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Suppose you've written some function which gathers some values in an array.

my_algorithm() {
  create_array # call create_array somehow
  # here, work with the array "returned" from my_list
}

create_array() {
  local my_list=("a", "b", "c")
}

How can I "return" my_list without using anything global?

EDIT

I could do something like

my_algorithm() {
  local result=$(create_array)
}

create_array() {
  local my_list=("a", "b", "c")
  echo "${my_list[@]}"
}

But then, I only get an expanded string (or is this the way to go?).

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7 Answers 7

up vote 13 down vote accepted

What's wrong with globals?

Returning arrays is really not practical. There are lots of pitfalls.

That said, here's one technique that works if it's OK that the variable have the same name:

$ f () { local a; a=(abc 'def ghi' jkl); declare -p a; }
$ g () { local a; eval $(f); declare -p a; }
$ f; declare -p a; echo; g; declare -p a
declare -a a='([0]="abc" [1]="def ghi" [2]="jkl")'
-bash: declare: a: not found

declare -a a='([0]="abc" [1]="def ghi" [2]="jkl")'
-bash: declare: a: not found

The declare -p commands (except for the one in f() are used to display the state of the array for demonstration purposes. In f() it's used as the mechanism to return the array.

If you need the array to have a different name, you can do something like this:

$ g () { local b r; r=$(f); r="declare -a b=${r#*=}"; eval "$r"; declare -p a; declare -p b; }
$ f; declare -p a; echo; g; declare -p a
declare -a a='([0]="abc" [1]="def ghi" [2]="jkl")'
-bash: declare: a: not found

-bash: declare: a: not found
declare -a b='([0]="abc" [1]="def ghi" [2]="jkl")'
-bash: declare: a: not found
share|improve this answer
    
+1 Good answer, but what are those pitfalls you are mentioning when returning an array? cdarke's answer seems perfectly reasonable. –  helpermethod May 15 '12 at 8:03
1  
@OliverWeiler: For example, the technique in cdarke's answer flattens arrays. f () { local a=($(g)); declare -p a; }; g () { local a=(a 'b c' d); echo "${a[@]}"; }; f outputs "declare -a a='([0]="a" [1]="b" [2]="c" [3]="d")'". You'll notice that instead of 3 elements, you now have 4. –  Dennis Williamson May 15 '12 at 12:56
    
+1 Thx for the comment, this helped me alot! –  helpermethod May 15 '12 at 13:01
    
After much trial and error, I finally understand what Dennis meant in his comment by "cdarke's answer flattens arrays". The "${array[@]}" syntax will quote array items appropriately --- but echo doesn't print unescaped quotes. So, any solution that uses echo will only work properly if no array items contain spaces. I abstracted Dennis' example and made it slightly more robust to get a practical, reusable implementation. –  smhmic Apr 12 '13 at 23:09
    
Alternate method of using a different variable name: f () { local __resultvar=$1; local _local_; _local_=(abc def); declare -p _local_ | sed "s/_local_/$__resultvar/"; } –  bpedman Jul 25 '13 at 22:19

Bash can't pass around data structures as return values. A return value must be a numeric exit status between 0-255. However, you can certainly use command or process substitution to pass commands to an eval statement if you're so inclined.

This is rarely worth the trouble, IMHO. If you must pass data structures around in Bash, use a global variable--that's what they're for. If you don't want to do that for some reason, though, think in terms of positional parameters.

Your example could easily be rewritten to use positional parameters instead of global variables:

use_array () {
    for idx in "$@"; do
        echo "$idx"
    done
}

create_array () {
    local array=("a" "b" "c")
    use_array "${array[@]}"
}

This all creates a certain amount of unnecessary complexity, though. Bash functions generally work best when you treat them more like procedures with side effects, and call them in sequence.

# Gather values and store them in FOO.
get_values_for_array () { :; }

# Do something with the values in FOO.
process_global_array_variable () { :; }

# Call your functions.
get_values_for_array
process_global_array_variable

If all you're worried about is polluting your global namespace, you can also use the unset builtin to remove a global variable after you're done with it. Using your original example, let my_list be global (by removing the local keyword) and add unset my_list to the end of my_algorithm to clean up after yourself.

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Useful example: return an array from function

Retornar els camps d'una consulta SQL a un vector

function Query() {
  local _tmp=`echo -n "$*" | mysql 2>> zz.err`;  #consulta a la base de dades
  echo -e "$_tmp";                               #retorna múltiples files
}

function StrToArray() {
  IFS=$'\t'; set $1; for item; do echo $item; done; IFS=$oIFS;
}

sql="SELECT codi, bloc, requisit FROM requisits ORDER BY codi";
qry=$(Query $sql0);
IFS=$'\n';
for row in $qry; do
  r=( $(StrToArray $row) );
  echo ${r[0]} - ${r[1]} - ${r[2]};
done
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Use the technique developed by Matt McClure: http://notes-matthewlmcclure.blogspot.com/2009/12/return-array-from-bash-function-v-2.html

Avoiding global variables means you can use the function in a pipe. Here is an example:

#!/bin/bash

makeJunk()
{
   echo 'this is junk'
   echo '#more junk and "b@d" characters!'
   echo '!#$^%^&(*)_^&% ^$#@:"<>?/.,\\"'"'"
}

processJunk()
{
    local -a arr=()    
    # read each input and add it to arr
    while read -r line
    do 
       arr[${#arr[@]}]='"'"$line"'" is junk'; 
    done;

