A collection of pure bash alternatives to external processes.
The goal of this book is to document known and unknown methods of doing various tasks using only built-in bash features. Using the snippets from this bible can help to remove unneeded dependencies from scripts and in most cases make them that little bit faster. I came across these tips and discovered a few while developing neofetch, pxltrm and some other smaller projects.
The snippets below are linted using shellcheck and tests have been written where applicable. Want to contribute? Have a read of the CONTRIBUTING.md. It outlines how the unit tests work and what is required when adding snippets to the bible.
See something that is incorrectly described, buggy or outright wrong? Open an issue or send a pull request. If the bible is missing something, open an issue and a solution will be found.
This book is also available to purchase on leanpub. https://leanpub.com/bash
Or you can buy me a coffee.
- FOREWORD
- STRINGS
- Trim leading and trailing white-space from string
- Trim all white-space from string and truncate spaces
- Use regex on a string
- Split a string on a delimiter
- Change a string to lowercase
- Change a string to uppercase
- Trim quotes from a string
- Strip all instances of pattern from string
- Strip first occurrence of pattern from string
- Strip pattern from start of string
- Strip pattern from end of string
- Check if string contains a sub-string
- Check if string starts with sub-string
- Check if string ends with sub-string
- ARRAYS
- LOOPS
- FILE HANDLING
- FILE PATHS
- VARIABLES
- ESCAPE SEQUENCES
- PARAMETER EXPANSION
- BRACE EXPANSION
- ARITHMETIC OPERATORS
- ARITHMETIC
- TRAPS
- PERFORMANCE
- OBSOLETE SYNTAX
- INTERNAL VARIABLES
- Get the location to the
bashbinary - Get the version of the current running
bashprocess - Open the user's preferred text editor
- Get the name of the current function
- Get the host-name of the system
- Get the architecture of the Operating System
- Get the name of the Operating System / Kernel
- Get the current working directory
- Get the number of seconds the script has been running
- Get a pseudorandom integer
- Get the location to the
- INFORMATION ABOUT THE TERMINAL
- CONVERSION
- CODE GOLF
- OTHER
- AFTERWORD
A collection of pure bash alternatives to external processes and programs. The bash scripting language is more powerful than people realise and most tasks can be accomplished without the need for or dependence on external programs.
Calling an external process in bash is expensive and excessive use will cause a noticeable slowdown. Scripts and programs written using built-in methods (where applicable) will be faster, require less dependencies and afford a better understanding of the language itself.
The content of this book provides a reference for solving problems encountered when writing programs and scripts in bash. Examples are in function format showcasing how to incorporate these solutions into code.
This is an alternative to sed, awk, perl and other tools. The
function below works by finding all leading and trailing white-space and
removing it from the start and end of the string. The : built-in is used in place of a temporary variable.
Example Function:
trim_string() {
# Usage: trim_string " example string "
: "${1#"${1%%[![:space:]]*}"}"
: "${_%"${_##*[![:space:]]}"}"
printf '%s\n' "$_"
}Example Usage:
$ trim_string " Hello, World "
Hello, World
$ name=" John Black "
$ trim_string "$name"
John BlackThis is an alternative to sed, awk, perl and other tools. The
function below works by abusing word splitting to create a new string
without leading/trailing white-space and with truncated spaces.
Example Function:
# shellcheck disable=SC2086,SC2048
trim_all() {
# Usage: trim_all " example string "
set -f
set -- $*
printf '%s\n' "$*"
set +f
}Example Usage:
$ trim_all " Hello, World "
Hello, World
$ name=" John Black is my name. "
$ trim_all "$name"
John Black is my name.The result of bash's regex matching can be used to replace sed for a
large number of use-cases.
CAVEAT: This is one of the few platform dependant bash features.
bash will use whatever regex engine is installed on the user's system.
Stick to POSIX regex features if aiming for compatibility.
CAVEAT: This example only prints the first matching group. When using multiple capture groups some modification is needed.
