14

If you want to know if a string starts with another, how would you do that in C++/STL? In Java there is String.startsWith, Python also has string.startwith, STL does not have a direct method for it. Instead, there are std::string::find and std::string::compare. Until now I used both methods, mostly depending on my current mood:

if ( str1.compare( 0, str2.length(), str2 ) == 0 )
    do_something();
if ( str1.find(str2) == 0 )
    do_something();

Of course, you could also do str.substr(0,str2.length()) == str2, maybe there are still some other ways do achieve the same. find is a bit handier than compare, but I have seen more people recommending compare that find.

But which one is preferred? Is there a performance difference? Is it implementation-dependent (GCC, VC++, etc)?

5 Answers 5

15

The disadvantage of find is that if str1 is long, then it will pointlessly search all the way through it for str2. I've never noticed an optimizer being smart enough to realise that you only care whether the result is 0 or not, and stop searching after the start of str1.

The disadvantage of compare is that you need to check that str2.length() is no greater than str1.length() (or catch the resulting exception and treat it as a false result).

Disappointingly, the closest thing to what you want in the standard library is std::strncmp (and of course you need to use c_str() with that), hence the need for boost::starts_with or your own equivalent which includes the bounds checks.

8
  • Ok, that makes sense. So if I don't know the length of str1, it would be better to use boost's starts_with. Else, if I know str1 will always be larger, but not too much larger than str2, find and compare will also be fine. Right?
    – craesh
    Oct 13, 2011 at 14:47
  • @craesh: yes, if the disadvantage doesn't affect you then either find or compare gives the correct answer, so either is fine. There are plenty of situations where an extra pass over a string is negligible. Oct 13, 2011 at 14:49
  • @SteveJessop likewise there are plenty of situations where c_str may need to perform a copy or where the string is long, which makes the check very expensive
    – Foo Bah
    Oct 13, 2011 at 16:12
  • @Foo Bah: I haven't actually trawled through any source lately, but I doubt that there are many implementations where c_str() makes a copy - normally they nul-terminate the string data in place. Of course I wouldn't rely on c_str to not make a copy, and that's part of the reason it's disappointing that strncmp is the closest in the standard library. But I don't think it will make the check expensive in practice, just theoretically might-be expensive. Oct 13, 2011 at 16:15
  • @SteveJessop the other caveat with using the C string family is that you can't compare strings with null characters. Though these are pedants and may not be relevant in this case.
    – Foo Bah
    Oct 13, 2011 at 16:18
9

boost has an algorithm starts_with which implements it fairly efficiently: http://www.boost.org/doc/libs/1_41_0/doc/html/boost/algorithm/starts_with.html

There is no requirement regarding how STL implementations must implement find or compare, other than the standard stuff (return values ...), so it is entirely implementation dependent.

4
  • Ah, didn't know that one! But I think, str1.find(str2) == 0 still reads a little bit better than starts_with(str1,str2). Maybe that's just a matter of taste...
    – craesh
    Oct 13, 2011 at 14:42
  • @craesh at the end of the day, the person using your program couldn't care about the underlying code's appearance :)
    – Foo Bah
    Oct 13, 2011 at 14:44
  • @craesh: well, it's a matter of how much you're willing to pay for good taste :-) Oct 13, 2011 at 14:44
  • Of course, my customers will never pay me for nice code or good taste :) But once you look into code you wrote a year ago, you want to understand what you wrote by just looking at it. You can't comment everything, so code should be verbose (not always possible).
    – craesh
    Oct 13, 2011 at 14:52
9

Since find() might have to search through the whole string no matter what, you can wrap compare() like this if you want:

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

bool starts_with(const string& s1, const string& s2) {
    return s2.size() <= s1.size() && s1.compare(0, s2.size(), s2) == 0;
}

int main() {
    const string s("zipzambam");
    cout << starts_with(s, "zip") << endl;
}
3
  • Ok, but this will get exactly the same as when using boost::algorithm::starts_with. So this solution might be a fallback in case you can't access Boost, right?
    – craesh
    Oct 13, 2011 at 15:02
  • 1
    FWIW, when Y is type bool, return X ? Y : false; is equivalent to return X && Y;, and the latter is a bit more concise. So, return s2.size() <= s1.size() && s1.compare(0, s2.size(), s2) == 0; Oct 13, 2011 at 16:20
  • @SteveJessop Indeed. Fixed. Thanks
    – Shadow2531
    Oct 13, 2011 at 19:03
2

find may have to search through the entire string looking for matches even if the first character doesn't match, so I would suggest compare, or as mentioned by @Foo Bah you could use boost's starts_with algorithm.

1

You can try std::mismatch, the only stupid thing with this algorithm is that you have to ensure that the first range is smaller or equal to the second range.

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