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* Update bash.html.markdown * More details about pipe and redirection
527 lines
17 KiB
Bash
527 lines
17 KiB
Bash
---
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category: tool
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tool: bash
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contributors:
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- ["Max Yankov", "https://github.com/golergka"]
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- ["Darren Lin", "https://github.com/CogBear"]
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- ["Alexandre Medeiros", "http://alemedeiros.sdf.org"]
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- ["Denis Arh", "https://github.com/darh"]
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- ["akirahirose", "https://twitter.com/akirahirose"]
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- ["Anton Strömkvist", "http://lutic.org/"]
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- ["Rahil Momin", "https://github.com/iamrahil"]
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- ["Gregrory Kielian", "https://github.com/gskielian"]
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- ["Etan Reisner", "https://github.com/deryni"]
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- ["Jonathan Wang", "https://github.com/Jonathansw"]
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- ["Leo Rudberg", "https://github.com/LOZORD"]
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- ["Betsy Lorton", "https://github.com/schbetsy"]
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- ["John Detter", "https://github.com/jdetter"]
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- ["Harry Mumford-Turner", "https://github.com/harrymt"]
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- ["Martin Nicholson", "https://github.com/mn113"]
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- ["Mark Grimwood", "https://github.com/MarkGrimwood"]
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filename: LearnBash.sh
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translators:
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- ["Dimitri Kokkonis", "https://github.com/kokkonisd"]
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---
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Bash is a name of the unix shell, which was also distributed as the shell
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for the GNU operating system and as the default shell on most Linux distros.
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Nearly all examples below can be a part of a shell script
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or executed directly in the shell.
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[Read more here.](https://www.gnu.org/software/bash/manual/bashref.html)
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```bash
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#!/usr/bin/env bash
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# First line of the script is the shebang which tells the system how to execute
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# the script: https://en.wikipedia.org/wiki/Shebang_(Unix)
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# As you already figured, comments start with #. Shebang is also a comment.
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# Simple hello world example:
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echo Hello world! # => Hello world!
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# Each command starts on a new line, or after a semicolon:
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echo 'This is the first line'; echo 'This is the second line'
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# => This is the first line
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# => This is the second line
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# Declaring a variable looks like this:
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Variable="Some string"
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# But not like this:
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Variable = "Some string" # => returns error "Variable: command not found"
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# Bash will decide that Variable is a command it must execute and give an error
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# because it can't be found.
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# Nor like this:
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Variable= 'Some string' # => returns error: "Some string: command not found"
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# Bash will decide that 'Some string' is a command it must execute and give an
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# error because it can't be found. (In this case the 'Variable=' part is seen
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# as a variable assignment valid only for the scope of the 'Some string'
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# command.)
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# Using the variable:
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echo $Variable # => Some string
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echo "$Variable" # => Some string
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echo '$Variable' # => $Variable
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# When you use the variable itself — assign it, export it, or else — you write
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# its name without $. If you want to use the variable's value, you should use $.
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# Note that ' (single quote) won't expand the variables!
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# Parameter expansion ${ }:
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echo ${Variable} # => Some string
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# This is a simple usage of parameter expansion
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# Parameter Expansion gets a value from a variable.
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# It "expands" or prints the value
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# During the expansion time the value or parameter can be modified
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# Below are other modifications that add onto this expansion
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# String substitution in variables
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echo ${Variable/Some/A} # => A string
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# This will substitute the first occurrence of "Some" with "A"
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# Substring from a variable
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Length=7
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echo ${Variable:0:Length} # => Some st
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# This will return only the first 7 characters of the value
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echo ${Variable: -5} # => tring
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# This will return the last 5 characters (note the space before -5)
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# String length
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echo ${#Variable} # => 11
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# Indirect expansion
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OtherVariable="Variable"
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echo ${!OtherVariable} # => Some String
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# This will expand the value of OtherVariable
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# Default value for variable
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echo ${Foo:-"DefaultValueIfFooIsMissingOrEmpty"}
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# => DefaultValueIfFooIsMissingOrEmpty
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# This works for null (Foo=) and empty string (Foo=""); zero (Foo=0) returns 0.
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# Note that it only returns default value and doesn't change variable value.
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# Declare an array with 6 elements
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array0=(one two three four five six)
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# Print first element
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echo $array0 # => "one"
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# Print first element
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echo ${array0[0]} # => "one"
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# Print all elements
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echo ${array0[@]} # => "one two three four five six"
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# Print number of elements
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echo ${#array0[@]} # => "6"
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# Print number of characters in third element
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echo ${#array0[2]} # => "5"
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# Print 2 elements starting from forth
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echo ${array0[@]:3:2} # => "four five"
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# Print all elements. Each of them on new line.
