====== tcsh ====== Source: https://learnxinyminutes.com/ #!/bin/tcsh # First line of the script is shebang which tells the system how to execute the # script: http://en.wikipedia.org/wiki/Shebang_(Unix) # TCSH emulates the shebang on systems which don't understand it. # In most cases you'll use `#!/bin/tcsh -f', because `-f' option does not load # any resource or start-up files, or perform any command hashing, and thus # starts faster. # --- the echo command -------------------------------------------------------- # The `echo' writes each word to the shell's standard output, separated by # spaces and terminated with a newline. The echo_style shell variable may be # set to emulate (or not) the flags and escape sequences. # Display the value of echo_style echo $echo_style # Enable `echo' to support backslashed characters and `-n' option (no new line) # This is the default for tcsh, but your distro may change it. Slackware has # done so. set echo_style = both # Prints "Hello world" echo Hello world echo "Hello world" echo 'Hello world' echo `echo Hello world` # This prints "twonlines" in one line echo two\nlines # Prints the two lines echo "two\nlines" echo 'two\nlines' # --- Basic Syntax ------------------------------------------------------------ # A special character (including a blank or tab) may be prevented from having # its special meaning by preceding it with a backslash `\'. # this will display the last history commands echo !! # this will not echo \!\! # Single quotes prevents expanding special characters too, but some # characters like `!' and backslash have higher priority # `$' (variable value) will not expands echo '$1 tip' # `!' (history) will expands echo '!!' # Strings enclosed by back-quotes will be executed and replaced by the result. echo `ls` # Semi-colon separate commands echo 'first line'; echo 'second line' # There is also conditional execution echo "Always executed" || echo "Only executed if first command fails" echo "Always executed" && echo "Only executed if first command does NOT fail" # Parenthesised commands are always executed in a subshell, # example: create a project and then informs you that it finished while # it does the installation. make && ( espeak "BOSS, compilation finished"; make install ) # prints the home directory but leaving you where you were (cd; pwd); pwd # Read tcsh man-page documentation man tcsh # --- Variables --------------------------------------------------------------- # The shell maintains a list of variables, each of which has as value a list of # zero or more words. The values of shell variables can be displayed and # changed with the `set' and `unset' commands. # The system maintains its own list of ``environment'' variables. # These can be displayed and changed with `printenv', `setenv' and `unsetenv'. # The syntax of setenv is similar to POSIX sh. # Assign a value or nothing will create a variable # Assign nothing set var # Assign a numeric value # the '@' denotes the expression is arithmetic; it works similar to 'set' but # the right value can be a numeric expression. @ var = 1 + 2 # Assign a string value set var = "Hello, I am the contents of 'var' variable" # Assign the output of a program set var = `ls` # Remove a variable unset var # Prints 1 (true) if the variable `var' exists otherwise prints 0 (false) echo $?var # Print all variables and their values set # Prints the contents of 'var' echo $var; echo "$var"; # Prints the string `$var' echo \$var echo '$var' # braces can be used to separate variable from the rest when its needed set num = 12; echo "There ${num}th element" # Prints the number of characters of the value: 6 set var = '123456'; echo $%var ### LISTs # Assign a list of values set var = ( one two three four five ) # Print all the elements: one two three four five echo $var echo $var[*] # Print the count of elements: 5 echo $#var # Print indexed element; prints the second element: two echo $var[2] # Print range of elements; prints 2nd up to 3rd: two, three echo $var[2-3] # Prints all elements starting from the 3rd: three four five echo $var[3-] # Prints print all up to 3rd element: one two three echo $var[-3] ### Special Variables # $argv list of command-line arguments # $argv[0] this file-name (the file of the script file) # $# $0, $n, $* are the same as $#argv, $argv[0], $argv[n], $argv[*] # $status, $? the exit code of the last command that executed # $_ the previous command line # $! the PID of the last background process started by this shell # $$ script's PID # $path, $PATH the list of directories that will search for executable to run # $home, $HOME user's home directory, also the `~' can be used instead # $uid user's login ID # $user user's login name # $gid the user's group ID # $group the user's group-name # $cwd, $PWD the Current/Print Working Directory # $owd the