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I want a class which takes two parameters in its constructor. The first can be either an int, double or float, so , and the second is always a string literal "my string", so I guess const char * const.

Can anyone give me some compilable code which declares a simple class template as described and declares an object of that class?

Thanks

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1  
If you mean template parameters, see Neil's answer below; but if you mean ctor parameters (as it seems you wrote?) then you don't even need a template. Please clarify. –  Roger Pate Jan 9 '10 at 11:01

8 Answers 8

up vote 14 down vote accepted

Sorry, C++ does not currently support the use of string literals (or real literals) as template parameters.

But re-reading your question, is that what you are asking? You cannot say:

foo <"bar"> x;

but you can say

template <typename T>
struct foo {
   foo( T t ) {}
};

foo <const char *> f( "bar" );
share|improve this answer
    
Do C++0x variadic templates support integral arguments? You could probably do something nasty with representing strings as lists of chars. –  Pete Kirkham Jan 9 '10 at 11:12
    
maybe you might hack around with 4 char long literals (supported by all compilers?) and variadic templates -- it would make a nice answer on SO but it would look ugly in production code :) –  Gregory Pakosz Jan 9 '10 at 11:25
    
Neil, that is looking very good, but since I am dumb, can you correct this code? I tried to adapt yours to take two params, which ought to be simple enough ... <pre> template<typename E, typename S> class Event { public: Event(E eventId, S eventName); // constructor private: E _eventId; char _eventName[MAX_EVENT_NAME_LENGTH + 1]; }; </pre> and try to instantiate with <pre> enum enum1 {eventA, eventB}; Event<enum1, const char *> testEventA(eventA, "A"); </pre> but I get compiler errors - see next comment, running out of space –  Mawg Jan 9 '10 at 12:58
    
sh*t!! How to format comments, if PRE doesn't work? - trying to instantiate ‘template<class E, class S> class - initializer expression list treated as compound expression - invalid conversion from ‘const char*’ to ‘int’ test_fsm.cpp - invalid type in declaration before ‘(’ token test_fsm.cpp - template argument for ‘template<class E, class S> class Event’ uses local type ‘testFsmClasses::TesEventConstructor()::enum1’ –  Mawg Jan 9 '10 at 13:01
    
@Mawg Edit your original question. ANd never try to use HTML to format the question or your answers. Use those little buttons above the editor. –  anon Jan 9 '10 at 13:44
inline const wchar_t *GetTheStringYouWant() { return L"The String You Want"; }

template <const wchar_t *GetLiteralFunc(void)>
class MyType
{
     void test()
     {
           std::cout << GetLiteralFunc;
     }    
}

int main()
{
     MyType<GetTheStringYouWant>.test();
}

Try it with pasing the address of a function as the template argument.

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This is a solution with MPLLIBS to pass a strings as template arguments ( C++11 ).

#include <iostream>
#include <mpllibs/metaparse/string.hpp> // https://github.com/sabel83/mpllibs
#include <boost/mpl/string.hpp>

// -std=c++11

template<class a_mpl_string>
struct A
{
  static const char* string;
};

template<class a_mpl_string>
const char* A< a_mpl_string >
::string { boost::mpl::c_str< a_mpl_string >::value };  // boost compatible

typedef A< MPLLIBS_STRING ( "any string as template argument" ) > a_string_type;

int main ( int argc, char **argv )
{
  std::cout << a_string_type{}.string << std::endl;
  return 0;
}

prints:

any string as template argument

The lib on github: https://github.com/sabel83/mpllibs

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Based on your comments under Niel's answer, another possibility is the following:

#include <iostream>

static const char* eventNames[] = { "event_A", "event_B" };

enum EventId {
        event_A = 0,
        event_B
};

template <int EventId>
class Event
{
public:
   Event() {
     name_ = eventNames[EventId];
   }
   void print() {
        std::cout << name_ << std::endl;
   }
private:
   const char* name_;
};

int main()
{
        Event<event_A>().print();
        Event<event_B>().print();
}

prints

event_A
event_B
share|improve this answer
    
Yes, that works, and is worth considering. What worries me, though, is that it is possible to make a mistake and get them out of alignment. It would be 'better' to pass both the enum value and the string as a pair (but, of course, you can still make mistakes there too) –  Mawg Jan 14 '10 at 9:00
1  
I'd use the enum values with the # operator to generate the string representations. –  Spidey Aug 12 '13 at 21:05
    
This is the cleanest answer, but if used in header files it will cause problems during linking , i.e. duplicate definitions, etc. The accepted answer uses templates on a struct to help the linker marry up the definitions at compile time. –  user1158559 Jan 24 at 14:08

EDIT: ok the title of your question seems to be misleading

"I want a class which takes two parameters in its constructor. The first can be either an int, double or float, so , and the second is always a string literal "my string", so I guess const char * const."

It looks like you're trying to achieve:

template<typename T>
class Foo
{
  public:
  Foo(T t,  const char* s) : first(t), second(s)
  {
    // do something
  }

  private:
  T first;
  const char* second;

};

This would work for any type, for the first parameter: int, float, double, whatever.