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for i in "${array0[@]}"; do
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echo "$i"
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done
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# Brace Expansion { }
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# Used to generate arbitrary strings
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echo {1..10} # => 1 2 3 4 5 6 7 8 9 10
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echo {a..z} # => a b c d e f g h i j k l m n o p q r s t u v w x y z
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# This will output the range from the start value to the end value
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# Built-in variables:
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# There are some useful built-in variables, like
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echo "Last program's return value: $?"
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echo "Script's PID: $$"
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echo "Number of arguments passed to script: $#"
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echo "All arguments passed to script: $@"
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echo "Script's arguments separated into different variables: $1 $2..."
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# Now that we know how to echo and use variables,
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# let's learn some of the other basics of bash!
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# Our current directory is available through the command `pwd`.
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# `pwd` stands for "print working directory".
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# We can also use the built-in variable `$PWD`.
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# Observe that the following are equivalent:
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echo "I'm in $(pwd)" # execs `pwd` and interpolates output
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echo "I'm in $PWD" # interpolates the variable
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# If you get too much output in your terminal, or from a script, the command
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# `clear` clears your screen
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clear
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# Ctrl-L also works for clearing output
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# Reading a value from input:
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echo "What's your name?"
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read Name # Note that we didn't need to declare a new variable
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echo Hello, $Name!
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# We have the usual if structure:
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# use `man test` for more info about conditionals
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if [ $Name != $USER ]
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then
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echo "Your name isn't your username"
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else
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echo "Your name is your username"
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fi
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# True if the value of $Name is not equal to the current user's login username
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# NOTE: if $Name is empty, bash sees the above condition as:
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if [ != $USER ]
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# which is invalid syntax
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# so the "safe" way to use potentially empty variables in bash is:
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if [ "$Name" != $USER ] ...
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# which, when $Name is empty, is seen by bash as:
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if [ "" != $USER ] ...
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# which works as expected
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# There is also conditional execution
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echo "Always executed" || echo "Only executed if first command fails"
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# => Always executed
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echo "Always executed" && echo "Only executed if first command does NOT fail"
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# => Always executed
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# => Only executed if first command does NOT fail
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# A single ampersand & after a command runs it in the background. A background command's
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# output is printed to the terminal, but it cannot read from the input.
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sleep 30 &
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# List background jobs
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jobs # => [1]+ Running sleep 30 &
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# Bring the background job to the foreground
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fg
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# Ctrl-C to kill the process, or Ctrl-Z to pause it
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# Resume a background process after it has been paused with Ctrl-Z
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bg
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# Kill job number 2
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kill %2
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# %1, %2, etc. can be used for fg and bg as well
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# To use && and || with if statements, you need multiple pairs of square brackets:
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if [ "$Name" == "Steve" ] && [ "$Age" -eq 15 ]
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then
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echo "This will run if $Name is Steve AND $Age is 15."
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fi
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if [ "$Name" == "Daniya" ] || [ "$Name" == "Zach" ]
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then
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echo "This will run if $Name is Daniya OR Zach."
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fi
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# There is also the `=~` operator, which tests a string against a Regex pattern:
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Email=me@example.com
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if [[ "$Email" =~ [a-z]+@[a-z]{2,}\.(com|net|org) ]]
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then
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echo "Valid email!"
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fi
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# Note that =~ only works within double [[ ]] square brackets,
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# which are subtly different from single [ ].
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# See https://www.gnu.org/software/bash/manual/bashref.html#Conditional-Constructs for more on this.
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# Redefine command `ping` as alias to send only 5 packets
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alias ping='ping -c 5'
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# Escape the alias and use command with this name instead
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\ping 192.168.1.1
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# Print all aliases
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alias -p
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# Expressions are denoted with the following format:
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echo $(( 10 + 5 )) # => 15
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# Unlike other programming languages, bash is a shell so it works in the context
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# of a current directory. You can list files and directories in the current
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# directory with the ls command:
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ls # Lists the files and subdirectories contained in the current directory
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# This command has options that control its execution:
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ls -l # Lists every file and directory on a separate line
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ls -t # Sorts the directory contents by last-modified date (descending)
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ls -R # Recursively `ls` this directory and all of its subdirectories
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# Results (stdout) of the previous command can be passed as input (stdin) to the next command
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# using a pipe |. Commands chained in this way are called a "pipeline", and are run concurrently.
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# The `grep` command filters the input with provided patterns.
