515

In Bash, what is the simplest way to test if an array contains a certain value?

1
  • Answers should be added as answers, not edited into the question. – Charles Duffy Nov 14 '20 at 16:32

39 Answers 39

568

This approach has the advantage of not needing to loop over all the elements (at least not explicitly). But since array_to_string_internal() in array.c still loops over array elements and concatenates them into a string, it's probably not more efficient than the looping solutions proposed, but it's more readable.

if [[ " ${array[@]} " =~ " ${value} " ]]; then
    # whatever you want to do when array contains value
fi

if [[ ! " ${array[@]} " =~ " ${value} " ]]; then
    # whatever you want to do when array doesn't contain value
fi

Note that in cases where the value you are searching for is one of the words in an array element with spaces, it will give false positives. For example

array=("Jack Brown")
value="Jack"

The regex will see "Jack" as being in the array even though it isn't. So you'll have to change IFS and the separator characters on your regex if you want still to use this solution, like this

IFS=$'\t'
array=("Jack Brown\tJack Smith")
unset IFS
value="Jack"

if [[ "\t${array[@]}\t" =~ "\t${value}\t" ]]; then
    echo "true"
else
    echo "false"
fi

This will print "false".

Obviously this can also be used as a test statement, allowing it to be expressed as a one-liner

[[ " ${array[@]} " =~ " ${value} " ]] && echo "true" || echo "false"
16
  • 2
    I added a space at the start of the first regex value match, so that it would only match the word, not something ending in the word. Works great. Howver, I don't understand why you use the second condition, wouldn't the first work fine alone? – JStrahl Mar 22 '13 at 8:08
  • 11
    Oneliner: [[ " ${branches[@]} " =~ " ${value} " ]] && echo "YES" || echo "NO"; – ericson.cepeda Feb 23 '17 at 22:27
  • 4
    Shellcheck complains about this solution, SC2199 and SC2076. I couldn't fix the warnings without breaking the functionality. Any thoughts about that other than disabling shellcheck for that line? – Ali Essam May 16 '19 at 12:11
  • 4
    SC2076 is easy to fix, just remove the double quotes in the if. I don't think there's a way to avoid SC2199 with this approach. You'd have to explicitly loop though the array, as shown in some of the other solutions, or ignore the warning. – Keegan May 16 '19 at 13:14
  • 2
    @JoshHabdas If that's happening you probably forgot the spaces around the values in quotes (or maybe you're using some other shell that has different behavior than Bash). I tested your scenario with Bash 4.4.12 and it doesn't get matched. – Keegan May 14 '20 at 18:12
416

Below is a small function for achieving this. The search string is the first argument and the rest are the array elements:

containsElement () {
  local e match="$1"
  shift
  for e; do [[ "$e" == "$match" ]] && return 0; done
  return 1
}

A test run of that function could look like:

$ array=("something to search for" "a string" "test2000")
$ containsElement "a string" "${array[@]}"
$ echo $?
0
$ containsElement "blaha" "${array[@]}"
$ echo $?
1
24
  • 5
    Works nicely! I just have to remember to pass the array as with quotes: "${array[@]}". Otherwise elements containing spaces will break functionality. – Juve Nov 9 '12 at 8:53
  • 27
    Nice. I'd call it elementIn() because it checks if the first argument is contained in the second. containsElements() sounds like the array would go first. For newbies like me, an example of how to use a function that does not write to stdout in an "if" statement would help: if elementIn "$table" "${skip_tables[@]}" ; then echo skipping table: ${table}; fi; Thanks for your help! – GlenPeterson Jul 1 '13 at 14:20
  • 5
    @Bluz the && construct is a boolean AND operator. The use of boolean operators creates a boolean statement.Boolean logic says the whole statement can only be true if both the statements before and after the && evaluate to true. This is used as a shortcut insted of and if block.The test is evaluated and if false, there is no need to evaluate the return as it's irrelevant to the whole statement once the test has failed and is therefore not run. If the test is successfull then the sucess of the boolean statement DOES require the outcome of the return to be determined so the code is run. – peteches Nov 5 '13 at 16:37
  • 4
    @James by convention the success code in bash is "0" and error is everything >= 1. This is why it returns 0 on success. :) – tftd Nov 2 '16 at 23:49
  • 11
    @Stelios shift shifts the argument list by 1 to the left (dropping the first argument) and for without an in implicitly iterates over the argument list. – Christian Jan 2 '19 at 10:56
65

One-line solution

printf '%s\n' "${myarray[@]}" | grep -P '^mypattern$'

Explanation

The printf statement prints each element of the array on a separate line.

The grep statement uses the special characters ^ and $ to find a line that contains exactly the pattern given as mypattern (no more, no less).


Usage

To put this into an if ... then statement:

if printf '%s\n' "${myarray[@]}" | grep -q -P '^mypattern$'; then
    # ...
fi

I added a -q flag to the grep expression so that it won't print matches; it will just treat the existence of a match as "true."

