Difference between \n and \r?

In terms of ascii code, it's 3 -- since they're 10 and 13 respectively;-).

But seriously, there are many:

• in Unix and all Unix-like systems, \n is the code for end-of-line, \r means nothing special
• as a consequence, in C and most languages that somehow copy it (even remotely), \n is the standard escape sequence for end of line (translated to/from OS-specific sequences as needed)
• in old Mac systems (pre-OS X), \r was the code for end-of-line instead
• in Windows (and many old OSs), the code for end of line is 2 characters, \r\n, in this order
• as a (surprising;-) consequence (harking back to OSs much older than Windows), \r\n is the standard line-termination for text formats on the Internet
• for electromechanical teletype-like "terminals", \r commands the carriage to go back leftwards until it hits the leftmost stop (a slow operation), \n commands the roller to roll up one line (a much faster operation) -- that's the reason you always have \r before \n, so that the roller can move while the carriage is still going leftwards!-) Wikipedia has a more detailed explanation.
• for character-mode terminals (typically emulating even-older printing ones as above), in raw mode, \r and \n act similarly (except both in terms of the cursor, as there is no carriage or roller;-)

In practice, in the modern context of writing to a text file, you should always use \n (the underlying runtime will translate that if you're on a weird OS, e.g., Windows;-). The only reason to use \r is if you're writing to a character terminal (or more likely a "console window" emulating it) and want the next line you write to overwrite the last one you just wrote (sometimes used for goofy "ascii animation" effects of e.g. progress bars) -- this is getting pretty obsolete in a world of GUIs, though;-).

Historically a \n was used to move the carriage down, while the \r was used to move the carriage back to the left side of the page.

Two different characters.

\n is used as an end-of-line terminator in Unix text files

\r Was historically (pre-OS X) used as an end-of-line terminator in Mac text files

\r\n (ie both) are used to terminate lines in Windows and DOS text files.

Since nobody else mentioned it specifically (are they too young to know/remember?) - I suspect the use of \r\n originated for typewriters and similar devices.

When you wanted a new line while using a multi-line-capable typewriter, there were two physical actions it had to perform: slide the carriage back to the beginning (left, in US) of the page, and feed the paper up one notch.

Back in the days of line printers the only way to do bold text, for example, was to do a carriage return WITHOUT a newline and print the same characters over the old ones, thus adding more ink, thus making it appear darker (bolded). When the mechanical "newline" function failed in a typewriter, this was the annoying result: you could type over the previous line of text if you weren't paying attention.

Two different characters for different Operating Systems. Also this plays a role in data transmitted over TCP/IP which requires the use of \r\n.

\n Unix

\r Mac

\r\n Windows and DOS.

To complete,

In a shell (bash) script, you can use \r to send cursor, in front on line and, of course \n to put cursor on a new line.

For example, try :

echo -en "AA--AA" ; echo -en "BB" ; echo -en "\rBB"

• The first "echo" display AA--AA
• The second : AA--AABB
• The last : BB--AABB

But don't forget to use -en as parameters.

In windows, the \n moves to the beginning of the next line. The \r moves to the beginning of the current line, without moving to the next line. I have used \r in my own console apps where I am testing out some code and I don't want to see text scrolling up my screen, so rather than use \n after printing out some text, of say, a frame rate (FPS), I will printf("%-10d\r", fps); This will return the cursor to the beginning of the line without moving down to the next line and allow me to have other information on the screen that doesn't get scrolled off while the framerate constantly updates on the same line (the %-10 makes certain the output is at least 10 characters, left justified so it ends up padded by spaces, overwriting any old values for that line). It's quite handy for stuff like this, usually when I have debugging stuff output to my console screen.

A little history

The /r stands for "return" or "carriage return" which owes it's history to the typewriter. A carriage return moved your carriage all the way to the right so you were typing at the start of the line.

The /n stands for "new line", again, from typewriter days you moved down to a new line. Not nessecarily to the start of it though, which is why some OSes adopted the need for both a /r return followed by a /n newline, as that was the order a typewriter did it in. It also explains the old 8bit computers that used to have "Return" rather than "Enter", from "carriage return", which was familiar.

What’s the difference between \n (newline) and \r (carriage return)?

In particular, are there any practical differences between \n and \r? Are there places where one should be used instead of the other?

