Sed – Quick Guide


Table of Contents

Stream Editor – Quick Guide


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Stream Editor – Overview

The acronym SED stands for Stream EDitor. It is a simple yet powerful utility that parses the text and transforms it seamlessly. SED was developed during 1973–74 by Lee E. McMahon of Bell Labs. Today, it runs on all major operating systems.

McMahon wrote a general-purpose line-oriented editor, which eventually became SED. SED borrowed syntax and many useful features from ed editor. Since its beginning, it has support for regular expressions. SED accepts inputs from files as well as pipes. Additionally, it can also accept inputs from standard input streams.

SED is written and maintained by the Free Software Foundation (FSF) and it is distributed by GNU/Linux. Hence it is often referred to as GNU SED. To a novice user, the syntax of SED may look cryptic. However, once you get familiar with its syntax, you can solve many complex tasks with a few lines of SED script. This is the beauty of SED.

Typical Uses of SED

SED can be used in many different ways, such as:

  • Text substitution,
  • Selective printing of text files,
  • In-a-place editing of text files,
  • Non-interactive editing of text files, and many more.

Stream Editor – Environment

This chapter describes how to set up the SED environment on your GNU/Linux system.

Installation Using Package Manager

Generally, SED is available by default on most GNU/Linux distributions. Use which command to identify whether it is present on your system or not. If not, then install SED on Debian based GNU/Linux using apt package manager as follows:

[jerry]$ sudo apt-get install sed 

After installation, ensure that SED is accessible via command line.

[jerry]$ sed --versio

On executing the above code, you get the following result:

sed (GNU sed) 4.2.2 
Copyright (C) 2012 Free Software Foundation, Inc. 
License GPLv3+: GNU GPL version 3 or later . 
This is free software: you are free to change and redistribute it. 
There is NO WARRANTY, to the extent permitted by law.  
Written by Jay Fenlason, Tom Lord, Ken Pizzini, 
and Paolo Bonzini. 
GNU sed home page: . 
General help using GNU software: . 
E-mail bug reports to: . 
Be sure to include the word "sed" somewhere in the "Subject:" field.

Similarly, to install SED on RPM based GNU/Linux, use yum package manager as follows:

[root]# yum -y install sed

After installation, ensure that SED is accessible via command line.

[root]# sed --version

On executing the above code, you get the following result:

GNU sed version 4.2.1 
Copyright (C) 2009 Free Software Foundation, Inc. 
This is free software; see the source for copying conditions.  There is NO 
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE, 
to the extent permitted by law.  
GNU sed home page: . 
General help using GNU software: . 
E-mail bug reports to: . 
Be sure to include the word "sed" somewhere in the "Subject:" field.

Installation from Source Code

As GNU SED is a part of the GNU project, its source code is available for free download. We have already seen how to install SED using package manager. Let us now understand how to install SED from its source code.

The following installation is applicable to any GNU/Linux software, and for most other freely-available programs as well. Here are the installation steps:

  • Download the source code from an authentic place. The command-line utility wget serves this purpose.

[jerry]$ wget ftp://ftp.gnu.org/gnu/sed/sed-4.2.2.tar.bz2
  • Decompress and extract the downloaded source code.

  • [jerry]$ tar xvf sed-4.2.2.tar.bz2 
    
  • Change into the directory and run configure.

  • [jerry]$ ./configure 
    
  • Upon successful completion, the configure generates Makefile. To compile the source code, issue a make command.

  • [jerry]$ make
    
  • You can run the test suite to ensure the build is clean. This is an optional step.

  • [jerry]$ make check 
    
  • Finally, install the SED utility. Make sure you have superuser privileges.

  • [jerry]$ sudo make install 
    

    That is it! You have successfully compiled and installed SED. Verify it by executing the sed command as follows:

    [jerry]$ sed --version
    

    On executing the above code, you get the following result:

    sed (GNU sed) 4.2.2 
    Copyright (C) 2012 Free Software Foundation, Inc. 
    License GPLv3+: GNU GPL version 3 or later . 
    This is free software: you are free to change and redistribute it. 
    There is NO WARRANTY, to the extent permitted by law.  
    Written by Jay Fenlason, Tom Lord, Ken Pizzini, 
    and Paolo Bonzini. 
    GNU sed home page: . 
    General help using GNU software: . 
    E-mail bug reports to: . 
    Be sure to include the word "sed" somewhere in the "Subject:" field.
    

    Stream Editor – Workflow

    In this chapter, we will explore how SED exactly works. To become an expert SED user, one needs to know its internals. SED follows a simple workflow: Read, Execute, and Display. The following diagram depicts the workflow.

    Stream Editor Workflow

    • Read: SED reads a line from the input stream (file, pipe, or stdin) and stores it in its internal buffer called pattern buffer.

    • Execute: All SED commands are applied sequentially on the pattern buffer. By default, SED commands are applied on all lines (globally) unless line addressing is specified.

    • Display: Send the (modified) contents to the output stream. After sending the data, the pattern buffer will be empty.

    • The above process repeats until the file is exhausted.

    Points to Note

    • Pattern buffer is a private, in-memory, volatile storage area used by the SED.

    • By default, all SED commands are applied on the pattern buffer, hence the input file remains unchanged. GNU SED provides a way to modify the input file in-a-place. We will explore about it in later sections.

    • There is another memory area called hold buffer which is also private, in- memory, volatile storage area. Data can be stored in a hold buffer for later retrieval. At the end of each cycle, SED removes the contents of the pattern buffer but the contents of the hold buffer remains persistent between SED cycles. However SED commands cannot be directly executed on hold buffer, hence SED allows data movement between the hold buffer and the pattern buffer.

    • Initially both pattern and hold buffers are empty.

    • If no input files are provided, then SED accepts input from the standard input stream (stdin).

    • If address range is not provided by default, then SED operates on each line.

    Examples

    Let us create a text file quote.txt to contain a quote of the famous author Paulo Coelho.

    [jerry]$ vi quote.txt 
    There is only one thing that makes a dream impossible to achieve: the fear of failure. 
     - Paulo Coelho, The Alchemist
    

    To understand the workflow of SED, let us display the contents of the file quote.txt using SED. This example simulates the cat command.

    [jerry]$ sed '''' quote.txt
    

    When the above code is executed, it will produce the following result.

    There is only one thing that makes a dream impossible to achieve: the fear of failure. 
    

    In the above example, quote.txt is the input file name and before that there is a pair of single quote that implies the SED command. Let us demystify this operation.

    First SED reads a line from the input file quote.txt and stores it in its pattern buffer. Then it applies SED commands on the pattern buffer. In our case, no SED commands are there, hence no operation is performed on the pattern buffer. Finally it deletes and prints the contents of the pattern buffer on the standard output. Isn”t it simple?

    In the following example, SED accepts input from the standard input stream.

    [jerry]$ sed '''' 
    

    When the above code is executed, it will produce the following result.

    There is only one thing that makes a dream impossible to achieve: the fear of failure. 
    There is only one thing that makes a dream impossible to achieve: the fear of failure.
    

    Here, the first line is entered through keyboard and the second is the output generated by SED. To exit from the SED session, press ctrl-D (^D).

    Stream Editor – Basic Syntax

    This chapter introduces the basic commands that SED supports and their command-line syntax. SED can be invoked in the following two forms:

    sed [-n] [-e] ''command(s)'' files 
    sed [-n] -f scriptfile files
    

    The first form allows to specify the commands in-line and they are enclosed within single quotes. The later allows to specify a script file that contains SED commands. However, we can use both forms together multiple times. SED provides various command-line options to control its behavior.

    Let us see how we can specify multiple SED commands. SED provides the delete command to delete certain lines. Let us delete the 1st, 2nd, and 5th lines. For the time being, ignore all the details of the delete command. We will discuss more about the delete command later.

    First, display the file contents using the cat command.

    [jerry]$ cat books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Now instruct SED to remove only certain lines. Here, to delete three lines, we have specified three separate commands with -e option.

    [jerry]$ sed -e ''1d'' -e ''2d'' -e ''5d'' books.txt 
    

    On executing the above code, you get the following result:

    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Additionally, we can write multiple SED commands in a text file and provide the text file as an argument to SED. SED can apply each command on the pattern buffer. The following example illustrates the second form of SED.

    First, create a text file containing SED commands. For easy understanding, let us use the same SED commands.

    [jerry]$ echo -e "1dn2dn5d" > commands.txt 
    [jerry]$ cat commands.txt
    

    On executing the above code, you get the following result:

    1d 
    2d 
    5d 
    

    Now instruct the SED to read commands from the text file. Here, we achieve the same result as shown in the above example.

    [jerry]$ sed -f commands.txt books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    6) A Game of Thrones,George R. R. Martin, 864 
    

    Standard Options

    SED supports the following standard options:

    • -n: Default printing of pattern buffer. For example, the following SED command does not show any output:

    [jerry]$ sed -n '''' quote.txt 
    
  • -e : Next argument is an editing command. Here, angular brackets imply mandatory parameter. By using this option, we can specify multiple commands. Let us print each line twice:

  • [jerry]$ sed -e '''' -e ''p'' quote.txt
    

    On executing the above code, you get the following result:

    There is only one thing that makes a dream impossible to achieve: the fear of failure. 
    There is only one thing that makes a dream impossible to achieve: the fear of failure. 
     - Paulo Coelho, The Alchemist 
     - Paulo Coelho, The Alchemist
    
    • -f : Next argument is a file containing editing commands. The angular brackets imply mandatory parameter. In the following example, we specify print command through file:

    [jerry]$ echo "p" > commands 
    [jerry]$ sed -n -f commands quote.txt
    

    On executing the above code, you get the following result:

    There is only one thing that makes a dream impossible to achieve: the fear of failure. 
     - Paulo Coelho, The Alchemist
    

    GNU Specific Options

    Let us quickly go through the GNU specific SED options. Note that these options are GNU specific; and may not be supported by other variants of the SED. In later sections, we will discuss these options in more details.