5
  • 3
    Nice solution! On GNU grep, there is also "--line-regexp" which could replace "-P" and the ^ and $ in the pattern: printf '%s\n' ${myarray[@]} | grep -q --line-regexp 'mypattern' – presto8 Aug 29 '19 at 14:04
  • As great as this is, it doesn't work if the array values have spaces. – Fmstrat Nov 20 '20 at 2:20
  • 1
    @Fmstrat I think you'll find that it does work in bash even if array values have spaces. 1. Did you specify "${myarray[@]}" with quotes? 2. Have you used echo "${#myarray[@]}" to verify that your array itself has the number of items you expect (and doesn't think that the spaces are separating items)? – JellicleCat Nov 20 '20 at 20:49
  • wrong! your answer fasely returns true for myarray=($'not\nmypattern') . Following fixes that but needs a recent version of grep (which groks -z) and also correctly works for any $mypattern you might think of: printf '%s\0' "${myarray[@]}" | grep -Fqxz -- "$mypattern" – Tino Mar 28 at 9:40
  • @Tino do you think you could express that correction in a polite way that improves the community? – JellicleCat Mar 29 at 5:59
59
$ myarray=(one two three)
$ case "${myarray[@]}" in  *"two"*) echo "found" ;; esac
found
4
  • 72
    Note that this doesn't iterate over each element in the array separately... instead it simply concatenates the array and matches "two" as a substring. This could cause undesirable behavior if one is testing whether the exact word "two" is an element in the array. – MartyMacGyver Aug 19 '13 at 23:21
  • I thought this was going to work for me in comparing file types but found that as the counters increased it was counting up too many values... boo! – Mike Q Jan 24 '14 at 22:02
  • 18
    wrong! Reason: case "${myarray[@]}" in *"t"*) echo "found" ;; esac outputs: found – Sergej Jevsejev Aug 2 '16 at 9:22
  • @MartyMacGyver, could you please have look on my addition to this answer stackoverflow.com/a/52414872/1619950 – Aleksandr Podkutin Sep 19 '18 at 22:20
56
for i in "${array[@]}"
do
    if [ "$i" -eq "$yourValue" ] ; then
        echo "Found"
    fi
done

For strings:

for i in "${array[@]}"
do
    if [ "$i" == "$yourValue" ] ; then
        echo "Found"
    fi
done
6
  • That said, you can use an indexed for loop and avoid getting killed when an array element contains IFS: for (( i = 0 ; i < ${#array[@]} ; i++ )) – mkb Sep 10 '10 at 15:45
  • @Matt: You have to be careful using ${#} since Bash supports sparse arrays. – Dennis Williamson Sep 10 '10 at 15:58
  • @Paolo, if your array contains a space then just compare it as a string. a space is a string as well. – Scott Sep 10 '10 at 16:05
  • @Paolo: You can make that a function, but arrays can't be passed as arguments so you'll have to treat it as a global. – Dennis Williamson Sep 10 '10 at 16:08
  • Dennis is right. From the bash reference manual: "If the word is double-quoted, ... ${name[@]} expands each element of name to a separate word" – mkb Sep 10 '10 at 16:09
21

If you need performance, you don't want to loop over your whole array every time you search.

In this case, you can create an associative array (hash table, or dictionary) that represents an index of that array. I.e. it maps each array element into its index in the array:

make_index () {
  local index_name=$1
  shift
  local -a value_array=("$@")
  local i
  # -A means associative array, -g means create a global variable:
  declare -g -A ${index_name}
  for i in "${!value_array[@]}"; do
    eval ${index_name}["${value_array[$i]}"]=$i
  done
}

Then you can use it like this:

myarray=('a a' 'b b' 'c c')
make_index myarray_index "${myarray[@]}"

And test membership like so:

member="b b"
# the "|| echo NOT FOUND" below is needed if you're using "set -e"
test "${myarray_index[$member]}" && echo FOUND || echo NOT FOUND

Or also:

if [ "${myarray_index[$member]}" ]; then 
  echo FOUND
fi

Notice that this solution does the right thing even if the there are spaces in the tested value or in the array values.

As a bonus, you also get the index of the value within the array with:

echo "<< ${myarray_index[$member]} >> is the index of $member"
1
  • +1 for the idea that you should be using an associative array. I think the code for make_index is a bit more contrived due to the indirection; you could have used a fixed array name with a much simpler code. – musiphil Jul 23 '15 at 23:33
17

I typically just use:

inarray=$(echo ${haystack[@]} | grep -o "needle" | wc -w)

non zero value indicates a match was found.

6
  • True, this is definitely the easiest solution - should be marked answer in my opinion. At least have my upvote! [: – ToVine Apr 24 '15 at 21:35
  • 2
    That won't work for similar needles. For example, haystack=(needle1 needle2); echo ${haystack[@]} | grep -o "needle" | wc -w – Keegan May 29 '15 at 15:40
  • 1
    Very true. joining with a delimiter not present in any element and adding it to the needle would help with that. Maybe something like... (untested) inarray=$(printf ",%s" "${haystack[@]}") | grep -o ",needle" | wc -w) – Sean DiSanti May 30 '15 at 21:44
  • 2
    Using grep -x would avoid false positives: inarray=$(printf ",%s" "${haystack[@]}") | grep -x "needle" | wc -l – jesjimher Apr 7 '16 at 10:02
  • Perhaps simply inarray=$(echo " ${haystack[@]}" | grep -o " needle" | wc -w) as -x causes grep to try and match the entire input string – hallo Aug 12 '18 at 22:40
17

Another one liner without a function:

(for e in "${array[@]}"; do [[ "$e" == "searched_item" ]] && exit 0; done) && echo "found" || echo "not found"

Thanks @Qwerty for the heads up regarding spaces!

corresponding function:

find_in_array() {
  local word=$1
  shift
  for e in "$@"; do [[ "$e" == "$word" ]] && return 0; done
  return 1
}

example:

some_words=( these are some words )
find_in_array word "${some_words[@]}" || echo "expected missing! since words != word"
3
  • 1
    Why do we need a subshell here? – codeforester Mar 17 '18 at 23:42
  • 1
    @codeforester this is old... but as it was written you need it in order to break from it, that's what the exit 0 does (stops asap if found). – estani Mar 19 '18 at 14:37
  • The end of the one liner should be || echo not found instead of || not found or the shell will try to execute a command by the name of not with argument found if the requested value is not in the array. – zoke Aug 5 '18 at 9:25
12
containsElement () { for e in "${@:2}"; do [[ "$e" = "$1" ]] && return 0; done; return 1; }

Now handles empty arrays correctly.

