In Go rune type is not a character type, it is just another name for int32.
If you come from Java or a similar language this will surprise you because Java has char type and you can add char to a string.
String s = "hello";
char c = 'x';
System.out.println(s + c);
In Go you need to be more explicit:
s := "hello";
c := 'x';
fmt.Println(s + string(c));
Omg do you really need to convert every char to a string constant? Yes, but do not worry, this is just because of a type system and compiler optimizes it correctly. Under the hood both Java and Go append the char in the same manner.
If you think extra typing sucks, just compare how many times string keyword appears in each example above. :)
Extra info: (technical details)
In Go strings are not sequences of runes, they are utf-8 encoded sequences of runes. When you range over a string you get runes, but you cannot simply append a rune to a string.
For example: euro sign '€' is an integer 0x20AC (this is called code point)
But when you encode euro sign in utf-8 you get 3 bytes: 0xE2 0x82 0xAC
So appending a char actually works like this:
s = append(s, encodeToUtf8(c)) // Go
s = append(s, encodeToUtf16(c)) // Java
Note that encodings are done at compile time.
Utf-8 can encode a character with 1, 2, 3, or 4 bytes.
Utf-16 can encode a character with 2 or with 4 bytes.
So Go usually appends 1 byte (for ascii) or 2, 3, 4 bytes for Chinese, and Java usually appends 2 bytes (for ascii) or 4 bytes for Chinese.
Since most characters that we (west) use can be encoded with 2 bytes Java gives the false belief that strings are sequences of 2byte char-s, which is true until you need to encode 美国必须死