    • -n, –quiet, –silent: Same as standard -n option.

    • -e script, –expression=script: Same as standard -e option.

    • -f script-file, –file=script-file: Same as standard -f option.

    • –follow-symlinks: If this option is provided, the SED follows symbolic links while editing files in place.

    • -i[SUFFIX], –in-place[=SUFFIX]: This option is used to edit file in place. If suffix is provided, it takes a backup of the original file, otherwise it overwrites the original file.

    • -l N, –line-lenght=N: This option sets the line length for l command to N characters.

    • –posix: This option disables all GNU extensions.

    • -r, –regexp-extended: This option allows to use extended regular expressions rather than basic regular expressions.

    • -u, –unbuffered: When this option is provided, the SED loads minimal amount of data from the input files and flushes the output buffers more often. It is useful for editing the output of “tail -f” when you do not want to wait for the output.

    • -z, –null-data: By default, the SED separates each line by a new-line character. If NULL-data option is provided, it separates the lines by NULL characters.

    Stream Editor – Loops

    Like other programming languages, SED too provides a looping and branching facility to control the flow of execution. In this chapter, we are going to explore more about how to use loops and branches in SED.

    A loop in SED works similar to a goto statement. SED can jump to the line marked by the label and continue executing the remaining commands. In SED, we can define a label as follows:

    :label 
    :start 
    :end 
    :up
    

    In the above example, a name after colon(:) implies the label name.

    To jump to a specific label, we can use the b command followed by the label name. If the label name is omitted, then the SED jumps to the end of the SED file.

    Let us write a simple SED script to understand the loops and branches. In our books.txt file, there are several entries of book titles and their authors. The following example combines a book title and its author name in one line separated by a comma. Then it searches for the pattern “Paulo”. If the pattern matches, it prints a hyphen(-) in front of the line, otherwise it jumps to the Print label which prints the line.

    [jerry]$ sed -n '' 
    h;n;H;x 
    s/n/, / 
    /Paulo/!b Print 
    s/^/- / 
    :Print 
    p'' books.txt
    

    On executing the above code, you get the following result:

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    - The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    - The Pilgrimage, Paulo Coelho
    
    A Game of Thrones, George R. R. Martin 
    

    At first glance, the above script may look cryptic. Let us demystify this.

    • The first two commands are self-explanatory h;n;H;x and s/n/, / combine the book title and its author separated by a comma(,).

    • The third command jumps to the label Print only when the pattern does not match, otherwise substitution is performed by the fourth command.

    • :Print is just a label name and as you already know, p is the print command.

    To improve readability, each SED command is placed on a separate line. However, one can choose to place all the commands in one line as follows:

    [jerry]$ sed -n ''h;n;H;x;s/n/, /;/Paulo/!b Print; s/^/- /; :Print;p'' books.txt 
    

    On executing the above code, you get the following result:

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    - The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    - The Pilgrimage, Paulo Coelho 
    A Game of Thrones, George R. R. Martin
    

    Stream Editor – Branches

    Branches can be created using the t command. The t command jumps to the label only if the previous substitute command was successful. Let us take the same example as in the previous chapter, but instead of printing a single hyphen(-), now we print four hyphens. The following example illustrates the usage of the t command.

    [jerry]$ sed -n '' 
    h;n;H;x 
    s/n/, / 
    :Loop 
    /Paulo/s/^/-/ 
    /----/!t Loop 
    p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    ----The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    ----The Pilgrimage, Paulo Coelho 
    A Game of Thrones, George R. R. Martin
    

    In the above example, the first two commands are self-explanatory. The third command defines a label Loop. The fourth command prepends hyphen(-) if the line contains the string “Paulo” and the t command repeats the procedure until there are four hyphens at the beginning of the line.

    To improve readability, each SED command is written on a separate line. Otherwise, we can write a one-liner SED as follows:

    [jerry]$ sed -n ''h;n;H;x; s/n/, /; :Loop;/Paulo/s/^/-/; /----/!t Loop; p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    ----The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    ----The Pilgrimage, Paulo Coelho 
    A Game of Thrones, George R. R. Martin
    

    Stream Editor – Pattern Buffer

    One of the basic operations we perform on any file is display its contents. For this purpose, we can use the print command which prints the contents of the pattern buffer. So let us learn more about the pattern buffer

    First create a file containing the line number, the name of the book, its author, and the number of pages. In this tutorial, we will be using this file. You can use any text file according to your convenience. Our text file will look like this:

    [jerry]$ vi books.txt 
    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho,288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Now, let us print the file contents.

    [jerry]$ sed ''p'' books.txt
    

    When the above code is executed, it will produce the following result.

    1) A Storm of Swords, George R. R. Martin, 1216 
    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    6) A Game of Thrones, George R. R. Martin, 864
    

    You might wonder why each line is being displayed twice. Let us find out.

    Do you remember the workflow of SED? By default, SED prints the contents of the pattern buffer. In addition, we have included a print command explicitly in our command section. Hence each line is printed twice. But don”t worry. SED has the -n option to suppress the default printing of the pattern buffer. The following command illustrates that.

    [jerry]$ sed -n ''p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Congratulations! we got the expected result. By default, SED operates on all lines. But we can force SED to operate only on certain lines. For instance, in the example below, SED only operates on the 3rd line. In this example, we have specified an address range before the SED command.

    [jerry]$ sed -n ''3p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    3) The Alchemist, Paulo Coelho, 197 
    

    Additionally, we can also instruct SED to print only certain lines. For instance, the following code prints all the lines from 2 to 5. Here we have used the comma(,) operator to specify the address range.

    [jerry]$ sed -n ''2,5 p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288
    

    There is also a special character Dollar($) which represents the last line of the file. So let us print the last line of the file.

    [jerry]$ sed -n ''$ p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    6) A Game of Thrones, George R. R. Martin, 864 
    

    However we can also use Dollar($) character to specify address range. Below example prints through line 3 to last line.

    [jerry]$ sed -n ''3,$ p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    3) The Alchemist, Paulo Coelho, 197 4) The Fellowship of the Ring, J. R. R. Tolkien, 432 5) The Pilgrimage, Paulo Coelho, 288 6) A Game of Thrones, George R. R. Martin, 864 
    

    We learnt how to specify an address range using the comma(,) operator. SED supports two more operators that can be used to specify address range. First is the plus(+) operator and it can be used with the comma(,) operator. For instance M, +n will print the next n lines starting from line number M. Sounds confusing? Let us check it with a simple example. The following example prints the next 4 lines starting from line number 2.

    [jerry]$ sed -n ''2,+4 p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Optionally, we can also specify address range using the tilde(~) operator. It uses M~n form. It indicates that SED should start at line number M and process every n(th) line. For instance, 50~5 matches line number 50, 55, 60, 65, and so on. Let us print only odd lines from the file.

    [jerry]$ sed -n ''1~2 p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    1) A Storm of Swords, George R. R. Martin, 1216 
    3) The Alchemist, Paulo Coelho, 197 
    5) The Pilgrimage, Paulo Coelho, 288
    

    The following code prints only even lines from the file.

    [jerry]$ sed -n ''2~2 p'' books.txt 
    

    When the above code is executed, it will produce the following result.

    2) The Two Towers, J. R. R. Tolkien, 352 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Stream Editor – Pattern Range

    In the previous chapter, we learnt how SED handles an address range. This chapter covers how SED takes care of a pattern range. A pattern range can be a simple text or a complex regular expression. Let us take an example. The following example prints all the books of the author Paulo Coelho.

    [jerry]$ sed -n ''/Paulo/ p'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, Paulo Coelho, 197 
    5) The Pilgrimage, Paulo Coelho, 288
    

    In the above example, the SED operates on each line and prints only those lines that match the string Paulo.

    We can also combine a pattern range with an address range. The following example prints lines starting with the first match of Alchemist until the fifth line.

    [jerry]$ sed -n ''/Alchemist/, 5 p'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288
    

    We can use the Dollar($) character to print all the lines after finding the first occurrence of the pattern. The following example finds the first occurrence of the pattern The and immediately prints the remaining lines from the file

    [jerry]$ sed -n ''/The/,$ p'' books.txt
    

    On executing the above code, you get the following result:

    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    We can also specify more than one pattern ranges using the comma(,) operator. The following example prints all the lines that exist between the patterns Two and Pilgrimage.

    [jerry]$ sed -n ''/Two/, /Pilgrimage/ p'' books.txt 
    

    On executing the above code, you get the following result:

    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288
    

    Additionally, we can use the plus(+) operator within a pattern range. The following example finds the first occurrence of the pattern Two and prints the next 4 lines after that.

    [jerry]$ sed -n ''/Two/, +4 p'' books.txt
    

    On executing the above code, you get the following result:

    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    We have supplied here only a few examples to get you acquainted with SED. You can always get to know more by trying a few examples on your own.

    Stream Editor – Basic Commands

    This chapter describes several useful SED commands.

    Delete Command

    SED provides various commands to manipulate text. Let us first explore about the delete command. Here is how you execute a delete command:

    [address1[,address2]]d 
    

    address1 and address2 are the starting and the ending addresses respectively, which can be either line numbers or pattern strings. Both of these addresses are optional parameters.

    As the name suggests, the delete command is used to perform delete operation and since the SED operates on line, we can say that this command is used to delete lines. Note that the delete command removes lines only from the pattern buffer; the line is not sent to the output stream and the original file remains unchanged. The following example illustrates the point.

    [jerry]$ sed ''d'' books.txt 
    

    But where is the output? If no line address is provided, then the SED operates on every line by default. Hence, it deletes all the lines from the pattern buffer. That is why the command does not print anything on the standard output.

    Let us instruct the SED to operate only on certain lines. The following example removes the 4th line only.

    [jerry]$ sed ''4d'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Additionally, SED also accepts address range using comma(,). We can instruct the SED to remove N1 to N2 lines. For instance, the following example deletes all the lines from 2 through 4.