previous working directory # $tcsh tcsh version # $tty the current tty; ttyN for linux console, pts/N for terminal # emulators under X # $term the terminal type # $verbose if set, causes the words of each command to be printed. # can be set by the `-v' command line option too. # $loginsh if set, it is a login shell # TIP: $?0 is always false in interactive shells # TIP: $?prompt is always false in non-interactive shells # TIP: if `$?tcsh' is unset; you run the original `csh' or something else; # try `echo $shell' # TIP: $verbose this is useful to debugging scripts # NOTE: $PWD and $PATH are synchronised with $cwd and $pwd automatically. # --- Variable modifiers ------------------------------------------------------ # Syntax: ${var}:m[:mN] # Where is: # h : the directory t : the filenane r : remove extension e : the extension # u : uppercase the first lowercase letter # l : lowercase the first uppercase letter # p : print but do not execute it (hist) # q : quote the substituted words, preventing further substitutions # x : like q, but break into words at white spaces # g : apply the following modifier once to each word # a : apply the following modifier as many times as possible to single word # s/l/r/ : search for `l' and replace with `r', not regex; the `&' in the r is # replaced by l # & : Repeat the previous substitution # start with this file set f = ~/Documents/Alpha/beta.txt # prints ~/Documents/Alpha/beta echo $f:r # prints ~/Documents/Alpha echo $f:h # prints beta.txt echo $f:t # prints txt echo $f:e # prints beta echo $f:t:r # prints Beta echo $f:t:r:u # prints Biota echo $f:t:r:u:s/eta/iota/ # --- Redirection ------------------------------------------------------------- # Create file.txt and write the standard output to it echo 'this string' > file.txt # Create file.txt and write the standard output and standard error to it echo 'this string' >& file.txt # Append the standard output to file.txt echo 'this string' >> file.txt # Append the standard output and standard error to file.txt echo 'this string' >>& file.txt # Redirect the standard input from file.txt cat < file.txt # Input from keyboard; this stores the input line to variable `x' set x = $< # Document here; cat << LABEL ...text here... LABEL # TIP: this is how to get standard error separated: (grep 'AGP' /usr/src/linux/Documentation/* > output-file.txt) >& error-file.txt # example: read a name from standard input and display a greetings message echo -n "Enter your name? " set name = $< echo "Greetings $name" # --- Expressions ------------------------------------------------------------ # Operators: # == equal != not equal ! not # > greater than < less than >= greater or equal <= less or equal # && logical AND || logical OR if ( $name != $user ) then echo "Your name isn't your username" else echo "Your name is your username" endif # single-line form if ( $name != $user ) echo "Your name isn't your username" # NOTE: if $name is empty, tcsh sees the above condition as: # if ( != $user ) ... # which is invalid syntax # so the "safe" way to use potentially empty variables in tcsh is: # if ( "$name" != $user ) ... # which, when $name is empty, is seen by tcsh as: # if ( "" != $user ) ... # which works as expected # There is also conditional execution echo "Always executed" || echo "Only executed if first command fails" echo "Always executed" && echo "Only executed if first command does NOT fail" # To use && and || with if statements, you don't need multiple pairs of # square brackets: if ( "$name" == "Steve" && "$age" == 15 ) then echo "This will run if $name is Steve AND $age is 15." endif if ( "$name" == "Daniya" || "$name" == "Zach" ) then echo "This will run if $name is Daniya OR Zach." endif # String matching operators ( `=~' and `!~' ) # The ‘==’ ‘!=’ ‘=~’ and ‘!~’ operators compare their arguments as strings; # all others operate on numbers. The operators ‘=~’ and ‘!~’ are like ‘!=’ # and ‘==’ except that the right hand side is a glob-pattern against which # the left hand operand is matched. if ( $user =~ ni[ck]* ) echo "Greetings Mr. Nicholas." if ( $user !~ ni[ck]* ) echo "Hey, get out of Nicholas PC." # Arithmetic expressions are denoted with the following format: @ result = 10 + 5 echo $result # Arithmetic Operators # +, -, *, /, % # # Arithmetic Operators which must be parenthesised # !, ~, |, &, ^, ~, <<, >>, # Compare and logical operators # # All operators are same as in C. # It is non so well documented that numeric expressions require spaces # in-between; Also, `@' has its own parser, it seems that work well when the # expression is parenthesised otherwise the primary parser seems it is active. # Parenthesis require spaces around, this is documented. # wrong @ x = $y+1 @ x = 0644 & 022; echo $x @ x = (0644 & 022) +1; echo $x @ x = (0644 & 022)+ 1; echo $x @ x = ( ~077 ); echo $x # correct @ x = $y + 1 @ x = ( 0644 & 022 ) + 1; echo $x @ x = ( ~ 077 ); echo $x @ x = ( ~ 077 | 022 ); echo $x @ x = ( ! 