Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

Simple problem: I have an array A of n entries each one containing one character. I want to create the corresponding string S from this array in an efficient way, i.e. in O(n) time, without using external commands, just bash code and bash builtins.

This obvious way...

func_slow ()
 local numel=${#A[*]}
 for ((i=0; i < numel ; i++))

is not efficient with bash. It's O(n^2) time because the "append" operation S=${S}${A[$i]} doesn't take O(1) time worst case (or even O(1) time amortized which would be enough to guarantee an overall O(n) time). It takes O(#S) each time (clearly it generates the new string S by copying both ${S} and ${A[$i]}). The only way I can find to solve this in O(n) time (without external commands) is by defining this function

func_fast ()
 local numel=${#A[*]}
 for ((i=0; i < numel ; i++))
    echo -n "${A[$i]}"

and then using it like this


This takes O(n) time and it just uses bash code and bash builtins. Implementing (within an interpreter of a language) strings with an efficient append operator (one that would allow func_slow to run in O(n) time) while still retaining O(1) time direct access of each position of a string is pretty simple from an algorithmic point of view, I was wondering if I'm missing some special efficient bash string operator.

share|improve this question

3 Answers 3

up vote 2 down vote accepted

Use array merging with IFS:

IFS= eval 'S="${A[*]}"'

Also if you're going to append a string to a variable, just use this form:


Another fast way is to use printf:

printf -v S '%s' "${A[@]}"

Adding some benchmarks. With an array having 100000 integral elements:

time printf -v X '%s' "${A[@]}"

real    0m0.481s
user    0m0.474s
sys     0m0.004s

time IFS= eval 'X="${A[*]}"'

real    0m0.107s
user    0m0.106s
sys     0m0.000s

X=''; L=${#A[@]}; time for (( I = 0; I < L; ++I )); do X+=${A[I]}; done

real    0m24.469s
user    0m24.351s
sys     0m0.074s
share|improve this answer
So I guess no efficient append operator (the += seems to be just as slow as doing S=${S}${A[$i]}). Anyway the other two are good answers (the IFS one looks rather exotic to me :) ) –  terr Sep 26 '13 at 23:29
@terr At least with the IFS method, you could choose the separator you like :) By the way using eval is optional but to make it effective IFS should be set before the line is parsed. So you can do it as well like IFS=; X="${A[*]}". But that would permanently set IFS, so you have to set it back to its default to not affect other commands: IFS=$' \t\n'. –  konsolebox Sep 26 '13 at 23:45

Not sure about the computational complexity, but this works:

S=${t// /}
share|improve this answer
Mmmh..it doesn't work for me. So the S=${t// /} deletes spaces from t (it substitutes them with nothing), right? Not sure what ${A[@]} is...that notation for me works only if A is already a string. –  terr Sep 26 '13 at 23:40
${A[@]} is essentially the same as ${A[*]}, differing only when they are in double quotes. When double quoted, * uses the first character of IFS as the separator. –  William Pursell Sep 26 '13 at 23:48


If in place edit you can do this to add at end:

sed -ie 's/$/WHATEVER/g' FILENAME

or beginning:

sed -ie 's/^/WHATEVER/g' FILENAME

Special characters will have to be escaped via \ and a regex cheat sheet is your best friend.

~oliver onone.org

share|improve this answer
This doesn't answer the question at all! –  gniourf_gniourf Feb 14 at 19:52

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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