Table of Contents
Here and now, boys.
--Aldous Huxley, Island
A here document is a special-purpose code block. It uses a form of I/O redirection to feed a command list to an interactive program or a command, such as ftp, cat, or the ex text editor.
COMMAND <<InputComesFromHERE ... ... ... InputComesFromHERE
A limit string delineates (frames)
the command list. The special symbol << precedes
the limit string. This has the effect of redirecting the output
of a command block into the stdin
of the program
or command. It is similar to interactive-program <
command-file
, where command-file
contains
command #1 command #2 ...
The here document equivalent looks like this:
interactive-program <<LimitString command #1 command #2 ... LimitString
Choose a limit string sufficiently unusual that it will not occur anywhere in the command list and confuse matters.
Note that here documents may sometimes be used to good effect with non-interactive utilities and commands, such as, for example, wall.
Example 19.1. broadcast: Sends message to everyone logged in
#!/bin/bash wall <<zzz23EndOfMessagezzz23 E-mail your noontime orders for pizza to the system administrator. (Add an extra dollar for anchovy or mushroom topping.) # Additional message text goes here. # Note: 'wall' prints comment lines. zzz23EndOfMessagezzz23 # Could have been done more efficiently by # wall <message-file # However, embedding the message template in a script #+ is a quick-and-dirty one-off solution. exit
Even such unlikely candidates as the vi text editor lend themselves to here documents.
Example 19.2. dummyfile: Creates a 2-line dummy file
#!/bin/bash # Noninteractive use of 'vi' to edit a file. # Emulates 'sed'. E_BADARGS=85 if [ -z "$1" ] then echo "Usage: `basename $0` filename" exit $E_BADARGS fi TARGETFILE=$1 # Insert 2 lines in file, then save. #--------Begin here document-----------# vi $TARGETFILE <<x23LimitStringx23 i This is line 1 of the example file. This is line 2 of the example file. ^[ ZZ x23LimitStringx23 #----------End here document-----------# # Note that ^[ above is a literal escape #+ typed by Control-V <Esc>. # Bram Moolenaar points out that this may not work with 'vim' #+ because of possible problems with terminal interaction. exit
The above script could just as effectively have been implemented with ex, rather than vi. Here documents containing a list of ex commands are common enough to form their own category, known as ex scripts.
#!/bin/bash # Replace all instances of "Smith" with "Jones" #+ in files with a ".txt" filename suffix. ORIGINAL=Smith REPLACEMENT=Jones for word in $(fgrep -l $ORIGINAL *.txt) do # ------------------------------------- ex $word <<EOF :%s/$ORIGINAL/$REPLACEMENT/g :wq EOF # :%s is the "ex" substitution command. # :wq is write-and-quit. # ------------------------------------- done
Analogous to “ex scripts” are cat scripts.
Example 19.3. Multi-line message using cat
#!/bin/bash # 'echo' is fine for printing single line messages, #+ but somewhat problematic for message blocks. # A 'cat' here document overcomes this limitation. cat <<End-of-message ------------------------------------- This is line 1 of the message. This is line 2 of the message. This is line 3 of the message. This is line 4 of the message. This is the last line of the message. ------------------------------------- End-of-message # Replacing line 7, above, with #+ cat > $Newfile <<End-of-message #+ ^^^^^^^^^^ #+ writes the output to the file $Newfile, rather than to stdout. exit 0 #-------------------------------------------- # Code below disabled, due to "exit 0" above. # S.C. points out that the following also works. echo "------------------------------------- This is line 1 of the message. This is line 2 of the message. This is line 3 of the message. This is line 4 of the message. This is the last line of the message. -------------------------------------" # However, text may not include double quotes unless they are escaped.
The -
option to mark a here document limit string
(<<-LimitString
) suppresses leading
tabs (but not spaces) in the output. This may be useful in making
a script more readable.
Example 19.4. Multi-line message, with tabs suppressed
#!/bin/bash # Same as previous example, but... # The - option to a here document <<- #+ suppresses leading tabs in the body of the document, #+ but *not* spaces. cat <<-ENDOFMESSAGE This is line 1 of the message. This is line 2 of the message. This is line 3 of the message. This is line 4 of the message. This is the last line of the message. ENDOFMESSAGE # The output of the script will be flush left. # Leading tab in each line will not show. # Above 5 lines of "message" prefaced by a tab, not spaces. # Spaces not affected by <<- . # Note that this option has no effect on *embedded* tabs. exit 0
A here document supports parameter and command substitution. It is therefore possible to pass different parameters to the body of the here document, changing its output accordingly.