3
  • How is this different than @patrik's answer? The only difference I see is "$e" = "$1" (instead of "$e" == "$1") which looks like a bug. – CivFan Jul 25 '15 at 1:19
  • 1
    It is not. @patrik's merged my comment in his original answer back then (patch #4). Note: "e" == "$1" is syntactically clearer. – Yann Jul 28 '15 at 14:30
  • @CivFan In its current form this is shorter than the one in patrik's answer, because of the elegant ${@:2} and the self documenting $1. I would add that quoting is not necessary within [[ ]]. – Hontvári Levente Dec 19 '19 at 13:32
9

Here is a small contribution :

array=(word "two words" words)  
search_string="two"  
match=$(echo "${array[@]:0}" | grep -o $search_string)  
[[ ! -z $match ]] && echo "found !"  

Note: this way doesn't distinguish the case "two words" but this is not required in the question.

3
  • This one helped me a lot. Thanks! – Ed Manet Feb 14 '13 at 19:05
  • The question didn't explicitly say you had to give the correct answer but I think that's implicit in the question... The array doesn't contain the value "two". – tetsujin May 25 '17 at 23:24
  • The above will report a match for 'rd'. – Noel Yap Sep 10 '18 at 17:46
8

If you want to do a quick and dirty test to see if it's worth iterating over the whole array to get a precise match, Bash can treat arrays like scalars. Test for a match in the scalar, if none then skipping the loop saves time. Obviously you can get false positives.

array=(word "two words" words)
if [[ ${array[@]} =~ words ]]
then
    echo "Checking"
    for element in "${array[@]}"
    do
        if [[ $element == "words" ]]
        then
            echo "Match"
        fi
    done
fi

This will output "Checking" and "Match". With array=(word "two words" something) it will only output "Checking". With array=(word "two widgets" something) there will be no output.

3
  • Why not just replace words with a regex ^words$ that matches only the entire string, which completely eliminates the need for checking each item individually? – Dejay Clayton Sep 12 '17 at 13:53
  • @DejayClayton: Because pattern='^words$'; if [[ ${array[@]} =~ $pattern ]] will never match since it's checking the whole array at once as if it were a scalar. The individual checks in my answer are to be done only if there's a reason to proceed based on the rough match. – Dennis Williamson Sep 12 '17 at 17:20
  • Ah, I see what you're trying to do. I've proposed a variant answer that's more performant and secure. – Dejay Clayton Sep 13 '17 at 20:49
6
a=(b c d)

if printf '%s\0' "${a[@]}" | grep -Fqxz c
then
  echo 'array “a” contains value “c”'
fi

If you prefer you can use equivalent long options:

--fixed-strings --quiet --line-regexp --null-data
2
  • 1
    This doesn't work with BSD-grep on Mac, as there is no --null-data. :( – Will Jul 26 '15 at 22:15
  • Correct, but you should use grep -Fqxz -- c in case c is replaced with something starting with -. – Tino Mar 28 at 10:02
6

How to check if a Bash Array contains a value


False positive match

array=(a1 b1 c1 d1 ee)

[[ ${array[*]} =~ 'a' ]] && echo 'yes' || echo 'no'
# output:
yes

[[ ${array[*]} =~ 'a1' ]] && echo 'yes' || echo 'no'
# output:
yes

[[ ${array[*]} =~ 'e' ]] && echo 'yes' || echo 'no'
# output:
yes

[[ ${array[*]} =~ 'ee' ]] && echo 'yes' || echo 'no'
# output:
yes

Exact match

In order to look for an exact match, your regex pattern needs to add extra space before and after the value like (^|[[:space:]])"VALUE"($|[[:space:]])

# Exact match

array=(aa1 bc1 ac1 ed1 aee)

if [[ ${array[*]} =~ (^|[[:space:]])"a"($|[[:space:]]) ]]; then
    echo "Yes";
else
    echo "No";
fi
# output:
No

if [[ ${array[*]} =~ (^|[[:space:]])"ac1"($|[[:space:]]) ]]; then
    echo "Yes";
else
    echo "No";
fi
# output:
Yes

find="ac1"
if [[ ${array[*]} =~ (^|[[:space:]])"$find"($|[[:space:]]) ]]; then
    echo "Yes";
else
    echo "No";
fi
# output:
Yes

For more usage examples the source of examples are here

1
  • -1 as complete fail for array=('not act1'). Such wrong implementations even created major PITA in the past: A security adapter gets a list of all files in a directory and returns if access to the directory is allowed. Directories with dir_protect are protected. As uploads in directories always append an extension, you are safe, right? A hacker uploads dir_protect hack.txt (with a space in it, as spaces are common in Windows) and thus creates a DoS (the security adapter has no direct access to the directory, only to the list of files transferred). – Tino Mar 28 at 9:56
5

This is working for me:

# traditional system call return values-- used in an `if`, this will be true when returning 0. Very Odd.
contains () {
    # odd syntax here for passing array parameters: http://stackoverflow.com/questions/8082947/how-to-pass-an-array-to-a-bash-function
    local list=$1[@]
    local elem=$2

