ASCII control characters
Main article: Control character
ASCII reserves the first 32 codes (numbers 0–31 decimal) for control characters: codes originally intended not to represent printable information, but rather to control devices (such as printers) that make use of ASCII, or to provide meta-information
about data streams such as those stored on magnetic tape. For example,
character 10 represents the "line feed" function (which causes a printer
to advance its paper), and character 8 represents "backspace". RFC 2822 refers to control characters that do not include carriage return, line feed or white space as non-whitespace control characters.[34]
Except for the control characters that prescribe elementary
line-oriented formatting, ASCII does not define any mechanism for
describing the structure or appearance of text within a document. Other
schemes, such as markup languages, address page and document layout and formatting.The original ASCII standard used only short descriptive phrases for each control character. The ambiguity this caused was sometimes intentional (where a character would be used slightly differently on a terminal link than on a data stream) and sometimes accidental (such as what "delete" means).
Probably the most influential single device on the interpretation of these characters was the Teletype Model 33 ASR, which was a printing terminal with an available paper tape reader/punch option. Paper tape was a very popular medium for long-term program storage through the 1980s, less costly and in some ways less fragile than magnetic tape. In particular, the Teletype Model 33 machine assignments for codes 17 (Control-Q, DC1, also known as XON), 19 (Control-S, DC3, also known as XOFF), and 127 (Delete) became de facto standards. Because the keytop for the O key also showed a left-arrow symbol (from ASCII-1963, which had this character instead of underscore), a noncompliant use of code 15 (Control-O, Shift In) interpreted as "delete previous character" was also adopted by many early timesharing systems but eventually became neglected.
The use of Control-S (XOFF, an abbreviation for transmit off) as a "handshaking" signal warning a sender to stop transmission because of impending overflow, and Control-Q (XON, "transmit on") to resume sending, persists to this day in many systems as a manual output control technique. On some systems Control-S retains its meaning but Control-Q is replaced by a second Control-S to resume output.
Code 127 is officially named "delete" but the Teletype label was "rubout". Since the original standard did not give detailed interpretation for most control codes, interpretations of this code varied. The original Teletype meaning, and the intent of the standard, was to make it an ignored character, the same as NUL (all zeroes). This was useful specifically for paper tape, because punching the all-ones bit pattern on top of an existing mark would obliterate it. Tapes designed to be "hand edited" could even be produced with spaces of extra NULs (blank tape) so that a block of characters could be "rubbed out" and then replacements put into the empty space.
As video terminals began to replace printing ones, the value of the "rubout" character was lost. DEC systems, for example, interpreted "Delete" to mean "remove the character before the cursor" and this interpretation also became common in Unix systems. Most other systems used "Backspace" for that meaning and used "Delete" to mean "remove the character at the cursor". That latter interpretation is the most common now.
Many more of the control codes have been given meanings quite different from their original ones. The "escape" character (ESC, code 27), for example, was intended originally to allow sending other control characters as literals instead of invoking their meaning. This is the same meaning of "escape" encountered in URL encodings, C language strings, and other systems where certain characters have a reserved meaning. Over time this meaning has been co-opted and has eventually been changed. In modern use, an ESC sent to the terminal usually indicates the start of a command sequence, usually in the form of a so-called "ANSI escape code" (or, more properly, a "Control Sequence Introducer") beginning with ESC followed by a "[" (left-bracket) character. An ESC sent from the terminal is most often used as an out-of-band character used to terminate an operation, as in the TECO and vi text editors. In graphical user interface (GUI) and windowing systems, ESC generally causes an application to abort its current operation or to exit (terminate) altogether.
The inherent ambiguity of many control characters, combined with their historical usage, created problems when transferring "plain text" files between systems. The best example of this is the newline problem on various operating systems. Teletype machines required that a line of text be terminated with both "Carriage Return" (which moves the printhead to the beginning of the line) and "Line Feed" (which advances the paper one line without moving the printhead). The name "Carriage Return" comes from the fact that on a manual typewriter the carriage holding the paper moved while the position where the keys struck the ribbon remained stationary. The entire carriage had to be pushed (returned) to the right in order to position the left margin of the paper for the next line.