Example 19.5. Here document with replaceable parameters
#!/bin/bash # Another 'cat' here document, using parameter substitution. # Try it with no command-line parameters, ./scriptname # Try it with one command-line parameter, ./scriptname Mortimer # Try it with one two-word quoted command-line parameter, # ./scriptname "Mortimer Jones" CMDLINEPARAM=1 # Expect at least command-line parameter. if [ $# -ge $CMDLINEPARAM ] then NAME=$1 # If more than one command-line param, #+ then just take the first. else NAME="John Doe" # Default, if no command-line parameter. fi RESPONDENT="the author of this fine script" cat <<Endofmessage Hello, there, $NAME. Greetings to you, $NAME, from $RESPONDENT. # This comment shows up in the output (why?). Endofmessage # Note that the blank lines show up in the output. # So does the comment. exit
This is a useful script containing a here document with parameter substitution.
Example 19.6. Upload a file pair to Sunsite incoming directory
#!/bin/bash # upload.sh # Upload file pair (Filename.lsm, Filename.tar.gz) #+ to incoming directory at Sunsite/UNC (ibiblio.org). # Filename.tar.gz is the tarball itself. # Filename.lsm is the descriptor file. # Sunsite requires "lsm" file, otherwise will bounce contributions. E_ARGERROR=85 if [ -z "$1" ] then echo "Usage: `basename $0` Filename-to-upload" exit $E_ARGERROR fi Filename=`basename $1` # Strips pathname out of file name. Server="ibiblio.org" Directory="/incoming/Linux" # These need not be hard-coded into script, #+ but may instead be changed to command-line argument. Password="your.e-mail.address" # Change above to suit. ftp -n $Server <<End-Of-Session # -n option disables auto-logon user anonymous "$Password" # If this doesn't work, then try: # quote user anonymous "$Password" binary bell # Ring 'bell' after each file transfer. cd $Directory put "$Filename.lsm" put "$Filename.tar.gz" bye End-Of-Session exit 0
Quoting or escaping the “limit string” at the head of a here document disables parameter substitution within its body. The reason for this is that quoting/escaping the limit string effectively escapes the $, `, and \ special characters, and causes them to be interpreted literally. (Thank you, Allen Halsey, for pointing this out.)
Example 19.7. Parameter substitution turned off
#!/bin/bash # A 'cat' here-document, but with parameter substitution disabled. NAME="John Doe" RESPONDENT="the author of this fine script" cat <<'Endofmessage' Hello, there, $NAME. Greetings to you, $NAME, from $RESPONDENT. Endofmessage # No parameter substitution when the "limit string" is quoted or escaped. # Either of the following at the head of the here document would have #+ the same effect. # cat <<"Endofmessage" # cat <<\Endofmessage # And, likewise: cat <<"SpecialCharTest" Directory listing would follow if limit string were not quoted. `ls -l` Arithmetic expansion would take place if limit string were not quoted. $((5 + 3)) A a single backslash would echo if limit string were not quoted. \\ SpecialCharTest exit
Disabling parameter substitution permits outputting literal text. Generating scripts or even program code is one use for this.
Example 19.8. A script that generates another script
#!/bin/bash # generate-script.sh # Based on an idea by Albert Reiner. OUTFILE=generated.sh # Name of the file to generate. # ----------------------------------------------------------- # 'Here document containing the body of the generated script. ( cat <<'EOF' #!/bin/bash echo "This is a generated shell script." # Note that since we are inside a subshell, #+ we can't access variables in the "outside" script. echo "Generated file will be named: $OUTFILE" # Above line will not work as normally expected #+ because parameter expansion has been disabled. # Instead, the result is literal output. a=7 b=3 let "c = $a * $b" echo "c = $c" exit 0 EOF ) > $OUTFILE # ----------------------------------------------------------- # Quoting the 'limit string' prevents variable expansion #+ within the body of the above 'here document.' # This permits outputting literal strings in the output file. if [ -f "$OUTFILE" ] then chmod 755 $OUTFILE # Make the generated file executable. else echo "Problem in creating file: \"$OUTFILE\"" fi # This method also works for generating #+ C programs, Perl programs, Python programs, Makefiles, #+ and the like. exit 0
It is possible to set a variable from the output of a here document. This is actually a devious form of command substitution.
variable=$(cat <<SETVAR This variable runs over multiple lines. SETVAR ) echo "$variable"
A here document can supply input to a function in the same script.
Example 19.9. Here documents and functions
#!/bin/bash # here-function.sh GetPersonalData () { read firstname read lastname read address read city read state read zipcode } # This certainly appears to be an interactive function, but . . . # Supply input to the above function. GetPersonalData <<RECORD001 Bozo Bozeman 2726 Nondescript Dr. Bozeman MT 21226 RECORD001 echo echo "$firstname $lastname" echo "$address" echo "$city, $state $zipcode" echo exit 0
It is possible to use : as a dummy command accepting output from a here document. This, in effect, creates an “anonymous” here document.
Example 19.10. “Anonymous” Here Document
#!/bin/bash : <<TESTVARIABLES ${HOSTNAME?}${USER?}${MAIL?} # Print error message if one of the variables not set. TESTVARIABLES exit $?
A variation of the above technique permits “commenting out” blocks of code.
