Say we have some arbitrary literals in a file that we need to replace with some other literal.

Normally, we'd just reach for sed(1) or awk(1) and code something like:

sed "s/$target/$replacement/g" file.txt

But what if the $target and/or $replacement could contain characters that are sensitive to sed(1) such as regular expressions. You could escape them but suppose you don't know what they are - they are arbitrary, ok? You'd need to code up something to escape all possible sensitive characters - including the '/' separator. eg

t=$( echo "$target" | sed 's/\./\\./g; s/\*/\\*/g; s/\[/\\[/g; ...' ) # arghhh!

That's pretty awkward for such a simple problem.

perl(1) has \Q ... \E quotes but even that can't cope with the '/' separator in $target.

perl -pe "s/\Q$target\E/$replacement/g" file.txt

I just posted an answer!! So my real question is, "is there a better way to do literal replacements in sed/awk/perl?"

If not, I'll leave this here in case it comes in useful.


The quotemeta, which implements \Q, absolutely does what you ask for

all ASCII characters not matching /[A-Za-z_0-9]/ will be preceded by a backslash

Since this is presumably in a shell script, the problem is really of how and when shell variables get interpolated and so what the Perl program ends up seeing.

The best way is to avoid working out that interpolation mess and instead properly pass those shell variables to the Perl one-liner. This can be done in several ways; see this post for details.

Either pass the shell variables simply as arguments


# define $target

perl -pe"BEGIN { $patt = shift }; s{\Q$patt}{$replacement}g" "$target" file.txt

where the needed arguments are removed from @ARGV and utilized in a BEGIN block, so before the runtime; then file.txt gets processed. There is no need for \E in the regex here.

Or, use the -s switch, which enables command-line switches for the program

# define $target, etc

perl -s -pe"s{\Q$patt}{$replacement}g" -- -patt="$target" file.txt

The -- is needed to mark the start of arguments, and switches must come before filenames.

Finally, you can also export the shell variables, which can then be used in the Perl script via %ENV; but in general I'd rather recommend either of the above two approaches.

A full example

# Last modified: 2019 Jan 06 (22:15)


echo "Replace $target with $replacement"

perl -wE'
    BEGIN { $p = shift; $r = shift }; 
    $_=q(ah/{yes); s/\Q$p/$r/; say
' "$target" "$replacement"

This prints

Replace /{ with &

where I've used characters mentioned in a comment.

The other way

# Last modified: 2019 Jan 06 (22:05)


echo "Replace $target with $replacement"

perl -s -wE'$_ = q(ah/{yes); s/\Q$patt/$repl/; say' \
    -- -patt="$target" -repl="$replacement"

where code is broken over lines for readability here (and thus needs the \). Same printout.

  • If $target is a shell variable which contains the separator character, Perl only sees the script after variables have been interpolated by the shell, and ends up with a syntax error at best, and a security problem at worst. You have to tell Perl which part is a variable, perhaps by passing it as a command-line argument.
    – tripleee
    Jan 6 '19 at 8:44
  • @tripleee Indeed, completely missed their implied context. Edited
    – zdim
    Jan 6 '19 at 9:19
  • @melpomene Thank you for the edit, it is absolutely better to quote it in the shell. (But it's always worked unquoted in my tests in bash; I wonder whether I've been lucking out with specific software versions?)
    – zdim
    Jan 6 '19 at 21:42
  • @zdim Did your $target test strings contain interesting characters like *, ? or spaces?
    – melpomene
    Jan 6 '19 at 21:44
  • Found a related link: mywiki.wooledge.org/BashPitfalls#cp_.24file_.24target
    – melpomene
    Jan 6 '19 at 21:47

Me again!

Here's a simpler way using xxd(1):

t=$( echo -n "$target" | xxd -p | tr -d '\n')
r=$( echo -n "$replacement" | xxd -p | tr -d '\n')
xxd -p file.txt | sed "s/$t/$r/g" | xxd -p -r

... so we're hex-encoding the original text with xxd(1) and doing search-replacement using hex-encoded search strings. Finally we hex-decode the result.

EDIT: I forgot to remove \n from the xxd output (| tr -d '\n') so that patterns can span the 60-column output of xxd. Of course, this relies on GNU sed's ability to operate on very long lines (limited only by memory).

