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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.

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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=${t// /}
share|improve this answer doesn't work for me. So the S=${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.


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

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