    # echo "list" ${!list}
    # echo "elem" $elem

    for i in "${!list}"
    do
        # echo "Checking to see if" "$i" "is the same as" "${elem}"
        if [ "$i" == "${elem}" ] ; then
            # echo "$i" "was the same as" "${elem}"
            return 0
        fi
    done

    # echo "Could not find element"
    return 1
}

Example call:

arr=("abc" "xyz" "123")
if contains arr "abcx"; then
    echo "Yes"
else
    echo "No"
fi
5

Borrowing from Dennis Williamson's answer, the following solution combines arrays, shell-safe quoting, and regular expressions to avoid the need for: iterating over loops; using pipes or other sub-processes; or using non-bash utilities.

declare -a array=('hello, stack' one 'two words' words last)
printf -v array_str -- ',,%q' "${array[@]}"

if [[ "${array_str},," =~ ,,words,, ]]
then
   echo 'Matches'
else
   echo "Doesn't match"
fi

The above code works by using Bash regular expressions to match against a stringified version of the array contents. There are six important steps to ensure that the regular expression match can't be fooled by clever combinations of values within the array:

  1. Construct the comparison string by using Bash's built-in printf shell-quoting, %q. Shell-quoting will ensure that special characters become "shell-safe" by being escaped with backslash \.
  2. Choose a special character to serve as a value delimiter. The delimiter HAS to be one of the special characters that will become escaped when using %q; that's the only way to guarantee that values within the array can't be constructed in clever ways to fool the regular expression match. I choose comma , because that character is the safest when eval'd or misused in an otherwise unexpected way.
  3. Combine all array elements into a single string, using two instances of the special character to serve as delimiter. Using comma as an example, I used ,,%q as the argument to printf. This is important because two instances of the special character can only appear next to each other when they appear as the delimiter; all other instances of the special character will be escaped.
  4. Append two trailing instances of the delimiter to the string, to allow matches against the last element of the array. Thus, instead of comparing against ${array_str}, compare against ${array_str},,.
  5. If the target string you're searching for is supplied by a user variable, you must escape all instances of the special character with a backslash. Otherwise, the regular expression match becomes vulnerable to being fooled by cleverly-crafted array elements.
  6. Perform a Bash regular expression match against the string.
2
  • Very clever. I can see that most potential issues are prevented, but I'd want to test to see if there are any corner cases. Also, I'd like to see an example of handling point 5. Something like printf -v pattern ',,%q,,' "$user_input"; if [[ "${array_str},," =~ $pattern ]] perhaps. – Dennis Williamson Sep 13 '17 at 22:22
  • case "$(printf ,,%q "${haystack[@]}"),," in (*"$(printf ,,%q,, "$needle")"*) true;; (*) false;; esac – Tino Mar 6 '18 at 17:30
5

Here's a compilation of several possible implementations, complete with integrated verification and simple benchmarking:

#!/usr/bin/env bash

# Check if array contains item [$1: item, $2: array name]
function in_array_1() {
    local needle="$1" item
    local -n arrref="$2"
    for item in "${arrref[@]}"; do
        [[ "${item}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2: array name]
function in_array_2() {
    local needle="$1" arrref="$2[@]" item
    for item in "${!arrref}"; do
        [[ "${item}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2: array name]
function in_array_3() {
    local needle="$1" i
    local -n arrref="$2"
    for ((i=0; i < ${#arrref[@]}; i++)); do
        [[ "${arrref[i]}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2..$n: array items]
function in_array_4() {
    local needle="$1" item
    shift
    for item; do
        [[ "${item}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2..$n: array items]
function in_array_5() {
    local needle="$1" item
    for item in "${@:2}"; do
        [[ "${item}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2: array name]
function in_array_6() {
    local needle="$1" arrref="$2[@]" array i
    array=("${!arrref}")
    for ((i=0; i < ${#array[@]}; i++)); do
        [[ "${array[i]}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2..$n: array items]
function in_array_7() {
    local needle="$1" array=("${@:2}") item
    for item in "${array[@]}"; do
        [[ "${item}" == "${needle}" ]] && return 0
    done
    return 1
}

# Check if array contains item [$1: item, $2..$n: array items]
function in_array_8() {
    local needle="$1"
    shift
    while (( $# > 0 )); do
        [[ "$1" == "${needle}" ]] && return 0
        shift
    done
    return 1
}


#------------------------------------------------------------------------------


# Generate map for array [$1: name of source array, $2: name of target array]
# NOTE: target array must be pre-declared by caller using 'declare -A <name>'
function generate_array_map() {
    local -n srcarr="$1" dstmap="$2"
    local i key
    dstmap=()
    for i in "${!srcarr[@]}"; do
        key="${srcarr[i]}"
        [[ -z ${dstmap["${key}"]+set} ]] && dstmap["${key}"]=${i} || dstmap["${key}"]+=,${i}
    done
}

# Check if array contains item [$1: item, $2: name of array map]
function in_array_9() {
    local needle="$1"
    local -n mapref="$2"
    [[ -n "${mapref["${needle}"]+set}" ]] && return 0 || return 1
}


#------------------------------------------------------------------------------


# Test in_array function [$1: function name, $2: function description, $3: test array size]
function test() {
    local tname="$1" tdesc="$2" tn=$3 ti=0 tj=0 ta=() tct=0 tepapre="" tepapost="" tepadiff=()
    local -A tam=()

    echo -e "\e[1m${tname} (${tdesc}):\e[0m"

    # Generate list of currently defined variables
    tepapre="$(compgen -v)"

    # Fill array with random items
    for ((ti=0; ti < ${tn}; ti++)); do
        ta+=("${RANDOM} ${RANDOM} ${RANDOM} ${RANDOM}")
    done

