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is it possible to make std::string always hold a lower-case string? here's how I would use it:

typedef std::basic_string<...> lowercase_string;

void myfunc()
{
  lowercase_string s = "Hello World"; // notice mixed case
  printf(s.c_str());                  // prints "hello world" in lowercase
  std::string s2 = s;
  printf(s2.c_str());                 // prints "hello world" in lowercase
}
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4 Answers 4

up vote 17 down vote accepted

You can write your own char traits and pass it to std::basic_string as second template argument.

Here is a minimal example:

template<typename T>
struct lowercase_char_traits : std::char_traits<T>
{
    static T* copy(T* dest, const T* src, std::size_t count )
    {
         for(size_t i = 0 ; i < count ; ++i)
              dest[i] = std::tolower(src[i]);
         return dest;
    }
    static void assign(T & out, T in)
    {
       out = std::tolower(in);
    }
    //implement other overload of assign yourself

    //note that you may have to implement other functionality 
    //depending on your requirement
};

And then define a typedef as:

typedef std::basic_string<char, lowercase_char_traits<char>> lowercase;

And here is a test program:

int main() 
{
    lowercase s1 = "Hello World";
    std::cout << s1.c_str() << std::endl;

    lowercase s2 = "HELLO WORLD";
    std::cout << std::boolalpha << (s1 == s2) << std::endl;

    lowercase s3 = "HELLO";
    s3 += " WorL";
    s3.append("D");
    std::cout << std::boolalpha << (s1 == s3) << std::endl;

    std::cout << s2.c_str() << std::endl;
    std::cout << s3.c_str() << std::endl;
}

Output:

hello world
true
true
hello world
hello world

Cool, isn't it?


Note that to have a fully-working lowercase string class, you may need to define other functionality of lowercase_char_traits also, depending on what behavior you want out of such class.

Have a look at the Herb Sutter brilliant article for details and explanation:

Hope that helps.

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2  
Note that when using this you may also want to implement lowercase lt, eq and compare if you want the lowercase to behave consistently. –  cmh Jan 31 '13 at 12:17
    
@cmh: I think the base class definitions should work just fine, unless the OP wants a different behavior. –  Nawaz Jan 31 '13 at 12:19
    
@cmh: See the edit with == example. It works great without implementing lt, eq and compare. –  Nawaz Jan 31 '13 at 12:23
    
that's only because you're guaranteed for copy to be called in the example you present. This won't work if there is any other manipulation. Try lowercase s1 = "Hello World"; lowercase s2 = "Hello Worl"; s2.append("D"); for example. –  cmh Jan 31 '13 at 12:40
1  
the assign solution is good. Nice answer btw. –  cmh Jan 31 '13 at 14:20

You could use private inheritance. This would free you from writing a bunch of wrapper methods.

class lower_case_string : private std::string
{
    // define constructors that do the conversion to lower case
    // ...

    // expose functionality from std::string
    using std::string::size;
    using std::string::length;
    using std::string::cbegin;
    // etc.

    // Make sure NOT to expose methods that allow modification as they
    // could violate your invariant that all characters are lower case.
    // E.g., don't expose std::string::begin, instead write your own.
};
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std::string itself does not.

There are various alternative, more or less elegant with and more or less pros & cons. Let me try to compare them

wrap by encapsulation

Probably the most clean solution: create a class that contains an std::string, and that can take ctors and assignments that perform the conversion.

  • problem: std::sting has has more that one-hundred methods: if you want your class to expose all of them... be prepared to write all hose functions just to call the wrapped ones. This is a clean "prductivity problem" no OOP zealot seems to take care of... may be thay are payed by typed character ... :-)
  • advantage: no runtime polymorphism (not supported by std::string) can accidentally work, so the code is safer.

"partial" wrap

Same as before, but related only to some important methods or requiring some explicit coding.

A typical implementain can be:

can be:

class llstring
{
public:
    //just esplicitate a default
    llstring() :m() {}

    //this wors for all the std::string contructors but the ones specifically defined here
    template<class T, class... TT>
    llstring(T&& t, TT&&... tt) :m(std::forward<T>(t), std::forward<TT>(tt)...)
    {}

    // copy and move defaulted: just call the memebr ones
    llstring(const llstring&)=default;
    llstring(llstring&&) =default;

    //impose conversion
    llstring(const std::string& s) :m(lowercase(s)) {}
    llstring(const char* s) :m(lowercase(s)) {}

    //assign and transfer defaulted
    llstring& operator=(const llstring&)=default;
    llstring& operator=(llstring&&)=default;

    //impose conversion
    llstring& operator=(const std::sting& s) { m = lowercase(s); return *this; }
    llstring& operator=(const char* s) { m = lowercase(s); return *this; }

    //gets the "value"
    const std::string& str() const { return m; } 

private:
    std::string m;
};

This class is itself incapable of any algorithm and operation, but can participate to watever std::string stuff by a call to str(). And can accept whatever std::string result, acquiring by conversion.

