# Data size in ASCII

I am a little bit confused about determining the number of bytes in an ASCII encoded text. I can't understand how ASCII encoding works. Let's take for example `255`. In Hex it's value is `0xFF` and it's size is 1 Byte (`255: 1111 1111`). In ASCII encoding, 2 is `0x32` and 5 is `0x35` so if we want to write 255 it would be `255 = {0x32, 0x35, 0x35}` The size of each one of them is 1 Byte. That makes 3 Bytes in total? I mean if I want to write pure text like `char *buffer[]="Hello!";` Should I count the number of characters and suppose that this is the number of bytes in total ?

• Naughy: 255 is not part of ASCII encoding. Commented Mar 12, 2018 at 14:45
• Yes but if I want to write 255, It's 2, 2 and 5 ? Is it 3 byte sized ? Commented Mar 12, 2018 at 14:47
• 'I can't understand how ASCII encoding works' well, you going to have real fun with Unicode, then:) Commented Mar 12, 2018 at 14:48
• @MartinJames I am trying to implement a protocol of communication based on ASCII encoding. The thing is I really can't make a difference between sending letters and numbers as characters (0..9 a..z A..Z) and as hex coded values (0: 0x00 in Hex but it's 0x30 in ASCII etc ..) Commented Mar 12, 2018 at 14:54
• if I want to write pure text like `char *buffer[]="Hello!";` Should I count the number of characters and suppose that this is the number of bytes in total ? If you are using this syntax and you want to treat it as an ASCII string that you can manipulate with C string functions, then it's one more byte for the terminating null (`\0`). `"Hello!"` uses 7 bytes, not 6. But 6 is the actual number of characters, if that's what you mean. Commented Mar 12, 2018 at 14:57

You are kind of mixing up three different, non-related representations here.

• 11111111b or FFh is the pure binary presentation of the decimal number 255.
• ASCII is a very old 7-bit character table used for displaying strings, where each character code is 1 byte large.
• Splitting a raw number in different bytes, such as splitting 255 into 11b, 101b, 101b is called binary-coded decimal (BCD).

If you wish to represent the number 255 as ASCII, it would be the string `"255"`, which in binary form would be `0x32 0x35 0x35 0x00`.

That makes 3 Bytes in total?

Probably 4, since you'll want to null terminate the string too, or you can't use it with C standard library string handling functions such as `printf("%s", str)`.

`char *buffer[]="Hello!";`

This line is incorrect, you need to settle for either a pointer to a string literal `char* buffer`, or an allocated character array `char buffer[]`. The code you have written is an array of pointers (of array size 1 item), which is not what you want here. The compiler should complain about this.

Should I count the number of characters and suppose that this is the number of bytes in total ?

Assuming ASCII incoding, then indeed. `"Hello!"` will contain 7 bytes: 6 data + 1 null terminator. In case of string literals you can actually check this size with code:

``````printf("%zu", sizeof("Hello!")); // prints 7
``````