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How could I do this with echo?

perl -E 'say "=" x 100'
share|improve this question
Sadly this is not Bash. – solidsnack Feb 20 at 20:42

17 Answers 17

up vote 147 down vote accepted

You can use:

printf '=%.0s' {1..100}

How this works:

Bash expands {1..100} so the command becomes:

printf '=%.0s' 1 2 3 4 ... 100

I've set printf's format to =%.0s which means that it will always print a single = no matter what argument it is given. Therefore it prints 100 =s.

share|improve this answer
Great solution that performs reasonably well even with large repeat counts. Here's a function wrapper you can invoke with repl = 100, for instance (eval trickery is required, unfortunately, for basing the brace expansion on a variable): repl() { printf "$1"'%.s' $(eval "echo {1.."$(($2))"}"); } – mklement0 Dec 7 '13 at 21:34
Is it possible to set the upper limit using a var? I've tried and can't get it to work. – Mike Purcell Jan 10 '14 at 20:30
You can't use variables within brace expansion. Use seq instead e.g. $(seq 1 $limit). – dogbane Jan 11 '14 at 8:22
If you functionalise this it's best to rearrange it from $s%.0s to %.0s$s otherwise dashes cause a printf error. – KomodoDave Jul 30 '14 at 7:35
This made me notice a behaviour of Bash's printf: it continues to apply the format string until there are no arguments left. I had assumed it processed the format string only once! – Jeenu Jan 8 '15 at 10:25

No easy way. But for example:

seq -s= 100|tr -d '[:digit:]'

Or maybe a standard-conforming way:

printf %100s |tr " " "="

There's also a tput rep, but as for my terminals at hand (xterm and linux) they don't seem to support it:)

share|improve this answer
printf tr is the only POSIX solution because seq, yes and {1..3} are not POSIX. – Ciro Santilli 巴拿馬文件 六四事件 法轮功 Apr 10 '14 at 11:02
To repeat a string rather than just a single character: printf %100s | sed 's/ /abc/g' - outputs 'abcabcabc...' – John Rix Sep 11 '14 at 12:51
+1 for using no loops and only one external command (tr). You could also extend it to something like printf "%${COLUMNS}s\n" | tr " " "=". – musiphil Mar 16 '15 at 20:59
@mklement0 On Ubuntu 14.04.2 LTS, that comes with GNU seq 8.21, I get one less than the number given; see screenshot. Now I ask on which platform you are, because I thought this was consistent. Here's a screenshot on a RaspberryPi and even on Windows. – Camilo Martin May 3 '15 at 15:17
@mklement0 Well, I was hoping you were counting the last newline by mistake with wc. The only conclusion I can take from this is "seq shouldn't be used". – Camilo Martin May 3 '15 at 20:17

There's more than one way to do it.

Using a loop:

  • With the brace expansion syntax the range must be defined with literals only:

    for i in {1..100}; do echo -n =; done
  • A C-like loop allows use of variables:

    for ((i=$start; i<$end; i++)); do echo -n =; done

Using printf:

printf '=%.s' {1..100}

Using head and tr:

head -c 100 < /dev/zero | tr '\0' '='
share|improve this answer
++ for the head / tr solution, which works well even with high repeat counts (small caveat: head -c is not POSIX-compliant, but both BSD and GNU head implement it); while the other two solutions will be slow in that case, they do have the advantage of working with multi-character strings, too. – mklement0 Apr 29 '15 at 17:42

I've just found a seriously easy way to do this using seq:

UPDATE: This works on the BSD seq that comes with OS X. YMMV with other versions

seq  -f "#" -s '' 10

Will print '#' 10 times, like this:

  • -f "#" sets the format string to ignore the numbers and just print # for each one.
  • -s '' sets the separator to an empty string to remove the newlines that seq inserts between each number
  • The spaces after -f and -s seem to be important.