    [jerry]$ sed ''2, 4 d'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    SED”s address range is not only limited to numbers. We can also specify patterns as an address. The following example removes all the books of the author Paulo Coelho.

    [jerry]$ sed ''/Paulo Coelho/d'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    We can also specify an address range using textual pattern. The following example removes all lines between the patterns Storm and Fellowship.

    [jerry]$ sed ''/Storm/,/Fellowship/d'' books.txt  
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    In addition to this, we can also use dollar($), plus(+), and tilde(~) operators with SED.

    Write Command

    One of the important operations we perform on any file is backup, i.e., we make another copy of the file. SED provides the write command to store the contents of the pattern buffer in a file. Given below is the syntax of the write command which is similar to the delete command.

    [address1[,address2]]w file 
    

    Here, address1 and address2 are the starting and the ending address respectively, which can be either line numbers or pattern strings. Both of these addresses are optional parameters.

    In the above syntax, w refers to the write command and file is the file name in which you store contents. Be careful with the file parameter. When a file name is provided, the SED creates a file on the fly if it is not present, and overwrites it if it is already present.

    Let us make an exact copy of the file using SED. Note that there must be exactly one space between w and file.

    [jerry]$ sed -n ''w books.bak'' books.txt 
    

    We created another file called books.bak. Now verify that both the files have identical content.

    [jerry]$ diff books.txt books.bak  
    [jerry]$ echo $?
    

    On executing the above code, you get the following result:

    0
    

    You may assume that the cp command does exactly the same thing. Yes! The cp command does the same thing, but SED is a matured utility. It allows creating a file containing only certain lines from the source file. Let us store only even lines to another file.

    [jerry]$ sed -n ''2~2 w junk.txt'' books.txt  
    [jerry]$ cat junk.txt 
    

    On executing the above code, you get the following result:

    2) The Two Towers, J. R. R. Tolkien, 352 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    You can also use comma(,), dollar($), and plus(+) operators with the write command.

    In addition to this, SED also supports pattern matching with the write command. Suppose you want to store all the books of individual authors into a separate file. One boring and lengthy way is do it manually, and the smarter way is to use SED.

    [jerry]$ sed -n -e ''/Martin/ w Martin.txt'' -e ''/Paulo/ w Paulo.txt'' -e ''/Tolkien/ w 
    Tolkien.txt'' books.txt 
    

    In the above example, we are matching each line against a pattern and storing the matched line in a particular file. It is very simple. To specify multiple commands, we used -e switch of the SED command. Now let use see what each file contains:

    [jerry]$ cat Martin.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Let us display the file contents.

    [jerry]$ cat Paulo.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, Paulo Coelho, 197 
    5) The Pilgrimage, Paulo Coelho, 288 
    

    Let us display the file contents.

    [jerry]$ cat Tolkien.txt
    

    On executing the above code, you get the following result:

    2) The Two Towers, J. R. R. Tolkien, 352 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    

    Excellent! We got the expected result. SED is really an amazing utility.

    Append Command

    One of the most useful operations of any text editor is to provide append functionality. SED supports this operation through its append command. Given below is the syntax of append:

    [address]a 
    Append text 
    

    Let us append a new book entry after line number 4. The following example shows how to do it

    [jerry]$ sed ''4 a 7) Adultry, Paulo Coelho, 234'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    7) Adultry, Paulo Coelho, 234 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    In the command section, 4 implies the line number, a is the append command, and the remaining part is the text to be appended.

    Let us insert a text line at the end of the file. To do this, use $ as the address. The following example illustrates this:

    [jerry]$ sed ''$ a 7) Adultry, Paulo Coelho, 234'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    7) Adultry, Paulo Coelho, 234 
    

    Apart from line number, we can also specify an address using textual pattern. For instance, the following example appends text after matching the string The Alchemist.

    [jerry]$ sed ''/The Alchemist/ a 7) Adultry, Paulo Coelho, 234'' books.txt  
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    7) Adultry, Paulo Coelho, 234 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Note that if there are multiple patterns matching, then the text is appended after each match. The following example illustrates this scenario.

    [jerry]$ sed ''/The/ a 7) Adultry, Paulo Coelho, 234'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    7) Adultry, Paulo Coelho, 234 
    3) The Alchemist, Paulo Coelho, 197 
    7) Adultry, Paulo Coelho, 234 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    7) Adultry, Paulo Coelho, 234 
    5) The Pilgrimage, Paulo Coelho, 288 
    7) Adultry, Paulo Coelho, 234 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Change Command

    SED provides change or replace command which is represented by c. This command helps replace an existing line with new text. When line range is provided, all the lines are replaced as a group by a single text line. Given below is the syntax of the change command:

    [address1[,address2]]c 
    Replace text
    

    Let us replace the third line with some other text.

    [jerry]$ sed ''3 c 3) Adultry, Paulo Coelho, 324'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) Adultry, Paulo Coelho, 324 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    SED also accepts patterns as an address. In the following example, a line is replaced when the pattern match succeeds.

    [jerry]$ sed ''/The Alchemist/ c 3) Adultry, Paulo Coelho, 324'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) Adultry, Paulo Coelho, 324 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    SED also allows replacement of multiple lines with a single line. The following example removes lines from fourth through sixth and replaces them with new text.

    [jerry]$ sed ''4, 6 c 4) Adultry, Paulo Coelho, 324'' books.txt  
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) Adultry, Paulo Coelho, 324
    

    Insert Command

    The insert command works much in the same way as append does. The only difference is that it inserts a line before a specific position. Given below is the syntax of the insert command:

    [address]i 
    Insert text 
    

    Let us understand the insert command with some examples. The following command inserts a new entry before the fourth line.

    [jerry]$ sed ''4 i 7) Adultry, Paulo Coelho, 324'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    7) Adultry, Paulo Coelho, 324 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    In the above example, 4 is the location number, i implies the insert command, and the remaining part is the text to be inserted.

    To insert text at the start of a file, provide the line address as 1. The following command illustrates this:

    [jerry]$ sed ''1 i 7) Adultry, Paulo Coelho, 324'' books.txt
    

    On executing the above code, you get the following result:

    7) Adultry, Paulo Coelho, 324 
    
    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Additionally, we can insert multiple lines. The following command inserts two lines before the last line.

    [jerry]$ sed ''$ i 7) Adultry, Paulo Coelho, 324
    

    On executing the above code, you get the following result:

    8) Eleven Minutes, Paulo Coelho, 304'' books.txt 
    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage,Paulo Coelho, 288 
    7) Adultry, Paulo Coelho, 324 
    8) Eleven Minutes, Paulo Coelho, 304 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Note that the entries to be inserted are entered on separate lines and delimited by the backslash() character.

    Translate Command

    SED provides a command to translate characters and it is represented as y. It transforms the characters by position. Given below is the syntax of the translate command:

    [address1[,address2]]y/list-1/list-2/
    

    Note that translation is based on the position of the character from list 1 to the character in the same position in list 2 and both lists must be explicit character lists. Regular expressions and character classes are unsupported. Additionally, the size of list 1 and list 2 must be same.

    The following example converts Arabic numbers to Roman numbers.

    [jerry]$ echo "1 5 15 20" | sed ''y/151520/IVXVXX/'' 
    

    On executing the above code, you get the following result:

    I V IV XX 
    

    l command

    Can you differentiate between words separated by spaces and words separated by tab characters only by looking at them? Certainly not. But SED can do this for you. SED uses the l command to display hidden characters in the text. For example, tab character with t and End-Of-Line with $ character. Given below is the syntax of the l command.

    [address1[,address2]]l 
    [address1[,address2]]l [len] 
    

    Let us create a file with tab characters for demonstration. For simplicity, we are going to use the same file, just by replacing spaces with tabs. Wait! But how to do that — by opening the file in a text editor and replacing each space with tab? Certainly not! We can make use of SED commands for that.

    [jerry]$ sed ''s/ /t/g'' books.txt > junk.txt 
    

    Now let us display the hidden characters by using the l command:

    [jerry]$ sed -n ''l'' junk.txt
    

    On executing the above code, you get the following result:

    1)tAtStormtoftSwords,GeorgetR.tR.tMartin,1216$ 
    2)tThetTwotTowers,J.tR.tR.tTolkien,352$ 
    3)tThetAlchemist,PaulotCoelho,197$ 
    4)tThetFellowshiptoftthetRing,J.tR.tR.tTolkien,432$ 
    5)tThetPilgrimage,PaulotCoelho,288$ 
    6)tAtGametoftThrones,GeorgetR.tR.tMartint,864$
    

    Like other SED commands, it also accepts line numbers and patterns as an address. You can try it yourselves.

    Let us take a close look at another interesting feature of SED. We can instruct the SED to perform line wrapping after a certain number of characters. The following example wraps lines after 25 characters.

    [jerry]$ sed -n ''l 25'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords,Geo 
    rge R. R. Martin,1216$ 
    2) The Two Towers,J. R.  
    R. Tolkien,352$ 
    3) The Alchemist,Paulo C 
    oelho,197$ 
    4) The Fellowship of the 
     Ring,J. R. R. Tolkien,4 
    32$ 
    5) The Pilgrimage,Paulo  
    Coelho,288$ 
    6) A Game of Thrones,Geo 
    rge R. R. Martin ,864$
    

    Note that in the above example, wrap limit is provided after l command. In this case, it is 25 characters. This option is GNU specific and may not work with other variants of the SED.

    A wrap limit of 0 means never break the line unless there is a new line character. The following simple command illustrates this.

    [jerry]$ sed -n ''l 0'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords,George R. R. Martin,1216$ 
    2) The Two Towers,J. R. R. Tolkien,352$ 
    3) The Alchemist,Paulo Coelho,197$ 
    4) The Fellowship of the Ring,J. R. R. Tolkien,432$ 
    5) The Pilgrimage,Paulo Coelho,288$ 
    6) A Game of Thrones,George R. R. Martin,864$ 
    

    Quit Command

    Quit command instructs the SED to quit the current execution flow. It is represented by the q command. Given below is the syntax of the quit command:

    [address]q 
    [address]q [value]
    

    Note that the quit command does not accept range of addresses, it only supports a single address. By default, SED follows read, execute, and repeat workflow; but when the quit command is encountered, it simply stops the current execution.