Example 19.11. Commenting out a block of code
#!/bin/bash # commentblock.sh : <<COMMENTBLOCK echo "This line will not echo." This is a comment line missing the "#" prefix. This is another comment line missing the "#" prefix. &*@!!++= The above line will cause no error message, because the Bash interpreter will ignore it. COMMENTBLOCK echo "Exit value of above \"COMMENTBLOCK\" is $?." # 0 # No error shown. echo # The above technique also comes in useful for commenting out #+ a block of working code for debugging purposes. # This saves having to put a "#" at the beginning of each line, #+ then having to go back and delete each "#" later. # Note that the use of colon, above, is optional. echo "Just before commented-out code block." # The lines of code between the double-dashed lines will not execute. # =================================================================== : <<DEBUGXXX for file in * do cat "$file" done DEBUGXXX # =================================================================== echo "Just after commented-out code block." exit 0 ###################################################################### # Note, however, that if a bracketed variable is contained within #+ the commented-out code block, #+ then this could cause problems. # for example: #/!/bin/bash : <<COMMENTBLOCK echo "This line will not echo." &*@!!++= ${foo_bar_bazz?} $(rm -rf /tmp/foobar/) $(touch my_build_directory/cups/Makefile) COMMENTBLOCK $ sh commented-bad.sh commented-bad.sh: line 3: foo_bar_bazz: parameter null or not set # The remedy for this is to strong-quote the 'COMMENTBLOCK' in line 49, above. : <<'COMMENTBLOCK' # Thank you, Kurt Pfeifle, for pointing this out.
Yet another twist of this nifty trick makes “self-documenting” scripts possible.
Example 19.12. A self-documenting script
#!/bin/bash # self-document.sh: self-documenting script # Modification of "colm.sh". DOC_REQUEST=70 if [ "$1" = "-h" -o "$1" = "--help" ] # Request help. then echo; echo "Usage: $0 [directory-name]"; echo sed --silent -e '/DOCUMENTATIONXX$/,/^DOCUMENTATIONXX$/p' "$0" | sed -e '/DOCUMENTATIONXX$/d'; exit $DOC_REQUEST; fi : <<DOCUMENTATIONXX List the statistics of a specified directory in tabular format. --------------------------------------------------------------- The command-line parameter gives the directory to be listed. If no directory specified or directory specified cannot be read, then list the current working directory. DOCUMENTATIONXX if [ -z "$1" -o ! -r "$1" ] then directory=. else directory="$1" fi echo "Listing of "$directory":"; echo (printf "PERMISSIONS LINKS OWNER GROUP SIZE MONTH DAY HH:MM PROG-NAME\n" \ ; ls -l "$directory" | sed 1d) | column -t exit 0
Using a cat script is an alternate way of accomplishing this.
DOC_REQUEST=70 if [ "$1" = "-h" -o "$1" = "--help" ] # Request help. then # Use a "cat script" . . . cat <<DOCUMENTATIONXX List the statistics of a specified directory in tabular format. --------------------------------------------------------------- The command-line parameter gives the directory to be listed. If no directory specified or directory specified cannot be read, then list the current working directory. DOCUMENTATIONXX exit $DOC_REQUEST fi
See also Example A.28, “Spammer Identification”, Example A.40, “Petals Around the Rose”, Example A.41, “Quacky: a Perquackey-type word game”, and Example A.42, “Nim” for more examples of self-documenting scripts.
Here documents create temporary files, but these files are deleted after opening and are not accessible to any other process.
bash$
bash -c 'lsof -a -p $$ -d0' << EOF
>
EOF
lsof 1213 bozo 0r REG 3,5 0 30386 /tmp/t1213-0-sh (deleted)
Some utilities will not work inside a here document.
The closing limit string, on the final line of a here document, must start in the first character position. There can be no leading whitespace. Trailing whitespace after the limit string likewise causes unexpected behavior. The whitespace prevents the limit string from being recognized. [103]
#!/bin/bash echo "----------------------------------------------------------------------" cat <<LimitString echo "This is line 1 of the message inside the here document." echo "This is line 2 of the message inside the here document." echo "This is the final line of the message inside the here document." LimitString #^^^^Indented limit string. Error! This script will not behave as expected. echo "----------------------------------------------------------------------" # These comments are outside the 'here document', #+ and should not echo. echo "Outside the here document." exit 0 echo "This line had better not echo." # Follows an 'exit' command.
Some people very cleverly use a single ! as a limit string. But, that's not necessarily a good idea.
# This works. cat <<! Hello! ! Three more exclamations !!! ! # But . . . cat <<! Hello! Single exclamation point follows! ! ! # Crashes with an error message. # However, the following will work. cat <<EOF Hello! Single exclamation point follows! ! EOF # It's safer to use a multi-character limit string.
For those tasks too complex for a here
document, consider using the
expect
scripting language, which
was specifically designed for feeding input into interactive
programs.