EDIT: Here it is in a handy function...

repeat () {
    seq  -f $1 -s '' $2; echo

Which you can call like this...

repeat "#" 10

NOTE: If you're repeating # then the quotes are important!

share|improve this answer
This gives me seq: format ‘#’ has no % directive. seq is for numbers, not strings. See gnu.org/software/coreutils/manual/html_node/seq-invocation.html – John B Jul 7 '14 at 8:51
Ah, so I was using the BSD version of seq found on OS X. I'll update the answer. Which version are you using? – Sam Salisbury Jul 8 '14 at 9:20
I'm using seq from GNU coreutils. – John B Jul 8 '14 at 11:38
@JohnB: BSD seq is being cleverly repurposed here to replicate strings: the format string passed to -f - normally used to format the numbers being generated - contains only the string to replicate here so that the output contains copies of that string only. Unfortunately, GNU seq insists on the presence of a number format in the format string, which is the error you're seeing. – mklement0 Apr 29 '15 at 17:18
Nicely done; also works with multi-characters strings. Please use "$1" (double quotes), so you can also pass in characters such as '*' and strings with embedded whitespace. Finally, if you want to be able to use %, you have to double it (otherwise seq will think it's part of a format specification such as %f); using "${1//%/%%}" would take care of that. Since (as you mention) you're using BSD seq, this will work on BSD-like OSs in general (e.g., FreeBSD) - by contrast, it won't work on Linux, where GNU seq is used. – mklement0 Apr 29 '15 at 17:30

Update: Substantially revised: test script improved, better contrasting of small vs. large repeat counts; tip of the hat to @gniourf_gniourf for his input.

Note: This answer does not answer the original question, but complements the existing, helpful answers by comparing performance.

Solutions are compared in terms of execution speed only - memory requirements are not taken into account (they vary across solutions and may matter with large repeat counts).


  • If your repeat count is small, say up to around 100, it's worth going with the Bash-only solutions, as the startup cost of external utilities matters, especially Perl's.
    • Pragmatically speaking, however, if you only need one instance of repeating characters, all existing solutions may be fine.
  • With large repeat counts, use external utilities, as they'll be much faster.
    • In particular, avoid Bash's global substring replacement with large strings
      (e.g., ${var// /=}), as it is prohibitively slow.

The following are timings taken on a late-2012 iMac with a 3.2 GHz Intel Core i5 CPU and a Fusion Drive, running OSX 10.10.4 and bash 3.2.57, and are the average of 1000 runs.

The entries are:

  • listed in ascending order of execution duration (fastest first)
  • prefixed with:
    • M ... a potentially multi-character solution
    • S ... a single-character-only solution
    • P ... a POSIX-compliant solution
  • followed by a brief description of the solution
  • suffixed with the name of the author of the originating answer

  • Small repeat count: 100
[M, P] printf %.s= [dogbane]:                           0.0002
[M   ] printf + bash global substr. replacement [Tim]:  0.0005
[M   ] echo -n - brace expansion loop [eugene y]:       0.0007
[M   ] echo -n - arithmetic loop [Eliah Kagan]:         0.0013
[M   ] seq -f [Sam Salisbury]:                          0.0016
[M   ] jot -b [Stefan Ludwig]:                          0.0016
[M   ] awk - $(count+1)="=" [Steven Penny (variant)]:   0.0019
[M, P] awk - while loop [Steven Penny]:                 0.0019
[S   ] printf + tr [user332325]:                        0.0021
[S   ] head + tr [eugene y]:                            0.0021
[S, P] dd + tr [mklement0]:                             0.0021
[M   ] printf + sed [user332325 (comment)]:             0.0021
[M   ] mawk - $(count+1)="=" [Steven Penny (variant)]:  0.0025
[M, P] mawk - while loop [Steven Penny]:                0.0026
[M   ] gawk - $(count+1)="=" [Steven Penny (variant)]:  0.0028
[M, P] gawk - while loop [Steven Penny]:                0.0028
[M   ] yes + head + tr [Digital Trauma]:                0.0029
[M   ] Perl [sid_com]:                                  0.0059
  • The Bash-only solutions lead the pack - but only with a repeat count this small! (see below).
  • Startup cost of external utilities does matter here, especially Perl's. If you must call this in a loop - with small repetition counts in each iteration - avoid the multi-utility, awk, and perl solutions.

