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Unix Shells: Bash, Fish, Ksh, Tcsh, Zsh

时间:2015-07-26 05:53:30      阅读:410      评论:0      收藏:0      [点我收藏+]

标签:

Unix Shells: Bash, Fish, Ksh, Tcsh, Zsh

grammar | quoting and escaping | characters
variables | variable expansion | brace, tilde, command, and pathname expansion | special variables
arithmetic and conditional expressions
arrays | associative arrays
functions | command resolution | arguments and options
execution control
redirection | echo and read | files and directories
process and job control
history | key bindings
startup files | prompt customization | autoload

Grammar

 bashfishkshtcshzsh
simple command ls ls ls ls ls
simple command with argument echo hi echo hi echo hi echo hi echo hi
simple command with redirect ls > /tmp/ls.out ls > /tmp/ls.out ls > /tmp/ls.out ls > /tmp/ls.out ls > /tmp/ls.out
simple command with environment variable EDITOR=vi git commit env EDITOR=vi git commit EDITOR=vi git commit env EDITOR=vi git commit EDITOR=vi git commit
pipeline ls | wc ls | wc ls | wc ls | wc ls | wc
sublist separators && || none && || && || && ||
list terminators ; & ; & ; & ; & ; &
group command { ls; ls;} | wc begin; ls; ls; end | wc { ls; ls;} | wc none { ls; ls;} | wc
subshell (ls; ls) | wc fish -c ‘ls; ls‘ | wc (ls; ls) | wc (ls; ls) | wc (ls; ls) | wc

Shells read input up to an unquoted newline and then execute it. An unquoted backslash followed by a newline are discarded and cause the shell to wait for more input. The backslash and newline are discarded before the shell tokenizes the string, so long lines can be split anywhere outside of single quotes, even in the middle of command names and variable names.

In the shell grammar, lists contain sublists, which contain pipelines, which contain simple commands.

Subshells and grouping can be used to put a list in a pipeline. Subshells and groups can have newlines, but the shell defers execution until the end of the subshell or group is reached.

The section on execution control describes structures which do not fit into the simple grammar and execution model outlined here. The shell will not execute any of the control structures until the end keyword is reached. As a result, the control structure can contain multiple statements separated by newlines. Execution control structures cannot be put into pipelines.

simple command

In its simplest form a line in a shell script is a word denoting a command. The shell looks successively for a user-defined function, built-in function, and external command in the search path matching the word. The first one found is run. If no matching function or external command is found the shell emits a warning and sets its status variable to a nonzero value. It does not return the status value to its caller unless it has reached the end of its input, however.

tcsh lacks user defined functions but built-ins still take precedence over external commands.

simple command with argument

Commands can be followed by one or more words which are the arguments to the command. How a shell tokenizes the input into words is complicated in the general case, but in the common case the arguments are whitespace delimited.

simple command with redirect

The standard output, standard input, and standard error of the command can be redirected to files. This is described under redirection.

simple command with environment variable

A nonce environment variable can be set for the exclusive use of the command.

pipeline

Pipelines are a sequence of simple commands in which the standard output of each command is redirected to the standard input of its successor.

sublist separators

Sublist is a term from the zsh documentation describing one or more pipelines separated by the shortcut operators && and ||. When && is encountered, the shell stops executing the pipelines if the previous pipeline failed. When || is encountered, the shell stops executing if the previous pipeline succeeded. A pipeline is successful if the last command returns a zero status.

fish:

Fish has short-circuit operators; the following are equivalent to ls && ls and ls || ls:

$ ls ; and ls
$ ls ; or ls

list terminators

A list is a sequence of sublists separated by semicolons ; or ampersands & and optionally terminated by a semicolon or ampersand.

If the separator or terminator is an ampersand, the previous sublist is run in the background. This permits the shell to execute the next sublist or the subsequent statement without waiting for the previous sublist to finish.

group command

A group command can be used to concatenate the stdout of multiple commands and pipe it to a subsequent command.

If the group has an input stream, it is consumed by the first command to read from stdin.

bash requires that the final command be terminated by a semicolon; zsh does not.

subshell

Like the group command, but the commands are executed in a subshell. Variable assignments or change of working directory are local to the subshell.

Quoting and Escaping

 bashfishkshtcshzsh
literal quotes ‘foo‘ allows \‘ and \\ escapes:
‘foo‘
‘foo‘ ‘foo‘ ‘foo‘
interpolating quotes foo=7
"foo is $foo"
set foo 7
"foo is $foo"

double quotes do not perform
command substitution
foo=7
"foo is $foo"
setenv foo 7
"foo is $foo"
foo=7
"foo is $foo"
interpolating quotes escape sequences \$ \\ \` \" \" \$ \\ \$ \\ \` none \$ \\ \` \"
quotes with backslash escapes $‘foo\n‘ none $‘foo‘ none $‘foo‘
quoted backslash escapes \a \b \e \E \f \n \r \t \v
\\ \‘ \" \ooo \xhh \cctrl
none \a \b \e \E \f \n \r \t \v
\\ \‘ \" \ooo \xhh \cctrl
none \a \b \e \E \f \n \r \t \v
\\ \‘ \" \ooo \xhh \cctrl
unquoted backslash escapes \space \a \b \e \f \n \r \t \v \space
\$ \\ \* \? \~ \% \# \( \) \{
\} \[ \] \< \> \^ \& \; \" \‘
\xhh \Xhh \ooo \uhhhh \Uhhhhhhhh \cctrl
\space \space \space
command substitution $(ls)
`ls`
(ls) $(ls)
`ls`
`ls` $(ls)
`ls`
backtick escape sequences \$ \\ \` \newline none \$ \\ \` \newline \$ \\ \newline \$ \\ \` \newline

literal quotes

Literal quotes (aka single quotes) create a word with exactly the characters shown in the source code. For the shells other than fish there is no escaping mechanism and hence no way to put single quotes in the word.

Literal quotes can be used to put characters that the shell lexer uses to distinguish words inside a single word. For bash these characters are:

| & ; ( ) < > space tab

Literals quotes can also be used to prevent the parameter, brace, pathname, and tilde expansion as well as command substitution. For bash the special characters that trigger these expansions are:

$ { } * ? [ ] ` ~

interpolating quotes

Interpolating quotes (aka double quotes) perform parameter expansion and command substitution of both the $( ) and ` ` variety. They do not perform brace, pathname, or tilde expansion. $ and ` are thus special characters but they can be escaped with a backslash as can the backslash itself, the double quote, and a newline.

interpolating quotes escape sequences

The escape sequences available in interpolating quotes.

quotes with backslash escapes

String literals which support C-style escapes.

quoted backslash escapes

The C-style string literal escapes.

unquoted backslash escapes

fish permits the use of C escapes outside of quotes.

command substitution

How to execute a command and get the output as shell text.

If the command output contains whitespace, the shell may parse the output into multiple words. Double quotes can be used to guarantee that the command output is treated as a single word by the shell:

"$(ls)"
"`ls`"

backtick escape sequences

Escape sequences that can be used inside backtick quotes.

Characters

 bashfishkshtcshzsh
word separating | & ; ( ) < > SP HT LF | & ; ( ) < > SP HT LF | & ; ( ) < > SP HT LF | & ; ( ) < > SP HT LF | & ; ( ) < > SP HT LF
quoting and escaping " ‘ \ " ‘ \ " ‘ \ " ‘ \ " ‘ \
shell expansion variable: $
brace: { }
tilde: ~
command: `
pathname: * ? [ ]
history: ! ^
variable: $
brace: { }
tilde: ~
command: ( )
pathname: * ?
variable: $
brace: { }
tilde: ~
command: `
pathname: * ? [ ]
variable: $
brace: { }
tilde: ~
command: `
pathname: * ? [ ]
history: ! ^
variable: $
brace: { }
tilde: ~
command: `
pathname: * ? [ ]
history: ! ^
other special # = # [ ] # = . # # =
bareword A-Z a-z 0-9 _ - . , : + / @ % A-Z a-z 0-9 _ - . , : + / @ % ! ^ = A-Z a-z 0-9 _ - , : + / @ % ! ^ A-Z a-z 0-9 _ - . , : + / @ % = A-Z a-z 0-9 _ - . , : + / @ %
variable name A-Z a-z 0-9 _ A-Z a-z 0-9 _ A-Z a-z 0-9 _ A-Z a-z 0-9 _ A-Z a-z 0-9 _

word separating

The shell tokenizes its input into words. Characters which are not word separating and do not have any word separating characters between them are part of the same word.

quoting and escaping

For two characters to be in different words, the presence of a word separating character between them is necessary but not sufficient, because the separating character must not be quoted or escaped.