Example Function:
regex() {
# Usage: regex "string" "regex"
[[ $1 =~ $2 ]] && printf '%s\n' "${BASH_REMATCH[1]}"
}Example Usage:
$ # Trim leading white-space.
$ regex ' hello' '^\s*(.*)'
hello
$ # Validate a hex color.
$ regex "#FFFFFF" '^(#?([a-fA-F0-9]{6}|[a-fA-F0-9]{3}))$'
#FFFFFF
$ # Validate a hex color (invalid).
$ regex "red" '^(#?([a-fA-F0-9]{6}|[a-fA-F0-9]{3}))$'
# no output (invalid)Example Usage in script:
is_hex_color() {
if [[ "$1" =~ ^(#?([a-fA-F0-9]{6}|[a-fA-F0-9]{3}))$ ]]; then
printf '%s\n' "${BASH_REMATCH[1]}"
else
printf '%s\n' "error: $1 is an invalid color."
return 1
fi
}
read -r color
is_hex_color "$color" || color="#FFFFFF"
# Do stuff.This is an alternative to cut, awk and other tools.
Example Function:
split() {
# Usage: split "string" "delimiter"
IFS=$'\n' read -d "" -ra arr <<< "${1//$2/$'\n'}"
printf '%s\n' "${arr[@]}"
}Example Usage:
$ split "apples,oranges,pears,grapes" ","
apples
oranges
pears
grapes
$ split "1, 2, 3, 4, 5" ", "
1
2
3
4
5
# Multi char delimiters work too!
$ split "hello---world---my---name---is---john" "---"
hello
world
my
name
is
johnCAVEAT: Requires bash 4+
Example Function:
lower() {
# Usage: lower "string"
printf '%s\n' "${1,,}"
}Example Usage:
$ lower "HELLO"
hello
$ lower "HeLlO"
hello
$ lower "hello"
helloCAVEAT: Requires bash 4+
Example Function:
upper() {
# Usage: upper "string"
printf '%s\n' "${1^^}"
}Example Usage:
$ upper "hello"
HELLO
$ upper "HeLlO"
HELLO
$ upper "HELLO"
HELLOExample Function:
trim_quotes() {
# Usage: trim_quotes "string"
: "${1//\'}"
printf '%s\n' "${_//\"}"
}Example Usage:
$ var="'Hello', \"World\""
$ trim_quotes "$var"
Hello, WorldExample Function:
strip_all() {
# Usage: strip_all "string" "pattern"
printf '%s\n' "${1//$2}"
}Example Usage:
$ strip_all "The Quick Brown Fox" "[aeiou]"
Th Qck Brwn Fx
$ strip_all "The Quick Brown Fox" "[[:space:]]"
TheQuickBrownFox
$ strip_all "The Quick Brown Fox" "Quick "
The Brown FoxExample Function:
strip() {
# Usage: strip "string" "pattern"
printf '%s\n' "${1/$2}"
}Example Usage:
$ strip "The Quick Brown Fox" "[aeiou]"
Th Quick Brown Fox
$ strip "The Quick Brown Fox" "[[:space:]]"
TheQuick Brown FoxExample Function:
lstrip() {
# Usage: lstrip "string" "pattern"
printf '%s\n' "${1##$2}"
}Example Usage:
$ lstrip "The Quick Brown Fox" "The "
Quick Brown FoxExample Function:
rstrip() {
# Usage: rstrip "string" "pattern"
printf '%s\n' "${1%%$2}"
}Example Usage:
$ rstrip "The Quick Brown Fox" " Fox"
The Quick BrownUsing a test:
if [[ "$var" == *sub_string* ]]; then
printf '%s\n' "sub_string is in var."
fi
# Inverse (substring not in string).
if [[ "$var" != *sub_string* ]]; then
printf '%s\n' "sub_string is not in var."
fi
# This works for arrays too!
if [[ "${arr[*]}" == *sub_string* ]]; then
printf '%s\n' "sub_string is in array."