    # Determine function call type (pass array items, pass array name, pass array map)
    case "${tname}" in
        "in_array_1"|"in_array_2"|"in_array_3"|"in_array_6") tct=0; ;;
        "in_array_4"|"in_array_5"|"in_array_7"|"in_array_8") tct=1; ;;
        "in_array_9") generate_array_map ta tam; tct=2; ;;
        *) echo "Unknown in_array function '${tname}', aborting"; return 1; ;;
    esac

    # Verify in_array function is working as expected by picking a few random
    # items and checking
    echo -e "\e[1mVerification...\e[0m"
    for ((ti=0; ti < 10; ti++)); do
        tj=$(( ${RANDOM} % ${#ta[@]} ))
        echo -n "Item ${tj} '${ta[tj]}': "
        if (( ${tct} == 0 )); then
            "${tname}" "${ta[tj]}" ta && echo -en "\e[1;32mok\e[0m" || echo -en "\e[1;31mnok\e[0m"
            echo -n " "
            "${tname}" "${ta[tj]}.x" ta && echo -en "\e[1;31mnok\e[0m" || echo -en "\e[1;32mok\e[0m"
        elif (( ${tct} == 1 )); then
            "${tname}" "${ta[tj]}" "${ta[@]}" && echo -en "\e[1;32mok\e[0m" || echo -en "\e[1;31mnok\e[0m"
            echo -n " "
            "${tname}" "${ta[tj]}.x" "${ta[@]}" && echo -en "\e[1;31mnok\e[0m" || echo -en "\e[1;32mok\e[0m"
        elif (( ${tct} == 2 )); then
            "${tname}" "${ta[tj]}" tam && echo -en "\e[1;32mok\e[0m" || echo -en "\e[1;31mnok\e[0m"
            echo -n " "
            "${tname}" "${ta[tj]}.x" tam && echo -en "\e[1;31mnok\e[0m" || echo -en "\e[1;32mok\e[0m"
        fi
        echo
    done

    # Benchmark in_array function
    echo -en "\e[1mBenchmark...\e[0m"
    time for ((ti=0; ti < ${#ta[@]}; ti++)); do
        if (( ${tct} == 0 )); then
            "${tname}" "${ta[ti]}" ta
        elif (( ${tct} == 1 )); then
            "${tname}" "${ta[ti]}" "${ta[@]}"
        elif (( ${tct} == 2 )); then
            "${tname}" "${ta[ti]}" tam
        fi
    done

    # Generate list of currently defined variables, compare to previously
    # generated list to determine possible environment pollution
    echo -e "\e[1mEPA test...\e[0m"
    tepapost="$(compgen -v)"
    readarray -t tepadiff < <(echo -e "${tepapre}\n${tepapost}" | sort | uniq -u)
    if (( ${#tepadiff[@]} == 0 )); then
        echo -e "\e[1;32mclean\e[0m"
    else
        echo -e "\e[1;31mpolluted:\e[0m ${tepadiff[@]}"
    fi

    echo
}


#------------------------------------------------------------------------------


# Test in_array functions
n=5000
echo
( test in_array_1 "pass array name, nameref reference, for-each-loop over array items" ${n} )
( test in_array_2 "pass array name, indirect reference, for-each-loop over array items" ${n} )
( test in_array_3 "pass array name, nameref reference, c-style for-loop over array items by index" ${n} )
( test in_array_4 "pass array items, for-each-loop over arguments" ${n} )
( test in_array_5 "pass array items, for-each-loop over arguments as array" ${n} )
( test in_array_6 "pass array name, indirect reference + array copy, c-style for-loop over array items by index" ${n} )
( test in_array_7 "pass array items, copy array from arguments as array, for-each-loop over array items" ${n} )
( test in_array_8 "pass array items, while-loop, shift over arguments" ${n} )
( test in_array_9 "pre-generated array map, pass array map name, direct test without loop" ${n} )

Results:

in_array_1 (pass array name, nameref reference, for-each-loop over array items):
Verification...
Item 862 '19528 10140 12669 17820': ok ok
Item 2250 '27262 30442 9295 24867': ok ok
Item 4794 '3857 17404 31925 27993': ok ok
Item 2532 '14553 12282 26511 32657': ok ok
Item 1911 '21715 8066 15277 27126': ok ok
Item 4289 '3081 10265 16686 19121': ok ok
Item 4837 '32220 1758 304 7871': ok ok
Item 901 '20652 23880 20634 14286': ok ok
Item 2488 '14578 8625 30251 9343': ok ok
Item 4165 '4514 25064 29301 7400': ok ok
Benchmark...
real    1m11,796s
user    1m11,262s
sys     0m0,473s
EPA test...
clean

in_array_2 (pass array name, indirect reference, for-each-loop over array items):
Verification...
Item 2933 '17482 25789 27710 2096': ok ok
Item 3584 '876 14586 20885 8567': ok ok
Item 872 '176 19749 27265 18038': ok ok
Item 595 '6597 31710 13266 8813': ok ok
Item 748 '569 9200 28914 11297': ok ok
Item 3791 '26477 13218 30172 31532': ok ok
Item 2900 '3059 8457 4879 16634': ok ok
Item 676 '23511 686 589 7265': ok ok
Item 2248 '31351 7961 17946 24782': ok ok
Item 511 '8484 23162 11050 426': ok ok
Benchmark...
real    1m11,524s
user    1m11,086s
sys     0m0,437s
EPA test...
clean

