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What is the difference between \r and \n?

I'd like to know the difference (with examples if possible) between CR LF (Windows), LF (Unix) and CR (Macintosh) line break types.

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Duplicate of… – Andrew Grimm Mar 28 '10 at 6:59
Very similar, but not an exact duplicate. \n is typically represented by a linefeed, but it's not necessarily a linefeed. – Adrian McCarthy Mar 2 '12 at 0:00
CR and LF are ASCII and Unicode control characters while \r and \n are abstractions used in certain programming languages. Closing this question glosses over fundamental differences between the questions and perpetuates misinformation. – Adrian McCarthy Oct 8 '12 at 20:07
@AdrianMcCarthy It's a problem with the way close votes act as answers in a way; an answer claiming the two were the same could be downvoted and then greyed out as very, very wrong, but it only takes 4 agreeing votes (comparable to upvotes) to have a very wrong close happen, with no way to counter the vote until after it's happened. – Jon Hanna Mar 13 '14 at 17:03
@JukkaK.Korpela: No, it really isn't. \n doesn't mean the same thing in all programming languages. – Adrian McCarthy Mar 13 '14 at 17:34
up vote 91 down vote accepted

It's really just about which bytes are stored in a file. CR is a bytecode for carriage return (from the days of typewriters) and LF similarly, for line feed. It just refers to the bytes that are placed as end-of-line markers.

Way more information, as always, on wikipedia.

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CR and LF are control characters, respectively coded 0x0D (13 decimal) and 0x0A (10 decimal).

They are used to mark a line break in a text file. As you indicated, Windows uses two characters the CR LF sequence; Unix only uses LF and MacIntosh CR.

An apocryphal historical perspective:

As indicated by Peter, CR = Carriage Return and LF = Line Feed, two expressions have their roots in the old typewriters / TTY. LF moved the paper up (but kept the horizontal position identical) and CR brought back the "carriage" so that the next character typed would be at the leftmost position on the paper (but on the same line). CR+LF was doing both, i.e. preparing to type a new line. As time went by the physical semantics of the codes were not applicable, and as memory and floppy disk space were at a premium, some OS designers decided to only use one of the characters, they just didn't communicate very well with one another ;-)

Most modern text editors and text-oriented applications offer options/settings etc. that allow the automatic detection of the file's end-of-line convention and to display it accordingly.

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Well, now I have to vote you down since you reverted my fix. 0x0c is 12 decimal, not 13. – paxdiablo Oct 12 '09 at 5:03
@Pax, thanks for catching the typo. The overwrite was accidental, probably happened while I was typing the trip to the 20th century ;-) – mjv Oct 12 '09 at 5:09
basically every text editor will, except notepad ;) – Wyatt8740 Aug 3 '15 at 18:15

This is a good summary I found:

The Carriage Return (CR) character (0x0D, \r) moves the cursor to the beginning of the line without advancing to the next line. This character is used as a new line character in Commodore and Early Macintosh operating systems (OS-9 and earlier).

The Line Feed (LF) character (0x0A, \n) moves the cursor down to the next line without returning to the beginning of the line. This character is used as a new line character in UNIX based systems (Linux, Mac OSX, etc)

The End of Line (EOL) sequence (0x0D 0x0A, \r\n) is actually two ASCII characters, a combination of the CR and LF characters. It moves the cursor both down to the next line and to the beginning of that line. This character is used as a new line character in most other non-Unix operating systems including Microsoft Windows, Symbian OS and others.


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Why is this answer not accepted? – Ashwin Aug 31 '12 at 10:33
This was the answer I was looking for. – Qix Oct 21 '14 at 15:50
CR = \r; LF = \n; CRLF = \r\n - that's what I wanted! – Max Chetrusca Nov 28 '14 at 12:15

Jeff Atwood has a recent blog post about this: The Great Newline Schism

Here is the essence from Wikipedia:

The sequence CR+LF was in common use on many early computer systems that had adopted teletype machines, typically an ASR33, as a console device, because this sequence was required to position those printers at the start of a new line. On these systems, text was often routinely composed to be compatible with these printers, since the concept of device drivers hiding such hardware details from the application was not yet well developed; applications had to talk directly to the teletype machine and follow its conventions. The separation of the two functions concealed the fact that the print head could not return from the far right to the beginning of the next line in one-character time. That is why the sequence was always sent with the CR first. In fact, it was often necessary to send extra characters (extraneous CRs or NULs, which are ignored) to give the print head time to move to the left margin. Even after teletypes were replaced by computer terminals with higher baud rates, many operating systems still supported automatic sending of these fill characters, for compatibility with cheaper terminals that required multiple character times to scroll the display.

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+1 for coding horror reference :) – Mauricio Jan 20 '10 at 19:59
+1 It is by this simple understanding that I always remember in what order the combination comes. Even today we can still see this mechanical logic in any inktjet-printer (I love to understand since I hate to learn). My other memory-tricks are: "mac? Return to sender" and "NewLineFeed" (to remember that NL===LF and to remember the \n , since CR already has the R in it's abbreviation) – GitaarLAB Feb 1 '13 at 19:52
I'm dubious of the claim that dividing the process of going to the next line into two control codes was necessary for timing. I don't doubt that there were timing issues, but serial communication always had some buffering and flow control. In terms of the actual driver hardware, then, yet, I could imagine there were some timing issues to overcome that may have been solved by the equivalent of adding NULs to fill the time to return the print head to the margin, but I'd like to see better citations before believing that's the reason CR and LF were distinct operations. – Adrian McCarthy Mar 13 '14 at 17:30
"I'm dubious ... two control codes was necessary for timing". That's not what it says. It says that the extra CRs and NULs are here for giving time for it to come back, not the original CR LF. – Julien Rousseau Sep 24 '14 at 5:58

CR - ASCII code 13

LF - ASCII code 10.

Theoretically CR returns cursor to the first position (on the left). LF feeds one line moving cursor one line down. This is how in old days you controled printers and text-mode monitors. These characters are usually used to mark end of lines in text files. Different operating systems used different conventions. As you pointed out Windows uses CR/LF combination while pre-OSX Macs use just CR and so on.

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Systems based on ASCII or a compatible character set use either LF (Line feed, 0x0A, 10 in decimal) or CR (Carriage return, 0x0D, 13 in decimal) individually, or CR followed by LF (CR+LF, 0x0D 0x0A); These characters are based on printer commands: The line feed indicated that one line of paper should feed out of the printer, and a carriage return indicated that the printer carriage should return to the beginning of the current line.

Here is the details.

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The sad state of "record separators" or "line terminators" is a legacy of the dark ages of computing.

Now, we take it for granted that anything we want to represent is in some way structured data and conforms to various abstractions that define lines, files, protocols, messages, markup, whatever.

But once upon a time this wasn't exactly true. Applications built-in control characters and device-specific processing. The brain-dead systems that required both CR and LF simply had no abstraction for record separators or line terminators. The CR was necessary in order to get the teletype or video display to return to column one and the LF (today, NL, same code) was necessary to get it to advance to the next line. I guess the idea of doing something other than dumping the raw data to the device was too complex.

Unix and Mac actually specified an abstraction for the line end, imagine that. Sadly, they specified different ones. (Unix, ahem, came first.) And naturally, they used a control code that was already "close" to S.O.P.

Since almost all of our operating software today is a descendent of Unix, Mac, or MS operating SW, we are stuck with the line ending confusion.

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