  • Large repeat count: 1000000 (1 million)
[M   ] Perl [sid_com]:                                  0.0067
[M   ] mawk - $(count+1)="=" [Steven Penny (variant)]:  0.0254
[M   ] gawk - $(count+1)="=" [Steven Penny (variant)]:  0.0599
[S   ] head + tr [eugene y]:                            0.1143
[S, P] dd + tr [mklement0]:                             0.1144
[S   ] printf + tr [user332325]:                        0.1164
[M, P] mawk - while loop [Steven Penny]:                0.1434
[M   ] seq -f [Sam Salisbury]:                          0.1452
[M   ] jot -b [Stefan Ludwig]:                          0.1690
[M   ] printf + sed [user332325 (comment)]:             0.1735
[M   ] yes + head + tr [Digital Trauma]:                0.1883
[M, P] gawk - while loop [Steven Penny]:                0.2493
[M   ] awk - $(count+1)="=" [Steven Penny (variant)]:   0.2614
[M, P] awk - while loop [Steven Penny]:                 0.3211
[M, P] printf %.s= [dogbane]:                           2.4565
[M   ] echo -n - brace expansion loop [eugene y]:       7.5877
[M   ] echo -n - arithmetic loop [Eliah Kagan]:         13.5426
[M   ] printf + bash global substr. replacement [Tim]:  n/a
  • The Perl solution from the question is by far the fastest.
  • Bash's global string-replacement (${foo// /=}) is inexplicably excruciatingly slow with large strings, and has been taken out of the running (took around 50 minutes(!) in Bash 4.3.30, and even longer in Bash 3.2.57 - I never waited for it to finish).
  • Bash loops are slow, and arithmetic loops ((( i= 0; ... ))) are slower than brace-expanded ones ({1..n}) - though arithmetic loops are more memory-efficient.
  • awk refers to BSD awk (as also found on OSX) - it's noticeably slower than gawk (GNU Awk) and especially mawk.
  • Note that with large counts and multi-char. strings, memory consumption can become a consideration - the approaches differ in that respect.

Here's the Bash script (testrepeat) that produced the above. It takes 2 arguments:

  • the character repeat count
  • optionally, the number of test runs to perform and to calculate the average timing from

In other words: the timings above were obtained with testrepeat 100 1000 and testrepeat 1000000 1000

#!/usr/bin/env bash

title() { printf '%s:\t' "$1"; }


# The number of repetitions of the input chars. to produce
COUNT_REPETITIONS=${1?Arguments: <charRepeatCount> [<testRunCount>]}

# The number of test runs to perform to derive the average timing from.

# Discard the (stdout) output generated by default.
# If you want to check the results, replace '/dev/null' on the following
# line with a prefix path to which a running index starting with 1 will
# be appended for each test run; e.g., outFilePrefix='outfile', which
# will produce outfile1, outfile2, ...



  title '[M, P] printf %.s= [dogbane]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  # !! In order to use brace expansion with a variable, we must use `eval`.
  eval "
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    printf '%.s=' {1..$COUNT_REPETITIONS} >"$outFile"

  title '[M   ] echo -n - arithmetic loop [Eliah Kagan]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    for ((i=0; i<COUNT_REPETITIONS; ++i)); do echo -n =; done >"$outFile"

  title '[M   ] echo -n - brace expansion loop [eugene y]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  # !! In order to use brace expansion with a variable, we must use `eval`.
  eval "
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    for i in {1..$COUNT_REPETITIONS}; do echo -n =; done >"$outFile"

  title '[M   ] printf + sed [user332325 (comment)]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    printf "%${COUNT_REPETITIONS}s" | sed 's/ /=/g' >"$outFile"

  title '[S   ] printf + tr [user332325]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    printf "%${COUNT_REPETITIONS}s" | tr ' ' '='  >"$outFile"