The following two lines both tokenize as a single word:

"lorem ipsum"
lorem" "ispum

shell expansion

The presence of shell expansion characters in a word causes the shell to perform a transformation on the word. The transformation may replace the word with more than one word.

In the following example, the word *.c will be replaced by multiple words if there is more than one file with a .c suffix in the working directory:

grep main *.c

Square brackets [ ] are used for both pathname expansion, where the brackets contain a list of characters, and array notation, where the brackets contain an index. We believe that in cases of ambiguity, the syntax is always treated as array notation. fish does not have this ambiguity because it does not use square brackets in pathname expansion.

zsh:

In zsh variable expansion will expand to a single word, even if the variable contains word separating characters. This behavior is different from the other shells.

A variable can be expanded to multiple words with the ${=VAR} syntax, however.

$ function countem() { echo $#; }

$ foo=‘one two three‘

$ countem $foo
1

$ countem ${=foo}
3

other special characters

comments:

The number sign # can be used to start a comment which ends at the end of the line. The # must be by itself or the first character in a word.

In tcsh, comments are not supported when the shell is interactive.

In zsh, comments are not supported by default when the shell is interactive. This can be changed by invoking zsh with the -k flag or by running:

set -o INTERACTIVE_COMMENTS

variable assignment:

The equals sign = is used for variable assignment in bash, ksh, and zsh. Given that spaces cannot be placed around the equals sign, it seems likely the tokenizer treats it like other bareword characters. Note that in a simple command, the command name is the first word which does not contain an equals sign.

namespaces:

ksh has namespaces. They can be used for variable names and function names:

$ bar=3

$ namespace foo { bar=4; } 

$ echo $bar
3

$ namespace foo { echo $bar; }
4

$ echo ${.foo.bar}
4

bareword characters

A bareword is a word which is not quoted and does not contain escapes. The characters which are listed above are those which can appear anywhere in a bareword.

Some of the other characters can appear in barewords under certain circumstances. For example the tilde ~ can appear if it is not the first character.

variable name characters

Characters which can be used in variable names.

Note that a variable name cannot start with a digit. Also, $_ is a special variable which contains the previous command.

Variables

 bashfishkshtcshzshexternal
global variables

set, get, list, unset, edit
var=val
$var
set
unset -v var
none
set -g var val
$var
set -g
set -e var
vared var
var=val
$var
set
unset -v var
none
set var=val
$var
set
unset var
none
var=val
$var
set
unset -v var
vared var
 
read-only variables

mark readonly, set and mark readonly, list readonly
readonly var
readonly var=val
readonly -p
none readonly var
readonly var=val
readonly -p
none readonly var
readonly var=val
readonly -p
 
exported variables

export, set and export, list exported, undo export
export var
export var=val
export -p
export -n var
set -gx var $var
set -gx var val
set -x
set -gu var $var
export var
export var=val
export -p
none
setenv var $var
setenv var val
printenv
none
export var
export var=val
export -p
none
none
none
printenv
none
options

set, list, unset
set -o opt
set -o
set +o opt
none set -o opt
set -o
set +o opt
none set -o opt
set -o
set +o opt
 
other variable built-ins declare     @ declare
functions
setopt
float
integer
unsetopt
 

global variables

How to set a global variable; how to get the value of a global variable; how to list all the global variables; how to unset a global variable; how to edit a variable.

Variables are global by default.

In tcsh if var is undefined then encountering $var throws an error. The other shells will treat $var as an empty string.

If there is a variable named foo, then

unset foo

will unset the variable. However, if there is no such variable but there is a function named foo, then the function will be unset. unset -v will only unset a variable.

read-only variables

How to mark a variable as read-only; how to simultaneously set and mark a variable as read-only; how to list the read-only variables.

An error results if an attempt is made to modify a read-only variable.

exported variables

How to export a variable; how to set and export a variable; how to list the exported variables.

Exported variables are passed to child processes forked by the shell. This can be prevented by launching the subprocess with env -i. Subshells created with parens ( ) have access non-exported variables.

The tcsh example for exporting a variable without setting it isn‘t the same as the corresponding examples from the other shells because in tcsh an error will result if the variable isn‘t already set.

options

Options are variables which are normally set via flags at the command line and affect shell behavior.

Variable Expansion

 bashfishkshtcshzshexternal
set variable value var=val set -g var val var=val setenv var val var=val  
get variable value $var $var $var $var $var  
concatenate variable and value ${var}val {$var}val ${var}val ${var}val ${var}val  
coalesce ${var:-val}   ${var:-val}   ${var:-val}  
coalesce and assign if null ${var:=val}   ${var:=val}   ${var:=val}  
message to stderr and exit if null ${var:?msg}   ${var:?msg}   ${var:?msg}  
substring offset is zero based:
${var:offset}
${var:offset:len}
  offset is zero based:
${var:offset}
${var:offset:len}
  offset is zero based:
${var:offset}
${var:offset:len}
offset is one based;
when input lacks newlines:

awk ‘{print substr($0, offset, len)}‘
length ${#var}   ${#var} ${%var} ${#var} wc -m
remove prefix greedily foo=do.re.mi
${foo##*.}
  foo=do.re.mi
${foo##*.}
  foo=do.re.mi
${foo##*.}
sed ‘s/^.*\.
remove prefix reluctantly foo=do.re.mi
${foo#*.}
  foo=do.re.mi
${foo#*.}
  foo=do.re.mi
${foo#*.}
sed ‘s/^[^\.]*\.‘
remove suffix greedily foo=do.re.mi
${foo%%.*}
  foo=do.re.mi
${foo%%.*}
  foo=do.re.mi
${foo%%.*}
sed ‘s/\..*$
remove suffix reluctantly foo=do.re.mi
${foo%.*}
  foo=do.re.mi
${foo%.*}
  foo=do.re.mi
${foo%.*}
sed ‘s/\.[^\.]*$‘
single substitution foo=‘do re mi mi‘
${foo/mi/ma}
  foo=‘do re mi mi‘
${foo/mi/ma}
  foo=‘do re mi mi‘
${foo/mi/ma}
sed ‘s/mi/ma/‘
global substitution foo=‘do re mi mi‘
${foo//mi/ma}
  foo=‘do re mi mi‘
${foo//mi/ma}
  foo=‘do re mi mi‘
${foo//mi/ma}
sed ‘s/mi/ma/g‘
prefix substitution foo=txt.txt
${foo/#txt/text}
  foo=txt.txt
${foo/#txt/text}
  foo=txt.txt
${foo/#txt/text}
sed ‘s/^txt/text/‘
suffix substitution foo=txt.txt
${foo/%txt/html}
  foo=txt.txt
${foo/%txt/html}
  foo=txt.txt
${foo/%txt/html}
sed ‘s/txt$/html/‘
upper case foo=lorem
${foo^^}
  none   foo=lorem
${foo:u}
tr ‘[:lower:]‘ ‘[:upper:]‘
upper case first letter foo=lorem
${foo^}
  none   none  
lower case foo=LOREM
${foo,,}
  none   foo=LOREM
${foo:l}
tr ‘[:upper:]‘ ‘[:lower:]‘
lower case first letter foo=LOREM
${foo,}
  none   none  
absolute path         foo=~
${foo:a}
 
dirname         foo=/etc/hosts
${foo:h}
foo=/etc/hosts
dirname $foo
basename         foo=/etc/hosts
${foo:t}}
foo=/etc/hosts
basename $foo
extension         foo=index.html
${foo:e}
 
root         foo=index.html
${foo:r}
 

Brace, Tilde, Command, and Pathname Expansion

 bashfishkshtcshzsh
brace expansion: list echo {foo,bar} echo {foo,bar} echo {foo,bar} echo {foo,bar} echo {foo,bar}
brace expansion: sequence echo {1..10} none echo {1..10} none echo {1..10}
brace expansion: character sequence echo {a..z} none echo {a..z} none none
tilde expansion echo ~/bin echo ~/bin echo ~/bin echo ~/bin echo ~/bin
command expansion: dollar parens echo $(ls) echo (ls) echo $(ls) none echo $(ls)
command expansion: backticks echo `ls` none echo `ls` echo `ls` echo `ls`
process substitution wc <(ls) wc (ls | psub) wc <(ls) none wc <(ls)
path expansion: string echo /bin/c* echo /bin/c* echo /bin/c* echo /bin/c* echo /bin/c*
path expansion: character echo /bin/c?? echo /bin/c?? echo /bin/c?? echo /bin/c?? echo /bin/c??
path expansion: character set echo /bin/[cde]* none echo /bin/[cde]* echo /bin/[cde]* echo /bin/[cde]*
path expansion: negated character set echo /bin/[^cde]* none echo /bin/[^cde]* echo /bin/[^cde]* echo /bin/[^cde]*
path expansion: sequence of characters echo /bin/[a-f]* none echo /bin/[a-f]* echo /bin/[a-f]* echo /bin/[a-f]*

