159

The following fails with the error prog.cpp:5:13: error: invalid conversion from ‘char’ to ‘const char*’

int main()
{
  char d = 'd';
  std::string y("Hello worl");
  y.append(d); // Line 5 - this fails
  std::cout << y;
  return 0;
}

I also tried, the following, which compiles but behaves randomly at runtime:

int main()
{
  char d[1] = { 'd' };
  std::string y("Hello worl");
  y.append(d);
  std::cout << y;
  return 0;
}

Sorry for this dumb question, but I've searched around google, what I could see are just "char array to char ptr", "char ptr to char array", etc.

  • what do you mean by fail? – decasteljau Sep 24 '09 at 14:28
  • a compiler error yes..I forgot what the error is, but it's reasonable. – drowneath Sep 24 '09 at 14:33
  • 3
    You have better answers below, but you can make you second example working like this char d[2] = {'d', 0}; or just char d[2] = "d"; Basically, you need a 0 to terminate your c-style string you pass to append – sbk Sep 24 '09 at 15:17
  • Good documentation here: sgi.com/tech/stl/basic_string.html – Martin York Sep 24 '09 at 15:57

12 Answers 12

204
y += d;

I would use += operator instead of named functions.

  • 2
    why do you consider += better than push_back? Is it just less typing or do you have another reason? – Glen Sep 24 '09 at 14:35
  • 4
    It's less typing. In gcc, basic_string::operator+= is just a call in push_back. – eduffy Sep 24 '09 at 14:37
  • 2
    It is more natural IMO for strings. push_back is container function, and a string is a specialized one in STL :) – AraK Sep 24 '09 at 14:38
  • 6
    Let's turn that question around: Why do you consider push_back better than +=? In my opinion, += is clear and concise. – Jesper Sep 24 '09 at 15:09
  • 32
    You want to be careful with this because if you get into the habit, this will compile just fine if y is a char* instead of std::string. It'd add d characters to the pointer y. – Zan Lynx Mar 14 '11 at 23:28
61

Use push_back():

std::string y("Hello worl");
y.push_back('d')
std::cout << y;
18

To add a char to a std::string var using the append method, you need to use this overload:

std::string::append(size_type _Count, char _Ch)

Edit : Your're right I misunderstood the size_type parameter, displayed in the context help. This is the number of chars to add. So the correct call is

s.append(1, d);

not

s.append(sizeof(char), d);

Or the simpliest way :

s += d;
  • I think using sizeof is not semantically correct here (even though it happens to work as sizeof(char) is always one). The append method is naturally more useful if you want to append more copies of the same character!!!!!!!!!! – UncleBens Sep 24 '09 at 15:19
  • 1
    Why are you using sizeof(char) instead of 1? You want to append exactly one repetition of d, so just say that. Using sizeof here is misleading since it suggests that one has to tell append the byte size of the data type used (which is not the case). – Ferdinand Beyer Sep 24 '09 at 15:19
  • As Unclebens said, the append method is really more useful when adding the same character many times. – Patrice Bernassola Sep 24 '09 at 15:53
10

In addition to the others mentioned, one of the string constructors take a char and the number of repetitions for that char. So you can use that to append a single char.

std::string s = "hell";
s += std::string(1, 'o');
7

I test the several propositions by running them into a large loop. I used microsoft visual studio 2015 as compiler and my processor is an i7, 8Hz, 2GHz.

    long start = clock();
    int a = 0;
    //100000000
    std::string ret;
    for (int i = 0; i < 60000000; i++)
    {
        ret.append(1, ' ');
        //ret += ' ';
        //ret.push_back(' ');
        //ret.insert(ret.end(), 1, ' ');
        //ret.resize(ret.size() + 1, ' ');
    }
    long stop = clock();
    long test = stop - start;
    return 0;

According to this test, results are :

     operation             time(ms)            note
------------------------------------------------------------------------
append                     66015
+=                         67328      1.02 time slower than 'append'
resize                     83867      1.27 time slower than 'append'
push_back & insert         90000      more than 1.36 time slower than 'append'

Conclusion

+= seems more understandable, but if you mind about speed, use append

  • For such an answer to be meaningful, you should a least tell what compiler are you using, because such things might vary a LOT. Telling about your processor can be great too, to get a rough estimate on the actual impact this might have. – akaltar Aug 15 '16 at 22:24
  • I used visual studio 2015. I will look for gcc to do some other tests.My processor is i7, 8 hearts, 2.20 Ghz....But whatever is my processor it will have no impact on std::string implementation...except if some of these method are multithreaded and someothers not. – Hugo Zevetel Sep 1 '16 at 9:51
  • Sometimes it has an impact, especially if you are showing timings in milliseconds. Instead you could show in percentage relative to fastest method(So actual processor speed is irrelevant) Also move that data from the comment to your answer, this is just general StackExchange etiquette. Otherwise nice answer. – akaltar Sep 1 '16 at 15:02
6

Try the += operator link text, append() method link text, or push_back() method link text

The links in this post also contain examples of how to use the respective APIs.

2

the problem with:

std::string y("Hello worl");
y.push_back('d')
std::cout << y;

is that you have to have the 'd' as opposed to using a name of a char, like char d = 'd'; Or am I wrong?

2

Try using the d as pointer y.append(*d)

  • That's dangerous as a single char is no string and has no null-terminator. Doing this causes undefined behaviour. – Simon Kraemer Feb 26 '16 at 8:13
1
int main()
{
  char d = 'd';
  std::string y("Hello worl");

  y += d;
  y.push_back(d);
  y.append(1, d); //appending the character 1 time
  y.insert(y.end(), 1, d); //appending the character 1 time
  y.resize(y.size()+1, d); //appending the character 1 time
  y += std::string(1, d); //appending the character 1 time
}

Note that in all of these examples you could have used a character literal directly: y += 'd';.

Your second example almost would have worked, for unrelated reasons. char d[1] = { 'd'}; didn't work, but char d[2] = { 'd'}; (note the array is size two) would have been worked roughly the same as const char* d = "d";, and a string literal can be appended: y.append(d);.

0
str.append(10u,'d'); //appends character d 10 times

Notice I have written 10u and not 10 for the number of times I'd like to append the character; replace 10 with whatever number.

  • 3
    That's already been posted about four years ago. – Mat Jun 11 '13 at 18:13
0

I found a simple way... I needed to tack a char on to a string that was being built on the fly. I needed a char list; because I was giving the user a choice and using that choice in a switch() statement.

I simply added another std::string Slist; and set the new string equal to the character, "list" - a, b, c or whatever the end user chooses like this:

char list;
std::string cmd, state[], Slist;
Slist = list; //set this string to the chosen char;
cmd = Slist + state[x] + "whatever";
system(cmd.c_str());

Complexity may be cool but simplicity is cooler. IMHO

-1

If you are using the push_back there is no call for the string constructor. Otherwise it will create a string object via casting, then it will add the character in this string to the other string. Too much trouble for a tiny character ;)

  • 1
    operator +=(char c); is overloaded for strings. In fact, the string constructor doesn't accept one character, see Brian answer ;) – AraK Sep 24 '09 at 14:57

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