fiUsing a case statement:
case "$var" in
*sub_string*)
# Do stuff
;;
*sub_string2*)
# Do more stuff
;;
*)
# Else
;;
esacif [[ "$var" == sub_string* ]]; then
printf '%s\n' "var starts with sub_string."
fi
# Inverse (var does not start with sub_string).
if [[ "$var" != sub_string* ]]; then
printf '%s\n' "var does not start with sub_string."
fiif [[ "$var" == *sub_string ]]; then
printf '%s\n' "var ends with sub_string."
fi
# Inverse (var does not start with sub_string).
if [[ "$var" != *sub_string ]]; then
printf '%s\n' "var does not end with sub_string."
fiEnabling extdebug allows access to the BASH_ARGV array which stores
the current functionβs arguments in reverse.
Example Function:
reverse_array() {
# Usage: reverse_array "array"
shopt -s extdebug
f()(printf '%s\n' "${BASH_ARGV[@]}"); f "$@"
shopt -u extdebug
}Example Usage:
$ reverse_array 1 2 3 4 5
5
4
3
2
1
$ arr=(red blue green)
$ reverse_array "${arr[@]}"
green
blue
redCreate a temporary associative array. When setting associative array values and a duplicate assignment occurs, bash overwrites the key. This allows us to effectively remove array duplicates.
CAVEAT: Requires bash 4+
Example Function:
remove_array_dups() {
# Usage: remove_array_dups "array"
declare -A tmp_array
for i in "$@"; do
[[ "$i" ]] && IFS=" " tmp_array["${i:- }"]=1
done
printf '%s\n' "${!tmp_array[@]}"
}Example Usage:
$ remove_array_dups 1 1 2 2 3 3 3 3 3 4 4 4 4 4 5 5 5 5 5 5
1
2
3
4
5
$ arr=(red red green blue blue)
$ remove_array_dups "${arr[@]}"
red
green
blueExample Function:
random_array_element() {
# Usage: random_array_element "array"
local arr=("$@")
printf '%s\n' "${arr[RANDOM % $#]}"
}Example Usage:
$ array=(red green blue yellow brown)
$ random_array_element "${array[@]}"
yellow
# Multiple arguments can also be passed.
$ random_array_element 1 2 3 4 5 6 7
3Each time the printf is called, the next array element is printed. When
the print hits the last array element it starts from the first element
again.
arr=(a b c d)
cycle() {
printf '%s ' "${arr[${i:=0}]}"
((i=i>=${#arr[@]}-1?0:++i))
}This works the same as above, this is just a different use case.
arr=(true false)
cycle() {
printf '%s ' "${arr[${i:=0}]}"
((i=i>=${#arr[@]}-1?0:++i))
}Alternative to seq.
# Loop from 0-100 (no variable support).
for i in {0..100}; do
printf '%s\n' "$i"
doneAlternative to seq.
# Loop from 0-VAR.
VAR=50
for ((i=0;i<=VAR;i++)); do
printf '%s\n' "$i"
donearr=(apples oranges tomatoes)
# Just elements.
for element in "${arr[@]}"; do
printf '%s\n' "$element"
donearr=(apples oranges tomatoes)
# Elements and index.
for i in "${!arr[@]}"; do
printf '%s\n' "${arr[$i]}"
done
# Alternative method.
for ((i=0;i<${#arr[@]};i++)); do
printf '%s\n' "${arr[$i]}"
donewhile read -r line; do
printf '%s\n' "$line"
done < "file"Donβt use ls.
# Greedy example.
for file in *; do
printf '%s\n' "$file"
done
# PNG files in dir.
for file in ~/Pictures/*.png; do
printf '%s\n' "$file"
done
# Iterate over directories.
for dir in ~/Downloads/*/; do
printf '%s\n' "$dir"
done
# Brace Expansion.
for file in /path/to/parentdir/{file1,file2,subdir/file3}; do
printf '%s\n' "$file"
done
# Iterate recursively.
shopt -s globstar
for file in ~/Pictures/**/*; do
printf '%s\n' "$file"
done
shopt -u globstarCAVEAT: bash does not handle binary data properly in versions < 4.4.
