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I want to write a template< class T > T string_to_T(const string& s) function that switches a string to a tempate T. T can be int/double/string and I write one as below:

template<class T> T Config::string_to_T(const string& s){
    T t;
    bool at_in = false;

    istringstream ist(s);
    ist >> t;

    return t;
}

But when there is a blank space in the string, it doesn't work. e.g. string = '1 2 3 4', returned t is string type and equals 4. How can I change to meet my need?

  • 1
    So what's the purpose of a function that converts string "1 2 3 4" to string "1 2 3 4"? – Pavel Strakhov Dec 1 '12 at 10:57
  • 4
    Not possible. You can't return two types. – xiaoyi Dec 1 '12 at 11:02
  • 2
    You simply couldn't call a function like this - how would you store the return if you don't know its type? You need a variant return type and some logic. – Mat Dec 1 '12 at 11:07
  • 2
    Are you looking for boost::lexical_cast ? – Alexandre C. Dec 1 '12 at 11:19
  • 2
    @Mat It's perfectly possible to have the behavior as if type deduction applied to return values, by returning a proxy with the appropriate conversion operators. It's also possible to return a boost::variant, and deffer the choice of type until later. Before recommending either of these solutions, however, I'd like to see his use case. Circumventing the C++ type system is usually not a good idea. – James Kanze Dec 1 '12 at 11:51
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See boost::lexical_cast. Basically, you need to specialize for the cases where >> doesn't do what you want. If you want string_to_T<std::string> to be a no-op, for example, you write a specialization:

template<>
std::string
string_to_T<std::string>( std::string const& s )
{
    return s;
}

For more complicated cases, you can forward to a functional object, and use partial specialization, but for the case you describe, this shouldn't be necessary.

While you're at it, you should probably think about error handling. What happens if you call string_to_T<int>, and the input is "abcd"? For that matter, if you call string_to_T<int> with "1 2 3 4", should the results be 1, or an error?

EDIT:

Having seen more of the comments to your question: you cannot change the return type at runtime (with certain very limited exceptions when returning a reference or a pointer within a class hierarchy). C++ is a statically typed language, every expression has a distinct type, determined at compile time. Supposing you could return two different types, how would you use the function, and how could the compiler detect the type errors it is required to detecte. The closest you can come is to return some sort of proxy, with implicit conversions to the various types, but the type you convert to would still be statically determined, according to what you do with the results: assign it to an int, and it will convert to an int, regardless of the contents of the string.

This type safety is a feature; detecting errors at compile time makes the code far more robust and sure than deferring the error detection to runtime. If you can do without this safety (non-critical application), and need the added flexibility of runtime typing, C++ is not the right language; you should be using something like Python.

EDIT 2:

In response to your comment, the solution would seem to be something along the lines of:

class ToStringHelper
{
    std::string myValue;
public:
    ToStringHelper( std::string const& value )
        : myValue( value )
    {
    }
    operator std::string() const
    {
        return myValue;
    }
    template <typename T>
    operator T() const
    {
        std::istringstream cvt( myValue );
        T results;
        cvt >> results;
        //  Error checking here...
        return results;
    }
};

ToStringHelper
string_to_T( std::string const& s )
{
    return ToStringHelper( s );
}

I use this exact pattern for configuration data (with errors triggering an exception).

| improve this answer | |
  • template T's type will be decided by the calling a function's argument, such asint port, port = conf.Read("port", port); and Read() will return the port value as a int type, return string_to_T<T>( p->second );. It's the same string ip, ip = conf.Read("ip", ip); will get a string type value returned – foool Dec 1 '12 at 11:57
  • If the type is determined by the calling context (what you do with the return value), then the solution is easy. Just return a proxy. I'll edit my response to add a simple example. – James Kanze Dec 1 '12 at 12:04
  • A question, when myValue equals to "1 2 3 4",cvt >> results; only return 1 to results, doesn't it? – foool Dec 1 '12 at 12:29
  • It depends of the type of T. For int, probably, but for string it will return "1 2 3 4". – Synxis Dec 1 '12 at 12:31
  • @JamesKanze Thanks, you help me a lot – foool Dec 1 '12 at 12:58
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The function you showed is doing a conversion from std::string to T. You specify T at compile time, you cannot change it at runtime.

If you want the type to depend on the value, you can use a Variant. See Boost.Variant for example (if you're working with Qt, there is QVariant). You can also use Boost.Any (difference between Variant and Any). For the conversion you might want to use Boost.Lexical_Cast. You will probably need to specify yourself that "1" -> 1 and "1 2 3 4" - > "1 2 3 4" in the variant/any. Be aware that all these functions will need you to add some code to handle the types. With variants, you can use visitors, a really powerful method to handle different types in variants.

| improve this answer | |
  • Using boost::variant really just defers the issue. C++ is statically typed, and at some point, he's going to have to declare a variable with a specific type to handle the returned value. There are some very specific cases where boost::variant is useful, but the question is such that it makes me think that this is more a case of the original poster not understanding the C++ type system, rather than one of the specific cases. It would be interesting to see his use case, so we could offer a real solution. – James Kanze Dec 1 '12 at 11:46
  • Yep, forgot to said that it will need some logic. Fixed. He still can use visitors. – Synxis Dec 1 '12 at 11:55
  • There's no problem with your solution. It's the appropriate solution for some problems. At the time, it wasn't clear what problem he was trying to solve. (His later comments explain this somewhat, and suggest that a proxy is the correct solution, not boost::variant. But his original posting certainly didn't suggest this.) – James Kanze Dec 1 '12 at 12:11
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Code to Convert any datatype to string:

#include <string>
#include <sstream>
#include <iostream>
using namespace std;


template <class T>
string toString(const T& t)
{
    std::stringstream ss;
    ss << t;
    return ss.str();
}


int main(void)
{


    string str;

    cout<<"Convert any datatype to string\n\n\n";

    int i=1234;
    str=toString(i );
    cout<<"int i= "<<str<<"\n";


  cout<<" \nPress any key to continue\n";
  cin.ignore();
  cin.get();

   return 0;
}
| improve this answer | |
  • 1
    I am not trying to change any type to string type, and I just want to change string("122") to int(122), string("123.2") to 'double(123.2)' and string("new world") to string("new wolrd") – foool Dec 1 '12 at 11:49
  • @foool At how do you define the variable to which you assign the results? – James Kanze Dec 1 '12 at 11:52
  • int i = conf.Read("key", i), Read()is defined astemplate<class T> T Config::Read(const string& key, const T& value)const will get the value from a map, and return string_to_T<T>( p->second ); . Actually T is defined by the argument i in this case – foool Dec 1 '12 at 12:06

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