DEC operating systems (OS/8, RT-11, RSX-11, RSTS, TOPS-10, etc.) used both characters to mark the end of a line so that the console device (originally Teletype machines) would work. By the time so-called "glass TTYs" (later called CRTs or terminals) came along, the convention was so well established that backward compatibility necessitated continuing the convention. When Gary Kildall cloned RT-11 to create CP/M he followed established DEC convention. Until the introduction of PC-DOS in 1981, IBM had no hand in this because their 1970s operating systems used EBCDIC instead of ASCII and they were oriented toward punch-card input and line printer output on which the concept of "carriage return" was meaningless. IBM's PC-DOS (also marketed as MS-DOS by Microsoft) inherited the convention by virtue of being a clone of CP/M, and Windows inherited it from MS-DOS.
Unfortunately, requiring two characters to mark the end of a line introduces unnecessary complexity and questions as to how to interpret each character when encountered alone. To simplify matters, plain text files on Unix and Amiga systems use line feed (LF) alone as a line terminator. The original Macintosh OS, on the other hand, used carriage return (CR) alone as a line terminator, however since Apple replaced it with the Unix-based OS X operating system, they now use line feed (LF) as well.
Transmission of text over the Internet, for protocols as E-mail and the World Wide Web, uses both characters.
Some operating systems such as the pre-VMS DEC operating systems, along with CP/M, tracked file length only in units of disk blocks and used Control-Z (SUB) to mark the end of the actual text in the file. For this reason, EOF, or end-of-file, was used colloquially and conventionally as a three-letter acronym (TLA) for Control-Z instead of SUBstitute. For a variety of reasons, the end-of-text code, ETX aka Control-C, was inappropriate and using Z as the control code to end a file is analogous to it ending the alphabet, a very convenient mnemonic aid. ASCII strings ending with the null character are known as ASCIZ, ASCIIZ or null-terminated strings.
| Binary | Oct | Dec | Hex | Abbr | [a] | [b] | [c] | Name |
|---|---|---|---|---|---|---|---|---|
| 000 0000 | 000 | 0 | 00 | NUL | ␀ | ^@ | \0 | Null character |
| 000 0001 | 001 | 1 | 01 | SOH | ␁ | ^A | Start of Header | |
| 000 0010 | 002 | 2 | 02 | STX | ␂ | ^B | Start of Text | |
| 000 0011 | 003 | 3 | 03 | ETX | ␃ | ^C | End of Text | |
| 000 0100 | 004 | 4 | 04 | EOT | ␄ | ^D | End of Transmission | |
| 000 0101 | 005 | 5 | 05 | ENQ | ␅ | ^E | Enquiry | |
| 000 0110 | 006 | 6 | 06 | ACK | ␆ | ^F | Acknowledgment | |
| 000 0111 | 007 | 7 | 07 | BEL | ␇ | ^G | \a | Bell |
| 000 1000 | 010 | 8 | 08 | BS | ␈ | ^H | \b | Backspace[d][e] |
| 000 1001 | 011 | 9 | 09 | HT | ␉ | ^I | \t | Horizontal Tab[f] |
| 000 1010 | 012 | 10 | 0A | LF | ␊ | ^J | \n | Line feed |
| 000 1011 | 013 | 11 | 0B | VT | ␋ | ^K | \v | Vertical Tab |
| 000 1100 | 014 | 12 | 0C | FF | ␌ | ^L | \f | Form feed |
| 000 1101 | 015 | 13 | 0D | CR | ␍ | ^M | \r | Carriage return[g] |
| 000 1110 | 016 | 14 | 0E | SO | ␎ | ^N | Shift Out | |
| 000 1111 | 017 | 15 | 0F | SI | ␏ | ^O | Shift In | |
| 001 0000 | 020 | 16 | 10 | DLE | ␐ | ^P | Data Link Escape | |
| 001 0001 | 021 | 17 | 11 | DC1 | ␑ | ^Q | Device Control 1 (oft. XON) | |
| 001 0010 | 022 | 18 | 12 | DC2 | ␒ | ^R | Device Control 2 | |
| 001 0011 | 023 | 19 | 13 | DC3 | ␓ | ^S | Device Control 3 (oft. XOFF) | |
| 001 0100 | 024 | 20 | 14 | DC4 | ␔ | ^T | Device Control 4 | |
| 001 0101 | 025 | 21 | 15 | NAK | ␕ | ^U | Negative Acknowledgement | |
| 001 0110 | 026 | 22 | 16 | SYN | ␖ | ^V | Synchronous idle | |
| 001 0111 | 027 | 23 | 17 | ETB | ␗ | ^W | End of Transmission Block | |
| 001 1000 | 030 | 24 | 18 | CAN | ␘ | ^X | Cancel | |
| 001 1001 | 031 | 25 | 19 | EM | ␙ | ^Y | End of Medium | |