Alternative to the cat command.
file_data="$(<"file")"Alternative to the cat command.
# Bash <4
IFS=$'\n' read -d "" -ra file_data < "file"
# Bash 4+
mapfile -t file_data < "file"Alternative to the head command.
CAVEAT: Requires bash 4+
Example Function:
head() {
# Usage: head "n" "file"
mapfile -tn "$1" line < "$2"
printf '%s\n' "${line[@]}"
}Example Usage:
$ head 2 ~/.bashrc
# Prompt
PS1='β '
$ head 1 ~/.bashrc
# PromptAlternative to the tail command.
CAVEAT: Requires bash 4+
Example Function:
tail() {
# Usage: tail "n" "file"
mapfile -tn 0 line < "$2"
printf '%s\n' "${line[@]: -$1}"
}Example Usage:
$ tail 2 ~/.bashrc
# Enable tmux.
# [[ -z "$TMUX" ]] && exec tmux
$ tail 1 ~/.bashrc
# [[ -z "$TMUX" ]] && exec tmuxAlternative to wc -l.
Example Function (bash 4):
lines() {
# Usage: lines "file"
mapfile -tn 0 lines < "$1"
printf '%s\n' "${#lines[@]}"
}Example Function (bash 3):
This method uses less memory than the mapfile method and works in bash 3 but it is slower for bigger files.
lines_loop() {
# Usage: lines_loop "file"
count=0
while IFS= read -r _; do
((count++))
done < "$1"
printf '%s\n' "$count"
}Example Usage:
$ lines ~/.bashrc
48
$ lines_loop ~/.bashrc
48This works by passing the output of the glob to the function and then counting the number of arguments.
Example Function:
count() {
# Usage: count /path/to/dir/*
# count /path/to/dir/*/
printf '%s\n' "$#"
}Example Usage:
# Count all files in dir.
$ count ~/Downloads/*
232
# Count all dirs in dir.
$ count ~/Downloads/*/
45
# Count all jpg files in dir.
$ count ~/Pictures/*.jpg
64Alternative to touch.
# Shortest.
>file
# Longer alternatives:
:>file
echo -n >file
printf '' >fileExample Function:
extract() {
# Usage: extract file "opening marker" "closing marker"
while IFS=$'\n' read -r line; do
[[ "$extract" && "$line" != "$3" ]] && \
printf '%s\n' "$line"
[[ "$line" == "$2" ]] && extract=1
[[ "$line" == "$3" ]] && extract=
done < "$1"
}Example Usage:
# Extract code blocks from MarkDown file.
$ extract ~/projects/pure-bash/README.md '```sh' '```'
# Output here...Alternative to the dirname command.
Example Function:
dirname() {
# Usage: dirname "path"
printf '%s\n' "${1%/*}/"
}Example Usage:
$ dirname ~/Pictures/Wallpapers/1.jpg
/home/black/Pictures/Wallpapers/
$ dirname ~/Pictures/Downloads/
/home/black/Pictures/Alternative to the basename command.
Example Function:
basename() {
# Usage: basename "path"
: "${1%/}"
printf '%s\n' "${_##*/}"
}Example Usage:
$ basename ~/Pictures/Wallpapers/1.jpg
1.jpg
$ basename ~/Pictures/Downloads/
Downloadshello_world="test"
# Create the variable name.
var1="world"
var2="hello_${var1}"
# Print the value of the variable name stored in 'hello_$var1'.
printf '%s\n' "${!var2}"Contrary to popular belief, there is no issue in utilizing raw escape sequences. Using tput abstracts the same ANSI sequences as if printed manually. Worse still, tput is not actually portable. There are a number of tput variants each with different commands and syntaxes (try tput setaf 3 on a FreeBSD system). Raw sequences are fine.
