Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to remove whitespaces from a string

line.erase(remove_if(line.begin(), line.end(), isspace), line.end()); 

But Visual Studio 2010 (C++ Express) tells me

1   IntelliSense: no instance of function template "std::remove_if" matches the argument list   d:\parsertry\parsertry\calc.cpp 18

Full Source

Why is that? A simple piece of code

int main() {
    string line = "hello world   111    222";
    line.erase(remove_if(line.begin(), line.end(), isspace), line.end());
    cout << line << endl;


    return 0;

Verifies the function works?

Funny thing is despite that, it runs giving correct result.

share|improve this question

3 Answers 3

up vote 1 down vote accepted

Don't question Intellisense, sometimes it's better to just ignore it. The parser or the database got screwed up somehow, so it doesn't work correctly anymore. Usually, a restart will fix the problem.

If you really want to know if the code is ill-formed, well, just hit F7 to compile.

share|improve this answer

Your source code compiles without even a warning with Visual C++ 11.0 (the compiler that ships with Visual Studio 2012).

Intellisense uses its own rules and isn't always reliable.

That said, your use of isspace is Undefined Behavior for all character sets except original 7-bit ASCII. Which means the heavily upvoted answer that you took it from, is just balderdash (which should not surprise). You need to cast the argument to (the C library's) isspace to unsigned char to avoid negative values and UB.

C99 §7.4/1 (from the N869 draft):

The header <ctype.h> declares several functions useful for testing and mapping characters. In all cases the argument is an int, the value of which shall be representable as an unsigned char or shall equal the value of the macro EOF. If the argument has any other value, the behavior is undefined.

A simple way to wrap the C function is

bool isSpace( char const c )
    typedef unsigned char UChar;
    return !!::isspace( UChar( c ) );

Why the typedef?

  1. It makes the code easier to adapt when you already have such a typedef, which is not uncommon;

  2. it makes the code more clear; and

  3. it avoids a C syntax cast, thereby avoiding a false positive when searching for such via a regular expression or other pattern matching.

But, why the !! (double application of the negation operator)? Considering there’s an automatic implicit conversion from int to bool? And, if one absolutely feels that the conversion should be explicit, shouldn’t it be a static_cast, and not !!?

Well, the !! avoids a silly-warning from the Visual C++ compiler,

“warning C4800: 'int' : forcing value to bool 'true' or 'false' (performance warning)”

and a static_cast doesn’t stop that warning. It’s good practice to quench that warning, and since Visual C++ is the main C++ compiler on the most used system, namely Windows, better do this in all code meant to be portable.

Oh, OK, but, since the function must be wrapped anyway, then … why use the old C libary isspace (single argument) function, when the <locale> header provides a far more more flexible C++ (two arguments) isspace function?

Well, first and foremost, the old C isspace function is the one used in the question, so that’s the one discussed in this answer. I have focused on discussing just how to not do this incorrectly, that is, how to avoid Undefined Behavior. Discussing how to do it right brings it to a whole different level.

But regarding the in-practice, the C++ level function of the same name can be considered to be broken, since with g++ compilers until recently (and perhaps even with g++ 4.7.2, i haven't checked lately) only the C locale mechanism worked, and the C++ level one didn't, in Windows. It may have been fixed since g++ now supports wide streams, I don’t know. Anyway, there C library isspace function, in addition to being in-practice more portable and generally working in Windows, is also simpler and, I believe, more efficient (although for efficiency one should always MEASURE if it is deemed important!).

Thanks to James Kanze for asking (essentially) the questions above, in the comments.

share|improve this answer
Sorry I am new to C/C++, what do you mean by the last sentence, about the isspace? How do I cast the argument? I am just passing a "function" into remove_if()? –  Jiew Meng Oct 25 '12 at 13:32
@Xeo: it does . . . –  Cheers and hth. - Alf Oct 25 '12 at 13:35
So how do I cast the argument? –  Jiew Meng Oct 25 '12 at 13:41
@JiewMeng: at the time you asked, you could just have read up on casting in your favorite textbook. as it is, now you can also check the example given in the answer. but for the future, i recommend trying to find things yourself: it will help prevent doing other things that are wrong but not obviously wrong on the surface. –  Cheers and hth. - Alf Oct 25 '12 at 13:51
@Alf Why the typedef in such a local context. And why the !!: there is an implicit conversion of the return type of isspace to bool, and isspace logically returns a boolean value; the fact that it is declared int is for historical reasons. And for that matter, why use the old, more or less broken function, when <locale> provides us with more flexible tools. (OK, <locale> is perhaps not the best designed part of the standard library. But it is "standard".) –  James Kanze Oct 25 '12 at 14:59

What is isspace? Depending on the includes headers and the compiler you are using, it's likely that your code won't even compile. (I don't know about IntelliSense, but it's possible that it's looking at all of the standard headers, and sees the ambiguity.)

There are two isspace functions in the standard, and one is a template. Passing a function template to a template argument of another function template does not give the compiler nearly enough information to be able to do template argument deduction: in order to resolve the overload of isspace, it has to know the type expected by the remove_if, which it only knows after template argument deduction has succeeded. And to do template argument deduction on remove_if, it has to know the types of the arguments, which means the type of isspace, which it will only know once it has been able to resolve the overload on it.

(I'm actually surprised that your little bit of code compiles: you obviously include <iostream>, and typically, <iostream> will include <locale>, which will bring in the function template isspace.)

Of course, the function template isspace must be called with two arguments, so if it were ever chosen, the instantiation of remove_if wouldn't compile (but the compiler does not try to instantiate remove_if until it has chosen a function). And the isspace in <ctype.h> will result in undefined behavior if passed a char, so you can't use it. The usual solution is to create a set of predicate objects for your tool box, and use them. Something like the following should work if you're only concerned with char:

template <std::ctype<char>::mask m>
class Is : public std::unary_function<char, bool>
    std::locale myLocale;  //  To ensure lifetime of following...
    std::ctype<char> const* myCType;
    Is( std::locale const& loc = std::locale() )
        : myLocale( loc )
        , myCType( &std::use_facet<std::ctype<char> >( myLocale ) )

    bool operator()( char ch ) const
        return myCType->is( m, ch );
typedef Is<std::ctype_base::space> IsSpace;

It's trivial to add the additional typedef's so you get the complete set, and I've found it useful to add an IsNot template as well. It's simple, and it avoids all of the surrounding issues.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.