    # output the array as a string in the "declare" representation
    declare -p arr | sed -e 's/^declare -a [^=]*=//'
}

# processJunk returns the array in a flattened string ready for "declare"
# Note that because of the pipe processJunk cannot return anything using
# a global variable
returned_string=`makeJunk | processJunk`

# convert the returned string to an array named returned_array
# declare correctly manages spaces and bad characters
eval "declare -a returned_array=${returned_string}"

for junk in "${returned_array[@]}"
do
   echo "$junk"
done

Output is:

"this is junk" is junk
"#more junk and "b@d" characters!" is junk
"!#$^%^&(*)_^&% ^$#@:"<>?/.,\\"'" is junk
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You were not so far out with your original solution. You had a couple of problems, you used a comma as a separator, and you failed to capture the returned items into a list, try this:

my_algorithm() {
  local result=( $(create_array) )
}

create_array() {
  local my_list=("a" "b" "c")  
  echo "${my_list[@]}" 
}
share|improve this answer
1  
This does not return an array, it returns a string using space as a separator. This solution incorrectly handles spaces within array elements, so it cannot be used to handle e.g. an array of paths. –  Andrey Tarantsov Feb 17 '13 at 8:00

I tried various implementations, and none preserved arrays that had elements with spaces ... because they all had to use echo.

# These implementations only work if no array items contain spaces.
use_array() {  eval echo  '(' \"\${${1}\[\@\]}\" ')';  }
use_array() {  local _array="${1}[@]"; echo '(' "${!_array}" ')';  }

Solution

Then I came across Dennis Williamson's answer. I incorporated his method into the following functions so they can a) accept an arbitrary array and b) be used to pass, duplicate and append arrays.

# Print array definition to use with assignments, for loops, etc.
#   varname: the name of an array variable.
use_array() {
    local r=$( declare -p $1 )
    r=${r#declare\ -a\ *=}
    # Strip keys so printed definition will be a simple list (like when using
    # "${array[@]}").  One side effect of having keys in the definition is 
    # that when appending arrays (i.e. `a1+=$( use_array a2 )`), values at
    # matching indices merge instead of pushing all items onto array.
    echo ${r//\[[0-9]\]=}
}
# Same as use_array() but preserves keys.
use_array_assoc() {
    local r=$( declare -p $1 )
    echo ${r#declare\ -a\ *=}
}  

Then, other functions can return an array using catchable output or indirect arguments.

# catchable output
return_array_by_printing() {
    local returnme=( "one" "two" "two and a half" )
    use_array returnme
}
eval test1=$( return_array_by_printing )

# indirect argument
return_array_to_referenced_variable() {
    local returnme=( "one" "two" "two and a half" )
    eval $1=$( use_array returnme )
}
return_array_to_referenced_variable test2

# Now both test1 and test2 are arrays with three elements
share|improve this answer
    
If you want to avoid using the external sed, you can probably use Bash's regex match operator =~ and ${BASH_REMATCH} in its place. –  Dennis Williamson Apr 13 '13 at 11:29
    
@DennisWilliamson I'm not aware of any way to do a global replace using =~ and ${BASH_REMATCH}. But the match pattern is simple enough that regex is not even needed; I updated the function to use variable substitution instead of sed. –  smhmic Apr 16 '13 at 16:03
    
I could not get this code to reproduce the arrays. I copied all the code and added this at the end: echo "${test1[0]}". The answer is ("one" "two" "two and a half"). Everything is in the zeroth element and index 1 and 2 are empty. The same results for test2. –  Steve Zobell Sep 9 '13 at 19:01

If your source data is formatted with each list element on a separate line, then the mapfile builtin is a simple and elegant way to read a list into an array:

$ list=$(ls -1 /usr/local)           # one item per line

$ mapfile -t arrayVar <<<"$list"     # -t trims trailing newlines

$ declare -p arrayVar | sed 's#\[#\n[#g'
declare -a arrayVar='(
[0]="bin"
[1]="etc"
[2]="games"
[3]="include"
[4]="lib"
[5]="man"
[6]="sbin"
[7]="share"
[8]="src")'

Note that, as with the read builtin, you would not ordinarily* use mapfile in a pipeline (or subshell) because the assigned array variable would be unavailable to subsequent statements (* unless bash job control is disabled and shopt -s lastpipe is set).

$ help mapfile
mapfile: mapfile [-n count] [-O origin] [-s count] [-t] [-u fd] [-C callback] [-c quantum] [array]
    Read lines from the standard input into an indexed array variable.

    Read lines from the standard input into the indexed array variable ARRAY, or
    from file descriptor FD if the -u option is supplied.  The variable MAPFILE
    is the default ARRAY.

    Options:
      -n count  Copy at most COUNT lines.  If COUNT is 0, all lines are copied.
      -O origin Begin assigning to ARRAY at index ORIGIN.  The default index is 0.
      -s count  Discard the first COUNT lines read.
      -t                Remove a trailing newline from each line read.
      -u fd             Read lines from file descriptor FD instead of the standard input.
      -C callback       Evaluate CALLBACK each time QUANTUM lines are read.
      -c quantum        Specify the number of lines read between each call to CALLBACK.

    Arguments:
      ARRAY             Array variable name to use for file data.

    If -C is supplied without -c, the default quantum is 5000.  When
    CALLBACK is evaluated, it is supplied the index of the next array
    element to be assigned and the line to be assigned to that element
    as additional arguments.

    If not supplied with an explicit origin, mapfile will clear ARRAY before
    assigning to it.

    Exit Status:
    Returns success unless an invalid option is given or ARRAY is readonly or
    not an indexed array.
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