NOTE: Sequences requiring RGB values only work in True-Color Terminal Emulators.
| Sequence | What does it do? | Value |
|---|---|---|
\e[38;5;<NUM>m |
Set text foreground color. | 0-255 |
\e[48;5;<NUM>m |
Set text background color. | 0-255 |
\e[38;2;<R>;<G>;<B>m |
Set text foreground color to RGB color. | R, G, B |
\e[48;2;<R>;<G>;<B>m |
Set text background color to RGB color. | R, G, B |
| Sequence | What does it do? |
|---|---|
\e[m |
Reset text formatting and colors. |
\e[1m |
Bold text. |
\e[2m |
Faint text. |
\e[3m |
Italic text. |
\e[4m |
Underline text. |
\e[5m |
Slow blink. |
\e[7m |
Swap foreground and background colors. |
| Sequence | What does it do? | Value |
|---|---|---|
\e[<LINE>;<COLUMN>H |
Move cursor to absolute position. | line, column |
\e[H |
Move cursor to home position (0,0). |
|
\e[<NUM>A |
Move cursor up N lines. | num |
\e[<NUM>B |
Move cursor down N lines. | num |
\e[<NUM>C |
Move cursor right N columns. | num |
\e[<NUM>D |
Move cursor left N columns. | num |
\e[s |
Save cursor position. | |
\e[u |
Restore cursor position. |
| Sequence | What does it do? |
|---|---|
\e[K |
Erase from cursor position to end of line. |
\e[1K |
Erase from cursor position to start of line. |
\e[2K |
Erase the entire current line. |
\e[J |
Erase from the current line to the bottom of the screen. |
\e[1J |
Erase from the current line to the top of the screen. |
\e[2J |
Clear the screen. |
\e[2J\e[H |
Clear the screen and move cursor to 0,0. |
| Parameter | What does it do? |
|---|---|
${!VAR} |
Access a variable based on the value of VAR. |
${!VAR*} |
Expand to IFS separated list of variable names starting with VAR. |
${!VAR@} |
Expand to IFS separated list of variable names starting with VAR. |
| Parameter | What does it do? |
|---|---|
${VAR#PATTERN} |
Remove shortest match of pattern from start of string. |
${VAR##PATTERN} |
Remove longest match of pattern from start of string. |
${VAR%PATTERN} |
Remove shortest match of pattern from end of string. |
${VAR%%PATTERN} |
Remove longest match of pattern from end of string. |
${VAR/PATTERN/REPLACE} |
Replace first match with string. |
${VAR//PATTERN/REPLACE} |
Replace all matches with string. |
${VAR/PATTERN} |
Remove first match. |
${VAR//PATTERN} |
Remove all matches. |
| Parameter | What does it do? |
|---|---|
${#VAR} |
Length of var in characters. |
${#ARR[@]} |
Length of array in elements. |
| Parameter | What does it do? |
|---|---|
${VAR:OFFSET} |
Remove first N chars from variable. |
${VAR:OFFSET:LENGTH} |
Get substring from N character to N character. ( ${VAR:10:10}: Get sub-string from char 10 to char 20) |