    Let us print the first 3 lines from the file.

    [jerry]$ sed ''3 q'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197
    

    In addition to line number, we can also use textual patterns. The following command quits when pattern match succeeds.

    [jerry]$ sed ''/The Alchemist/ q'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197
    

    In addition to this, SED can also accept a value which can be used as the exit status. The following command shows its exit status as 100.

    [jerry]$ sed ''/The Alchemist/ q 100'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197
    

    Now let us verify the exit status.

    [jerry]$ echo $? 
    

    On executing the above code, you get the following result:

    100
    

    Read Command

    We can instruct the SED to read the contents of a file and display them when a specific condition matches. The command is represented by the alphabet r. Given below is the syntax of the read command.

    [address]r file
    

    Note that there must be exactly one space between the r command and the file name.

    Let us understand it with a simple example. Create a sample file called junk.txt.

    [jerry]$ echo "This is junk text." > junk.txt 
    

    The following command instructs the SED to read the contents of junk.txt and insert them after the third line.

    [jerry]$ sed ''3 r junk.txt'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    This is junk text. 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    In the above example, 3 implies the line address, r is the command name, and junk.txt is the file name the contents of which are to be displayed. Additionally, the GNU SED also accepts a range of addresses. For instance, the following command inserts the contents of junk.txt after the third, fourth, and fifth lines.

    [jerry]$ sed ''3, 5 r junk.txt'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    This is junk text. 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    This is junk text. 
    5) The Pilgrimage, Paulo Coelho, 288 
    This is junk text. 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Like other SED commands, the read command also accepts pattern as an address. For instance, the following command inserts the contents of junk.txt when the pattern match succeeds.

    [jerry]$ sed ''/Paulo/ r junk.txt'' books.txt  
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    This is junk text. 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    This is junk text. 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    Execute Command

    We can execute external commands from SED using the execute command. It is represented by e. Given below is the syntax of the execute command.

    [address1[,address2]]e [command]
    

    Let us illustrate the execute command with a simple example. The following SED command executes the UNIX date command before the third line.

    [jerry]$ sed ''3 e date'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    Sun Sep  7 18:04:49 IST 2014 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Like other commands, it also accepts patterns as an address. For example, the following example executes date command when a pattern match succeeds. Note that after each pattern match, first the command is executed and then the contents of the pattern buffer are displayed.

    [jerry]$ sed ''/Paulo/ e date'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    Sun Sep  7 18:06:04 IST 2014 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    Sun Sep  7 18:06:04 IST 2014 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    If you observe the syntax of the e command carefully, you will notice that command is optional. When no command is provided after e, it treats the contents of the pattern buffer as an external command. To illustrate this, let us create a commands.txt file with a few simple commands.

    [jerry]$ echo -e "datencalnuname" > commands.txt 
    [jerry]$ cat commands.txt
    

    On executing the above code, you get the following result:

    date 
    cal 
    uname
    

    Commands from the file are self-explanatory. In the absence of command after e, SED executes all these commands one by one. The following simple example illustrates this.

    [jerry]$ sed ''e'' commands.txt 
    

    On executing the above code, you get the following result:

    Sun Sep  7 18:14:20 IST 2014 
       September 2014      
    Su Mo Tu We Th Fr Sa   
        1  2  3  4  5  6   
     7  8  9 10 11 12 13   
    14 15 16 17 18 19 20   
    21 22 23 24 25 26 27   
    28 29 30               
                           
    Linux 
    

    Like other SED commands, the execute command also accepts all valid ranges of addresses.

    Miscellaneous Commands

    By default, SED operates on single line, however it can operate on multiple lines as well. Multi-line commands are denoted by uppercase letters. For example, unlike the n command, the N command does not clear and print the pattern space. Instead, it adds a newline (n) at the end of the current pattern space and appends the next line from the input-file to the current pattern space and continues with the SED”s standard flow by executing the rest of the SED commands. Given below is the syntax of the N command.

    [address1[,address2]]N
    

    Let us print a comma-separated list of book titles and their respective authors. The following example illustrates this.

    [jerry]$ sed ''N; s/n/, /g'' books.txt 
    

    On executing the above code, you get the following result:

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    The Pilgrimage, Paulo Coelho 
    A Game of Thrones, George R. R. Martin
    

    Let us understand how the above example works. The N command reads the first line, i.e.,A Storm of Swords into the pattern buffer and appends n followed by the next line. The pattern space now contains A Storm of SwordsnGeorge R. R. Martin. In the next step, we are replacing the newline with a comma.

    Like p command, we have a P command to print the first part (up to embedded newline) of the multi-line pattern space created by the N command. Given below is the syntax of the P command which is similar to the p command.

    [address1[,address2]]P 
    

    In the previous example, we saw that the N command creates a newline- separated list of book titles and their authors. Let us print only the first part of it, i.e., only the titles of the book. The following command illustrates this.

    [jerry]$ sed -n ''N;P'' books.txt
    

    On executing the above code, you get the following result:

    A Storm of Swords 
    The Two Towers 
    The Alchemist 
    The Fellowship of the Ring 
    The Pilgrimage 
    A Game of Thrones
    

    Note that in the absence of N, it behaves same as the p command. The following simple command illustrates this scenario.

    [jerry]$ sed -n ''P'' books.txt
    

    On executing the above code, you get the following result:

    A Storm of Swords 
    George R. R. Martin 
    The Two Towers 
    J. R. R. Tolkien 
    The Alchemist 
    Paulo Coelho 
    The Fellowship of the Ring 
    J. R. R. Tolkien 
    The Pilgrimage 
    Paulo Coelho 
    A Game of Thrones 
    George R. R. Martin
    

    In addition to this, SED also provides a v command which checks for version. If the provided version is greater than the installed SED version, then the command execution fails. Note that this option is GNU specific and may not work with other variants of SED. Given below is the syntax of the v command.

    [address1[,address2]]v [version]
    

    First, find out the current version of SED.

    [jerry]$ sed --version 
    

    On executing the above code, you get the following result:

    sed (GNU sed) 4.2.2 
    

    In the following example, the SED version is greater than version 4.2.2, hence the SED command aborts its execution.

    [jerry]$ sed ''v 4.2.3'' books.txt 
    

    On executing the above code, you get the following result:

    sed: -e expression #1, char 7: expected newer version of sed
    

    But if the provided version is lesser than or equal to version 4.2.2, then the command works as expected.

    [jerry]$ sed ''v 4.2.2'' books.txt
    

    On executing the above code, you get the following result:

    A Storm of Swords 
    George R. R. Martin 
    The Two Towers 
    J. R. R. Tolkien 
    The Alchemist 
    Paulo Coelho 
    The Fellowship of the Ring 
    J. R. R. Tolkien 
    The Pilgrimage 
    Paulo Coelho 
    A Game of Thrones George R. R. Martin
    

    Stream Editor – Special Characters

    SED provides two special characters which are treated as commands. This chapter illustrates the usage of these two special characters.

    = Command

    The “=” command deals with line numbers. Given below is the syntax of the “=” command:

    [/pattern/]= 
    [address1[,address2]]=
    

    The = command writes the line number followed by its contents on the standard output stream. The following example illustrates this.

    [jerry]$ sed ''='' books.txt 
    

    On executing the above code, you get the following result:

    1 
    1) A Storm of Swords, George R. R. Martin, 1216 
    2 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3 
    3) The Alchemist, Paulo Coelho, 197 
    4 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5 
    5) The Pilgrimage, Paulo Coelho, 288 
    6 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Let us print the line numbers and the contents of the first four lines. The following command prints the first four lines with line numbers and the remaining without line numbers.

    [jerry]$ sed ''1, 4='' books.txt 
    

    On executing the above code, you get the following result:

    1 
    1) A Storm of Swords, George R. R. Martin, 1216 
    2 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3 
    3) The Alchemist, Paulo Coelho, 197 
    4 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Additionally, we can instruct the SED to print line numbers when a pattern match succeeds. The following example prints the line number that contains the pattern “Paulo”.

    [jerry]$ sed ''/Paulo/ ='' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    Can you guess what the following SED command does?

    [jerry]$ sed -n ''$ ='' books.txt
    

    On executing the above code, you get the following result:

    6 
    

    Yes, you are right. It counts the total number of lines present in the file. Let us demystify the code. In the command section, we used “$ =” which prints the line number of the last line followed by its contents. But we also provided the -n flag which suppresses the default printing of the pattern buffer. Hence, only the last line number is displayed.

    & Command

    SED supports the special character &. Whenever a pattern match succeeds, this special character stores the matched pattern. It is often used with the substitution command. Let us see how we can leverage this efficient feature.

    Each line in the book.txt file is numbered. Let us add the words Book number at the beginning of each line. The following example illustrates this.

    [jerry]$ sed ''s/[[:digit:]]/Book number &/'' books.txt
    

    On executing the above code, you get the following result:

    Book number 1) A Storm of Swords, George R. R. Martin, 1216 
    Book number 2) The Two Towers, J. R. R. Tolkien, 352 
    Book number 3) The Alchemist, Paulo Coelho, 197 
    Book number 4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    Book number 5) The Pilgrimage, Paulo Coelho, 288 
    Book number 6) A Game of Thrones, George R. R. Martin, 864 
    

    This example is very simple. First, we search for the first occurrence of a digit, which is the line number (that is why we used [[:digit:]]) and the SED automatically stores the matched pattern in the special character &. In the second step, we insert the words Book number before each matched pattern, i.e., before every line.