0 ); echo $x # C's operators ++ and -- are supported if there is not assignment @ result ++ # None shell created to do mathematics; # Except for the basic operations, use an external command with backslashes. # # I suggest the calc as the best option. # (http://www.isthe.com/chongo/tech/comp/calc/) # # The standard Unix's bc as second option # (https://www.gnu.org/software/bc/manual/html_mono/bc.html) # # The standard Unix's AWK as third option # (https://www.gnu.org/software/gawk/manual/gawk.html) # You can also use `perl', `php' or even several BASICs, but prefer the # above utilities for faster load-and-run results. # real example: (that I answer in StackExchange) # REQ: x := 1001b OR 0110b # in `tcsh' expression (by using octal) @ x = ( 011 | 06 ); echo $x # the same by using `calc' (and using binary as the original req) set x = `calc '0b1001 | 0b110'`; echo $x # --- File Inquiry Operators -------------------------------------------------- # NOTE: The builtin `filetest' command do the same thing. #### Boolean operators # -r read access -w write access -x execute access -e existence # -f plain file -d directory -l symbolic link -p named pipe # -S socket file # -o ownership -z zero size -s non-zero size # -u SUID is set -g SGID is set -k sticky is set # -b block device -c char device # -t file (digit) is an open file descriptor for a terminal device # if the file `README' exists, displays a message if ( -e README ) echo "I have already README file" # if the `less' program is installed, use this instead of `more' if ( -e `where less` ) then alias more 'less' endif #### Non-boolean operators # -Z returns the file size in bytes # -M returns the modification time (mtime) -M: returns mtime string # -A returns the lass access time (atime) -A: returns atime string # -U returns the owners user ID -U: returns the owners user-name # -G returns the group ID -G: returns the group-name # -P returns the permissions as octal number -Pmode returns perm. AND mode # this will display the date as Unix-time integer: 1498511486 filetest -M README.md # This will display "Tue Jun 27 00:11:26 2017" filetest -M: README.md # --- Basic Commands ---------------------------------------------------------- # Navigate though file system with `chdir' (cd) cd path # change working directory cd # change to home directory cd - # change to previous directory cd .. # go up one directory # Examples: cd ~/Downloads # go to my `Downloads' directory # Use `mkdir` to create new directories. mkdir newdir # The `-p` flag causes new intermediate directories to be created as necessary. mkdir -p ~/.backup/saves # which & where # find if csh points to tcsh ls -lha `which csh` # find if csh is installed on more than one directory where csh # --- Pipe-lines -------------------------------------------------------------- # A pipeline is a sequence of processes chained together by their standard # streams, so that the output of each process (stdout) feeds directly as input # (stdin) to the next one. This `pipes' are created with the `|' special # character and it is one of the most powerful characteristics of Unix. # example: ls -l | grep key | less # "ls -l" produces a process, the output (stdout) of which is piped to the # input (stdin) of the process for "grep key"; and likewise for the process # for "less". # the `ls', the `grep' and the `less' are programs of Unix and they have their # own man-page. The `pipe' mechanism is part of the kernel but the syntax # and the control is job of the shell, the tcsh in our case. # NOTE: `pipe' mechanism has Windows too, but it is buggy and I sign it for all # versions until Windows XP SP3 API32 which was the last one that I worked on. # Microsoft still denied it but is well known bug since it is a common method # for inter-process communication. For small I/O it will work well. # tcsh, along with grep, gcc and perl is one of the first Unix programs that # ported to DOS (with EMX DOS extender) and later to Windows (1998). # example: this will convert tcsh to PostScript and will show it with okular zcat /usr/man/man1/tcsh.1.gz | groff -Tps -man | okular - # a better version zcat `locate -b -n 1 '\tcsh.1.gz'` | groff -Tps -man | okular - # even better set page = tcsh; set loc = (locate -b -n 1 "\\\\"${page}".1.gz"); zcat `eval $loc` | groff -Tps -man | okular - # the same, modified to create man page pdf set page = tcsh; set loc = (locate -b -n 1 "\\\\"${page}".1.gz"); zcat `eval $loc` | groff -Tps -man | ps2pdf - ${page}.pdf # the same, but now shows the ${page}.pdf too set page = tcsh; set loc = (locate -b -n 1 "\\\\"${page}".1.gz"); zcat `eval $loc` | groff -Tps -man | ps2pdf - ${page}.pdf && okular tcsh.pdf # NOTE: `okular' is the default