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# That's how we can list .txt files in the current directory:
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ls -l | grep "\.txt"
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# Use `cat` to print files to stdout:
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cat file.txt
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# We can also read the file using `cat`:
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Contents=$(cat file.txt)
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# "\n" prints a new line character
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# "-e" to interpret the newline escape characters as escape characters
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echo -e "START OF FILE\n$Contents\nEND OF FILE"
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# => START OF FILE
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# => [contents of file.txt]
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# => END OF FILE
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# Use `cp` to copy files or directories from one place to another.
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# `cp` creates NEW versions of the sources,
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# so editing the copy won't affect the original (and vice versa).
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# Note that it will overwrite the destination if it already exists.
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cp srcFile.txt clone.txt
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cp -r srcDirectory/ dst/ # recursively copy
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# Look into `scp` or `sftp` if you plan on exchanging files between computers.
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# `scp` behaves very similarly to `cp`.
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# `sftp` is more interactive.
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# Use `mv` to move files or directories from one place to another.
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# `mv` is similar to `cp`, but it deletes the source.
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# `mv` is also useful for renaming files!
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mv s0urc3.txt dst.txt # sorry, l33t hackers...
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# Since bash works in the context of a current directory, you might want to
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# run your command in some other directory. We have cd for changing location:
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cd ~ # change to home directory
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cd # also goes to home directory
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cd .. # go up one directory
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# (^^say, from /home/username/Downloads to /home/username)
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cd /home/username/Documents # change to specified directory
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cd ~/Documents/.. # now in home directory (if ~/Documents exists)
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cd - # change to last directory
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# => /home/username/Documents
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# Use subshells to work across directories
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(echo "First, I'm here: $PWD") && (cd someDir; echo "Then, I'm here: $PWD")
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pwd # still in first directory
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# Use `mkdir` to create new directories.
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mkdir myNewDir
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# The `-p` flag causes new intermediate directories to be created as necessary.
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mkdir -p myNewDir/with/intermediate/directories
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# if the intermediate directories didn't already exist, running the above
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# command without the `-p` flag would return an error
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# You can redirect command input and output (stdin, stdout, and stderr)
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# using "redirection operators". Unlike a pipe, which passes output to a command,
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# a redirection operator has a command's input come from a file or stream, or
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# sends its output to a file or stream.
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# Read from stdin until ^EOF$ and overwrite hello.py with the lines
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# between "EOF" (which are called a "here document"):
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cat > hello.py << EOF
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#!/usr/bin/env python
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from __future__ import print_function
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import sys
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print("#stdout", file=sys.stdout)
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print("#stderr", file=sys.stderr)
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for line in sys.stdin:
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print(line, file=sys.stdout)
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EOF
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# Variables will be expanded if the first "EOF" is not quoted
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# Run the hello.py Python script with various stdin, stdout, and
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# stderr redirections:
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python hello.py < "input.in" # pass input.in as input to the script
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python hello.py > "output.out" # redirect output from the script to output.out
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python hello.py 2> "error.err" # redirect error output to error.err
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python hello.py > "output-and-error.log" 2>&1
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# redirect both output and errors to output-and-error.log
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# &1 means file descriptor 1 (stdout), so 2>&1 redirects stderr (2) to the current
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# destination of stdout (1), which has been redirected to output-and-error.log.
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python hello.py > /dev/null 2>&1
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# redirect all output and errors to the black hole, /dev/null, i.e., no output
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# The output error will overwrite the file if it exists,
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# if you want to append instead, use ">>":
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python hello.py >> "output.out" 2>> "error.err"
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# Overwrite output.out, append to error.err, and count lines:
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info bash 'Basic Shell Features' 'Redirections' > output.out 2>> error.err
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wc -l output.out error.err
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# Run a command and print its file descriptor (e.g. /dev/fd/123)
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# see: man fd
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echo <(echo "#helloworld")
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# Overwrite output.out with "#helloworld":
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cat > output.out <(echo "#helloworld")
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echo "#helloworld" > output.out
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echo "#helloworld" | cat > output.out
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echo "#helloworld" | tee output.out >/dev/null
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# Cleanup temporary files verbosely (add '-i' for interactive)
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# WARNING: `rm` commands cannot be undone
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rm -v output.out error.err output-and-error.log
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rm -r tempDir/ # recursively delete
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# You can install the `trash-cli` Python package to have `trash`
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# which puts files in the system trash and doesn't delete them directly
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# see https://pypi.org/project/trash-cli/ if you want to be careful
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# Commands can be substituted within other commands using $( ):
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# The following command displays the number of files and directories in the
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# current directory.
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echo "There are $(ls | wc -l) items here."
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# The same can be done using backticks `` but they can't be nested -
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# the preferred way is to use $( ).
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echo "There are `ls | wc -l` items here."