    Let us take another example. In the book.txt file, the last digit implies the number of pages of the book. Let us add “Pages =” before that. To do this, find the last occurrence of the digit and replace it with “Pages = &”. Here, & stores the matched pattern, i.e., the number of pages

    [jerry]$ sed ''s/[[:digit:]]*$/Pages = &/'' books.txt 
    

    On executing the above syntax, you get the following result:

    1) A Storm of Swords, George R. R. Martin, Pages = 1216 
    2) The Two Towers, J. R. R. Tolkien, Pages = 352 
    3) The Alchemist, Paulo Coelho, Pages = 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, Pages = 432 
    5) The Pilgrimage, Paulo Coelho,Pages = 288 
    6) A Game of Thrones, George R. R. Martin, Pages = 864 
    

    For the time being, just remember that [[:digit:]]*$ finds the last occurrence of the digit. In the chapter “Regular Expressions, we will explore more about regular expressions.

    Stream Editor – Strings

    Substitute Command

    Text substitution operations like “find and replace” are common in any text editor. In this section, we illustrate how SED performs text substitution. Given below is the syntax of the substitution command.

    [address1[,address2]]s/pattern/replacement/[flags]
    

    Here, address1 and address2 are the starting and ending addresses respectively, which can be either line numbers or pattern strings. Both these addresses are optional parameters. The pattern is the text which we want to replace with the replacement string. Additionally, we can specify optional flags with the SED.

    In the books.txt file, we have used comma(,) to separate each column. Let us use vertical bar(|) to separate each column. To do this, replace comma(,) with vertical bar(|).

    [jerry]$ sed ''s/,/ | /'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords | George R. R. Martin, 1216 
    2) The Two Towers | J. R. R. Tolkien, 352 
    3) The Alchemist | Paulo Coelho, 197 
    4) The Fellowship of the Ring | J. R. R. Tolkien, 432 
    5) The Pilgrimage | Paulo Coelho, 288 
    6) A Game of Thrones | George R. R. Martin, 864 
    

    If you observe carefully, only the first comma is replaced and the second remains as it is. Why? As soon as the pattern matches, SED replaces it with the replacement string and moves to the next line. By default, it replaces only the first occurrence. To replace all occurrences, use the global flag (g) with SED as follows:

    [jerry]$ sed ''s/,/ | /g'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords | George R. R. Martin | 1216 
    2) The Two Towers | J. R. R. Tolkien | 352 
    3) The Alchemist | Paulo Coelho | 197 
    4) The Fellowship of the Ring | J. R. R. Tolkien | 432 
    5) The Pilgrimage | Paulo Coelho | 288 
    6) A Game of Thrones | George R. R. Martin | 864
    

    Now all occurrences of commas(,) are replaced with vertical bar(|).

    We can instruct the SED to perform text substitution only when a pattern match succeeds. The following example replaces comma(,) with vertical bar(|) only when a line contains the pattern The Pilgrimage.

    [jerry]$ sed ''/The Pilgrimage/ s/,/ | /g'' books.txt 
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage | Paulo Coelho | 288 
    6) A Game of Thrones, George R. R. Martin, 864
    

    In addition to this, SED can replace a specific occurrence of the pattern. Let us replace only the second instance of comma(,) with vertical bar(|).

    [jerry]$ sed ''s/,/ | /2'' books.txt
    

    On executing the above code, you get the following result:

    1) A Storm of Swords, George R. R. Martin | 1216 
    2) The Two Towers, J. R. R. Tolkien | 352 
    3) The Alchemist, Paulo Coelho | 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien | 432 
    5) The Pilgrimage,Paulo Coelho | 288 
    6) A Game of Thrones, George R. R. Martin  | 864
    

    In the above example, the number at the end of the SED command (or at the place of flag) implies the 2nd occurrence.

    SED provides an interesting feature. After performing substitution, SED provides an option to show only the changed lines. For this purpose, SED uses the p flag which refers to print. The following example lists only changed lines.

    [jerry]$ sed -n ''s/Paulo Coelho/PAULO COELHO/p'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, PAULO COELHO, 197 
    5) The Pilgrimage, PAULO COELHO, 288 
    

    We can store changed lines in another file as well. To achieve this result, use the w flag. The following example shows how to do it.

    [jerry]$ sed -n ''s/Paulo Coelho/PAULO COELHO/w junk.txt'' books.txt
    

    We used the same SED command. Let us verify the contents of the junk.txt file.

    [jerry]$ cat junk.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, PAULO COELHO, 197 
    5) The Pilgrimage, PAULO COELHO, 288
    

    To perform case-insensitive substitution, use the i flag which implies ignore case. The following example performs case-insensitive substitution.

    [jerry]$ sed  -n ''s/pAuLo CoElHo/PAULO COELHO/pi'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, PAULO COELHO, 197 
    5) The Pilgrimage, PAULO COELHO, 288
    

    So far, we have used only the foreslash(/) character as a delimiter, but we can also use vertical bar(|), at sign(@), caret(^), exclamation mark(!) as a delimiter. The following example shows how to use other characters as a delimiter.

    Let us assume you need to replace the path /bin/sed with /home/jerry/src/sed/sed-4.2.2/sed. Hence, your SED command looks like this:

    [jerry]$ echo "/bin/sed" | sed ''s//bin/sed//home/jerry/src/sed/sed-4.2.2/sed/''
    

    On executing the above code, you get the following result:

    /home/jerry/src/sed/sed-4.2.2/sed
    

    We can make this command more readable and easy to understand. Let us use vertical bar(|) as delimiter and see the result.

    [jerry]$ echo "/bin/sed" | sed ''s|/bin/sed|/home/jerry/src/sed/sed-4.2.2/sed|''
    

    On executing the above code, you get the following result:

    /home/jerry/src/sed/sed-4.2.2/sed
    

    Indeed! We got the same result and the syntax is more readable. Similarly, we can use the “at” sign (@) as a delimiter as follows:

    [jerry]$ echo "/bin/sed" | sed ''s@/bin/sed@/home/jerry/src/sed/sed-4.2.2/sed@''
    

    On executing the above code, you get the following result:

    /home/jerry/src/sed/sed-4.2.2/sed 
    

    In addition to this, we can use caret(^) as a delimiter.

    [jerry]$ echo "/bin/sed" | sed ''s^/bin/sed^/home/jerry/src/sed/sed-4.2.2/sed^''
    

    On executing the above code, you get the following result:

    /home/jerry/src/sed/sed-4.2.2/sed 
    

    We can also use exclamation mark (!) as a delimiter as follows:

    [jerry]$ echo "/bin/sed" | sed ''s!/bin/sed!/home/jerry/src/sed/sed-4.2.2/sed!''
    

    On executing the above code, you get the following result:

    /home/jerry/src/sed/sed-4.2.2/sed 
    

    Generally, backslash(/) is used as a delimiter but sometimes it is more convenient to use other supported delimiters with SED.

    Creating a Substring

    We learnt the powerful substitute command. Let us see if we can find a substring from a matched text. Let us understand how to do it with the help of an example.

    Let us consider the following text:

    [jerry]$ echo "Three One Two"
    

    Suppose we have to arrange it into a sequence. Means, it should print One first, then Two, and finally Three. The following one-liner does the needful.

    echo "Three One Two" | sed ''s|(w+) (w+) (w+)|2 3 1|''
    

    Note that in the above example, vertical bar (|) is used as a delimiter.

    In SED, substrings can be specified by using a grouping operator and it must be prefixed with an escape character, i.e., ( and ).

    w is a regular expression that matches any letter, digit, or underscore and “+” is used to match more than one characters. In other words, the regular expression (w+) matches the single word from the input string.

    In the input string, there are three words separated by space, hence there are three regular expressions separated by space. The first regular expression stores the first word, i.e.,Three, the second stores the word One, and the third stores the word Two

    These substrings are referred by N, where N is the substring number. Hence, 2 prints the second substring, i.e., One; 3 prints the third substring, i.e., Two; and 1 prints the first substring, i.e., Three

    Let us separate these words by commas(,) and modify the regular expression accordingly.

    [jerry]$ echo "Three,One,Two" | sed ''s|(w+),(w+),(w+)|2,3,1|''
    

    On executing the above code, you get the following result:

    One,Two,Three
    

    Note that now there is comma(,) instead of space in the regular expression.

    String Replacement Flags (GNU SED only)

    In the previous section, we saw some examples of the substitution command. The GNU SED provides some special escape sequences which can be used in the replacement string. Note that these string replacement flags are GNU specific and may not work with other variants of SED. Here we will discuss string replacement flags.

    • L: When L is specified in the replacement string, it treats all the remaining characters of the the word after L as lowercase characters. For example, the characters “ULO” are treated as lowercase characters.

    [jerry]$ sed -n ''s/Paulo/PALULO/p'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, PAulo Coelho, 197
    5) The Pilgrimage, PAulo Coelho, 288
    
    • u: When u is specified in the replacement string, it treats the immediate character after u as an uppercase character. In the following example, u is used before the characters ”a” and ”o”. Hence SED treats these characters as uppercase letters.

    [jerry]$ sed -n ''s/Paulo/puauluo/p'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, pAulO Coelho, 197 
    5) The Pilgrimage, pAulO Coelho, 288
    
    • U: When U is specified in the replacement string, it treats all the remaining characters of the the word after U as uppercase characters.

    [jerry]$ sed -n ''s/Paulo/Upaulo/p'' books.txt 
    

    On executing the above code, you get the following result:

    3) The Alchemist, PAULO Coelho, 197 
    5) The Pilgrimage, PAULO Coelho, 288
    
    • E: This flag should be used with L or U. It stops the conversion initiated by the flag L or U. In the following example, only the first word is replaced with uppercase letters.

    [jerry]$ sed -n ''s/Paulo Coelho/Upaulo Ecoelho/p'' books.txt
    

    On executing the above code, you get the following result:

    3) The Alchemist, PAULO coelho, 197 
    5) The Pilgrimage, PAULO coelho, 288
    

    Stream Editor – Managing Patterns

    We have already discussed the use of pattern and hold buffer. In this chapter, we are going to explore more about their usage. Let us discuss the n command which prints the pattern space. It will be used in conjunction with other commands. Given below is the syntax of then command.

