wchar_t *arr = malloc(2 * sizeof(wchar_t));
arr = 0x4e2d;
arr = 0x6587;
First, the above string is not null-terminated. The
printf function knows the beginning of the array, but it has no idea where the array ends, or what size it has. You have to add a zero at the end to make null-terminated C string.
To print this null-terminated wide string, use
"printf("%ls", arr);" for Unix based machines (including Mac), use
"wprintf("%s", arr);" in Windows (that's a completely different thing, it actually treats the string as UTF16)
Make sure to add
setlocale(LC_ALL, "C.UTF-8"); or
setlocale(LC_ALL, ""); for Unix based machines.
//print single character:
wchar_t *arr = malloc((2 + 1)* sizeof(wchar_t));
arr = 0x00004e2d;
arr = 0x00006587;
arr = 0;
In UTF32, code points always need 4 bytes (example
0x00004e2d) This can be represented with a 4 byte data type
wchar_t in POSIX).
In UTF8, code points need 1, 2, 3, or 4 bytes. UTF8 encoding for ASCII characters needs one byte. While
中 needs 3 bytes (or 3
char values). You can confirm this by running this code:
printf("A:%d 中:%d 🙂:%d\n", strlen("A"), strlen("中"), strlen("🙂"));
Se we can't use a single
char in UTF8. We can use strings instead:
const char* x = u8"中";
We can use normal string functions in C, like
strcpy etc. But some standard C functions don't work. For example
strchr just doesn't work for finding
中. This is usually not a problem because characters such as "print format specifiers" are all ASCII and are one byte.