  title '[S   ] head + tr [eugene y]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    head -c $COUNT_REPETITIONS < /dev/zero | tr '\0' '=' >"$outFile"

  title '[M   ] seq -f [Sam Salisbury]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    seq -f '=' -s '' $COUNT_REPETITIONS >"$outFile"

  title '[M   ] jot -b [Stefan Ludwig]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    jot -s '' -b '=' $COUNT_REPETITIONS >"$outFile"

  title '[M   ] yes + head + tr [Digital Trauma]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    yes = | head -$COUNT_REPETITIONS | tr -d '\n'  >"$outFile"

  title '[M   ] Perl [sid_com]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    perl -e "print \"=\" x $COUNT_REPETITIONS" >"$outFile"

  title '[S, P] dd + tr [mklement0]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  time for (( n = 0; n < COUNT_RUNS; n++ )); do 
    dd if=/dev/zero bs=$COUNT_REPETITIONS count=1 2>/dev/null | tr '\0' "=" >"$outFile"

  # !! On OSX, awk is BSD awk, and mawk and gawk were installed later.
  # !! On Linux systems, awk may refer to either mawk or gawk.
  for awkBin in awk mawk gawk; do
    if [[ -x $(command -v $awkBin) ]]; then

      title "[M   ] $awkBin"' - $(count+1)="=" [Steven Penny (variant)]'
      [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
      time for (( n = 0; n < COUNT_RUNS; n++ )); do 
        $awkBin -v count=$COUNT_REPETITIONS 'BEGIN { OFS="="; $(count+1)=""; print }' >"$outFile"

      title "[M, P] $awkBin"' - while loop [Steven Penny]'
      [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
      time for (( n = 0; n < COUNT_RUNS; n++ )); do 
        $awkBin -v count=$COUNT_REPETITIONS 'BEGIN { while (i++ < count) printf "=" }' >"$outFile"


  title '[M   ] printf + bash global substr. replacement [Tim]'
  [[ $outFile != '/dev/null' ]] && outFile="$outFilePrefix$((++ndx))"
  # !! In Bash 4.3.30 a single run with repeat count of 1 million took almost
  # !! 50 *minutes*(!) to complete; n Bash 3.2.57 it's seemingly even slower -
  # !! didn't wait for it to finish.
  # !! Thus, this test is skipped for counts that are likely to be much slower
  # !! than the other tests.
  [[ $BASH_VERSINFO -le 3 && COUNT_REPETITIONS -gt 1000 ]] && skip=1
  [[ $BASH_VERSINFO -eq 4 && COUNT_REPETITIONS -gt 10000 ]] && skip=1
  if (( skip )); then
    echo 'n/a' >&2
    time for (( n = 0; n < COUNT_RUNS; n++ )); do 
      { printf -v t "%${COUNT_REPETITIONS}s" '='; printf %s "${t// /=}"; } >"$outFile"
} 2>&1 | 
 sort -t$'\t' -k2,2n | 
   awk -F $'\t' -v count=$COUNT_RUNS '{ 
    printf "%s\t", $1; 
    if ($2 ~ "^n/a") { print $2 } else { printf "%.4f\n", $2 / count }}' |
     column -s$'\t' -t
share|improve this answer
Your comparison is interesting, but is only going in one direction: calling the method once with huge data. There's another direction to be taken into account too: calling the method a lot with small data (and this is more likely to be used in real-world applications). – gniourf_gniourf May 17 '15 at 15:28
Yeah, they repeat it 1000000 times. What I mean (and what is closer to OP) is: what's the fastest method to repeat the = sign 100 times on standard output? and related: what's the fastest method to have 100 times the = sign in a variable? (and I mean 100 times the symbol, not 1000000 times). The answers might be completely different. You can repeat the same method 10000 times to have a good average. – gniourf_gniourf May 17 '15 at 20:02
@gniourf_gniourf: On re-reading the comments (because the answer was just down-voted), I see that I missed the point of your comments (and was apparently too busy defending my answer to notice - my apologies); I've removed my original comments, and I've updated the answer to contrast the two use cases. The test script now takes 2 arguments: the desired character-repeat count and the number of test runs whose timings should be averaged. – mklement0 Aug 5 '15 at 13:46