Special Variables

in zsh terminology, special means read-only variables that cannot have their type changed

non-alphabetical variables
 bashfishkshtcshzsh
name of shell or shell script $0 (status -f) $0 $0 $0
command line arguments $1, $2, … $argv[1], $argv[2], … $1, $2, … $1, $2, … $1, $2, …
$argv[1], $argv[2], …
number of command line args $# (count $argv) $# $# $#
$#argv
arguments $1, $2, … $*
$@
none $*
$@
$* $*
$@
"$1" "$2" "$3" … "$@" $argv "$@"   "$@"
"$1c$2c$3 …" where c is first character of $IFS "$*" "$argv" "$*"   "$*"
process id $$ %self $$ $$ $$
process id of last asynchronous command $! none $! $! $!
exit status of last non-asynchronous command $? $status $? $? $?
previous command executed $_ current command executing:
$_
$_ $_ $_
command line options $- none $- none $-
read input none none none $< none

$* and $@

These parameters behave differently in double quotes.

Normally you should use "$@" to pass all the parameters to a subcommand. The subcommand will receive the same number of parameters as the caller received.

"$*" can be used to collect the parameters in a string. The first character of $IFS is used as the join separator. This could be used to pass all of the parameters as a single parameter to the subcommand.

Outside of double quotes, $* and $@ have the same behavior. Their behavior varies from shell to shell, however. In bash if you use them to pass parameters to a subcommand, the subcommand will receive more parameters than the caller if any of the parameters contain whitespace.

In zsh $* and $@ behave like "$@".

set by shell
 bashfishkshtcshzsh
shell version BASH_VERSION   KSH_VERSION tcsh ZSH_VERSION
return value of last syscall         ERRNO
history   history      
current line number of script LINENO   LINENO   LINENO
set by getopts OPTARG
OPTIND
  OPTARG
OPTIND
  OPTARG
OPTIND
operating system and machine type         OSTYPE
MACHTYPE
shell parent pid PPID   PPID   PPID
working directory and previous working directory PWD
OLDPWD
PWD
none
PWD
OLDPWD
  PWD
OLDPWD
random integer RANDOM built-in function:
random
RANDOM   RANDOM
return value REPLY   REPLY   REPLY
seconds since shell was invoked SECONDS   SECONDS   SECONDS
incremented each time a subshell is called SHLVL       SHLVL
read by shell
 bashfishkshtcshzsh
browser   BROWSER      
cd search path CDPATH CDPATH CDPATH cdpath CDPATH
cdpath
terminal width and height     COLUMNS
LINES
  COLUMNS
LINES
command history editor FCEDIT
EDITOR
  FCEDIT
EDITOR
  FCEDIT
EDITOR
shell startup file ENV   ENV   ENV
function definition search path     FPATH   fpath
FPATH
history file path HISTFILE   HISTFILE   HISTFILE
size of history HISTSIZE   HISTSIZE   HISTSIZE
home directory HOME HOME HOME   HOME
input field separators IFS   IFS   IFS
locale LANG LANG     LANG
null redirect command         NULLCMD
READNULLCMD
command search path PATH PATH PATH   PATH
prompt customization
main, secondary, select, trace
PS1 PS2 PS4   PS1 PS2 PS3 PS4   PS1 PS2 PS3 PS4
right prompt customization         RPS1 RPS2
terminal type TERM       TERM
timeout     TMOUT   TMOUT
system tmp directory     TMPDIR    
user   USER      

Arithmetic and Conditional Expressions

 bashfishkshtcshzsh
test command [ -e /etc ]
test -e /etc
[ -e /etc ]
test -e /etc
[ -e /etc ]
test -e /etc
  [ -e /etc ]
test -e /etc
true command true true true   true
false command false false false   false
conditional command [[ ]]   [[ ]]   [[ ]]
conditional expression       ( )  
arithmetic expansion $(( 1 + 1 )) math ‘1 + 1‘ $(( 1 + 1 ))   $(( 1 + 1 ))
floating point expansion none math ‘1.1 + 1.1‘ $(( 1.1 + 1.1 ))   $(( 1.1 + 1.1 ))
let expression let "var = expr"   let "var = expr"   let "var = expr"
external expression expr 1 + 1
expr 0 ‘<‘ 1
expr 1 + 1
expr 0 ‘<‘ 1
expr 1 + 1
expr 0 ‘<‘ 1
expr 1 + 1
expr 0 ‘<‘ 1
expr 1 + 1
expr 0 ‘<‘ 1
arithmetic command (( ))   (( ))   (( ))
eval while true; do
  read -p ‘$ ‘ cmd
  eval $cmd
done
  while true; do
  read cmd?‘$ ‘
  eval $cmd
done
while (1)
  echo -n ‘% ‘
  eval $<
end
while true; do
  read cmd\?‘$ ‘
  eval $cmd
done
        filetest  

Expressions are implemented as either command expressions which return an integer status like a command, or variable expressions which evaluate to a string. Command expressions return a status of 0 for true and a nonzero status for false. Only commands and command expressions can be used as the conditional in if, while, and until statements.

Expressions which support arithmetic only support integer arithmetic.

 [ ][[ ]]$(( ))(( ))( )exprmath
name test command conditional command arithmetic expansion arithmetic command conditional expression external expression  
used as command command argument command tcsh conditionals command fish expressions
word splitting? yes no          
expansions              
true anything but ‘‘ anything but ‘‘ 1 1 1 anything but ‘‘ or 0  
falsehoods ‘‘ ‘‘ 0 0 0 ‘‘ 0 ‘‘  
logical operators -a -o ! && || ! && || ! && || ! && || ! & | none  
regex comparison operator none =~ none none   str : regex  
string comparison operators = != == != none none == != = > >= < <= !=
but comparison is numeric if operands are digits
 
arithmetic comparison operators -eq -ne -lt -gt -le -ge -eq -ne -lt -gt -le -ge == != < > <= >= == != < > <= >= == != < > <= >= = > >= < <= !=  
arithmetic operators none none + - * / % ** + - * / % ** + - * / % + - * / %  
grouping \( \)   2 * (3 + 4)     use cmd substitution, ie. for bash:
expr 2 \* $(expr 3 + 4)
 
assignment none none $(( n = 7 ))
echo $n
(( n = 7 ))
echo $n
     
compound assignment none none += -= *= /= %=
and others
+= -= *= /= %=
and others
     
comma and increment none none $(( n = 7, n++ ))
echo $n
(( n = 7, n++ ))
echo $n
     
bit operators none none << >> & | ^ ~ << >> & | ^ ~ << >> & | ^ ~    
file tests -e EXISTS?
-d DIR?
-f REGULAR_FILE?
-(h|L) SYMLINK?
-p NAMED_PIPE?
-r READABLE?
-s NOT_EMPTY?
-w WRITABLE?
-x EXECUTABLE?
-S SOCKET?
           

name

The name of the expression.

test command

conditional command

conditional expression

arithmetic expansion

let expression

external expression

arithmetic command

An arithmetic command can be used to test whether an arithmetic expression is zero.