    [address1[,address2]]n
    

    Let us take an example.

    [jerry]$ sed ''n'' books.txt 
    

    When the above code is executed, it will produce the following result:

    1) A Storm of Swords, George R. R. Martin, 1216 
    2) The Two Towers, J. R. R. Tolkien, 352 
    3) The Alchemist, Paulo Coelho, 197 
    4) The Fellowship of the Ring, J. R. R. Tolkien, 432 
    5) The Pilgrimage, Paulo Coelho, 288 
    6) A Game of Thrones, George R. R. Martin, 864 
    

    The n command prints the contents of the pattern buffer, clears the pattern buffer, fetches the next line into the pattern buffer, and applies commands on it.

    Let us consider there are three SED commands before n and two SED commands after n as follows:

    Sed command #1 
    Sed command #2 
    Sed command #3 
    n command 
    Sed command #4 
    Sed command #5
    

    In this case, SED applies the first three commands on the pattern buffer, clears the pattern buffer, fetches the next line into the pattern buffer, and thereafter applies the fourth and fifth commands on it. This is a very important concept. Do not go ahead without having a clear understanding of this.

    The hold buffer holds data, but SED commands cannot be applied directly on the hold buffer. Hence, we need to bring the hold buffer data into the pattern buffer. SED provides the x command to exchange the contents of pattern and hold buffers. The following commands illustrate the x command.

    Let us slightly modify the books.txt file. Say, the file contains book titles followed by their author names. After modification, the file should look like this:

    [jerry]$ cat books.txt
    

    On executing the above code, you get the following result:

    A Storm of Swords 
    George R. R. Martin 
    The Two Towers 
    J. R. R. Tolkien 
    The Alchemist 
    Paulo Coelho 
    The Fellowship of the Ring 
    J. R. R. Tolkien 
    The Pilgrimage 
    Paulo Coelho 
    A Game of Thrones 
    George R. R. Martin 
    

    Let us exchange the contents of the two buffers. For instance, the following example prints only the names of authors.

    [jerry]$ sed -n ''x;n;p'' books.txt 
    

    On executing the above code, you get the following result:

    George R. R. Martin 
    J. R. R. Tolkien 
    Paulo Coelho 
    J. R. R. Tolkien 
    Paulo Coelho 
    George R. R. Martin 
    

    Let us understand how this command works.

    • Initially, SED reads the first line, i.e., A Storm of Swords into the pattern buffer.

    • x command moves this line to the hold buffer.

    • n fetches the next line, i.e., George R. R. Martin into the pattern buffer.

    • The control passes to the command followed by n which prints the contents of the pattern buffer.

    • The process repeats until the file is exhausted.

    Now let us exchange the contents of the buffers before printing. Guess, what happens? Yes, it prints the titles of books.

    [jerry]$ sed -n ''x;n;x;p'' books.txt 
    

    On executing the above code, you get the following result:

    A Storm of Swords 
    The Two Towers 
    The Alchemist 
    The Fellowship of the Ring 
    The Pilgrimage 
    A Game of Thrones
    

    The h command deals with the hold buffer. It copies data from the pattern buffer to the hold buffer. Existing data from the hold buffer gets overwritten. Note that the h command does not move data, it only copies data. Hence, the copied data remains as it is in the pattern buffer. Given below is the syntax of the h command.

    [address1[,address2]]h 
    

    The following command prints only the titles of the author Paulo Coelho.

    [jerry]$ sed -n ''/Paulo/!h; /Paulo/{x;p}'' books.txt 
    

    On executing the above code, you get the following result:

    The Alchemist 
    The Pilgrimage
    

    Let us understand how the above command works. The contents of books.txt follow a specific format. The first line is the book title followed by the author of the book. In the above command, “!” is used to reverse the condition, i.e., line is copied to the hold buffer only when a pattern match does not succeed. And curly braces {} are used to group multiple SED commands

    In the first pass of the command, SED reads the first line, i.e., A Storm of Swords into the pattern buffer and checks whether it contains the pattern Paulo or not. As the pattern match does not succeed, it copies this line to the hold buffer. Now both the pattern buffer and the hold buffer contain the same line i.e., A Storm of Swords. In the second step, it checks whether the line contains the pattern Paulo or not. As the pattern does not match, it does not do anything.

    In second pass, it reads the next line George R. R. Martin into the pattern buffer and applies the same steps. For the next three lines, it does the same thing. At the end of the fifth pass, both the buffers contain The Alchemist. At the start of the sixth pass, it reads the line Paulo Coelho and as the pattern matches, it does not copy this line into the hold buffer. Hence, the pattern buffer contains Paulo Coelho, and the hold buffer contains The Alchemist.

    Thereafter, it checks whether the pattern buffer contains the pattern Paulo. As the pattern match succeeds, it exchanges the contents of the pattern buffer with the hold buffer. Now the pattern buffer contains The Alchemist and the hold buffer contains Paulo Coelho. Finally, it prints the contents of the pattern buffer. The same steps are applied to the pattern The Pilgrimage.

    The h command destroys the previous contents of the hold buffer. This is not always acceptable, as sometimes we need to preserve the contents. For this purpose, SED provides the H command which appends the contents to the hold buffer by adding a new line at the end. The only difference between h and H command is, the former overwrites data from the hold buffer, while the later appends data to the hold buffer. Its syntax is similar to the h command.

    [address1[,address2]]H
    

    Let us take another example. This time, instead of printing only book titles, print the names of their authors too. The following example prints the book titles followed by their author names.

    [jerry]$ sed -n ''/Paulo/!h; /Paulo/{H;x;p}'' books.txt 
    

    On executing the above code, you get the following result:

    The Alchemist 
    Paulo Coelho 
    The Pilgrimage
    Paulo Coelho
    

    We learnt how to copy/append the contents of pattern buffer to hold buffer. Can we perform the reverse function as well? Yes certainly! For this purpose, SED provides the g command which copies data from the hold buffer to the pattern buffer. While copying, existing data from the pattern space gets overwritten. Given below is the syntax of the g command.

    [address1[,address2]]g
    

    Let us consider the same example – printing book titles and their authors. This time, we will first print the name of the author and on the next line, the corresponding book title. The following command prints the name of the author Paulo Coelho, followed by its book title.

    [jerry]$ sed -n ''/Paulo/!h; /Paulo/{p;g;p}'' books.txt 
    

    On executing the above code, you get the following result:

    Paulo Coelho 
    The Alchemist 
    Paulo Coelho 
    The Pilgrimage
    

    The first command is kept as it is. At the end of fifth pass, both the buffers contain The Alchemist. At the start of the sixth pass, it reads the line Paulo Coelho and as the pattern matches, it does not copy this line into the hold buffer. Hence, the pattern space containsPaulo Coelho and the hold space contains The Alchemist.

    Thereafter, it checks whether the pattern space contains the pattern Paulo. As the pattern match succeeds, it first prints the contents of the pattern space, i.e., Paulo Coelho, then it copies the hold buffer to the pattern buffer. Hence, both the pattern and hold buffers contain The Alchemist. Finally, it prints the contents of the pattern buffer. The same steps are applied to the pattern The Pilgrimage.

    Similarly, we can append the contents of the hold buffer to the pattern buffer. SED provides the G command which appends the contents to the pattern buffer by adding a new line at the end.

    [address1[,address2]]G
    

    Now let us take the previous example which prints the name of author Paulo Coelhofollowed by its book title. To achieve the same result, execute the following SED command.

    [jerry]$ sed -n ''/Paulo/!h; /Paulo/{G;p}'' books.txt
    

    On executing the above code, you get the following result:

    Paulo Coelho 
    The Alchemist 
    Paulo Coelho 
    The Pilgrimage
    

    Can you modify the above example to display the book titles followed by their authors? Simple, just exchange the buffer contents before the G command.

    [jerry]$ sed -n ''/Paulo/!h; /Paulo/{x;G;p}'' books.txt
    

    On executing the above code, you get the following result:

    The Alchemist 
    Paulo Coelho 
    The Pilgrimage 
    Paulo Coelho 
    

    Stream Editor – Regular Expressions

    It is the regular expressions that make SED powerful and efficient. A number of complex tasks can be solved with regular expressions. Any command-line expert knows the power of regular expressions.

    Like many other GNU/Linux utilities, SED too supports regular expressions, which are often referred to as as regex. This chapter describes regular expressions in detail. The chapter is divided into three sections: Standard regular expressions, POSIX classes of regular expressions, and Meta characters.

    Standard Regular Expressions

    Start of line (^)

    In regular expressions terminology, the caret(^) symbol matches the start of a line. The following example prints all the lines that start with the pattern “The”.

    [jerry]$ sed -n ''/^The/ p'' books.txt
    

    On executing the above code, you get the following result:

    The Two Towers, J. R. R. Tolkien 
    The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    The Pilgrimage, Paulo Coelho
    

    End of Line ($)

    End of line is represented by the dollar($) symbol. The following example prints the lines that end with “Coelho”.

    [jerry]$ sed -n ''/Coelho$/ p'' books.txt 
    

    On executing the above code, you get the following result:

    The Alchemist, Paulo Coelho 
    The Pilgrimage, Paulo Coelho
    

    Single Character (.)

    The Dot(.) matches any single character except the end of line character. The following example prints all three letter words that end with the character “t”.

    [jerry]$ echo -e "catnbatnratnmatnbattingnratsnmats" | sed -n ''/^..t$/p'' 
    

    On executing the above code, you get the following result:

    cat 
    bat 
    rat 
    mat
    

    Match Character Set ([])

    In regular expression terminology, a character set is represented by square brackets ([]). It is used to match only one out of several characters. The following example matches the patterns “Call” and “Tall” but not “Ball”.

    [jerry]$ echo -e "CallnTallnBall" | sed -n ''/[CT]all/ p''
    

    On executing the above code, you get the following result:

    Call 
    Tall
    

    Exclusive Set ([^])

    In exclusive set, the caret negates the set of characters in the square brackets. The following example prints only “Ball”.

