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I'm a bit fuzzy on the basic ways in which programmers code differently in C and C++. One thing in particular is the usage of strings in C++ over char arrays, or vice versa. So, should I use strings or char arrays, in general, and why?

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Thanks for the unanimous std::string feelings everyone! – physicsmichael Apr 16 '10 at 5:39
Why re-invent the wheel. Use strings class. – rocknroll Apr 16 '10 at 6:03
up vote 25 down vote accepted

In C++ you should in almost all cases use std::string instead of a raw char array.

std::string manages the underlying memory for you, which is by itself a good enough reason to prefer it.

It also provides a much easier to use and more readable interface for common string operations, e.g. equality testing, concatenation, substring operations, searching, and iteration.

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Ease of use is the #1 reason for me. – Vlad the Impala Apr 16 '10 at 5:34
You could mention the primary exception being interfacing with existing C libraries, and even then ones that only require input can just take a const char* from your_string.c_str() – Mark B Apr 16 '10 at 21:16

Use std::string. You will have less problems (I think almost none, at least none come to my mind) with buffer sizes.

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C has char[] while c++ has std::string too...

I commonly hear that one should "Embrace the language" and, following that rule, you should use std::string...

However, its pretty much up to what library are you using, how does that library want you to express your strings, stuff like that.

std::string is a container class, and inside it, is a char[]
If you use std::string, you have many advantages, such as functions that will help you [compare, substr, as examples]

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And if the library is "lame" and doesn't support strings, there's always std::string::c_str()! – physicsmichael Apr 16 '10 at 5:37

Others have put it. Use the std::string stuff wherever possible. However there are areas where you need char *, e.g if you like to call some system-services.

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There is std::string::c_str() for this reason. – swegi Apr 16 '10 at 5:36
@swegi: Many APIs expect a char* and not a const char* (e.g., most, if not all, of the WinAPI). In these cases, though, it is a good idea to use a std::vector<char> and convert between it and a std::string as you need to. – James McNellis Apr 16 '10 at 5:39
@James McNellis that is what const_cast is for. – mch Apr 16 '10 at 17:54
@mch: No. There is no guarantee that a function taking a char* does not modify the string. If the function does attempt to modify the string, you run headlong into the land of undefined behavior. – James McNellis Apr 16 '10 at 17:58

If you're modifying or returning the string, use std::string. If not, accept your parameter as a const char* unless you absolutely need the std::string member functions. This makes your function usable not only with std::string::c_str() but also string literals. Why make your caller pay the price of constructing a std::string with heap storage just to pass in a literal?

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string is not convertible from char*. string is constructible from char*, and causes heap allocation and fragmentation. (Please don't downvote unless you have a response to the last sentence of my answer.) And the other way around works just fine with the c_str() member function (which is what I already mentioned in my answer). And pointers are neither there only for backward compatibility, nor to hold single values. Quite the opposite, they make great iterators and all the standard library algorithms are carefully designed to work correctly if the iterators are pointers. – Ben Voigt Apr 16 '10 at 6:16
@Ben: +1 I like this idea, though I've not seen it used much in practice. I guess it depends on how you end up using the string. Technically, string is convertible from char*: a non-explicit, single-parameter constructor is a "converting constructor" and falls under the category of user-defined conversions. That doesn't mean that calling it is cheap, of course. – James McNellis Apr 16 '10 at 6:30
Guys, wow, you're dealing with premature optimization here. All proper functions will take a string by const reference unless they need a copy of it (in which case you won't save anything by having it take a char*). So you won't gain performance by having it take a char* instead. There is no reason to use char* when you need a string -- unless your primitive strings are fixed on the stack or compiled in and the profiler said that's how they should be. Advising to use a char* over a string is roughly never a good advice if the profiler didn't say the same thing. – wilhelmtell Apr 16 '10 at 6:47
@wilhelmtell: Taking a string by const reference doesn't prevent you from having to construct a temporary string object in order to pass a string literal. I think this sounds like a reasonable, easy, non-intrusive, non-readability-reducing "premature" optimization. – James McNellis Apr 16 '10 at 6:52
Actually, const char* can not only point to a literal without conversion, but also into a std::vector, into the middle of a std::string, a global pointer or input argument initialized from a literal, etc. And in the software I write, nearly all usage of strings falls into one of those categories. The proportion would be less with localization, but not that much less. Argument parsing doesn't get localized, neither do log files and error codes (in any sane system). And with search engines, it's a toss-up whether even error messages should be localized. – Ben Voigt Apr 16 '10 at 16:26

As is the case with everything what you choose depends on what you're doing with it. std::string has real value if you're dealing with string data that changes. You can't beat char[] for efficiency when dealing with unchanging strings.

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