Supports the same type of expressions as $(( )).

true command

A no-op command with an exit status of 0. One application is to create an infinite loop:

while true; do
  echo "Are we there yet?"
done

false command

A no-op command with an exit status of 1. One application is to comment out code:

if false; then
  start_thermonuclear_war
fi

eval

How to evaluate a string as a shell command.

Arrays

 bashfishkshtcshzsh
declare typeset -a var none none none typeset -a var
list all arrays typeset -a none none none typeset -a
literal a=(do re mi) set a do re mi a=(do re mi) set a = (do re mi) a=(do re mi)
lookup ${a[0]} $a[1] ${a[0]} ${a[1]} ${a[1]}
$a[1]
negative index lookup returns last element:
${a[-1]}
returns last element:
$a[-1]
returns last element:
${a[-1]}
none returns last element:
${a[-1]}
slice ${a[@]:2:3}
${a[*]:2:3}
$a[(seq 2 3)] ${a[@]:1:2}
${a[*]:1:2}
${a[2-3]} $a[2,3]
update a[0]=do
a[1]=re
a[2]=mi
set a[1] do
set a[2] re
set a[3] mi
a[0]=do
a[1]=re
a[2]=mi
set a[1] = do
set a[2] = re
set a[3] = mi
a[1]=do
a[2]=re
a[3]=mi
out-of-bounds behavior lookup returns empty string

update expands array; array can have gaps
error message and nonzero exit status

update expands array; in-between
slots get empty strings
lookup returns empty string

update expands array; array can have gaps
lookup and update both produce
error message and nonzero exit status
lookup returns empty string

update expands array; in-between
slots get empty strings
size highest index:
${#a[@]}
${#a[*]}
count $a highest index:
${#a[@]}
${#a[*]}
${#a} ${#a}
${#a[@]}
${#a[*]}
list indices can contain gaps:
${!a[@]}
${!a[*]}
(seq (count $a)) can contain gaps:
${!a[@]}
${!a[*]}
`seq ${#a}` $(seq ${#a})
regular reference return first element return all elements joined by space return first element return all elements joined by space return all elements joined by space
regular assignment assigns to 0-indexed slot convert array to regular variable assigns to 0-indexed slot convert array to regular variable convert array to regular variable
delete element unset a[0] set -e a[1]
re is now at index 1
    a[0]=()
delete array unset a[@]
unset a[*]
set -e a     unset -v a
pass each element as argument cmd "${a[@]}" cmd $a cmd "${a[@]}"   cmd "${a[@]}"
pass as single argument cmd "${a[*]}" cmd "$a" cmd "${a[*]}"   cmd "${a[*]}"

Shell arrays are arrays of strings. In particular arrays cannot be nested.

Arrays with one element are for the most part indistinguishable from a variable containing a nonempty string. Empty arrays are for the most part indistinguishable from a variable containing an empty string.

In the case of bash or zsh, it is possible to tell whether the variable is an array by seeing whether it is listed in the output of typeset -a.

declare

bash and zsh allow one to declare an array. This creates an empty array. There doesn‘t appear to be any need to do this, however,

list all arrays

literal

bash and zsh us parens to delimit an array literal. Spaces separate the elements. If the elements themselves contain spaces, quotes or backslash escaping must be used.

lookup

update

out-of-bounds behavior

size

list indices

regular reference

regular assignment

delete value

Deleting elements from a bash array leaves gaps. Deleting elements from a zsh arrays causes higher indexed elements to move to lower index positions.

delete array

Associative Arrays

 bashfishkshtcshzsh
declare typeset -A var none none none typeset -A var
list all associative arrays typeset -A none none none typeset -A
assign value foo[bar]=baz none none none foo[bar]=baz
lookup ${foo[bar]} none none none ${foo[bar]}
list indices ${!foo[@]}
${!foo[*]}
none none none  
delete value unset "foo[bar]" none none none unset "foo[bar]"
delete array unset "var[@]" none none none unset -v foo

Associative arrays were added to bash with version 4.0.

Functions

 bashfishkshtcshzsh
define with parens foo() {
  echo foo
}
none foo() {
  echo foo
}
none foo() {
  echo foo
}
define with keyword function foo {
  echo foo
}
function foo
  echo foo
end
function foo {
  echo foo
}
none function foo {
  echo foo
}
define with doc string   function foo -d ‘echo foo‘
  echo foo
end
     
edit function definition   funced foo     in .zshrc:
autoload -U zed

^J when done:
zed -f foo
parameters $1, $2, $argv[1], $argv[2], $1, $2, none $1, $2,
number of parameters $# (count $argv) $# none $#
return false() {
  return 1
}
function false
  return 1
end
false() {
  return 1
}
none false() {
  return 1
}
return values {0, , 255} {0, , 2**31 - 1}

negative values result in return value of "-"

values above 2**31 - 1 cause error
{0, , 255} none {-2**31, , 2**31 - 1}

other integers converted to one of the above values by modular arithmetic
local variables foo() {
  local bar=7
}

variables set without the local keyword are global
function foo
  set -l bar 7
end

without the -l flag, the the variable will
be global if already defined, otherwise local
none none foo() {
  local bar=7
}

variables set without the local keyword are global
list functions typeset -f | grep ‘()‘ functions   none typeset -f | grep ‘()‘
show function typeset -f func functions func typeset -f func   typeset -f func
delete function unset -f func functions -e func unset -f func none unset -f func
unfunction foo

define with parens

How to define a function.

POSIX calls for parens in the declaration, but parameters are not declared inside the parens, nor are parens used when invoking the function. Functions are invoked with the same syntax used to invoke external commands. Defining a function hides a built-in or an external command with the same name, but the built-in or external command can still be invoked with the builtin or command modifiers.

define with keyword

How to define a function using the function keyword.

define function with doc string

edit function definition

parameters

The variables which hold the function parameters.

Outside of a function the variables $1, $2, … refer to the command line arguments provided to the script.

$0 always refers the name of the script in a non-interactive shell.

number of parameters

The variable containing the number of function parameters which were provided.

Outside of a function $# refers to the number of command line arguments.

return

If a function does not have an explicit return statement then the return value is the exit status of the last command executed. If no command executed the return value is 0.

return values

Shell functions can only return integers. Some shells limit the return value to a single byte. This is all the information one can get from the exit status of an external process according to the POSIX standard.

If a shell function needs to return a different type of value, it can write it to a global variable. All variables are global by default. The value in one of the parameters can be used to determine the variable to which the return value will be written. Consider this implementation of setenv:

setenv() {
  eval $1=$2
}

local variables

How to declare and set a local variable.

Local variables are normally defined inside a function. bash throws an error when an attempt is made to define a local outside a function, but dash and zsh do not.

Local variables have lexical, not dynamic scope. If a function recurses, locals in the caller will not be visible in the callee.

list functions

How to list the user defined functions.

typeset -f without an argument will show all function definitions.

bash and zsh always the function definitions with the paren syntax, even if the function keyword syntax was used to define the function.

show function

How to show the definition of a function.

delete function

How to remove a user defined function.

Command Resolution

 bashfishkshtcshzsh
alias:

define, list, remove, define suffix alias
alias ll=‘ls -l‘
alias
unalias ll
none
alias ll ‘ls -l‘
functions
function -e ll
none
alias ll=‘ls -l‘
alias
unalias ll
none
alias ll ls -l
alias
unalias ll
none
alias ll=‘ls -l‘
alias -L
unalias ll
alias -s txt=cat
built-ins:

run, list, help, enable, disable
builtin cmd
enable -a
help cmd
enable cmd
enable -n cmd
builtin cmd
builltin -n
cmd --help
none
none
builtin cmd
none
none
none
none
none
builtins
none
none
none
builtin cmd
none
type command name; then M-h
enable cmd
disable cmd
run external command command cmd command cmd command cmd   command cmd
run with explicit environment env -i var=valcmd args
external command hashes:

list, set, delete from, clear, rebuild
hash
none
hash -d cmd
hash -r
none
does not cache command paths alias -t
alias -t cmd=path
none
alias -r
none
none
none
none
rehash
none
hash
hash cmd=path
unhash
hash -r
hash -f
command type type cmd type cmd type cmd   type cmd
command path command -v cmd   whence cmd command -v cmd
which cmd
command -v cmd
which cmd
whence cmd
command paths       where cmd where cmd
which -a cmd

alias

Alias expansion is done after history expansion and before all other expansion. A command can be expanded by multiple aliases. For example the following will echo "baz":

alias bar=echo "baz"
alias foo=bar
foo

On the other hand the shells seem smart enough about aliasing to not be put into an infinite loop. The following code causes an error "foo not found":

alias foo=bar
alias bar=foo
foo

Alias definitions are not registered until an entire line of input is read. The following code causes an error "lshome not found":

alias lshome=‘ls ~‘; lshome

User defined functions can replace aliases in the shells which have them; i.e. all shells except tcsh.