    [jerry]$ echo -e "CallnTallnBall" | sed -n ''/[^CT]all/ p''
    

    On executing the above code, you get the following result:

    Ball 
    

    Character Range ([-])

    When a character range is provided, the regular expression matches any character within the range specified in square brackets. The following example matches “Call” and “Tall” but not “Ball”.

    [jerry]$ echo -e "CallnTallnBall" | sed -n ''/[C-Z]all/ p'' 
    

    On executing the above code, you get the following result:

    Call 
    Tall
    

    Now let us modify the range to “A-P” and observe the result.

    [jerry]$ echo -e "CallnTallnBall" | sed -n ''/[A-P]all/ p'' 
    

    On executing the above code, you get the following result:

    Call 
    Ball
    

    Zero on One Occurrence (?)

    In SED, the question mark (?) matches zero or one occurrence of the preceding character. The following example matches “Behaviour” as well as “Behavior”. Here, we made “u” as an optional character by using “?”.

    [jerry]$ echo -e "BehaviournBehavior" | sed -n ''/Behaviou?r/ p'' 
    

    On executing the above code, you get the following result:

    Behaviour 
    Behavior
    

    One or More Occurrence (+)

    In SED, the plus symbol(+) matches one or more occurrences of the preceding character. The following example matches one or more occurrences of “2”.

    [jerry]$ echo -e "111n22n123n234n456n222"  | sed -n ''/2+/ p''
    

    On executing the above code, you get the following result:

    22 
    123 
    234 
    222 
    

    Zero or More Occurrence (*)

    Asterisks (*) matches the zero or more occurrence of the preceding character. The following example matches “ca”, “cat”, “catt”, and so on.

    [jerry]$ echo -e "cancat" | sed -n ''/cat*/ p'' 
    

    On executing the above code, you get the following result:

    ca 
    cat 
    

    Exactly N Occurrences {n}

    {n} matches exactly “n” occurrences of the preceding character. The following example prints only three digit numbers. But before that, you need to create the following file which contains only numbers.

    [jerry]$ cat numbers.txt 
    

    On executing the above code, you get the following result:

    1 
    10 
    100 
    1000 
    10000 
    100000 
    1000000 
    10000000 
    100000000 
    1000000000
    

    Let us write the SED expression.

    [jerry]$ sed -n ''/^[0-9]{3}$/ p'' numbers.txt 
    

    On executing the above code, you get the following result:

    100
    

    Note that the pair of curly braces is escaped by the “” character.

    At least n Occurrences {n,}

    {n,} matches at least “n” occurrences of the preceding character. The following example prints all the numbers greater than or equal to five digits.

    [jerry]$ sed -n ''/^[0-9]{5,}$/ p'' numbers.txt
    

    On executing the above code, you get the following result:

    10000 
    100000 
    1000000
    10000000 
    100000000 
    1000000000 
    

    M to N Occurrence {m, n}

    {m, n} matches at least “m” and at most “n” occurrences of the preceding character. The following example prints all the numbers having at least five digits but not more than eight digits.

    [jerry]$ sed -n ''/^[0-9]{5,8}$/ p'' numbers.txt
    

    On executing the above code, you get the following result:

    10000 
    100000 
    1000000 
    10000000 
    

    Pipe (|)

    In SED, the pipe character behaves like logical OR operation. It matches items from either side of the pipe. The following example either matches “str1” or “str3”.

    [jerry]$ echo -e "str1nstr2nstr3nstr4" | sed -n ''/str(1|3)/ p'' 
    

    On executing the above code, you get the following result:

    str1 
    str3
    

    Note that the pair of the parenthesis and pipe (|) is escaped by the “” character.

    Escaping Characters

    There are certain special characters. For example, newline is represented by “n”, carriage return is represented by “r”, and so on. To use these characters into regular ASCII context, we have to escape them using the backward slash() character. This chapter illustrates escaping of special characters.

    Escaping “”

    The following example matches the pattern “”.

    [jerry]$ echo ''str1str2'' | sed -n ''/\/ p''
    

    On executing the above code, you get the following result:

    str1str2 
    

    Escaping “n”

    The following example matches the new line character.

    [jerry]$ echo ''str1nstr2'' | sed -n ''/\n/ p''
    

    On executing the above code, you get the following result:

    str1nstr2
    

    Escaping “r”

    The following example matches the carriage return.

    [jerry]$ echo ''str1rstr2'' | sed -n ''/\r/ p''
    

    On executing the above code, you get the following result:

    str1rstr2
    

    Escaping “dnnn”

    This matches a character whose decimal ASCII value is “nnn”. The following example matches only the character “a”.

    [jerry]$ echo -e "anbnc" | sed -n ''/d97/ p''
    

    On executing the above code, you get the following result:

    a
    

    Escaping “onnn”

    This matches a character whose octal ASCII value is “nnn”. The following example matches only the character “b”.

    [jerry]$ echo -e "anbnc" | sed -n ''/o142/ p'' 
    

    On executing the above code, you get the following result:

    b 
    

    This matches a character whose hexadecimal ASCII value is “nnn”. The following example matches only the character “c”.

    [jerry]$ echo -e "anbnc" | sed -n ''/x63/ p''
    

    On executing the above code, you get the following result:

    c
    

    POSIX Classes of Regular Expressions

    There are certain reserved words which have special meaning. These reserved words are referred to as POSIX classes of regular expression. This section describes the POSIX classes supported by SED.

    [:alnum:]

    It implies alphabetical and numeric characters. The following example matches only “One” and “123”, but does not match the tab character.

    [jerry]$ echo -e "Onen123nt" | sed -n ''/[[:alnum:]]/ p''
    

    On executing the above code, you get the following result:

    One 
    123
    

    [:alpha:]

    It implies alphabetical characters only. The following example matches only the word “One”.

    [jerry]$ echo -e "Onen123nt" | sed -n ''/[[:alpha:]]/ p''
    

    On executing the above code, you get the following result:

    One 
    

    [:blank:]

    It implies blank character which can be either space or tab. The following example matches only the tab character.

    [jerry]$ echo -e "Onen123nt" | sed -n ''/[[:space:]]/ p'' | cat -vte
    

    On executing the above code, you get the following result:

    ^I$
    

    Note that the command “cat -vte” is used to show tab characters (^I).

    [:digit:]

    It implies decimal numbers only. The following example matches only digit “123”.

    [jerry]$ echo -e "abcn123nt" | sed -n ''/[[:digit:]]/ p'' 
    

    On executing the above code, you get the following result:

    123 
    

    [:lower:]

    It implies lowercase letters only. The following example matches only “one”.

    [jerry]$ echo -e "onenTWOnt" | sed -n ''/[[:lower:]]/ p'' 
    

    On executing the above code, you get the following result:

    one 
    

    [:upper:]

    It implies uppercase letters only. The following example matches only “TWO”.

    [jerry]$ echo -e "onenTWOnt" | sed -n ''/[[:upper:]]/ p''
    

    On executing the above code, you get the following result:

    TWO
    

    [:punct:]

    It implies punctuation marks which include non-space or alphanumeric characters

    [jerry]$ echo -e "One,TwonThreenFour" | sed -n ''/[[:punct:]]/ p''
    

    On executing the above code, you get the following result:

    One,Two
    

    [:space:]

    It implies whitespace characters. The following example illustrates this.

    [jerry]$ echo -e "Onen123ft" | sed -n ''/[[:space:]]/ p'' | cat -vte 
    

    On executing the above code, you get the following result:

    123^L^I$ 
    

    Metacharacters

    Like traditional regular expressions, SED also supports metacharacters. These are Perl style regular expressions. Note that metacharacter support is GNU SED specific and may not work with other variants of SED. Let us discuss metacharacters in detail.

    Word Boundary (b)

    In regular expression terminology, “b” matches the word boundary. For example, “btheb” matches “the” but not “these”, “there”, “they”, “then”, and so on. The following example illustrates this.

    [jerry]$ echo -e "thesenthentheynthen" | sed -n ''/btheb/ p''
    

    On executing the above code, you get the following result:

    the
    

    Non-Word Boundary (B)

    In regular expression terminology, “B” matches non-word boundary. For example, “theB” matches “these” and “they” but not “the”. The following example illustrates this.

    [jerry]$ echo -e "thesenthenthey" | sed -n ''/theB/ p''
    

    On executing the above code, you get the following result:

    these 
    they
    

    Single Whitespace (s)

    In SED, “s” implies single whitespace character. The following example matches “Linet1” but does not match “Line1”.

    [jerry]$ echo -e "Linet1nLine2" | sed -n ''/Lines/ p''
    

    On executing the above code, you get the following result:

    Line 1 
    

    Single Non-Whitespace (S)

    In SED, “S” implies single whitespace character. The following example matches “Line2” but does not match “Linet1”.

    [jerry]$ echo -e "Linet1nLine2" | sed -n ''/LineS/ p'' 
    

    On executing the above code, you get the following result:

    Line2
    

    Single Word Character (w)

    In SED, “w” implies single word character, i.e., alphabetical characters, digits, and underscore (_). The following example illustrates this.

    [jerry]$ echo -e "Onen123n1_2n&;#" | sed -n ''/w/ p''
    

    On executing the above code, you get the following result:

    One 
    123 
    1_2
    

    Single Non-Word Character (W)

    In SED, “W” implies single non-word character which is exactly opposite to “w”. The following example illustrates this.

    [jerry]$ echo -e "Onen123n1_2n&;#" | sed -n ''/W/ p''
    

    On executing the above code, you get the following result:

    &;#
    

    Beginning of Pattern Space (`)

    In SED, “`” implies the beginning of the pattern space. The following example matches only the word “One”.