I would like to make a short experiment with the respective escape sequences of \n for newline and \r for carriage return to illustrate where the distinct difference between them is.

I know, that this question was asked as language-independent. Nonetheless, We need a language at least in order to fulfill the experiment. In my case, I`ve chosen C++, but the experiment shall generally be applicable in any programming language.

The program simply just iterates to print a sentence into the console, done by a for-loop iteration.

Newline program:

#include <iostream>

int main(void)
{
    for(int i = 0; i < 7; i++)
    {
       std::cout << i + 1  <<".Walkthrough of the for-loop \n";   // Notice `\n` at the end.
    }
    return 0;
}

Output:

1.Walkthrough of the for-loop
2.Walkthrough of the for-loop
3.Walkthrough of the for-loop
4.Walkthrough of the for-loop
5.Walkthrough of the for-loop
6.Walkthrough of the for-loop
7.Walkthrough of the for-loop

Notice, that this result will not be provided on any system, you are executing this C++ code. But it shall work for the most modern systems. Read below for more details.

Now, the same program, but with the difference, that \n is replaced by \r at the end of the print sequence.

Carriage return program:

#include <iostream>

int main(void)
{
    for(int i = 0; i < 7; i++)
    {
       std::cout << i + 1  <<".Walkthrough of the for-loop \r";   // Notice `\r` at the end.
    }
    return 0;
}

Output:

7.Walkthrough of the for-loop 

Noticed where the difference is? The difference is simply as that, when you using the Carriage return escape sequence \r at the end of each print sequence, the next iteration of this sequence do not getting into the following text line - At the end of each print sequence, the cursor did not jumped to the *beginning of the next line.

Instead, the cursor jumped back to the beginning of the line, on which he has been at the end of, before using the \r character. - The result is that each following iteration of the print sequence is replacing the previous one.

*Note: A \n do not necessarily jump to the beginning of following text line. On some, in general more elder, operation systems the result of the \n newline character can be, that it jumps to anywhere in the following line, not just to the beginning. That is why, they rquire to use \r \n to get at the start of the next text line.

This experiment showed us the difference between newline and carriage return in the context of the output of the iteration of a print sequence.

When discussing about the input in a program, some terminals/consoles may convert a carriage return into a newline implicitly for better portability, compatibility and integrity.

But if you have the choice to choose one for another or want or need to explicitly use only a specific one, you should always operate with the one, which fits to its purpose and strictly distinguish between.

Just to add to the confusion, I've been working on a simple text editor using a TextArea element in an HTML page in a browser. In anticipation of compatibility woes with respect to CR/LF, I wrote the code to check the platform, and use whichever newline convention was applicable to the platform.

However, I discovered something interesting when checking the actual characters contained in the TextArea, via a small JavaScript function that generates the hex data corresponding to the characters.

For the test, I typed in the following text:

Hello, World[enter]

Goodbye, Cruel World[enter]

When I examined the text data, the byte sequence I obtained was this:

48 65 6c 6c 6f 2c 20 57 6f 72 6c 64 0a 47 6f 6f 64 62 79 65 2c 20 43 72 75 65 6c 20 57 6f 72 6c 64 0a

Now, most people looking at this, and seeing 0a but no 0d bytes, would think that this output was obtained on a Unix/Linux platform. But, here's the rub: this sequence I obtained in Google Chrome on Windows 7 64-bit.

So, if you're using a TextArea element and examining the text, CHECK the output as I've done above, to make sure what actual character bytes are returned from your TextArea. I've yet to see if this differs on other platforms or other browsers, but it's worth bearing in mind if you're performing text processing via JavaScript, and you need to make that text processing platform independent.

The conventions covered in above posts apply to console output, but HTML elements, it appears, adhere to the UNIX/Linux convention. Unless someone discovers otherwise on a different platform/browser.

#include <stdio.h>

void main()
{
  int countch=0;
  int countwd=1;

  printf("Enter your sentence in lowercase: ");
  char ch='a';
  while(ch!='\r')
  {
    ch=getche();
    if(ch==' ')
      countwd++;
    else
      countch++;
  }

  printf("\n Words = ",countwd);

  printf("Characters = ",countch-1);

  getch();

}

lets take this example try putting \n in place of \r it will not work and try to guess why?