The Korn shell has a feature called tracked aliases which are identical to the external command hashes of the other shells.

built-ins

run external command

When resolving commands, user-defined functions take precedence over external commands. If a user-defined function is hiding an external command, the command modifier can be used to run the latter.

run with explicit environment

How to run a command with an explicit environment. env -i clears the environment of exported variables and only provides the external command with the environment variables that are explicitly specified. If the -i option is not specified then the environment is not cleared, which in many cases is no different than if the command had been run directly without the env command. The env command without the -i option is used in shebang scripts to avoid hard-coding the path of the interpreter.

Multiple environment variables can be set with the env command:

env -i VAR1=VAL1 VAR2=VAL2 ... CMD

external command hashes

External command hashes are a mapping from command names to paths on the file system.

The Korn Shell calls external command hashes "tracked aliasaes", and ksh defines hash as an alias for alias -t.

command type

Determine what type a command is. The possible types are alias, shell function, shell builtin, or a path to an external command. If the command is not found an exit status of 1 is returned.

command path

Return the absolute path for an external command. For shell functions and shell builtins the name of the command is returned. For aliases the statement used to define the alias is returned. If the command is not found an exit status of 1 is returned.

command paths

Arguments and Options

 bashfishkshtcshzsh
execute command and exit $ bash -c ‘echo foo‘ $ fish -c ‘echo foo‘ $ ksh -c ‘echo foo‘ $ tcsh -c ‘echo foo‘ $ zsh -c ‘echo foo‘
usage $ bash --help $ fish --help   $ tcsh --help $ zsh --help
interactive shell $ bash -i $ fish -i $ ksh -i $ tcsh -i $ zsh -i
login shell $ bash -l
$ bash --login
$ fish -l
$ fish --login
$ ksh -l $ tcsh -l $ zsh -l
$ zsh --login
make posix compliant $ bash --posix        
restricted mode $ bash -r
$ bash --restricted
  $ ksh -r   $ zsh -r
$ zsh --restricted
show version $ bash --version $ fish --version   $ tcsh --version $ zsh --version
shift positional parameters:

by one, by n
shift
shift n
  shift
shift n
shift
none
shift
shift n
set positional parameters set -- arg …   set -- arg …   set -- arg …
getopts getopts opts var   getopts opts var   getopts opts var

options can be set by the script using set. Also set -o (bash) and pipefail.

execute command and exit

Shell executes a single command which is provided on the command line and then exits.

usage

Shell provides list of options and exits.

interactive shell

An interactive shell is one that is not provided a script when invoked as an argument or is not invoked with the -c option. The -i option makes a script interactive regardless. Typically an interactive shell gets its input from and sends its output to a terminal. An interactive shell ignores SIGTERM and will handle but not exit when receiving a SIGINT. Interactive shells display a prompt and enable job control. In an interactive shell the octothorpe # causes a syntax error, unlike in non-interactive shells where it is treated as the start of a comment.

login shell

A login shell is a special type of interactive shell. It executes different startup files and will also execute any logout files. When it exits it sends a SIGHUP to all jobs. (is this true?) A login shell ignores the suspend built-in.

make posix compliant

Change the behavior of the shell to be more POSIX compliant.

restricted mode

Shell runs in restricted mode.

show version

Show version and exit.

shift positional parameters

Outside of a function shift operates on the command line arguments. Inside a function shift operates on the function arguments.

set positional parameters

How to set the positional parameters from within a script.

getopts

How to process command line options.

getopts operates on the positional parameters $1, $2, …

The first argument to getopts is a word specifying the options. The options are single characters which cannot be ‘:‘ or ‘?‘. The colon ‘:‘ indicates that the preceding letter is an option which takes an argument. If an option is encountered which is not in the option word, getopts sets the variable to ‘?‘.

while getopts a:b:c:def OPT
do
    case $OPT in
        a) OPTA=$OPTARG ;;
        b) OPTB=$OPTARG ;;
        c) OPTC=$OPTARG ;;
        d) OPTD=1 ;;
        e) OPTE=1 ;;
        f) OPTF=1 ;;
    esac
done

Execution Control

 bashfishkshtcshzsh
negate exit status ! cmd not cmd ! cmd   ! cmd
no-op command :   : : :
break break break break break break
case case arg in
pattern) cmd;;

*) cmd;;
esac
switch arg
  case pattern …
    cmd
    
  
  case ‘*‘
    cmd
    
end
case arg in
pattern) cmd;;

*) cmd;;
esac
switch (arg)
case pattern:
  cmd
  
  breaksw

default:
  cmd
  
  breaksw
endsw
case arg in
pattern) cmd;;

*) cmd;;
esac
continue continue continue continue continue continue
for for var in arg …
do
  cmd
  
done
for var in arg …
  cmd
  
end
for var in arg …
do
  cmd
  
done
foreach var (arg …)
  cmd
  
end
for var in arg …
do
  cmd
  
done
goto       goto label  
if if test
then
  cmd
  
elif test
then
  cmd
  
else
  cmd
  
fi
if test
  cmd
  
else if test
  cmd
  
else
  cmd
  
end
if test
then
  cmd
  
elif test
then
  cmd
  
else
  cmd
  
fi
if (expr) then
  cmd
  
else if (expr) then
  cmd
  
else
  cmd
  
endif
if test
then
  cmd
  
elif test
then
  cmd
  
else
  cmd
  
fi
repeat       repeat count cmd repeat count do
  cmd
  
done
select select var in arg …
do
  cmd
  
done
  select var in arg …
do
  cmd
  
done
  select var in arg …
do
  cmd
  
done
until until test
do
  cmd
  
done
  until test
do
  cmd
  
done
  until test
do
  cmd
  
done
while while test
do
  cmd
  
done
while test
  cmd
  
end
while test
do
  cmd
  
done
while (expr)
  cmd
  
end
while test
do
  cmd
  
done

negate exit status

How to run a command and logically negate the exit status. This can be useful if the command is run as the conditional of a if statement.

The ! precommand modifier converts a zero exit status to 1 and a nonzero exit status to 0.

The ! must be separated from the command by whitespace, or it will be interpreted by the shell as a history substitution.

no-op command

break

Exits the enclosing for, select, until, or while loop.

case

The syntax for a switch statement.

Default clauses, which are indicated by the * pattern in most shells, are optional.

continue

Go to the next iteration of the enclosing for, select, until, or while loop.

for

A loop for iterating over a list of arguments.

zsh has alternate syntax which uses parens instead of the in keyword:

for VAR (ARG ...)
do
  CMD
  ...
done

goto

tcsh supports the goto statement. The target the first line containing just the label followed by a colon. Here‘s an example:

#/bin/tcsh
goto foo
echo "goto doesn‘t work!"
exit -1
foo:
echo "goto works"

if

The if statement.

The test which is the argument of if or elif can be any simple command, pipeline, or list of commands. The test executes and if the exit status is zero the corresponding clause is also executed.

Often the test which is the argument of if or elif will be one of the test operators: test, [ ], [[ ]], or (( )).

The elif and else clauses are optional.

tcsh:

The argument of if and elif clauses must be an expression inside parens. Unlike the other shells it cannot be an arbitrary command. One can think of expressions as being built-in to the tcsh shell language rather than being delegated to specialized (albeit built-in) commands such as test and [ ].

Note that the then keyword must be on the same line as the conditional expression. This is different from the POSIX syntax where the then keyword is separated from the test command by a newline or semicolon.