Here's two interesting ways:

ubuntu@ubuntu:~$ yes = | head -10 | paste -s -d '' -
ubuntu@ubuntu:~$ yes = | head -10 | tr -d "\n"

Note these two are subtly different - The paste method ends in a new line. The tr method does not.

share|improve this answer
Nicely done; please note that BSD paste inexplicably requires -d '\0' for specifying an empty delimiter, and fails with -d '' - -d '\0' should work wit all POSIX-compatible paste implementations and indeed works with GNU paste too. – mklement0 Apr 29 '15 at 13:56
Very creative answer. – navid Feb 25 at 19:17
Similar in spirit, with fewer outboard tools: yes | mapfile -n 100 -C 'printf = \#' -c 1 – bishop Apr 27 at 19:42
@bishop: While your command indeed creates one fewer subshell, it is still slower for higher repeat counts, and for lower repeat counts the difference probably doesn't matter; the exact threshold is probably both hardware- and OS-dependent, e.g., on my OSX 10.11.5 machine this answer is already faster at 500; try time yes = | head -500 | paste -s -d '\0' -; time yes | mapfile -n 500 -C 'printf = \#' -c 1. More importantly, however: if you're using printf anyway, you may as well go with the both simpler and more efficient approach from the accepted answer: printf '%.s=' $(seq 500) – mklement0 Jul 17 at 6:44

There is no simple way. Avoid loops using printf and substitution.

str=$(printf "%40s")
echo ${str// /rep}
# echoes "rep" 40 times.
share|improve this answer
Nice, but only performs reasonably with small repeat counts. Here's a function wrapper that can be invoked as repl = 100, for instance (doesn't output a trailing \n): repl() { local ts=$(printf "%${2}s"); printf %s "${ts// /$1}"; } – mklement0 Dec 7 '13 at 18:42
@mklement0 Nice of you to provide function versions of both solutions, +1 on both! – Camilo Martin Jan 2 '14 at 12:16

As others have said, in bash brace expansion precedes parameter expansion, so {m,n} ranges can only contain literals. seq and jot provide clean solutions but aren't fully portable from one system to another, even if you're using the same shell on each. (Though seq is increasingly available; e.g., in FreeBSD 9.3 and higher.) eval and other forms of indirection always work but are somewhat inelegant.

Fortunately, bash supports C-style for loops (with arithmetic expressions only). So here's a concise "pure bash" way:

repecho() { for ((i=0; i<$1; ++i)); do echo -n "$2"; done; echo; }

This takes the number of repetitions as the first argument and the string to be repeated (which may be a single character, as in the problem description) as the second argument. repecho 7 b outputs bbbbbbb (terminated by a newline).

Dennis Williamson gave essentially this solution four years ago in his excellent answer to Creating string of repeated characters in shell script. My function body differs slightly from the code there:

  • Since the focus here is on repeating a single character and the shell is bash, it's probably safe to use echo instead of printf. And I read the problem description in this question as expressing a preference to print with echo. The above function definition works in bash and ksh93. Although printf is more portable (and should usually be used for this sort of thing), echo's syntax is arguably more readable.

    Some shells' echo builtins interpret - by itself as an option--even though the usual meaning of -, to use stdin for input, is nonsensical for echo. zsh does this. And there definitely exist echos that don't recognize -n, as it is not standard. (Many Bourne-style shells don't accept C-style for loops at all, thus their echo behavior needn't be considered..)

  • Here the task is to print the sequence; there, it was to assign it to a variable.