${VAR:: OFFSET} |
Get first N chars from variable. |
${VAR:: -OFFSET} |
Remove last N chars from variable. |
${VAR: -OFFSET} |
Get last N chars from variable. |
${VAR:OFFSET:-OFFSET} |
Cut first N chars and last N chars. |
| Parameter | What does it do? | CAVEAT |
|---|---|---|
${VAR^} |
Uppercase first character. | bash 4+ |
${VAR^^} |
Uppercase all characters. | bash 4+ |
${VAR,} |
Lowercase first character. | bash 4+ |
${VAR,,} |
Lowercase all characters. | bash 4+ |
| Parameter | What does it do? |
|---|---|
${VAR:-STRING} |
If VAR is empty or unset, use STRING as its value. |
${VAR-STRING} |
If VAR is unset, use STRING as its value. |
${VAR:=STRING} |
If VAR is empty or unset, set the value of VAR to STRING. |
${VAR=STRING} |
If VAR is unset, set the value of VAR to STRING. |
${VAR:+STRING} |
If VAR is not empty, use STRING as its value. |
${VAR+STRING} |
If VAR is set, use STRING as its value. |
${VAR:?STRING} |
Display an error if empty or unset. |
${VAR?STRING} |
Display an error if unset. |
# Syntax: {<START>..<END>}
# Print numbers 1-100.
echo {1..100}
# Print range of floats.
echo 1.{1..9}
# Print chars a-z.
echo {a..z}
echo {A..Z}
# Nesting.
echo {A..Z}{0..9}
# Print zero-padded numbers.
# CAVEAT: bash 4+
echo {01..100}
# Change increment amount.
# Syntax: {<START>..<END>..<INCREMENT>}
# CAVEAT: bash 4+
echo {1..10..2} # Increment by 2.echo {apples,oranges,pears,grapes}
# Example Usage:
# Remove dirs Movies, Music and ISOS from ~/Downloads/.
rm -rf ~/Downloads/{Movies,Music,ISOS}| Operators | What does it do? |
|---|---|
= |
Initialize or change the value of a variable. |
| Operators | What does it do? |
|---|---|
+ |
Addition |
- |
Subtraction |
* |
Multiplication |
/ |
Division |
** |
Exponentiation |
% |
Modulo |
+= |
Plus-Equal (Increment a variable.) |
-= |
Minus-Equal (Decrement a variable.) |
*= |
Times-Equal (Multiply a variable.) |
/= |
Slash-Equal (Divide a variable.) |
%= |
Mod-Equal (Remainder of dividing a variable.) |
| Operators | What does it do? |
|---|---|
<< |
Bitwise Left Shift |
<<= |
Left-Shift-Equal |
>> |
Bitwise Right Shift |
>>= |
Right-Shift-Equal |
& |
Bitwise AND |
&= |
Bitwise AND-Equal |
| |
Bitwise OR |
|= |
Bitwise OR-Equal |
~ |
Bitwise NOT |
^ |
Bitwise XOR |
^= |
Bitwise XOR-Equal |
| Operators | What does it do? |
|---|---|
! |
NOT |
&& |
AND |
|| |
OR |
| Operators | What does it do? | Example |
|---|---|---|
, |
Comma Separator | ((a=1,b=2,c=3)) |
# Simple math
((var=1+2))
# Decrement/Increment variable
((var++))
((var--))
((var+=1))
((var-=1))
# Using variables
((var=var2*arr[2]))# Set the value of var to var2 if var2 is greater than var.
# var: variable to set.
# var2>var: Condition to test.
# ?var2: If the test succeeds.
# :var: If the test fails.
((var=var2>var?var2:var))Traps allow a script to execute code on various signals. In pxltrm (a pixel art editor written in bash) traps are used to redraw the user interface on window resize. Another use case is cleaning up temporary files on script exit.
Traps should be added near the start of scripts so any early errors are also caught.
NOTE: For a full list of signals, see trap -l.
# Clear screen on script exit.
trap 'printf \\e[2J\\e[H\\e[m' EXITtrap '' INT# Call a function on window resize.
trap 'code_here' SIGWINCHtrap 'code_here' DEBUGtrap 'code_here' RETURNIf unicode is not required, it can be disabled for a performance increase. Results may vary however there have been noticeable improvements in neofetch and other programs.
# Disable unicode.
LC_ALL=C
LANG=CUse #!/usr/bin/env bash instead of #!/bin/bash.
- The former searches the user's
PATHto find thebashbinary. - The latter assumes it is always installed to
/bin/which can cause issues.
# Right:
#!/usr/bin/env bash
# Wrong:
#!/bin/bashUse $() instead of ` `.
# Right.
var="$(command)"
# Wrong.
var=`command`
# $() can easily be nested whereas `` cannot.
var="$(command "$(command)")"Do not use the function keyword, it reduces compatibility with older versions of bash.
# Right.
do_something() {
# ...
}
# Wrong.
function do_something() {
# ...
}"$BASH"# As a string.