The else if and else clauses are optional.

tcsh has the following syntax for conditionally executing a single command:

if (EXPR) CMD

repeat

Here are a couple of ways to do something 10 times if you aren‘t using tcsh. Neither technique is POSIX compliant, however:

for i in `seq 1 10`; do echo "la"; done

for i in {1..10}; do echo "la"; done

select

The select statement creates a numbered menu inside an infinite loop. Each time the user selects one of the numbers the corresponding command is executed. The user can use ^D or EOF to exit the loop.

On each iteration var is set to the value corresponding to the number the user chose. The break keyword can be used to give the user a numbered option for exiting the loop.

until

The remarks above on if conditions also apply to the until loop condition.

while

The remarks above on if conditions also apply to the while loop condition.

Redirection

 bashfishkshtcshzsh
stdin from file tr a-z A-Z < file tr a-z A-Z < file tr a-z A-Z < file tr a-z A-Z < file tr a-z A-Z < file
stdout to file ls > file ls > file ls > file ls > file ls > file
stderr to file ls /not_a_file 2> file s /not_a_file 2> file ls /not_a_file 2> file none ls /not_a_file 2> file
stdout and stderr to file ls > file 2>&1 ls > file 2>&1 ls > file 2>&1 ls >& file ls > file 2>&1
append stdout to file ls >> file ls >> file ls >> file ls >> file ls >> file
append stderr to file ls 2>> file ls 2>> file ls 2>> file none ls 2>> file
append stdout and stderr to file ls >> /tmp/bash.out 2>&1 ls >> /tmp/bash.out 2>&1 ls >> /tmp/bash.out 2>&1 ls >>& file ls >> /tmp/zsh.out 2>&1
stdout to pipe ls | wc ls | wc ls | wc ls | wc ls | wc
sdout and stderr to pipe ls 2>&1 | wc ls 2>&1 | wc ls 2>&1 | wc ls |& wc ls 2>&1 | wc
stdin from here-document wc << EOF
do
re
mi
EOF
none wc << EOF
do
re
mi
EOF
wc << EOF
do
re
mi
EOF
wc << EOF
do
re
mi
EOF
stdin from here-string wc <<< "do re mi" none wc <<< "do re mi" none wc <<< "do re mi"
tee stdout ls | tee file | wc ls > file | wc
stdout to two files ls | tee file1 | tee file2 > /dev/null ls > file1 > file2
turn on noclobber set -o noclobber   set -o noclobber set noclobber set -o noclobber
clobber file anyways ls >! /tmp/exists.txt   ls >! /tmp/exists.txt ls >! /tmp/exists.txt ls >! /tmp/exists.txt
turn off noclobber set +o noclobber   set +o noclobber unset noclobber set +o noclobber

A gap in the above chart is how to redirect just stderr to a pipe. One would guess by analogy with 2> and 2>> that this might work:

$ ls 2| wc

However, none of the shells support it. The correct syntax is:

$ ls 3>&1 1>&2 2>&3 | wc

The 3>&1 is equivalent to the C system call dup2(1, 3). This makes file descriptor 3 a copy of file descriptor 1.

The 1>&2 is equivalent to the C system call dup2(2, 1). This changes what file descriptor 1 writes to, but does not change what file descriptor 3 writes to, even though file descriptor 3 was initially a copy of file descriptor 1. The shell processes the redirect statements from left to right. Also note that the 1 could be omitted: 1>&2 and >&2 are the same.

zsh only supports file descriptors 0 through 9, but bash supports higher numbered file descriptors. The shell always opens file descriptors 0, 1, and 2, commonly called stdin, stdout, and stderr, for each simple command that it invokes. If additional file descriptors are specified, those are also passed to the command. For example, if foo were invoked as:

$ foo 3> /tmp/bar.txt

then it could contain a system call which writes to file descriptor 3 without opening it first, e.g.

write(3, msg, strlen(msg));

Paths in the /dev directory can be used in place of &1, &2, …

$ ls 3> /dev/fd/1 1> /dev/fd/2 2> /dev/fd/3 | wc

$ ls 3> /dev/stdout 1> /dev/stderr 2>&3 | wc

tcsh:

It is possible to redirect stdout and stderr to different files:

$ ( ls > /tmp/stdout.txt ) >& /tmp/stderr.txt

Echo and Read

 bashfishkshtcshzsh
echo
with newline, without newline
echo arg …
echo -n arg …
echo arg …
echo -n arg …
echo arg …
echo -n arg …
echo arg …
echo -n arg …
echo arg …
echo -n arg …
printf printf fmt arg … printf fmt arg … printf fmt arg … printf fmt arg … printf fmt arg …
read

read values separated by IFS; with prompt; without backslash escape
read var …
read -p str var
read -r var …
read var …
read -p ‘echo strvar
read var …
read var?str
read -r var …
echo -n str
set var=$<
read var …
read var\?str
read -r var …

echo

How to echo the arguments separated by spaces and followed by a newline; how to suppress the trailing newline.

The POSIX standard says that echo should not have any options. It also says, perhaps contradicting itself, that if the first argument is -n then the behavior is implementation dependent.

The POSIX standard also says that if any of the arguments contain backslashes, then the behavior is implementation dependent. Historically implementations have used the -E and -e options to enable or disable the interpretation of C-style backslash escape sequences.

fish provides an -s option for printing the arguments without spaces in-between.

Because if the ill-defined behavior of echo, POSIX-compliant scripts use printf instead.

printf

printf is an external command line tool, though zsh also has a built-in version.

man 3 printf

Like its counterpart from the C standard library, printf does not write a newline to stdout unless one is specified in the format using a backslash escape sequence.

Unfortunately, the supported backslash ecscapes are system dependent, though some of them are mandated by POSIX:

 posixbsdgnu
backslash escapes \a \b \c \f \n \r \t \v \\
\o \oo \ooo
\a \b \c \f \n \r \t \v \\ \‘
\o \oo \ooo
\a \b \c \e \f \n \r \t \v \\ \"
\o \oo \ooo \xhh \uhhhh \Uhhhhhhhh

An interesting backslash escape is \c, which causes the rest of the format to be ignored.

In a printf format, format specifiers are of the form %d, %f and %s.

 posixbsdgnu
format specifiers   diouxX
fFaAeEgG
csb
diouxX
feEgG
csb

format specifiers; many of which are useless in this context because of fewer types

how invalid arguments are handled

%%

extra specifiers with floats

extra specifiers with strings

read

How to read a line of input into one or more variables.

When multiple variables are specified the value of IFS which by default contains the whitespace characters is used to split the input. If there are fewer variables than split values, then the last variable will contain a concatenation of the remaining values with their original separators. If there are fewer values then the extra variables are set to the empty string.

bash and dash use the -p option to set a prompt. ksh and zsh use a ?str suffix appended to the first variable to set the prompt.

fish uses the -p option, but it evaluates the string to produce the prompt. This makes it possible to set the color of the prompt:

read -p ‘set_color green; echo -n "> "; set_color normal‘ foo

The user can put a backslash in front of a newline to split the input up over multiple lines. The backslash and newline are stripped from the input. The user can put backslash into the variable by entering two backslashes. The -r option disables this feature, allowing the user to enter literal backslashes with a single keystroke.

tcsh gets input from the user by reading from the special variable $<. Backslashes are always interpreted literally.

Files and Directories

 bashfishkshtcshzsh
change current directory

change dir, to home dir, to previous dir, show physical dir, no symlink dir
cd dir
cd
cd -
cd -P dir
none
cd dir
cd
cd -
none
none
cd dir
cd
cd -
cd -P dir
none
cd dir
cd
cd -
none
none
cd dir
cd
cd -
cd -P dir
cd -s dir
directory stack:

push, pop, list
pushd dir
popd
dirs
pushd dir
popd
dirs
  pushd dir
popd
dirs
pushd dir
popd
dirs
print current directory pwd pwd pwd pwd pwd
source source file arg …
. file arg …
source file
. file
source file arg …
. file arg …
source file arg … source file arg …
. file arg …
umask

set umask in octal, in symbolic chmod format; show umask in octal, in symbolic chmod format
umask 022
umask g-w,o-w
umask
umask -S
umask 022
umask g-w,o-w
umask
umask -S
umask 022
umask g-w,o-w
umask
umask -S
umask 022
none
umask
none
umask 022
umask g-w,o-w
umask
umask -S

change current directory

Change the current directory to the specified directory. If the directory starts with a slash ‘/‘ then it is taken to be an absolute path. If it does not it is treated as a relative path and CDPATH is used as a colon separated list of starting directories. By default CDPATH is empty in which case the current directory ‘.‘ is used as a starting point. See also the section on tilde expansion.