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# Bash uses a `case` statement that works similarly to switch in Java and C++:
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case "$Variable" in
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# List patterns for the conditions you want to meet
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0) echo "There is a zero.";;
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1) echo "There is a one.";;
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*) echo "It is not null.";; # match everything
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esac
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# `for` loops iterate for as many arguments given:
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# The contents of $Variable is printed three times.
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for Variable in {1..3}
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do
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echo "$Variable"
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done
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# => 1
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# => 2
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# => 3
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# Or write it the "traditional for loop" way:
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for ((a=1; a <= 3; a++))
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do
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echo $a
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done
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# => 1
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# => 2
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# => 3
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# They can also be used to act on files..
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# This will run the command `cat` on file1 and file2
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for Variable in file1 file2
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do
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cat "$Variable"
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done
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# ..or the output from a command
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# This will `cat` the output from `ls`.
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for Output in $(ls)
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do
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cat "$Output"
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done
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# Bash can also accept patterns, like this to `cat`
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# all the Markdown files in current directory
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for Output in ./*.markdown
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do
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cat "$Output"
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done
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# while loop:
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while [ true ]
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do
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echo "loop body here..."
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break
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done
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# => loop body here...
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# You can also define functions
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# Definition:
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function foo ()
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{
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echo "Arguments work just like script arguments: $@"
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echo "And: $1 $2..."
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echo "This is a function"
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returnValue=0 # Variable values can be returned
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return $returnValue
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}
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# Call the function `foo` with two arguments, arg1 and arg2:
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foo arg1 arg2
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# => Arguments work just like script arguments: arg1 arg2
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# => And: arg1 arg2...
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# => This is a function
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# Return values can be obtained with $?
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resultValue=$?
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# More than 9 arguments are also possible by using braces, e.g. ${10}, ${11}, ...
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# or simply
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bar ()
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{
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echo "Another way to declare functions!"
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return 0
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}
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# Call the function `bar` with no arguments:
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bar # => Another way to declare functions!
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# Calling your function
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foo "My name is" $Name
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# There are a lot of useful commands you should learn:
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# prints last 10 lines of file.txt
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tail -n 10 file.txt
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# prints first 10 lines of file.txt
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head -n 10 file.txt
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# print file.txt's lines in sorted order
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sort file.txt
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# report or omit repeated lines, with -d it reports them
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uniq -d file.txt
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# prints only the first column before the ',' character
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cut -d ',' -f 1 file.txt
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# replaces every occurrence of 'okay' with 'great' in file.txt
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# (regex compatible)
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sed -i 's/okay/great/g' file.txt
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# be aware that this -i flag means that file.txt will be changed
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# -i or --in-place erase the input file (use --in-place=.backup to keep a back-up)
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# print to stdout all lines of file.txt which match some regex
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# The example prints lines which begin with "foo" and end in "bar"
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grep "^foo.*bar$" file.txt
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# pass the option "-c" to instead print the number of lines matching the regex
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grep -c "^foo.*bar$" file.txt
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# Other useful options are:
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grep -r "^foo.*bar$" someDir/ # recursively `grep`
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grep -n "^foo.*bar$" file.txt # give line numbers
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grep -rI "^foo.*bar$" someDir/ # recursively `grep`, but ignore binary files
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|
||
# perform the same initial search, but filter out the lines containing "baz"
|
||
grep "^foo.*bar$" file.txt | grep -v "baz"
|
||
|
||
# if you literally want to search for the string,
|
||
# and not the regex, use `fgrep` (or `grep -F`)
|
||
fgrep "foobar" file.txt
|
||
|
||
# The `trap` command allows you to execute a command whenever your script
|
||
# receives a signal. Here, `trap` will execute `rm` if it receives any of the
|
||
# three listed signals.
|
||
trap "rm $TEMP_FILE; exit" SIGHUP SIGINT SIGTERM
|
||
|
||
# `sudo` is used to perform commands as the superuser
|
||
# usually it will ask interactively the password of superuser
|
||
NAME1=$(whoami)
|
||
NAME2=$(sudo whoami)
|
||
echo "Was $NAME1, then became more powerful $NAME2"
|
||
|
||
# Read Bash shell built-ins documentation with the bash `help` built-in:
|
||
help
|
||
help help
|
||
help for
|
||
help return
|
||
help source
|
||
help .
|
||
|
||
# Read Bash manpage documentation with `man`
|
||
apropos bash
|
||
man 1 bash
|
||
man bash
|
||
|
||
# Read info documentation with `info` (`?` for help)
|
||
apropos info | grep '^info.*('
|
||
man info
|
||
info info
|
||
info 5 info
|
||
|
||
# Read bash info documentation:
|
||
info bash
|
||
info bash 'Bash Features'
|
||
info bash 6
|
||
info --apropos bash
|
||
```
|