"$BASH_VERSION"
# As an array.
"${BASH_VERSINFO[@]}""$EDITOR" "$file"
# NOTE: This variable may be empty, set a fallback value.
"${EDITOR:-vi}" "$file"# Current function.
"${FUNCNAME[0]}"
# Parent function.
"${FUNCNAME[1]}"
# So on and so forth.
"${FUNCNAME[2]}"
"${FUNCNAME[3]}"
# All functions including parents.
"${FUNCNAME[@]}""$HOSTNAME"
# NOTE: This variable may be empty.
# Optionally set a fallback to the hostname command.
"${HOSTNAME:-$(hostname)}""$HOSTTYPE"This can be used to add conditional support for different Operating
Systems without needing to call uname.
"$OSTYPE"This is an alternative to the pwd built-in.
"$PWD""$SECONDS"Each time $RANDOM is used, a different integer between 0 and 32767 is returned. This variable should not be used for anything related to security (this includes encryption keys etc).
"$RANDOM"This is handy when writing scripts in pure bash and stty/tput canβt be
called.
Example Function:
get_term_size() {
# Usage: get_term_size
# (:;:) is a micro sleep to ensure the variables are
# exported immediately.
shopt -s checkwinsize; (:;:)
printf '%s\n' "$LINES $COLUMNS"
}Example Usage:
# Output: LINES COLUMNS
$ get_term_size
15 55CAVEAT: This does not work in some terminal emulators.
Example Function:
get_window_size() {
# Usage: get_window_size
printf '%b' "${TMUX:+\\ePtmux;\\e}\\e[14t${TMUX:+\\e\\\\}"
IFS=';t' read -d t -t 0.05 -sra term_size
printf '%s\n' "${term_size[1]}x${term_size[2]}"
}Example Usage:
# Output: WIDTHxHEIGHT
$ get_window_size
1200x800
# Output (fail):
$ get_window_size
xThis is useful when creating a TUI in pure bash.
Example Function:
get_cursor_pos() {
# Usage: get_cursor_pos
IFS='[;' read -p $'\e[6n' -d R -rs _ y x _
printf '%s\n' "$x $y"
}Example Usage:
# Output: X Y
$ get_cursor_pos
1 8Example Function:
hex_to_rgb() {
# Usage: hex_to_rgb "#FFFFFF"
((r=16#${1:1:2}))
((g=16#${1:3:2}))
((b=16#${1:5:6}))
printf '%s\n' "$r $g $b"
}Example Usage:
$ hex_to_rgb "#FFFFFF"
255 255 255Example Function:
rgb_to_hex() {
# Usage: rgb_to_hex "r" "g" "b"
printf '#%02x%02x%02x\n' "$1" "$2" "$3"
}Example Usage:
$ rgb_to_hex "255" "255" "255"
#FFFFFF# Tiny C Style.
for((;i++<10;)){ echo "$i";}
# Undocumented method.
for i in {1..10};{ echo "$i";}
# Expansion.
for i in {1..10}; do echo "$i"; done
# C Style.
for((i=0;i<=10;i++)); do echo "$i"; done# Normal method
while :; do echo hi; done
# Shorter
for((;;)){ echo hi;}# Normal method
f(){ echo hi;}
# Using a subshell
f()(echo hi)
# Using arithmetic
# This can be used to assign integer values.
# Example: f a=1
# f a++
f()(($1))
# Using tests, loops etc.
# NOTE: βwhileβ, βuntilβ, βcaseβ, β(())β, β[[]]β can also be used.
f()if true; then echo "$1"; fi
f()for i in "$@"; do echo "$i"; done# One line
# Note: The 3rd statement may run when the 1st is true
[[ "$var" == hello ]] && echo hi || echo bye
[[ "$var" == hello ]] && { echo hi; echo there; } || echo bye
# Multi line (no else, single statement)
# Note: The exit status may not be the same as with an if statement
[[ "$var" == hello ]] && \
echo hi
# Multi line (no else)
[[ "$var" == hello ]] && {
echo hi
# ...
}The : built-in can be used to avoid repeating variable= in a case statement. The $_ variable stores the last argument of the last command. : always succeeds so it can be used to store the variable value.
