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As I know that C++ only allows to add 2 strings together, i.e: s = s1 + s2

But I want to be able to add many strings together like:

s = s1 + s2 + s3 + s4 + ....  + sn

How could I solve this problem? Can anybody help?


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Why do you think that this doesn't work? –  bmargulies Feb 20 '10 at 3:19
are you using the string class? –  cpx Feb 20 '10 at 3:20
yes, i notice it works only when I use string class. but i want to do something like this in C++ #define St "blah3" s = s1 + "blah1" + "blah2" + St –  root Feb 20 '10 at 3:33
@tsubasa: Well, you can't. If you know two literals at compile time, simply placing them adjacent to one another will allow them to concatenate in the preprocessor. i.e., "asd" "123" becomes "asd123". But run-time addition of strings requires you use the string class. –  GManNickG Feb 20 '10 at 3:37
@Billy: Well, it won't add the pointer values per se. It'll try but fail to compile. –  GManNickG Feb 20 '10 at 4:22

4 Answers 4

up vote 4 down vote accepted

If your trying to append string objects of std::string class, this should work.

string s1 = "string1";
string s2 = "string2";
string s3 = "string3";

string s = s1 + s2 + s3;


string s = string("s1") + string("s2") + string("s3") ...
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+1 - Just keep in mind when you use operator+(std::basic_string<t>, std::basic_string<t>) you will incur exponential time in C++03. Using the std::basic_string<t>::append member function takes only linear time in comparison. –  Billy ONeal Feb 20 '10 at 3:28
I think string s = string("s1") + string("s2") + string("s3") ... is something that I'm looking for. I wonder why it works? –  root Feb 20 '10 at 3:46
Because you are when you use string(x), you invoke a constructor for the standard string class on x. You create a temporary string object which can then participate with it's operator+. (This sort-of works like a form of cast) –  Billy ONeal Feb 20 '10 at 3:53
@tsubasa: It's also enough if you just make sure the first item is a string, so string("s1") + "s2" + "s3" will also work. The reason is that normal string constants like "s1" are of type const char*, and you can't just add such pointers together. string objects on the other hand know how to add a const char* to form a new string. (Also: Nothing will use exponential time here, so don't worry too much about that) –  sth Feb 20 '10 at 3:54
@BillyONeal: are you sure it's exponential time? Look O(N^2) to me. –  Steve Jessop Feb 20 '10 at 11:44

First of all, you can do the +sn thing just fine. Though it's going to take exponential quadradic(see comments) time assuming you're using std::basic_string<t> strings on C++03.

You can use the std::basic_string<t>::append in concert with std::basic_string<t>::reserve to concatenate your string in O(n) time.

EDIT: For example

string a;
a.append("I'm a string!").append("I am another string!");
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It's not going to take exponential time, only quadratic. append will be faster, but in general quadratic anyway because it needs to reallocate form time to time. In the very most cases both methods won't be slow enough to be noticeable, though. –  sth Feb 20 '10 at 3:49
No, it is actually exponential, as R Samuel Klatchko's answer demonstrates. You add s1 and s2 together, then add the result to s3, then add the result to s4... etc. Each add adds the complete length of all the strings previous in the sequence. Therefore, given K strings of length N, you will have Sum_{i = 1}^{K}(Sum_{j=1}^{i - 1}(N) + N) which is exponential. std::basic_string<t>::append is linear if used with std::basic_string<t>::reserve as stated in my answer, because std::basic_string<t>::reserve guarantees no reallocation. –  Billy ONeal Feb 20 '10 at 4:00
@BillyONeal: Why would that be exponential? The sum you mention is equal to (0*N + N) + (1*N + N) + (2*N + N) + ... + ((K-1)*N + N) which equals (1+2+...+(K-1)) * N + K*N = (K*(K-1)/2) * N + K*N = ((K^2 + K) / 2) * N = O(K^2 * N). So it is quadratic in the number of parts K. In the number of characters in each part, N, it is linear. –  sth Feb 20 '10 at 4:16
About append(): I seem to have missed that you mentioned reserve(). Used with reserve() it is indeed linear. –  sth Feb 20 '10 at 4:23
@sth Even without reserving enough space, append takes linear amortized time which is way faster than quadratic –  fredoverflow Feb 20 '10 at 17:59
s = s1 + s2 + s3 + .. + sn;

will work although it could create a lot of temporaries (a good optimizing compiler should help) because it will effectively be interpreted as:

string tmp1 = s1 + s2;
string tmp2 = tmp1 + s3;
string tmp3 = tmp2 + s4;
s = tmpn + sn;

An alternate way that is guaranteed not to create temporaries is:

s = s1;
s += s2;
s += s3;
s += sn;
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Your example is not quite the same tmp1 must be copy construct. It would be the same if tmp1 was 'string const&'. Though I do have to admit that RVO would probably eliminate the copy. –  Loki Astari Feb 20 '10 at 18:10

std::ostringstream is build for that, see example here. It's easy:

std::ostringstream out;
out << "a" << "b" << "c" << .... << "z";
std::string str( out.str());
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I would point out that using stringstream for appending strings is slower than just appending to a string. stringstream is great for converting things to strings, but if all you're doing is constructing strings from strings, then it's the less efficient way to do it. append() and += are the way to go. –  Jonathan M Davis Feb 20 '10 at 5:44
Yes, you are right. One extra copy at least. –  Nikolai N Fetissov Feb 20 '10 at 6:58
Actually, I wrote a test program for it recently and found that it took about 2 1/2 times as long to put strings together with stringstream than appending directly to a string - and that's without getting the string out of the stringstream when you're done. That particular figure likely isn't generally accurate with varying circumstances and all that, but it was quite clear that constructing streams with stringstream is significantly slower than just appending to a string. –  Jonathan M Davis Feb 20 '10 at 11:08
Well I did some tests and found that though slightly slower, it was only 20% slower. Taking a string and adding 10 string with 10 characters onto it. Reset and repeat this a million times. The difference is 2 seconds (on my machine). Hardly even worth noticing as any processor stalls will knock that difference away immediately. The win for me on this is the lower overhead on the memory management system. Less calls to allocate space as the string stream has a relatively large buffer. –  Loki Astari Feb 20 '10 at 18:21
This is probably due to a particular implementation of internal string buffer management (exponential growth?) and string stream buffer management. Neither are guaranteed to behave one way or the other. –  Nikolai N Fetissov Feb 20 '10 at 20:42

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