Probably a good compromise between recoding and maintenance risks

Inherit

std::string as a base, instead of a member. The code is similar as above (you have to provide a way to convert on construct or assign)

  • advantages: the interface and behavior of the orioginal std::string is automatically exposed, so all the std::string methods work and are accessible.

  • neutral: both the conversion forward (by design) and backward (by base inheritache) from std::string work. This may lead to some ambiguity with certain operations that may not go through llstring. Not by itself a problem, but you must be shure about how function name resolution and binding is done. The laguage is well specified, but is one of the side of the language not always known to any averaged programmer.

  • disavantage: llstring expose a polymorhic behavior respect to std::string that does not behave polimorphically respect to llstring (no methods are virtual, including the destructor), hence you must never call delete on std::string* (it is Undefined Behavior, if it points to an 'llstring`).

Considering that both llstring and string are value types, this should not normally happen (in 30 years I never wrote a single new std::string or delete pstring). But this will in any case catch all the rants of OOP zealot pretending classic OOP rules to applòy to string-s as well even if they are not OOP object.

But there is another -IMHO more subtle- risk: in a compound expression between llstring and string, all intermediate results will be string. And intermediate operation will not convert in-between. And all of that is implicit. Again, the language spec are well defined, but may be not easy to take control of everything. A search upon an intermediate result not yet assigned may fail ... because of an unexpected capital letter inside.

Back conversion

Not exactly what you asked but... may be inverting the problem better suit.

Instead of "convert when reacing the destination", "convert when leaving the source":

write a wrapper (like in "partial warp", above) that, instead of taking the conversion implicitly from string, and having an explicit str() function, takes an explicit construction fromn string (even with no conversion) and have an implicit conversion to string (operator std::string() { return lowercase(m); })

This works the inverse as what you asked. It will be good if the number of point where capitalized strings are permitted to exist is little respect the total strings in your program (that you can assume always lowercase) and if you can grant that all the std::string operation you may implement between lower case string values will never generate an uppercase one.

Edit: the char_traits solution

Added after the Nawaz post:

The solution try to change the behavior (not the value) by making the char to adhere to another semantics.

  • Advantage: Simple and not requiring big wrappers. Fast to code.
  • Disavantage: may be not fully what is intended: since std::string functions are all accessible and since copy may be not the only way to change a string content, you are not granted (in any case) that there never be capitalized chars in it. Unless you can grant that copy will be the only way to alter a string value.

Note: just like string, also char_traits have no virtual destrcuctor, but, unlike with string, no OOP zealot usually shout about the inheritance from it. And if asked, will most likely say "there will be no dynamic allocation on char_traits". Bye bye coherence.

In conclusion

There is no "perfect solution" with "low cost". All of them are somehow inperfect at some stage

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2  
Do you think any of these methods have any advantages over the char_traits solution? –  cmh Jan 31 '13 at 13:23
    
I believe that specializing copy and assign (and move in c++11) is sufficient. Can you provide an example of string content being modified without those functions being called? –  cmh Jan 31 '13 at 14:19
    
@cmh: s[3]='A'; s.push_back('D'); –  Emilio Garavaglia Jan 31 '13 at 14:39
    
push_back is taken care of by copy. The other one may be an issue, I'm looking into it. –  cmh Jan 31 '13 at 15:17
    
Also char_traits, by virtue of its interface (which only contains static functions), has no need for a virtual destructor (or a non-trivial destructor). What point are you trying to make there? –  cmh Jan 31 '13 at 15:48

You will have to create a wrapper(as mentioned by Chad in the comments better use composition for that) around the class that converts each character to its lower version in its constructor. Unfortunately std::string can not do that out of the box. Alternatively create your own functions to print the string, or convert the string to lower case before printing it.

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You would have to use composition std::string does not favor inheritance. –  Chad Jan 31 '13 at 12:08
1  
Well a wrapper can be implemented with composition too, I never mentioned inheritance –  Ivaylo Strandjev Jan 31 '13 at 12:09
    
Well then specify what you mean by wrapper, either composition or inheritance. –  Chad Jan 31 '13 at 12:10

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