# Modified snippet from Neofetch.
case "$OSTYPE" in
"darwin"*)
: "MacOS"
;;
"linux"*)
: "Linux"
;;
*"bsd"* | "dragonfly" | "bitrig")
: "BSD"
;;
"cygwin" | "msys" | "win32")
: "Windows"
;;
*)
printf '%s\n' "Unknown OS detected, aborting..." >&2
exit 1
;;
esac
# Finally, set the variable.
os="$_"Surprisingly, sleep is an external command and not a bash built-in.
CAVEAT: Requires bash 4+
Example Function:
read_sleep() {
# Usage: sleep 1
# sleep 0.2
read -rst "${1:-1}" -N 999
}Example Usage:
read_sleep 1
read_sleep 0.1
read_sleep 30# There are 3 ways to do this and either one can be used.
type -p executable_name &>/dev/null
hash executable_name &>/dev/null
command -v executable_name &>/dev/null
# As a test.
if type -p executable_name &>/dev/null; then
# Program is in PATH.
fi
# Inverse.
if ! type -p executable_name &>/dev/null; then
# Program is not in PATH.
fi
# Example (Exit early if program is not installed).
if ! type -p convert &>/dev/null; then
printf '%s\n' "error: convert is not installed, exiting..."
exit 1
fiBashβs printf has a built-in method of getting the date which can be used in place of the date command.
CAVEAT: Requires bash 4+
Example Function:
date() {
# Usage: date "format"
# See: 'man strftime' for format.
printf "%($1)T\\n" "-1"
}Example Usage:
# Using above function.
$ date "%a %d %b - %l:%M %p"
Fri 15 Jun - 10:00 AM
# Using printf directly.
$ printf '%(%a %d %b - %l:%M %p)T\n' "-1"
Fri 15 Jun - 10:00 AM
# Assigning a variable using printf.
$ printf -v date '%(%a %d %b - %l:%M %p)T\n' '-1'
$ printf '%s\n' "$date"
Fri 15 Jun - 10:00 AMExample Function:
uuid() {
# Usage: uuid
C="89ab"
for ((N=0;N<16;++N)); do
B="$((RANDOM%256))"
case "$N" in
6) printf '4%x' "$((B%16))" ;;
8) printf '%c%x' "${C:$RANDOM%${#C}:1}" "$((B%16))" ;;
3|5|7|9)
printf '%02x-' "$B"
;;
*)
printf '%02x' "$B"
;;
esac
done
printf '\n'
}Example Usage:
$ uuid
d5b6c731-1310-4c24-9fe3-55d556d44374This is a simple way of drawing progress bars without needing a for loop in the function itself.
Example Function:
bar() {
# Usage: bar 1 10
# ^----- Elapsed Percentage (0-100).
# ^-- Total length in chars.
((elapsed=$1*$2/100))
# Create the bar with spaces.
printf -v prog "%${elapsed}s"
printf -v total "%$(($2-elapsed))s"
printf '%s\r' "[${prog// /-}${total}]"
}Example Usage:
for ((i=0;i<=100;i++)); do
# Pure bash micro sleeps (for the example).
(:;:) && (:;:) && (:;:) && (:;:) && (:;:)
# Print the bar.
bar "$i" "10"
done
printf '\n'get_functions() {
# Usage: get_functions
IFS=$'\n' read -d "" -ra functions < <(declare -F)
printf '%s\n' "${functions[@]//declare -f }"
}# alias
ls
# command
# shellcheck disable=SC1001
\ls# function
ls
# command
command lsThanks for reading! If this bible helped you in any way and you'd like to give back, consider donating. Donations give me the time to make this the best resource possible. Can't donate? That's OK, star the repo and share it with your friends!
Rock on. π€