in_array_3 (pass array name, nameref reference, c-style for-loop over array items by index):
Verification...
Item 1589 '747 10250 20133 29230': ok ok
Item 488 '12827 18892 31996 1977': ok ok
Item 801 '19439 25243 24485 24435': ok ok
Item 2588 '17193 18893 21610 9302': ok ok
Item 4436 '7100 655 8847 3068': ok ok
Item 2620 '19444 6457 28835 24717': ok ok
Item 4398 '4420 16336 612 4255': ok ok
Item 2430 '32397 2402 12631 29774': ok ok
Item 3419 '906 5361 32752 7698': ok ok
Item 356 '9776 16485 20838 13330': ok ok
Benchmark...
real    1m17,037s
user    1m17,019s
sys     0m0,005s
EPA test...
clean

in_array_4 (pass array items, for-each-loop over arguments):
Verification...
Item 1388 '7932 15114 4025 15625': ok ok
Item 3900 '23863 25328 5632 2752': ok ok
Item 2678 '31296 4216 17485 8874': ok ok
Item 1893 '16952 29047 29104 23384': ok ok
Item 1616 '19543 5999 4485 22929': ok ok
Item 93 '14456 2806 12829 19552': ok ok
Item 265 '30961 19733 11863 3101': ok ok
Item 4615 '10431 9566 25767 13518': ok ok
Item 576 '11726 15104 11116 74': ok ok
Item 3829 '19371 25026 6252 29478': ok ok
Benchmark...
real    1m30,912s
user    1m30,740s
sys     0m0,011s
EPA test...
clean

in_array_5 (pass array items, for-each-loop over arguments as array):
Verification...
Item 1012 '29213 31971 21483 30225': ok ok
Item 2802 '4079 5423 29240 29619': ok ok
Item 473 '6968 798 23936 6852': ok ok
Item 2183 '20734 4521 30800 2126': ok ok
Item 3059 '14952 9918 15695 19309': ok ok
Item 1424 '25784 28380 14555 21893': ok ok
Item 1087 '16345 19823 26210 20083': ok ok
Item 257 '28890 5198 7251 3866': ok ok
Item 3986 '29035 19288 12107 3857': ok ok
Item 2509 '9219 32484 12842 27472': ok ok
Benchmark...
real    1m53,485s
user    1m53,404s
sys     0m0,077s
EPA test...
clean

in_array_6 (pass array name, indirect reference + array copy, c-style for-loop over array items by index):
Verification...
Item 4691 '25498 10521 20673 14948': ok ok
Item 263 '25265 29824 3876 14088': ok ok
Item 2550 '2416 14274 12594 29740': ok ok
Item 2269 '2769 11436 3622 28273': ok ok
Item 3246 '23730 25956 3514 17626': ok ok
Item 1059 '10776 12514 27222 15640': ok ok
Item 53 '23813 13365 16022 4092': ok ok
Item 1503 '6593 23540 10256 17818': ok ok
Item 2452 '12600 27404 30960 26759': ok ok
Item 2526 '21190 32512 23651 7865': ok ok
Benchmark...
real    1m54,793s
user    1m54,326s
sys     0m0,457s
EPA test...
clean

in_array_7 (pass array items, copy array from arguments as array, for-each-loop over array items):
Verification...
Item 2212 '12127 12828 27570 7051': ok ok
Item 1393 '19552 26263 1067 23332': ok ok
Item 506 '18818 8253 14924 30710': ok ok
Item 789 '9803 1886 17584 32686': ok ok
Item 1795 '19788 27842 28044 3436': ok ok
Item 376 '4372 16953 17280 4031': ok ok
Item 4846 '19130 6261 21959 6869': ok ok
Item 2064 '2357 32221 22682 5814': ok ok
Item 4866 '10928 10632 19175 14984': ok ok
Item 1294 '8499 11885 5900 6765': ok ok
Benchmark...
real    2m35,012s
user    2m33,578s
sys     0m1,433s
EPA test...
clean

in_array_8 (pass array items, while-loop, shift over arguments):
Verification...
Item 134 '1418 24798 20169 9501': ok ok
Item 3986 '12160 12021 29794 29236': ok ok
Item 1607 '26633 14260 18227 898': ok ok
Item 2688 '18387 6285 2385 18432': ok ok
Item 603 '1421 306 6102 28735': ok ok
Item 625 '4530 19718 30900 1938': ok ok
Item 4033 '9968 24093 25080 8179': ok ok
Item 310 '6867 9884 31231 29173': ok ok
Item 661 '3794 4745 26066 22691': ok ok
Item 4129 '3039 31766 6714 4921': ok ok
Benchmark...
real    5m51,097s
user    5m50,566s
sys     0m0,495s
EPA test...
clean

in_array_9 (pre-generated array map, pass array map name, direct test without loop):
Verification...
Item 3696 '661 6048 13881 26901': ok ok
Item 815 '29729 13733 3935 20697': ok ok
Item 1076 '9220 3405 18448 7240': ok ok
Item 595 '8912 2886 13678 24066': ok ok
Item 2803 '13534 23891 5344 652': ok ok
Item 1810 '12528 32150 7050 1254': ok ok
Item 4055 '21840 7436 1350 15443': ok ok
Item 2416 '19550 28434 17110 31203': ok ok
Item 1630 '21054 2819 7527 953': ok ok
Item 1044 '30152 22211 22226 6950': ok ok
Benchmark...
real    0m0,128s
user    0m0,128s
sys     0m0,000s
EPA test...
clean
2
  • Worth to note, that pure putting of array to /dev/null with echo takes about half of the in_array_1 function. Also the solution which uses printf and grep (similar to stackoverflow.com/a/47541882/31086, but adopted to be compatible with this benchmark) is only tiny bit faster than in_array_1 – Slimak Jul 15 '20 at 18:30
  • Timing of generate_array_map? – Tino Mar 28 at 14:14
4

One-line check without 'grep' and loops

if ( dlm=$'\x1F' ; IFS="$dlm" ; [[ "$dlm${array[*]}$dlm" == *"$dlm${item}$dlm"* ]] ) ; then
  echo "array contains '$item'"
else
  echo "array does not contain '$item'"
fi

This approach uses neither external utilities like grep nor loops.

