just want simple, lightweight, one statement/function call appending.
  • The use of another namespace would be because we are not authorized to add code to the std namespace, and I don't want to pollute the global namespace, so, yes, I guess the user would have to add a using namespace SomeNamespace ; as its done for the <utility>'s rel_ops namespace)
  • I'm using std::string which is not able, natively, to handle other types than itself, char and char *. I want to extend that to handle other simple types.
  • Using a stringstream weights too much in term of code (declaring the stream, appending, then retrieving the .str() to put it inside a string, etc. etc.), and the last thing I want is an syntactic sugared inline function instanciating a stringstream at each call). As you can see in the example below, the stringstream solution is too verbose:

.

// sprintf-like code with a char[] buffer:
sprintf(buffer, "%d", myDouble) ;

// stream-like code with a std::string buffer:
std::stringstream str ;
str << myDouble ;
buffer = str.str() ;

// example of desired code with a std::string buffer:
buffer += myDouble ;
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4  
Why not just refactor the code to use std::string? It has all you need and more. –  Björn Pollex Dec 19 '11 at 9:46
    
What "string" type are you using? –  Cody Gray Dec 19 '11 at 9:47
    
@Björn Pollex : Not exactly. I need to use std::stringstream if I want to append other types than std::string, char or char *. I added a note to clarify that. –  paercebal Dec 19 '11 at 9:53
    
@Cody Gray : std::string. I added a note to clarify that. –  paercebal Dec 19 '11 at 9:53
    
So, what you are saying is that you want to create an std::string & operator+=(std::string &, int)? This does not sound like a good idea. Have you considered using boost::lexical_cast? Although, I guess it uses stringstream internally, so it would not fit your requirements. –  Björn Pollex Dec 19 '11 at 9:54

4 Answers 4

I would use ostringstream and stream manipulators to replace sprintf. It's not worth reinventing the wheel.

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Not a good solution. See my note about why stringstream is too much verbose to be of any use for what I want. I'm not about reinventing the wheel. I'm about adding lightweight syntactic sugar. –  paercebal Dec 19 '11 at 10:13
1  
OK, you are the boss :) I just don't understand why do you think it's a good idea to reimplement such a complex functionality in order to save 2 lines of code (the creation of the oss object, and the .str() call). Okay, imagine you wrote something simple: you can concatenate strings and integers and doubles to an existing string. Then one of your colleagues writes this: sprintf(buffer, "%08llu\t%08X", x, y);. Do you really want to spend your life adding new formatting features again and again? I bet in a few months you would end up having something very similar to ostringstream... –  kol Dec 19 '11 at 10:22
1  
Last month I reimplemented the string, number (including ordinary fractions), and date-time formatting functionality of Excel in C#. My employer could have used the existing formatting features of .NET, but he wanted a perfect match with Excel. This was a case, when you could not avoid "reinventing the wheel". Your case is different: you can use existing functionality, namely ostringstream, you don't have to duplicate a functionality that has already previously been created and optimized by others. –  kol Dec 19 '11 at 10:29
    
I'm not trying to offer a full-total-for-all-the-possible-cases solution. Only simple concatenation without formatting. So the sprintf(buffer, "%08llu\t%08X", x, y) would either remain as is, or be replaced by the stringstream equivalent. What I want now is, for the simple cases, to avoid the use of a C-style char array and a sprintf just because the coder didn't figure out how to use stringstream or didn't want to use it because, yes, 2 more useless lines of code is too much for what it is supposed to do. –  paercebal Dec 19 '11 at 10:32
    
... And anyway, you don't even know what will be the implementation. I will be, perhaps, using stringstream inside. My question is about an interface, not the actual implementation. You're providing advice and solution to a question I didn't ask. –  paercebal Dec 19 '11 at 10:33

C++11 comes with an overloaded set of std::to_string functions.

example prototype:

std::string to_string( int value );

They are allowed to be overriden by the user (in C++11). You would need your own namespace for now.

You could implement your own set for the types of your choice. It would make for future-proof code.

you would use the code as:

std::string s;
s+=std::to_string(1);
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+1 for the C++11 solution. While I don't like the fact a string is created, I learned something about C++11 while reading your post. Thanks... For the record, I was thinking about something like std::string & append(std::string & p_string, const T & p_value) ; –  paercebal Dec 19 '11 at 16:21
    
I think your suggestion is quite optimal, given your constraints. –  mirk Dec 19 '11 at 19:13
  1. What about boost::format ? Then you can write:

    std::string first("world");
    std::string s = (boost::format("hello %1%") % first).str();
    
  2. Or create a wrapper class which you can use like so:

    int i(2);
    std::string s = (Format() + "Hello " + first + " " + i).str();
    

    And Format() something like (without boost) :

    class Format
    {
        public:
            template <typename T>
            Format &operator+(const T& v) {
                m_sstr << v; 
                return *this;
            };
            const std::string &str() const { return m_sstr.str(); };
        private:
            std::stringstream m_sstr;
    };
    
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Right now, I'm more thinking about something like fastformat.org . For historical reasons (don't ask...), Boost is not really available for our app, and I even doubt I will be able to push for fastformat here, so this is why a lightweight function would be a good compromise. –  paercebal Dec 19 '11 at 13:07
    
@paercebal: I removed boost from the second option, maybe that would work for you? –  rve Dec 19 '11 at 14:02
    
+1. I like the implementation of the second solution, and its interface is interesting. I guess the stringstream could even become private member variable, to be reused each time the "append" operator would be called. –  paercebal Dec 19 '11 at 22:32
    
@paercebal: ofcourse, that would be even better, i'll edit my answer –  rve Dec 20 '11 at 7:23

boost::lexical_cast provides a potential model for you here - write a function that can handle any of the datatypes you need, turn them into a string in the appropriate format for your purposes (and you can optimise that as much as you need to/are able to), and return them for use with operator+(string, string).

Specialise the function per type either with normal overloading or template specialisations according to your preference. lexical_cast uses templates so it can handle absolutely anything via whatever stream operators happen to be defined, but your use case is far narrower than this, and so you definitely can get some more performance out of it.

share|improve this answer
    
Not good. Even with specialization, boost::lexical_cast would return a temporary std::string, which I want to avoid (I want "appending", not "copying"). –  paercebal Dec 19 '11 at 12:55
    
So, just make it be a function which takes the string to append to and the thing to append. Overloading operator += starts to look quite good then. –  Matthew Walton Dec 19 '11 at 12:59
    
Yes, that was what I thought before asking the question. This is why I asked for advice on what was the pros/cons of using a function vs. an operator overload (either "+=" or "<<") –  paercebal Dec 20 '11 at 15:08

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