EDIT: this also works on multi-line targets eg

target=$'foo\nbar' replacement=$'bar\nfoo'

  • 2
    When I first saw this answer, I thought it was brilliant.  A few minutes later, I realized that, like a diamond, it was flawed.  For example, if you try to change E to g in a file that contains $Q, it will change to &q.  This is because E is 45, g is 67, and $Q is 2451, so, when you do s/45/67/, you change 2451 to 2671, which is &q (26 + 71).  … I have posted an answer that addresses this issue. Apr 1 '20 at 4:34

With awk you could do it like this:

awk -v t="$target" -v r="$replacement" '{gsub(t,r)}' file

The above expects t to be a regular expression, to use it a string you can use

awk -v t="$target" -v r="$replacement" '{while(i=index($0,t)){$0 = substr($0,1,i-1) r substr($0,i+length(t))} print}' file

Inspired from this post

Note that this won't work properly if the replacement string contains the target. The above link has solutions for that too.

  • 1
    @Sundeep: You are right, thankfully glenn jackman found a solution for that case
    – user000001
    Jan 6 '19 at 9:26
  • Thanks for the link - that solution is pretty complex but since it's all in awk, it's probably faster than the xxd solution, if performance ever becomes an issue. I do think the xxd solution is simpler to read and understand.
    – wef
    Jan 6 '19 at 23:30

This is an enhancement of wef’s answer.

We can remove the issue of the special meaning of various special characters and strings (^, ., [, *, $, \(, \), \{, \}, \+, \?, &, \1, …, whatever, and the / delimiter) by removing the special characters.  Specifically, we can convert everything to hex; then we have only 0-9 and a-f to deal with.  This example demonstrates the principle:

$ echo -n '3.14' | xxd
0000000: 332e 3134                                3.14

$ echo -n 'pi'   | xxd
0000000: 7069                                     pi

$ echo '3.14 is a transcendental number.  3614 is an integer.' | xxd
0000000: 332e 3134 2069 7320 6120 7472 616e 7363  3.14 is a transc
0000010: 656e 6465 6e74 616c 206e 756d 6265 722e  endental number.
0000020: 2020 3336 3134 2069 7320 616e 2069 6e74    3614 is an int
0000030: 6567 6572 2e0a                           eger..

$ echo "3.14 is a transcendental number.  3614 is an integer." | xxd -p \
                                                       | sed 's/332e3134/7069/g' | xxd -p -r
pi is a transcendental number.  3614 is an integer.

whereas, of course, sed 's/3.14/pi/g' would also change 3614.

The above is a slight oversimplification; it doesn’t account for boundaries.  Consider this (somewhat contrived) example:

$ echo -n 'E' | xxd
0000000: 45                                       E

$ echo -n 'g' | xxd
0000000: 67                                       g

$ echo '$Q Eak!' | xxd
0000000: 2451 2045 616b 210a                      $Q Eak!.

$ echo '$Q Eak!' | xxd -p | sed 's/45/67/g' | xxd -p -r
&q gak!

Because $ (24) and Q (51) combine to form 2451, the s/45/67/g command rips it apart from the inside.  It changes 2451 to 2671, which is &q (26 + 71).  We can prevent that by separating the bytes of data in the search text, the replacement text and the file with spaces.  Here’s a stylized solution:

encode() {
        xxd -p    -- "$@" | sed 's/../& /g' | tr -d '\n'
decode() {
        xxd -p -r -- "$@"
left=$( printf '%s' "$search"      | encode)
right=$(printf '%s' "$replacement" | encode)
encode file.txt | sed "s/$left/$right/g" | decode

I defined an encode function because I used that functionality three times, and then I defined decode for symmetry.  If you don’t want to define a decode function, just change the last line to

encode file.txt | sed "s/$left/$right/g" | xxd -p –r

Note that the encode function triples the size of the data (text) in the file, and then sends it through sed as a single line — without even having a newline at the end.  GNU sed seems to be able to handle this; other versions might not be able to.

As an added bonus, this solution handles multi-line search and replace (in other words, search and replacement strings that contain newline(s)).

  • Quite correct AFAICS even though it's an extreme edge cases - the right thing to do for the completely general case. My original use-case was moderately long targets unlikely to occur. Please accept an upvote and thanks for the thoughtful answer.
    – wef
    Apr 4 '20 at 7:36

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.