Now if you really want to restrict the type of the first parameter to be only int, float or double; you can come up with something more elaborate like

template<typename T>
struct RestrictType;

template<>
struct RestrictType<int>
{
  typedef int Type;
};

template<>
struct RestrictType<float>
{
  typedef float Type;
};

template<>
struct RestrictType<double>
{
  typedef double Type;
};

template<typename T>
class Foo
{
  typedef typename RestrictType<T>::Type FirstType;

  public:
  Foo(FirstType t,  const char* s) : first(t), second(s)
  {
    // do something
  }

  private:
  FirstType first;
  const char* second;

};

int main()
{
  Foo<int> f1(0, "can");
  Foo<float> f2(1, "i");
  Foo<double> f3(1, "have");
  //Foo<char> f4(0, "a pony?");
}

If you remove the comment on the last line, you'll effectively get a compiler error.


String literals are not allowed by C++2003

ISO/IEC 14882-2003 §14.1:

14.1 Template parameters

A non-type template-parameter shall have one of the following (optionallycv-qualified) types:

— integral or enumeration type,

— pointer to object or pointer to function,

— reference to object or reference to function,

— pointer to member.

ISO/IEC 14882-2003 §14.3.2:

14.3.2 Template non-type arguments

A template-argument for a non-type, non-template template-parameter shall be one of:

— an integral constant-expression of integral or enumeration type; or

— the name of a non-type template-parameter; or

— the address of an object or function with external linkage, including function templates and function template-ids but excluding non-static class members, expressed as & id expression where the & is optional if the name refers to a function or array, or if the corresponding template-parameter is a reference; or

— a pointer to member expressed as described in 5.3.1.

[Note:A string literal (2.13.4) does not satisfy the requirements of any of these categories and thus is not an acceptable template-argument.

[Example:

template<class T, char* p> class X { 
  //... 
  X(); 
  X(const char* q) { /* ... */ } 
}; 

X<int,"Studebaker"> x1; //error: string literal as template-argument 
char p[] = "Vivisectionist"; 
X<int,p> x2; //OK 

—end example] —end note]

And it looks like it's not going to change in the upcoming C++0X, see the current draft 14.4.2 Template non-type arguments.

share|improve this answer
    
Gregory, I have read similar explanation elsewhere, but not so clear. Your code looks like I can understand it, and it should work - but it gives error under Linux with G++ (in fact, I have compile errors with two good looking suggestions above - can I really be so dumb?) –  Mawg Jan 9 '10 at 13:18
    
see my edited answer –  Gregory Pakosz Jan 9 '10 at 13:31
    
I copied your code and it still doesn't work. Comeau C/C++ 4.3.10.1 (Oct 6 2008 11:28:09) for ONLINE_EVALUATION_BETA2 Copyright 1988-2008 Comeau Computing. All rights reserved. MODE:strict errors C++ C++0x_extensions "ComeauTest.c", line 14: error: expression must have a constant value X<int,p> x2; //OK –  the_drow Nov 5 '10 at 10:43

a string literal "my string", so I guess const char * const

Actually, string literals with n visible characters are of type const char[n+1].

#include <iostream>
#include <typeinfo>

template<class T>
void test(const T& t)
{
    std::cout << typeid(t).name() << std::endl;
}

int main()
{
    test("hello world"); // prints A12_c on my compiler
}
share|improve this answer

Further from Neil's answer: one way to using strings with templates as you want is to define a traits class and define the string as a trait of the type.

#include <iostream>

template <class T>
struct MyTypeTraits
{
   static const char* name;
};

template <class T>
const char* MyTypeTraits<T>::name = "Hello";

template <>
struct MyTypeTraits<int>
{
   static const char* name;
};

const char* MyTypeTraits<int>::name = "Hello int";

template <class T>
class MyTemplateClass
{
    public:
     void print() {
         std::cout << "My name is: " << MyTypeTraits<T>::name << std::endl;
     }
};

int main()
{
     MyTemplateClass<int>().print();
     MyTemplateClass<char>().print();
}

prints

My name is: Hello int
My name is: Hello
share|improve this answer
    
This looks interesting. Can it be massages to pass the string as a parameter and show and example of declaring an object? –  Mawg Jan 11 '10 at 6:27
    
@mawg As per your example under Niel's answer (really you should update your question, saying "Update: This is what I want"), you want to differentiate between classes based (only) on a string template parameter. This is impossible (see Niel's answer). But if you want to differentiate between classes based on EventId, then you can use the EventName as a field in the trait class as per my answer. –  phaedrus Jan 13 '10 at 8:53
    
@mawg Also see my another newly added answer. –  phaedrus Jan 13 '10 at 9:03
    
Thanks, that's just what I needed ;) –  Ralf Nov 25 '10 at 10:59

I want a class which takes two parameters in its constructor. The first can be either an int, double or float, so , and the second is always a string literal "my string"

template<typename T>
class demo
{
   T data;
   std::string s;

   public:

   demo(T d,std::string x="my string"):data(d),s(x) //Your constructor
   {
   }
};

I am not sure but is this something what you want?

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Might want to make some part of that class public, or just use struct in examples, which greatly reduces clutter. :) –  Roger Pate Jan 9 '10 at 11:10
    
@Roger: Thanks, corrected it :) –  Prasoon Saurav Jan 9 '10 at 11:12
    
That is looking very close! But how can I pass a different "my string" as constructor parameter each time I instantiate? –  Mawg Jan 9 '10 at 12:54
    
@mawg:You need not pass "my string". Just try this: demo<int> d(1); // second parameter is "my string" by default demo<double> d1(1.4); // second parameter is again "my string" by default –  Prasoon Saurav Jan 9 '10 at 13:38
    
@mawg: Read about default argument constructors here: people.cs.vt.edu/~kafura/cs2704/default.html –  Prasoon Saurav Jan 9 '10 at 13:40

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