application of KDE environment and it shows # postcript and pdf files. You can replace it with your lovely pdf viewer. # zcat, locate, groff, are common programs in all Unices. `ps2pdf' program # is part of `ghostscript' package that is widely used. # --- Control Flow ------------------------------------------------------------ #### IF-THEN-ELSE-ENDIF # Syntax: # if ( expr ) then # ... # [else if ( expr2 ) then # ...] # [else # ...] # endif # # If the specified expr is true then the commands to the first else are # executed; otherwise if expr2 is true then the commands to the second else # are executed, etc. # Any number of else-if pairs are possible; only one endif is needed. # # Single-line form: # # if ( expr ) command # # If `expr' evaluates true, then command is executed. # `command' must be a simple command, not an alias, a pipeline, a command list # or a parenthesized command list. With few words, avoid to use it. # # BUG: Input/output redirection occurs even if expr is false and command is # thus not executed. # # check if we are in non-interactive shell and quit if true if ( $?USER == 0 || $?prompt == 0 ) exit # check if we are a login shell if ( $?loginsh ) then # check if you are on linux console (not X's terminal) if ( $tty =~ tty* ) then # enable keypad application keys (man console_codes) echo '\033=' endif endif #### SWITCH-ENDSW # Syntax: # switch ( expr ) # case pattern: # ... # [breaksw] # [default: # ...] # endsw # # tcsh uses a case statement that works similarly to switch in C. # Each case label is successively matched, against the specified string which # is first command and filename expanded. The file metacharacters `*', `?' # and `[...]' may be used in the case labels. If none of the labels match the # execution begins after the default label if its defined. # The command `breaksw' causes execution to continue after the endsw. Otherwise # control may fall through case labels and default labels as in C. switch ( $var ) case *.[1-9]: case *.[1-9].gz: echo "$var is a man-page." breaksw case *gz: echo "$var is gzipped" breaksw default: file $var endsw #### FOREACH-END # Syntax: # foreach name ( wordlist ) # ... # [break | continue] # end # # Successively sets the variable `name' to each member of `wordlist' and # executes the sequence of commands between this command and the matching # `end' keyword. The `continue' keyword jump to the next element back to # top; and the `break' keyword terminates the loop. # # BUG: `foreach' doesn't ignore here documents when looking for its end. # example: counting 1 to 10 foreach i ( `seq 1 10` ) echo $i end # example: type all files in the list foreach f ( a.txt b.txt c.txt ) cat $f end # example: convert wma to ogg foreach f ( *.wma ) ffmpeg -i "$f" "$f:r".ogg end #### WHILE-END # while ( expr ) # ... # [break | continue] # end # # Executes the commands between the `while' and the matching `end' while `expr' # evaluates non-zero. `break' and `continue' may be used to terminate or # continue the loop prematurely. # count from 1 to 10 set num = 1 while ( $num <= 10 ) echo $num @ num ++ end # print all directories of CWD set lst = ( * ) while ( $#lst ) if ( -d $lst[1] ) echo $lst[1] is directory shift lst end # separate command-line arguments to options or parameters set options set params set lst = ( $* ) while ( $#lst ) if ( "$lst[1]" =~ '-*' ) then set options = ( $options $lst[1] ) else set params = ( $params $lst[1] ) endif shift lst end echo 'options =' $options echo 'parameters =' $params #### REPEAT # Syntax: repeat count command # # The specified command, which is subject to the same restrictions as the # command in the one line if statement above, is executed count times. # I/O redirections occur exactly once, even if count is 0. # # TIP: in most cases prefer `while' repeat 3 echo "ding dong" # --- Functions --------------------------------------------------------------- # tcsh has no functions but its expression syntax is advanced enough to use # `alias' as functions. Another method is recursion # Alias argument selectors; the ability to define an alias to take arguments # supplied to it and apply them to the commands that it refers to. # Tcsh is the only shell that provides this feature. # # \!# argument selector for all arguments, including the alias/command # itself; arguments need not be supplied. # \!* argument selector for all arguments, excluding the alias/command; # arguments need not be supplied. # \!$ argument selector for the last argument; argument need not be supplied, # but if none is supplied, the alias name is considered to be the # last argument. # \!