What happens here, is:

  • we use a wildcard substring matcher to find our item in the array that is concatenated into a string;
  • we cut off possible false positives by enclosing our search item between a pair of delimiters;
  • we use a non-printable character as delimiter, to be on the safe side;
  • we achieve our delimiter being used for array concatenation too by temporary replacement of the IFS variable value;
  • we make this IFS value replacement temporary by evaluating our conditional expression in a sub-shell (inside a pair of parentheses)
4
  • Eliminate dlm. Use IFS directly. – Robin A. Meade Apr 23 '20 at 4:32
  • This is best answer. I liked it so much, I wrote a function using this technique. – Robin A. Meade Apr 23 '20 at 5:29
  • Thank you @RobinA.Meade, I get your point, and your suggestion may help to save a number of chars in the script for ones who care :) Still I personally prefer to stay with current syntax, keeping in mind separation of concerns between custom delimitation and array concatenation... – Sergey Ushakov Aug 17 '20 at 12:39
  • The problem with this still is that array entries might contain the $dlm by accident! You can protect against this by using something like dlm="${array[*]}"; dlm=",=${dlm//?/=}=," which makes the delimiter longer than the array, so the array cannot contain the delimiter by chance, but this looks a bit .. crank and probably makes this solution O(n^2) – Tino Mar 28 at 10:21
4

The answer with most votes is very concise and clean, but it can have false positives when a space is part of one of the array elements. This can be overcome when changing IFS and using "${array[*]}" instead of "${array[@]}". The method is identical, but it looks less clean. By using "${array[*]}", we print all elements of $array, separated by the first character in IFS. So by choosing a correct IFS, you can overcome this particular issue. In this particular case, we decide to set IFS to an uncommon character $'\001' which stands for Start of Heading (SOH)

$ array=("foo bar" "baz" "qux")
$ IFS=$'\001'
$ [[ "$IFS${array[*]}$IFS" =~ "${IFS}foo${IFS}" ]] && echo yes || echo no
no
$ [[ "$IFS${array[*]}$IFS" =~ "${IFS}foo bar${IFS}" ]] && echo yes || echo no
yes
$ unset IFS

This resolves most issues false positives, but requires a good choice of IFS.

note: If IFS was set before, it is best to save it and reset it instead of using unset IFS


related:

3

A small addition to @ghostdog74's answer about using case logic to check that array contains particular value:

myarray=(one two three)
word=two
case "${myarray[@]}" in  ("$word "*|*" $word "*|*" $word") echo "found" ;; esac

Or with extglob option turned on, you can do it like this:

myarray=(one two three)
word=two
shopt -s extglob
case "${myarray[@]}" in ?(*" ")"$word"?(" "*)) echo "found" ;; esac

Also we can do it with if statement:

myarray=(one two three)
word=two
if [[ $(printf "_[%s]_" "${myarray[@]}") =~ .*_\[$word\]_.* ]]; then echo "found"; fi
3

Combining a few of the ideas presented here you can make an elegant if statment without loops that does exact word matches.

find="myword"
array=(value1 value2 myword)
if [[ ! -z $(printf '%s\n' "${array[@]}" | grep -w $find) ]]; then
  echo "Array contains myword";
fi

This will not trigger on word or val, only whole word matches. It will break if each array value contains multiple words.

1
  • There are dollar-signs in the "=" statements that should not be there, AFAICT. – bgoodr Jun 20 '20 at 13:39
2

given :

array=("something to search for" "a string" "test2000")
elem="a string"

then a simple check of :

if c=$'\x1E' && p="${c}${elem} ${c}" && [[ ! "${array[@]/#/${c}} ${c}" =~ $p ]]; then
  echo "$elem exists in array"
fi

where

c is element separator
p is regex pattern

(The reason for assigning p separately, rather than using the expression directly inside [[ ]] is to maintain compatibility for bash 4)

1
  • love your use of the word "simple" here... 😂 – Christian Jan 2 '19 at 10:51
2

Using grep and printf

Format each array member on a new line, then grep the lines.

if printf '%s\n' "${array[@]}" | grep -x -q "search string"; then echo true; else echo false; fi
example:
$ array=("word", "two words")
$ if printf '%s\n' "${array[@]}" | grep -x -q "two words"; then echo true; else echo false; fi
true

Note that this has no problems with delimeters and spaces.

1

I generally write these kind of utilities to operate on the name of the variable, rather than the variable value, primarily because bash can't otherwise pass variables by reference.

Here's a version that works with the name of the array:

function array_contains # array value
{
    [[ -n "$1" && -n "$2" ]] || {
        echo "usage: array_contains <array> <value>"
        echo "Returns 0 if array contains value, 1 otherwise"
        return 2
    }

    eval 'local values=("${'$1'[@]}")'

    local element
    for element in "${values[@]}"; do
        [[ "$element" == "$2" ]] && return 0
    done
    return 1
}

With this, the question example becomes:

array_contains A "one" && echo "contains one"

etc.