If $n is the desired number of repetitions and you don't have to reuse it, and you want something even shorter:

while ((n--)); do echo -n "$s"; done; echo

n must be a variable--this way doesn't work with positional parameters. $s is the text to be repeated.

share|improve this answer
Strongly avoid doing loop versions. printf "%100s" | tr ' ' '=' is optimal. – Slomojo Nov 4 '14 at 5:48
Good background info and kudos for packaging the functionality as a function, which works in zsh as well, incidentally. The echo-in-a-loop approach works well for smaller repeat counts, but for larger ones there are POSIX-compliant alternatives based on utilities, as evidenced by @Slomojo's comment. – mklement0 Apr 29 '15 at 15:53
Adding parentheses around your shorter loop preserves the value of n without affecting the echos: (while ((n--)); do echo -n "$s"; done; echo) – BinaryZebra Aug 23 '15 at 4:24
#!/usr/bin/awk -f
  OFS = "="
  NF = 100


#!/usr/bin/awk -f
  while (z++ < 100) printf "="


share|improve this answer
Nicely done; this is POSIX-compliant and reasonably fast even with high repeat counts, while also supporting multi-character strings. Here's the shell version: awk 'BEGIN { while (c++ < 100) printf "=" }'. Wrapped into a parameterized shell function (invoke as repeat 100 =, for instance): repeat() { awk -v count="$1" -v txt=".$2" 'BEGIN { txt=substr(txt, 2); while (i++ < count) printf txt }'; }. (The dummy . prefix char and complementary substr call are needed to work around a bug in BSD awk, where passing a variable value that starts with = breaks the command.) – mklement0 Apr 29 '15 at 18:12
The NF = 100 solution is very clever (though to get 100 =, you must use NF = 101). The caveats are that it crashes BSD awk (but it's very fast with gawk and even faster with mawk), and that POSIX discusses neither assigning to NF, nor use of fields in BEGIN blocks. You can make it work in BSD awk as well with a slight tweak: awk 'BEGIN { OFS = "="; $101=""; print }' (but curiously, in BSD awk that isn't faster than the loop solution). As a parameterized shell solution: repeat() { awk -v count="$1" -v txt=".$2" 'BEGIN { OFS=substr(txt, 2); $(count+1)=""; print }'; }. – mklement0 May 14 '15 at 19:01
Note to users - The NF=100 trick causes a segment fault on older awk. The original-awk is the name under Linux of the older awk similar to BSD's awk, which has also been reported to crash, if you want to try this. Note that crashing is usually the first step toward finding an exploitable bug. This answer is so promoting insecure code. – BinaryZebra Aug 25 '15 at 4:54
Note to users - original-awk is non standard and not recommended – Steven Penny Aug 25 '15 at 23:02

In bash 3.0 or higher

for i in {1..100};do echo -n =;done
share|improve this answer
for i in {1..100}
  echo -n '='
share|improve this answer

I guess the original purpose of the question was to do this just with the shell's built-in commands. So for loops and printfs would be legitimate, while rep, perl, and also jot below would not. Still, the following command

jot -s "/" -b "\\" $((COLUMNS/2))

for instance, prints a window-wide line of \/\/\/\/\/\/\/\/\/\/\/\/

share|improve this answer
Nicely done; this works well even with high repeat counts (while also supporting multi-character strings). To better illustrate the approach, here's the equivalent of the OP's command: jot -s '' -b '=' 100. The caveat is that while BSD-like platforms, including OSX, come with jot, Linux distros do not. – mklement0 Apr 29 '15 at 17:49
Thanks, I like your use of -s '' even better. I've changed my scripts. – Stefan Ludwig Apr 29 '15 at 21:47
repeat() {
    # $1=number of patterns to repeat
    # $2=pattern
    printf -v "TEMP" '%*s' "$1"
    echo ${TEMP// /$2}
share|improve this answer

If you want POSIX-compliance and consistency across different implementations of echo and printf, and/or shells other than just bash:

seq(){ n=$1; while [ $n -le $2 ]; do echo $n; n=$((n+1)); done ;} # If you don't have it.

echo $(for each in $(seq 1 100); do printf "="; done)

...will produce the same output as perl -E 'say "=" x 100' just about everywhere.