If there is no argument then the current directory is changed to $HOME.

If the argument is a hyphen ‘-‘ then the current directory is changed to $OLDPWD which is the most recent former current directory.

When the -P option is used, PWD will be set to the physical path of the current directory; i.e. any symbolic links will be resolved. If the current directory is being displayed in the prompt this will also be set the physical path.

zsh:

When the -s option is used, attempting to change directory into a path containing symlinks will fail.

directory stack

Push a directory provided as an argument onto the directory stack. The directory becomes the current directory.

Pop a directory off the directory stack. The popped directory becomes the current directory.

List the directory stack.

print current directory

Show the current directory. The same as executing:

echo $PWD

source

The source built-in executes the commands in another file using the current shell process and environment.

Some shells have a non-POSIX feature which allows arguments to be passed to the file being sourced; i.e. the following invocation would set $1, $2, and $3 to bar, baz, and quux while executing foo.sh:

source foo.sh bar baz quux

The . syntax is part of the POSIX standard, but the source syntax is not.

The file to be sourced may be specified with an absolute path. Some shells will also search the working directory or PATH for the file to be sourced:

 bashfishkshtcshzsh
searches working directory yes yes no yes . no, source yes
searches PATH yes no no no yes

umask

Set the shell file mode creation mask. umask is a POSIX syscall.

The mask consists of 3 octal digits which apply to the user, group, and other permissions respectively. Each octal digit contains 3 bits of information. In order of most to least significant the bits apply to the read, write, and execute permissions.

Setting a bit in the mask guarantees that the corresponding bit in the file permissions will not be set when a file is created. The logic for computing the file permissions can be expressed with the following shell code:

mask=8#022
perms=8#777

printf "0%o\n" $(( $perms & ~ $mask ))

Here is the same logic in C code:

unsigned int mask = 0022;
unsigned int perms = 0777;

printf("%o\n", perms & ~mask);

If umask is given a numeric argument it is always interpreted as octal; a leading zero is not required.

umask also supports the symbolic notation used by chmod. In this case the argument is one or more 3 character sequences of the format [agou][-+][rwx] separated by commas.

Process and Job Control

 bashfishkshtcshzsh
run job in background bg bg bg bg bg
protect job from hangup signal disown does not SIGHUP background jobs on exit disown   disown
execute file exec [-c] exec exec exec exec
exit exit [n] exit exit exit exit
bye
run job in foreground fg fg fg fg fg
        hup  
list jobs jobs [-lnprs] jobs jobs jobs jobs
send signal kill external, but …
kill
kill kill kill
        limit limit
        login  
  logout     logout logout
        nice  
        nohup  
        onintr  
        sched sched
      sleep    
        stop  
  suspend   suspend suspend suspend
      time time time
  times   times   times
  trap trap trap   trap
  ulimit   ulimit   ulimit
    ulimit   unlimit unlimit
  wait   wait wait wait
 ______________________________________________________________________________________________________________

xargs splits standard input on spaces and newlines and feeds the arguments to argument of xargs which is executed as a command. The input delimiter can be changed to null characters with the -0 flag (useful with find -print0) or to the value of the -d flag argument.

By default if the length of the input is more than 4096 characters the input will be broken up and the command run multiple times. This number can be increased with the -s flag up to system configuration variable ARG_MAX. It is also possible to call the command multiple times feeding it a prescribed number of arguments each time using the -n flag. The -t flag will write to standard error the command that is being invoked and its arguments before each invocation.

The -P flag can be used to for parallelization. The argument is the max number of simultaneous processes.

run job in background

protect job from hangup signal

execute file

History

history commands
 bashfishkshtcshzsh
command history:

list recent, list all, list with time, unnumbered list
fc -l
history
set HISTTIMEFORMAT
fc -ln
history | nl | head
history | nl
cat ~/.config/fish/fish_history
history
??
fc -l 1
none
??
history 15
history
history -T
none
history
history 1
history -f
history -n
command history:

run, find and run
!num
fc -s str
  r num
fc -s
none
none
!num
??
command history:

delete from history, clear history
history -d num
history -c
  none
none
none
history -c
none
none
command history:

fix, find and substitute
fc num
fc -s old=new str
  fc num
fc -s old=new str
  fc num
none
command history:

write to file, append to file, read from file
history -w path
history -a path
history -r path
      fc -W path
fc -A path
fc -R path

command history: listing

How to list recent commands; how to list all commands; how to list commands with the time they were run.

command history: running

How to run a command in the history by command number; how to run the most recent command in the history matching a prefix.

command history: deleting

How to delete a command from the history by command number; how to clear the command history.

command history: fixing

Use the following syntax to edit commands from the history list and run them:

fc [-e EDIT_CMD] [-r] [FIRST [LAST]]

If EDIT_CMD is not specified, the value in the FCEDIT or EDITOR environment variable is used.

If FIRST and LAST are specified, these indicate the numbers of the range of commands to edit. If FIRST is specified but LAST is not, only that command at that number is edited and run. If neither is specified the last command is edited and run.

The -r flag reverses the order of the commands.

To simply list commands the following flags can be used:

fc -l[r] [FROM]
fc -l[r] -NUMBER_CMDS

If neither FROM nor -NUMBER_CMDS is specified the last 16 commands is printed. Use -NUMBER_CMDS (i.e. a negative number) to list the last NUMBER_CMDS commands. Use FROM (i.e. a positive number) to list all commands from FROM on.

The -r flag reverses the order of the commands

To rerun a recent command without editing it use:

fc -s [PAT=REP] [START_OF_CMD]

If START_OF_CMD is specified the last command that starts with START_OF_CMD will be run. If START_OF_CMD is not specified the last command will be run.

If PAT=REP is specified then each occurrence of PAT will be replaced with REP in the command before it is run.

ksh:

hist is a synonym for fc with the sole difference that HISTEDIT is the environment variable that determines the editor instead of FCEDIT.

zsh:

r is an alias for fc -s

command history file

history expansion
 bashfishkshtcshzsh
most recent command !! none none !! !!
n-th command !n none none !n !n
most recent command starting with str !str none none !str !str
most recent command with substitution ^pattern^replacement none none ^pattern^replacement ^pattern^replacement
nth command with substitution !n:s/pattern/replacement/ none none !n:s/pattern/replacement/ !n:s/pattern/replacement/
n-th command with global substitution !n:gs/pattern/replacement/ none none !n:gs/pattern/replacement/ !n:gs/pattern/replacement/
most recent arguments !* none none   !*
first of most recent arguments !:1 none none   !:1
range of most recent arguments !:n-m none none   !:n-m
last of most recent arguments !$ none none   !$
most recent command without arguments !:0 none none   !:0
m-th argument of n-th command !n:m none none   !n:m
history file
 bashfishkshtcshzsh
location HISTFILE=~/.bash_history ~/.config/fish/fish_history HISTFILE=~/.ksh_history set histfile ~/.tcsh_history HISTFILE=~/.zsh_history
memory size HISTSIZE=2000   HISTSIZE=2000   HISTSIZE=2000
file size HISTFILESIZE=2000     set savehist=2000 SAVEHIST=2000
format lines of input        
timestamps HISTTIMEFORMAT=%s      
update time on exit       on exit
update method appends to file;
to only keep most recent dupe:

