3

I'm new to C++ strings. Is there a way to concatenate more than two strings at once? Or I have to concat two strings at the time? My concern is that it probably needs to allocate memory on each operation, instead of only once for the final result.

Remember something like that in java, wonder if there is a method for that somewhere in std. Actually, std::stringstream might be it, but I don't know how exactly it works.

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  • 3
    Unless you have cause not to(you profiled and found the performance unacceptable) just use operator + like: auto foo = string1 + string2 + "some text" + string3; Jun 6, 2017 at 15:36
  • Do you just want to concatinate a bunch of random strings? If so,then just use the "+" operator.
    – Shankha057
    Jun 6, 2017 at 15:37

6 Answers 6

9

You can reserve the required space beforehand, avoiding reallocations.

std::string s0{/*...*/}, s1{/*...*/}, s2{/*...*/};
std::string sink;

sink.reserve(s0.size() + s1.size() + s2.size() + 1);
sink += s0;
sink += s1;
sink += s2;

You can make this nicer with a variadic string_cat function. Here's a C++17 implementation:

template <typename... Strings>
std::string string_cat(Strings&&... strings)
{
    std::string result;
    result.reserve((strings.size() + ...) + 1);
    ((result += std::forward<Strings>(strings)), ...);
    return result;
}

Usage:

using namespace std::literals;
auto res = string_cat("a"s, "b"s, "c"s);

live example on wandbox

6

Yes, to avoid expensive memory waste use the stringstream

std::stringstream might be it, but I don't know how exactly it works.

this is how it works: include the sstream, create an object, append to it as much as you need using the stream operator << get the result as string calling the function str

example:

#include <sstream>
std::stringstream mySS;

mySS << "Hello" << " World!" << "end!!" << " Foo";

and when you are done

std::string stringResult = mySS.str();
3
  • So it actually holds all strings as is until the .str() call? This is what I wanted to know. Thanks. Jun 6, 2017 at 15:42
  • exactly, you append and append things until you need it and then call str().... more or less like the StringBuilder in java.... Jun 6, 2017 at 15:43
  • Sorry for an extra question, I wonder how can I actually check if it works like that. Opening it in debugger I guess? Jun 6, 2017 at 16:26
2

The only way to avoid multiple allocations is to tell the string how big it needs to become before concatenating.

For example, to join together all the strings stored in a vector (like a list):

std::string join(std::vector<std::string> const& v)
{
    std::string r; // return string

    // add up all the string sizes
    std::size_t size = 0;
    for(auto const& s: v)
        size += s.size();

    // reserve that much space all at once (one allocation)
    r.reserve(size);

    // now do the concatenations
    for(auto const& s: v)
        r += s;

    return r;
}
2

You are correct that each concatenation could require an allocation. Consider an expression like this, where each variable is a string:

a = b + c + d + e;

This requires three concatenation operations and three temporaries, each of which requires a new allocation.

A simple solution is to use std::ostringstream, which should not require as many reallocations:

std::ostringstream ss;
ss << b << c << d << e;
a = ss.str();

However, if we are concatenating only strings, we can do one better, and allocate exactly the right size of string (C++11-compatible implementation):

std::size_t total_string_size()
{
    return 1;
}

template <typename... T>
std::size_t total_string_size(std::string const &s, T const & ...tail)
{
    return s.size() + total_string_size(tail...);
}

void concat_strings_impl(std::string &) { }

template <typename... T>
void concat_strings_impl(std::string &out, std::string const &s, T const & ...tail)
{
    out += s;
    concat_strings_impl(out, tail...);
}

template <typename... T>
void concat_strings(std::string &out, T const & ...strings)
{
    out.clear();
    out.reserve(total_string_size(strings...));
    concat_strings_impl(out, strings...);
}

Now we can call concat_strings(a, b, c, d, e) to perform the equivalent of a = b + c + d + e; in a single reallocation. (Demo)

2
  • What makes you think std::stringstream doesn't use so many allocations?
    – Galik
    Jun 6, 2017 at 15:48
  • @Galik I meant reallocations. It should be allocating a bit of extra room like std::vector does, whereas a simple + concatenation operation requires a new allocation for the string temporary. So it would be more accurate to say that stringstream will not require more reallocations, but generally should require fewer.
    – cdhowie
    Jun 6, 2017 at 15:50
1

You can concatenate multiple strings - no problem:

std::string hello = "Hello";
std::string cruel = "cruel";
std::string world = "world";
std::string result = hello + " " + cruel + " " + world;

Results in result holding the string "Hello cruel world".

1

If you are using the c-style strings (ie char*), then you can allocate once and cat a number of times. The strcat function takes a pointer to a destination address as a first argument. Thus if you make your destination string large enough, there will only be one alloc. Thus

char* dest = new char[100];
dest[0] = 0; //Zero length string to start
strcat(dest, str1);
strcat(dest, str2);
strcat(dest, str3);

If on the other hand you use std::string then + can be chained string1 + string2 + string3.

2
  • It seems like his question is about the performance of multiple concatenations -- does it create a new intermediate string for each step in the chain, rather than combine them all at once?
    – Barmar
    Jun 6, 2017 at 15:42
  • Beware of Schlemiel the Painter. Jun 6, 2017 at 16:43

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