share|improve this answer
The problem is that seq is not a POSIX utility (though BSD and Linux systems have implementations of it) - you can do POSIX shell arithmetic with a while loop instead, as in @Xennex81's answer (with printf "=", as you correctly suggest, rather than echo -n). – mklement0 Apr 29 '15 at 17:56
Oops, you're quite right. Things like that just slip past me sometimes as that standard makes no f'ing sense. cal is POSIX. seq is not. Anyway, rather than rewrite the answer with a while loop (as you say, that's already in other answers) I'll add a RYO function. More educational that way ;-). – Geoff Nixon May 3 '15 at 14:52

In case that you want to repeat a character n times being n a VARIABLE number of times depending on, say, the length of a string you can do:

n=$(expr 10 - length $vari)
echo 'vari equals.............................: '$vari
echo 'Up to 10 positions I must fill with.....: '$n' equal signs'
echo $vari$(perl -E 'say "=" x '$n)

It displays:

vari equals.............................: AB  
Up to 10 positions I must fill with.....: 8 equal signs  
share|improve this answer
length won't work with expr, you probably meant n=$(expr 10 - ${#vari}); however, it's simpler and more efficient to use Bash's arithmetic expansion: n=$(( 10 - ${#vari} )). Also, at the core of your answer is the very Perl approach that the OP is looking for a Bash alternative to. – mklement0 Aug 7 '15 at 12:55

This is the longer version of what Eliah Kagan was espousing:

while [ $(( i-- )) -gt 0 ]; do echo -n "  "; done

Of course you can use printf for that as well, but not really to my liking:

printf "%$(( i*2 ))s"

This version is Dash compatible:

until [ $(( i=i-1 )) -lt 0 ]; do echo -n "  "; done

with i being the initial number.

share|improve this answer
In bash and with a positive n: while (( i-- )); do echo -n " "; done works. – BinaryZebra Aug 23 '15 at 4:27

A pure Bash way with no eval, no subshells, no external tools, no brace expansions (i.e., you can have the number to repeat in a variable):

If you're given a variable n that expands to a (non-negative) number and a variable pattern, e.g.,

$ n=5
$ pattern=hello
$ printf -v output '%*s' "$n"
$ output=${output// /$pattern}
$ echo "$output"

You can make a function with this:

repeat() {
    # $1=number of patterns to repeat
    # $2=pattern
    # $3=output variable name
    local tmp
    printf -v tmp '%*s' "$1"
    printf -v "$3" '%s' "${tmp// /$2}"

With this set:

$ repeat 5 hello output
$ echo "$output"

For this little trick we're using printf quite a lot with:

  • -v varname: instead of printing to standard output, printf will put the content of the formatted string in variable varname.
  • '%*s': printf will use the argument to print the corresponding number of spaces. E.g., printf '%*s' 42 will print 42 spaces.
  • Finally, when we have the wanted number of spaces in our variable, we use a parameter expansion to replace all the spaces by our pattern: ${var// /$pattern} will expand to the expansion of var with all the spaces replaced by the expansion of $pattern.

You can also get rid of the tmp variable in the repeat function by using indirect expansion:

repeat() {
    # $1=number of patterns to repeat
    # $2=pattern
    # $3=output variable name
    printf -v "$3" '%*s' "$1"
    printf -v "$3" '%s' "${!3// /$2}"
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Interesting variation to pass the variable name in. While this solution is fine for repeat counts up to around 1,000 (and thus probably fine for most real-life applications, if I were to guess), it gets very slow for higher counts (see next comment). – mklement0 Apr 29 '15 at 19:19
It seems that bash's global string replacement operations in the context of parameter expansion (${var//old/new}) are particularly slow: excruciatingly slow in bash 3.2.57, and slow in bash 4.3.30, at least on my OSX 10.10.3 system on a 3.2 Ghz Intel Core i5 machine: With a count of 1,000, things are slow (3.2.57) / fast (4.3.30): 0.1 / 0.004 seconds. Increasing the count to 10,000 yields strikingly different numbers: repeat 10000 = var takes around 80 seconds(!) in bash 3.2.57, and around 0.3 seconds in bash 4.3.30 (much faster than on 3.2.57, but still slow). – mklement0 Apr 29 '15 at 19:19

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