| 001 1010 | 032 | 26 | 1A | SUB | ␚ | ^Z | Substitute | |
| 001 1011 | 033 | 27 | 1B | ESC | ␛ | ^[ | \e[h] | Escape[i] |
| 001 1100 | 034 | 28 | 1C | FS | ␜ | ^\ | File Separator | |
| 001 1101 | 035 | 29 | 1D | GS | ␝ | ^] | Group Separator | |
| 001 1110 | 036 | 30 | 1E | RS | ␞ | ^^[j] | Record Separator | |
| 001 1111 | 037 | 31 | 1F | US | ␟ | ^_ | Unit Separator | |
| 111 1111 | 177 | 127 | 7F | DEL | ␡ | ^? | Delete[k][e] | |
- ^ The Unicode characters from the area U+2400 to U+2421 reserved for representing control characters when it is necessary to print or display them rather than have them perform their intended function. Some browsers may not display these properly.
- ^ Caret notation often used to represent control characters on a terminal. On most text terminals, holding down the Ctrl key while typing the second character will type the control character. Sometimes the shift key is not needed, for instance ^@ may be typable with just Ctrl and 2.
- ^ Character Escape Codes in C programming language and many other languages influenced by it, such as Java and Perl (though not all implementations necessarily support all escape codes).
- ^ The Backspace character can also be entered by pressing the ← Backspace key on some systems.
- ^ a b The ambiguity of Backspace is due to early terminals designed assuming the main use of the keyboard would be to manually punch paper tape while not connected to a computer. To delete the previous character, one had to back up the paper tape punch, which for mechanical and simplicity reasons was a button on the punch itself and not the keyboard, then type the rubout character. They therefore placed a key producing rubout at the location used on typewriters for backspace. When systems used these terminals and provided command-line editing, they had to use the "rubout" code to perform a backspace, and often did not interpret the backspace character (they might echo "^H" for backspace). Other terminals not designed for paper tape made the key at this location produce Backspace, and systems designed for these used that character to back up. Since the delete code often produced a backspace effect, this also forced terminal manufacturers to make any Delete key produce something other than the Delete character.
- ^ The Tab character can also be entered by pressing the Tab ⇆ key on most systems.
- ^ The Carriage Return character can also be entered by pressing the ↵ Enter or Return key on most systems.
- ^ The '\e' escape sequence is not part of ISO C and many other language specifications. However, it is understood by several compilers.
- ^ The Escape character can also be entered by pressing the Esc key on some systems.
- ^ ^^ means Ctrl+^ (pressing the "Ctrl" and caret keys).
- ^ The Delete character can sometimes be entered by pressing the ← Backspace key on some systems.
ASCII printable characters
Codes 20hex to 7Ehex, known as the printable characters, represent letters, digits, punctuation marks, and a few miscellaneous symbols. There are 95 printable characters in total.Code 20hex, the space character, denotes the space between words, as produced by the space-bar of a keyboard. Since the space character is considered an invisible graphic (rather than a control character)[2][1] and thus would not normally be visible, it is represented here by Unicode character U+2420 "␠"; Unicode characters U+2422 "␢" and U+2423 "␣" are also available for use when a visible representation of a space is necessary.
Code 7Fhex corresponds to the non-printable "Delete" (DEL) control character and is therefore omitted from this chart; it is covered in the previous section's chart.
Earlier versions of ASCII used the up-arrow instead of the caret (5Ehex) and the left-arrow instead of the underscore (5Fhex).[35]
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