HISTCONTROL=erasedups
    appends to file;
to sort in memory file and most recent by timestamp and only keep the most recent, use:

set savehist=2000 merge
 
ignore HISTIGNORE=history:whoami        

Key Bindings

 bashfishkshtcshzsh
list keybindings bind -P bind   bindkey bindkey
list keymaps help bind none   none bindkey -l
current keymap name bind -V | grep keymap none   none  
change keymap bind ‘set keymap emacs‘ none   none bindkey -A emacs main
list bindable functions bind -l bind -f   bindkey -l  
bind key to function bind C-a:beginning-of-line bind \ca beginning-of-line      
restore default binding for key          

bash and zsh have keymaps

how to create a new keymap with zsh

alternate fish syntax referring to keys

Startup Files

 bashfishkshtcshzsh
non-interactive shell startup files $BASH_ENV ~/.config/fish/config.fish $ENV /etc/csh.cshrc
~/.tcshrc
~/.cshrc
/etc/zshenv
$ZDOTDIR/.zshenv
login shell startup files /etc/profile
~/.bash_profile
~/.bash_login
~/.profile
~/.config/fish/config.fish /etc/profile
~/.profile
$ENV
/etc/csh.login
~/.login
non-interactive startup files
/etc/zprofile
$ZDOTDIR/.zprofile
/etc/zshrc
$ZDOTDIR/.zshrc
/etc/zlogin
$ZDOTDIR/.zlogin
other interactive shell startup files ~/.bashrc ~/.config/fish/config.fish $ENV none non-interactive startup files
/etc/zshrc
$ZDOTDIR/.zshrc
login shell logout files ~/.bash_logout none none /etc/csh.logout
~/.logout
$ZDOTDIR/.zlogout
/etc/zlogout

bash:

When logging in bash will only execute one of ~/.bash_profile, ~/.bash_login, or ~/.profile. It executes the first file that exists.

fish:

The startup file .config/fish/config.fish is run by all shells. Here is how to put code in it which only executes at login:

if status --is-login
  set PATH $PATH ~/bin
end

How to define an exit handler:

function on_exit --on-process %self
  echo fish is exiting ...
end

Prompt Customization

 bashfishkshtcshzsh
set primary prompt PS1=‘$ ‘ function fish_prompt
  echo -n ‘$ ‘
end
PS1=‘$ ‘ set prompt=‘$ ‘ PS1=‘$ ‘
set continued line prompt PS2=‘> ‘ none PS2=‘> ‘ set prompt2=‘> ‘ PS2=‘> ‘
set select prompt PS3=‘? ‘ none PS=‘? ‘ none PS3=‘? ‘
set right prompt none function fish_right_prompt
  date
end
  set rprompt=‘%Y-%W-%D %p‘ RPS1=‘%D{%F %T}‘
set right continued line prompt none none   none RSP2=‘...‘
dynamic information
working directory none pwd   %/ %d
%/
working directory with tilde abbrev \w abbreviate path components other
than basename with single letter:

prompt_pwd
  %~ %~
trailing components of working directory       %3C %3d
command number in history \!   ! !
%!
%h
%!
%h
command number in session \#        
shell version \v        
shell level $SHLVL        
environment variable $var echo -n $var $var %$var $var
command substitution $(cmd)   $(cmd)   $(cmd)
host name \h
\H
      %m
%M
user \u     %n %n
number of jobs \j     %j %j
tty         %y
last command exit status       %? %?
conditional expression          
shell privilege indicator         %#
continued line info          
date and time \D{strftime_format}       %D{strftime_format}
text effects and escapes
escapes \\ \[ \]     %% %{ %} %% %{ %}
bold       %B %b %B %b
underline       %U %u %U %u
standout       %S %s %S %s
foreground color         %F{red} %f
background color         %K{green} %k

Most shells permit a user to customize the prompt by setting an environment variable. fish requires that the user define a callback function.

The primary prompt is the prompt the user sees the most often.

The continued line prompt is used when the user types an incomplete command. This can happen when there are open parens, braces, or quote in the command, or the user backslash escaped the newline.

The select prompt is used to prompt the user to make a multiple choice selection. It corresponds to the select execution control statement.

The right prompt appears at the far right side of the input line. If the user types enough input to need the space, the right prompt disappears.

dynamic information

bash, tcsh, and zsh provide a set of special character sequences for putting dynamic information in the prompt. In the case of bash the sequences start with a backslash and in the case of tcsh and zsh a percent sign.

bash, ksh, tcsh, and zsh will also perform variable expansion on anything that starts with a dollar sign and looks like a variable before each display of the prompt. bash, ksh, and zsh will also perform command substitution before each display of the prompt when they encounter the $( ) syntax in the prompt.

text effects and escapes

Autoload

fish:

zsh:

bash (1989)

bash

The Bourne Again shell is a GNU replacement for the Bourne shell. It can run almost all Bourne scripts and POSIX compliant scripts, and operating systems often use bash as /bin/sh. Because bash has many extensions it is not a good shell to use for determining POSIX compliance.

csh (1978)

csh

The C shell was written by Bill Joy and released as part of the second Berkeley Standard Distribution.

It introduced features that were widely adopted by other shells: history expansion, aliases, tilde notation, and job control.

The C shell was so named because it looked more like C than the Bourne shell. It still used keywords to mark off blocks instead of curly braces, but its expressions were delimited by parens instead of square brackets and relational operators such as < and <= could be used instead of -lt and -le. The Unix community nevertheless eventually chose a derivation of the Bourne shell as the standard scripting language and writing scripts for the C shell is not recommended.

The classic Macintosh operating system had a development environment called The Mac Programmer‘s Workbench. It included a shell that was derived from the C shell.

dash (2002)

dash

The Debian Almquist shell, dash, was originally a Linux port of the NetBSD Almquist shell, ash. It is POSIX compliant. It is also smaller than the other shells: on Ubuntu Linux the executable is about 100k whereas the other shells are in the 300k-900k range.

dash does not keep a command history or offer command line editing. It does have job control, though.

fish (2005)

Fish user documentation

ksh (1983)

ksh

The Korn shell added history and job control but otherwise stayed consistent with the Bourne shell. The POSIX standard for the shell was based on the Korn shell.

The Korn shell was proprietary software until 2000, which is why clones such as pdksh were written. Also, zsh can be used to emulate ksh; both Mac OS X and Ubuntu link ksh to zsh.

rc (1989)

The rc shell was released as part of 10th Edition Unix. It was also the Plan 9 shell.

sh

POSIX 2008

A succession of shells have been installed at /bin/sh which are known today by the engineers who implemented them: the Thompson shell, the Mashey shell, and the Bourne shell.

The Bourne shell appeared in 1977. It introduced the execution control structures that are used in most of the modern Unix shells. These control structures, with their distinctive reversed words for marking the end of blocks: fi and esac, were borrowed from Algol 68. However, where Algol 68 uses od the Bourne shell uses done. This was because a Unix command named od already existed. The Bourne shell also introduced arbitrary length variable names; the Mashey shell by contrast was limited to single letter variable names.

Whatever is installed at /bin/sh should probably be POSIX compliant. Mac OS X uses bash, which changes its behavior somewhat and operates in POSIX mode when invoked as sh. One can also get this behavior by invoking bash with the --posix flag.

Ubuntu makes /bin/sh a symlink to /bin/dash.

tcsh (1981)

tcsh

The TENEX C shell, tcsh, was upgraded version of the C Shell which added tab completion, a feature originally used in the TENEX operating system.

tcsh is backwardly compatible with csh and on many systems csh is simply a symlink to tcsh.

tcsh is the default shell on FreeBSD and it was the default shell on Mac OS X until version 10.3 was introduced in 2003.

Writing scripts in tcsh is not recommended for the same reasons writing scripts in csh is not recommended.

The following tcsh built-ins interact with the terminal settings:

  • echotc
  • settc
  • setty
  • telltc
  • termname

zsh (1990)

The Z shell, zsh, is documented by multiple man pages:

man pagetopics covered
zshall all topics in one man page
zsh startup files
zshoptions options
zshbuiltins built-ins
zshcompwid, zshcompsys tab completion
zshcompctl old tab completion system
zshexp history expansion; parameter expansion; process, tilde, command, and pathname expansion
zshmisc grammar; keywords; quoting; redirection; arithmetic and conditional expressions; prompt customization
zshparam special variables
zshzle readline

zsh has these builtins for managing the completion module:

  • comparguments
  • compcall
  • compctl
  • compdescribe
  • compfiles
  • compgroups
  • compquote
  • comptags
  • comptry
  • compvalues

The following zsh built-ins interact with the terminal settings:

  • echotc
  • echoti
  • getcap
  • ttyctl

Special zsh builtins:

  • autoload
  • zcompile
  • zformat
  • zmodload
  • zparseopts
  • zstyle
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Unix Shells: Bash, Fish, Ksh, Tcsh, Zsh

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原文地址:http://www.cnblogs.com/x113/p/4676949.html

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