    [jerry]$ echo -e "OnenTwo One" | sed -n ''/`One/ p'' 
    

    On executing the above code, you get the following result:

    One
    

    Stream Editor – Useful Recipes

    SED is an amazing utility that allows multiple ways to solve a problem. This is the UNIX way and SED perfectly proves that. GNU/Linux provides many useful utilities to perform day-to-day tasks. Let us simulate a few utilities using SED. Sometimes it may appear we are solving an easy problem the hard way, but the purpose is just to demonstrate the power of SED.

    Cat Command

    In the following example, each line is printed as a part of the default workflow.

    [jerry]$ sed '''' books.txt 
    

    On executing the above code, you get the following result:

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    The Pilgrimage, Paulo Coelho 
    A Game of Thrones, George R. R. Martin 
    

    The following example uses print command to display the file contents.

    [jerry]$ sed -n ''p'' books.txt 
    

    On executing the above code, you get the following result:

    A Storm of Swords, George R. R. Martin 
    The Two Towers, J. R. R. Tolkien 
    The Alchemist, Paulo Coelho 
    The Fellowship of the Ring, J. R. R. Tolkien 
    The Pilgrimage, Paulo Coelho 
    A Game of Thrones, George R. R. Martin
    

    Removing Empty Lines

    In the following example, “^$” implies empty line, and empty lines are deleted when a pattern match succeeds.

    [jerry]$ echo -e "Line #1nnnLine #2" | sed ''/^$/d''
    

    On executing the above code, you get the following result:

    Line #1 
    Line #2 
    

    Similarly, the following example prints the line only when it is non-empty.

    [jerry]$ echo -e "Line #1nnnLine #2" | sed -n ''/^$/!p''
    

    On executing the above code, you get the following result:

    Line #1 
    Line #2
    

    Removing Commented Lines from a C++ Program

    Let us create a sample C++ program.

    #include <iostream> 
    using namespace std; 
    
    int main(void) 
    { 
       // Displays message on stdout. 
       cout >> "Hello, World !!!" >> endl;  
       return 0; // Return success. 
    }
    

    Now remove the comments using the following regular expression.

    [jerry]$ sed ''s|//.*||g'' hello.cpp
    

    On executing the above code, you get the following result:

    #include <iostream>
    using namespace std; 
    
    int main(void) 
    { 
       cout >> "Hello, World !!!" >> endl; 
       return 0;  
    } 
    

    Adding Comments Before Certain Lines

    The following example adds comments before line numbers 3 to 5.

    [jerry]$ sed ''3,5 s/^/#/'' hello.sh 
    

    On executing the above code, you get the following result:

    #!/bin/bash 
    #pwd 
    #hostname 
    #uname -a 
    who 
    who -r 
    lsb_release -a
    

    Wc -l command

    The “wc -l” command counts the number of lines present in the file. The following SED expression simulates the same.

    [jerry]$ sed -n ''$ ='' hello.sh 
    

    On executing the above code, you get the following result:

    8 
    

    Head Command

    By default, the head command prints the first 10 lines of the file. Let us simulate the same behavior with SED.

    [jerry]$ sed ''10 q'' books.txt 
    

    On executing the above code, you get the following result:

    A Storm of Swords 
    George R. R. Martin 
    The Two Towers 
    J. R. R. Tolkien 
    The Alchemist 
    Paulo Coelho 
    The Fellowship of the Ring 
    J. R. R. Tolkien 
    The Pilgrimage
    Paulo Coelho
    

    Tail -1 Command

    The “tail -1” prints the last line of the file. The following syntax shows its simulation.

    [jerry]$ echo -e "Line #1nLine #2" > test.txt 
    [jerry]$ cat test.txt
    

    On executing the above code, you get the following result:

    Line #1 
    Line #2 
    

    Let us write the SED script.

    [jerry]$ sed -n ''$p'' test.txt
    

    On executing the above code, you get the following result:

    Line #2 
    

    Dos2unix Command

    In DOS environment, a newline is represented by a combination of CR/LF characters. The following simulation of “dos2unix” command converts a DOS newline character to UNIX newline character. In GNU/Linux, this character is often treated as “^M” (Control M) character.

    [jerry]$ echo -e "Line #1rnLine #2r" > test.txt 
    [jerry]$ file test.txt
    

    On executing the above code, you get the following result:

    test.txt: ASCII text, with CRLF line terminators 
    

    Let us simulate the command using SED.

    [jerry]$ sed ''s/^M$//'' test.txt > new.txt   # Press "ctrl+v" followed "ctrl+m" to generate 
    "^M" character. 
    [jerry]$ file new.txt
    

    On executing the above code, you get the following result:

    new.txt: ASCII text 
    

    Now let us display the file contents.

    [jerry]$ cat -vte new.txt 
    

    On executing the above code, you get the following result:

    Line #1$ 
    Line #2$
    

    Unix2dos command

    Similar to “dos2unix”, there is “unix2dos” command which converts UNIX newline character to DOS newline character. The following example shows simulation of the same.

    [jerry]$ echo -e "Line #1nLine #2" > test.txt 
    [jerry]$ file test.txt 
    

    On executing the above code, you get the following result:

    test.txt: ASCII text
    

    Let us simulate the command using SED.

    [jerry]$ sed ''s/$/r/'' test.txt  > new.txt 
    [jerry]$ file new.txt
    

    On executing the above code, you get the following result:

    new.txt: ASCII text, with CRLF line terminators
    

    Now let us display the file contents.

    Now let us display the file contents.
    

    On executing the above code, you get the following result:

    Line #1^M$ 
    Line #2^M$ 
    

    Cat -E command

    The “cat -E” command shows the end of line by Dollar($) character. The following SED example is simulation of the same.

    [jerry]$ echo -e "Line #1nLine #2" > test.txt 
    [jerry]$ cat -E test.txt 
    

    On executing the above code, you get the following result:

    Line #1$ 
    Line #2$
    

    Let us simulate the command using SED.

    [jerry]$ sed ''s|$|&$|'' test.txt
    

    On executing the above code, you get the following result:

    Line #1$ 
    Line #2$
    

    Cat -ET Command

    The “cat -ET” command shows the Dollar($) symbol at the end of each line and displays the TAB characters as “^I”. The following example shows the simulation of “cat -ET” command using SED.

    [jerry]$ echo -e "Line #1tLine #2" > test.txt 
    [jerry]$ cat -ET test.txt
    

    On executing the above code, you get the following result:

    Line #1^ILine #2$ 
    

    Let us simulate the command using SED.

    [jerry]$ sed -n ''l'' test.txt | sed ''y/\t/^I/''
    

    On executing the above code, you get the following result:

    Line #1^ILine #2$ 
    

    nl Command

    The “nl” command simply numbers the lines of files. The following SED script simulates this behavior.

    [jerry]$ echo -e "Line #1nLine #2" > test.txt 
    [jerry]$ sed = test.txt | sed ''N;s/n/t/''
    

    On executing the above code, you get the following result:

    1 Line #1 
    2 Line #2
    

    The first SED expression prints line numbers followed by their contents, and the second SED expression merges these two lines and converts newline characters to TAB characters.

    cp Command

    The “cp” command crates another copy of the file. The following SED script simulates this behavior.

    [jerry]$ sed -n ''w dup.txt'' data.txt 
    [jerry]$ diff data.txt dup.txt 
    [jerry]$ echo $? 
    

    On executing the above code, you get the following result:

    0
    

    Expand Command

    The “expand” command converts TAB characters to whitespaces. The following code shows its simulation.

    [jerry]$ echo -e "OnetTwotThree" > test.txt 
    [jerry]$ expand test.txt > expand.txt 
    [jerry]$ sed ''s/t/     /g'' test.txt > new.txt 
    [jerry]$ diff new.txt expand.txt  
    [jerry]$ echo $? 
    

    On executing the above code, you get the following result:

    0 
    

    Tee Command

    The “tee” command dumps the data to the standard output stream as well as file. Given below is the simulation of the “tee” command.

    [jerry]$ echo -e "Line #1nLine #2" | tee test.txt  
    Line #1 
    Line #2 
    

    Let us simulate the command using SED.

    [jerry]$ sed -n ''p; w new.txt'' test.txt  
    

    On executing the above code, you get the following result:

    Line #1 
    Line #2
    

    cat -s Command

    UNIX “cat -s” command suppresses repeated empty output lines. The following code shows the simulation of “cat -s” command.

    [jerry]$ echo -e "Line #1nnnnLine #2nnnLine #3" > test.txt  
    [jerry]$ cat -s test.txt 
    

    On executing the above code, you get the following result:

    Line #1  
    Line #2
    Line #3
    

    Let us simulate the command using SED.

    [jerry]$ sed ''1s/^$//p;/./,/^$/!d'' test.txt 
    

    On executing the above code, you get the following result:

    Line #1  
    Line #2  
    Line #3 
    

    grep Command

    By default, the “grep” command prints a line when a pattern match succeeds. The following code shows its simulation.

    [jerry]$ echo -e "Line #1nLine #2nLine #3" > test.txt  
    [jerry]$ grep "Line #1" test.txt 
    

    On executing the above code, you get the following result:

    Line #1
    

    Let us simulate the command using SED.

    [jerry]$ sed -n ''/Line #1/p'' test.txt 
    

    On executing the above code, you get the following result:

    Line #1 
    

    grep -v Command

    By default, the “grep -v” command prints a line when a pattern match fails. The following code shows its simulation.

    [jerry]$ echo -e "Line #1nLine #2nLine #3" > test.txt  
    [jerry]$ grep -v "Line #1" test.txt
    

    On executing the above code, you get the following result:

    Line #2 
    Line #3 
    

    Let us simulate the command using SED.

    [jerry]$ sed -n ''/Line #1/!p'' test.txt
    

    On executing the above code, you get the following result:

    Line #2 
    Line #3
    

    tr Command

    The “tr” command translates characters. Given below is its simulation.

    [jerry]$ echo "ABC" | tr "ABC" "abc" 
    

    On executing the above code, you get the following result:

    abc
    

    Let us simulate the command using SED.

    [jerry]$ echo "ABC" | sed ''y/ABC/abc/''
    

    On executing the above code, you get the following result:

    abc
    

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