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Update: for the getValue function I have no control, so is there anything I can do from my side?

I have a kind of dumb question about string and char * basic.

I'm using a function that returns a char * value,

const char *getValue(const char *key)
{
    //if key found, and valueString is a string
      return valueString.c_str();
    //else
      return NULL;
}

then I initialized a string to hold the return value,

std::string value = getValue(key);

problem is, whenever the value is not found, which means the function returns NULL, my assignment line will run into an exception. But when there is a legal return value, everything is working fine.

I'm wondering 1. Is this usage totally wrong? means I should never mix char * with string? 2. If not, then when there is a legal pointer returned, does my string automatically make a copy and store it? 3. What is the best way to do this?

Thanks.

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The best way to do this depends on what getValue is supposed to do. You can return "" instead of NULL, or throw an exception. –  larsmans Apr 11 '12 at 18:39
6  
I would return a string instead of a char*. –  Remy Lebeau Apr 11 '12 at 18:40

6 Answers 6

up vote 3 down vote accepted

Since you have no control over what the getValue() function does, you need to check the return value for NULL before assigning it to the std::string.

std::string value;  // value is an empty string
const char *retVal = NULL;

if( ( retVal = getValue(key) ) != NULL ) {
  value.assign( retVal );
}
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thanks, i guess this is the only mechanism I can go for. –  Derek Apr 11 '12 at 18:52
1  
Not to pollute the code with new variables you can declare retVal in the if: if ( const char* retVal = getValue(key) ) { value.assign( retVal ); The solution is not wonderful... but the issue is not in user code but rather in the interface provided by the library. +1 (Another alternative would be wrapping the function: std::string getValueStr( key_type const & k ) { const char* r = getValue( k ); return r ? r : ""; } –  David Rodríguez - dribeas Apr 12 '12 at 1:28

First of all, if valueString is local to that function, using the pointer you return will give undefined behavior.

Second, whether returning a null pointer is reasonable will depend on how you use that pointer, of which you've told us nothing.

Unless you absolutely, positively must fiddle with pointers, just return a string and make your life a whole lot easier.

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thanks for replying, sorry I didn't mention that I have no control over that function I'm using, all I can do is to make the usage correct. BTW the return variable is not local. –  Derek Apr 11 '12 at 18:44

It is not a goot idea to report of occurrence of error (if key not found) by returning NULL. In this case you should generate meaningful exception inside the function. Something like NotFoundEx.

if you have no control over that function, you should wrap it into your safe code:

const char* getSafeValue(const char *key)
{
  const char* value = getValue(key);
  if(value == NULL)
    throw NotFoundEx();

  return value;
}


std::string value = getSafeValue(key);
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Since you are working with std::string values anyway, I would just return a std::string instead of a char*:

std::string getValue(const char *key) 
{ 
    if (key found)
        return valueString; 
    else 
        return std::string(); 
} 
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2  
In that case, ideally, boost::optional<std::string>. –  user1203803 Apr 11 '12 at 18:47

You want a std::string with an out of bound value. (char *) might not be the ideal way to do it (see boost::optional for a better way), but it will work (assuming you aren't using a stack-local variable) — if you check for the out of bound value. That is, the problem here is not really mixing (char *) and std::string, it is that you aren't checking for "not found" but blindly assuming something sensible will happen in that case.

Don't assume; determine what you need to do if the key is not found, and check for the NULL (or other out of band, if you choose to use something else).

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First question: where does the data come from? You cann't return the results of c_str() on a local variable; it's undefined behavior, and you've just been unlucky that it seems to work. If valueString is just a copy of some more long lasting data, then you can call c_str directly on it. More generally, however: whatever you return, you'll have to verify that it is valid before trying to use it. The simplest solution (but not always possible) is just to use a sentinal value in the string, e.g.:

std::string
getValue( std::string const& key )
{
    //  ...
    return condition ? valueString : std:;string();
}

for example, using an empty string as the sentinal.

If the semantics of the function don't provide a convenient sentinal value—for example, if the function can return an empty string as a valid value—then you'll have to do something else.

If the return value is the result of a lookup in some long lived container, then you may be able to return a pointer to the element in the container. In general, however, pointers pose the problem of what they point to; if you don't have something whose lifetime is sufficient, then you don't want to use a pointer.

Another possibility is for the caller to provide the default value:

std::string
getValue( std::string const& key, std::string const& ifNotFound )
{
    // ...
    return condition ? valueString : ifNotFound;
}

This shifts the responsibility of defining the sentinal off to the callee. In cases like string, there's almost always some value that the callee can't do anything with, and so can use as a sentinal.

The most general alternative is some sort of Fallible or Maybe class: a class object which combines a status (typically just a bool) and an instance of the actual data type. Whether the data are valid or not depends on the value of the status, so you still have to check that:

Fallible<std::string>
getValue( std::string const& key )
{
    //  ...
    return condition
        ? Fallible<std::string>( valueString )
        : Fallible<std::string>();
}

This often works out well internally as well:

Fallible<std::string>
getValue( std::string const& key )
{
    Fallible<std::string> results;
    //  ...
    // At some point, I've got a valid return value, so I do:
        results.validate( valueString );
    // in a condition, of course...
    return results;
}

(Just an example of a frequent and convenient pattern.)

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