^ argument selector for first argument; argument MUST be supplied. # \!:n argument selector for the nth argument; argument MUST be supplied; # n=0 refers to the alias/command name. # \!:m-n argument selector for the arguments from the mth to the nth; # arguments MUST be supplied. # \!:n-$ argument selector for the arguments from the nth to the last; # at least argument n MUST be supplied. # Alias the cd command so that when you change directories, the contents # are immediately displayed. alias cd 'cd \!* && ls' # --- Recursion method --- begin --- #!/bin/tcsh -f set todo = option1 if ( $#argv > 0 ) then set todo = $argv[1] endif switch ( $todo ) case option1: # ... $0 results breaksw case option2: # ... $0 results breaksw case results: echo "print the results here" # ... breaksw default: echo "Unknown option: $todo" # exit 0 endsw # --- Recursion method --- end --- # --- examples ---------------------------------------------------------------- # this script prints available power-states if no argument is set; # otherwise it set the state of the $argv[1] # --- power-state script --- begin -------------------------------------------- #!/bin/tcsh -f # get parameter ("help" for none) set todo = help if ( $#argv > 0 ) then set todo = $argv[1] endif # available options set opts = `cat /sys/power/state` # is known? foreach o ( $opts ) if ( $todo == $o ) then # found; execute it echo -n $todo > /sys/power/state break endif end # print help and exit echo "usage: $0 [option]" echo "available options on kernel: $opts" # --- power-state script --- end ---------------------------------------------- # Guess the secret number game # --- secretnum.csh --- begin ------------------------------------------------- #!/bin/tcsh -f set secret=`shuf -i1-100 -n1` echo "I have a secret number from 1 up to 100" while ( 1 ) echo -n "Guess: " set guess = $< if ( $secret == $guess ) then echo "You found it" exit 1 else if ( $secret > $guess ) then echo "its greater" else if ( $secret < $guess ) then echo "its lesser" endif endif endif end # --- secretnum.csh --- end --------------------------------------------------- # ----------------------------------------------------------------------------- # Appendices #### About [T]CSH: # * CSH is notorious about its bugs; # * It was also famous about its advanced interactive mode. # * TCSH is famous that have the most advanced completition subsystem. # * TCSH is famous that have the most advanced aliases subsystem; aliases # can take parameters and often used as functions! # * TCSH is well known that preferred by people (me too) because of better # syntax. All shells are using Thomson's syntax with exception of [t]csh, # fish and plan9's shells (rc, ex). # * It is smaller and consume far less memory than bash, zsh even mksh! # (memusage reports) # * TCSH still has bugs; less but have; if you write readable clean code you'll # find none; well almost none... This has to do with the implementation of # csh; that no means the other shells has good implementation. # * no one well known shell is capable for regular programming; if your script # getting big, use a programming language, or at least PHP or Perl (good # script languages). # # Advises: # 1. Do not use redirection in single-line if (it is well documented bug) # In most cases avoid to use single-line IFs. # 2. Do not mess up with other shells code, c-shell is not compatible with # other shells and has different abilities and priorities. # 3. Use spaces as you'll use them to write readable code in any language. # A bug of csh was `set x=1' worked, `set x = 1' worked, `set x =1' did not! # 4. It is well documented that numeric expressions require spaces in-between; # also parenthesise all bit-wise and unary operators. # 5. Do not write a huge weird expression with several quotes, backslashes etc # It is bad practice for generic programming, it is dangerous in any shell. # 6. Help tcsh, report the bug here # 7. Read the man page, `tcsh' has huge number of options, and variables. # # I suggest the following options enabled by default # -------------------------------------------------- # Even in non-interactive shells # set echo_style=both # set backslash_quote # set parseoctal # unset noclobber # # Whatever... # set inputmode=insert # set autolist # set listjobs # set padhour # set color # set colorcat # set nobeep # set cdtohome # # set histdup # set histlit # set nohistclop # # unset compat_expr # unset noglob # unset autologout # unset time # unset tperiod # # NOTE: If the `backslash_quote' is set, it may create compatibility issues # with other tcsh scripts which was written without it. # # NOTE: The same for `parseoctal', but it is better to fix the problematic # scripts. # # NOTE: **for beginners only** # This enable automatically rescan `path' directories if need to. (like bash) # set autorehash #### common aliases # alias hist 'history 20' # alias ll 'ls --color -lha' # alias today "date '+%d%h%y' # alias ff 'find . -name ' #### a nice prompt # set prompt = "%B%{\033[35m%}%t %{\033[32m%}%n@%m%b %C4 %# "