1
  • Can someone post an example of this used within an if, particularly how you pass in the array. I'm trying to check to see if an argument to the script was passed by treating the params as an array, but it doesn't want to work. params=("$@") check=array_contains ${params} 'SKIPDIRCHECK' if [[ ${check} == 1 ]]; then .... But when running the script with 'asas' as an argument, it keeps saying asas: command not found. :/ – Steve Childs Mar 31 '16 at 10:48
1

Using parameter expansion:

${parameter:+word} If parameter is null or unset, nothing is substituted, otherwise the expansion of word is substituted.

declare -A myarray
myarray[hello]="world"

for i in hello goodbye 123
do
  if [ ${myarray[$i]:+_} ]
  then
    echo ${!myarray[$i]} ${myarray[$i]} 
  else
    printf "there is no %s\n" $i
  fi
done
1
  • ${myarray[hello]:+_} works great for associaive arrays, but not for usual indexed arrays. The question is about finding a value in an aray, not checking if the key of an associative array exists. – Eric May 13 '20 at 11:33
0

After having answered, I read another answer that I particularly liked, but it was flawed and downvoted. I got inspired and here are two new approaches I see viable.

array=("word" "two words") # let's look for "two words"

using grep and printf:

(printf '%s\n' "${array[@]}" | grep -x -q "two words") && <run_your_if_found_command_here>

using for:

(for e in "${array[@]}"; do [[ "$e" == "two words" ]] && exit 0; done; exit 1) && <run_your_if_found_command_here>

For not_found results add || <run_your_if_notfound_command_here>

0

Here's my take on this.

I'd rather not use a bash for loop if I can avoid it, as that takes time to run. If something has to loop, let it be something that was written in a lower level language than a shell script.

function array_contains { # arrayname value
  local -A _arr=()
  local IFS=
  eval _arr=( $(eval printf '[%q]="1"\ ' "\${$1[@]}") )
  return $(( 1 - 0${_arr[$2]} ))
}

This works by creating a temporary associative array, _arr, whose indices are derived from the values of the input array. (Note that associative arrays are available in bash 4 and above, so this function won't work in earlier versions of bash.) We set $IFS to avoid word splitting on whitespace.

The function contains no explicit loops, though internally bash steps through the input array in order to populate printf. The printf format uses %q to ensure that input data are escaped such that they can safely be used as array keys.

$ a=("one two" three four)
$ array_contains a three && echo BOOYA
BOOYA
$ array_contains a two && echo FAIL
$

Note that everything this function uses is a built-in to bash, so there are no external pipes dragging you down, even in the command expansion.

And if you don't like using eval ... well, you're free to use another approach. :-)

5
  • What if the array contains square brackets? – gniourf_gniourf Feb 9 '17 at 7:02
  • @gniourf_gniourf - seems to be fine if square brackets are balanced, but I can see it being a problem if your array includes values with unbalanced square brackets. In that case I'd invoke the eval instruction at the end of the answer. :) – ghoti Feb 9 '17 at 11:10
  • It's not that I don't like eval (I have nothing against it, unlike most people who cry eval is evil, mostly without understanding what's evil about it). Just that your command is broken. Maybe %q instead of %s would be better. – gniourf_gniourf Feb 9 '17 at 12:46
  • 1
    @gniourf_gniourf: I only meant the "another approach" bit (and I'm totally with you re eval, obviously), but you're absolutely right, %q appears to help, without breaking anything else that I can see. (I didn't realize that %q would escape square brackets too.) Another issue I saw and fixed was regarding whitespace. With a=(one "two " three), similar to Keegan's issue: not only did array_contains a "two " get a false negative, but array_contains a two got a false positive. Easy enough to fix by setting IFS. – ghoti Feb 10 '17 at 13:06
  • Regarding whitespaces, isn't it because there are quotes missing? it also breaks with glob characters. I think you want this instead: eval _arr=( $(eval printf '[%q]="1"\ ' "\"\${$1[@]}\"") ), and you can ditch the local IFS=. There's still a problem with empty fields in the array, as Bash will refuse to create an empty key in an associative array. A quick hacky way to fix it is to prepend a dummy character, say x: eval _arr=( $(eval printf '[x%q]="1"\ ' "\"\${$1[@]}\"") ) and return $(( 1 - 0${_arr[x$2]} )). – gniourf_gniourf Feb 10 '17 at 18:13
0

The OP added the following answer themselves, with the commentary:

With help from the answers and the comments, after some testing, I came up with this:

function contains() {
    local n=$#
    local value=${!n}
    for ((i=1;i < $#;i++)) {
        if [ "${!i}" == "${value}" ]; then
            echo "y"
            return 0
        fi
    }
    echo "n"
    return 1
}

A=("one" "two" "three four")
if [ $(contains "${A[@]}" "one") == "y" ]; then
    echo "contains one"
fi
if [ $(contains "${A[@]}" "three") == "y" ]; then
    echo "contains three"
fi
2
  • Note that == should generally be avoided in favor of =, which is guaranteed by the POSIX standard for test to work as a string-comparison operator. == is an extension, and not all shells honor it. Also, function funcname() { is a combination of the POSIX-standard syntax funcname() { and the legacy ksh syntax function funcname {, and yet is compatible with neither POSIX sh, nor with legacy ksh. Just use the POSIX syntax instead for new code. – Charles Duffy Nov 14 '20 at 16:34
  • ...see wiki.bash-hackers.org/scripting/obsolete re: the above assertions regarding function declaration syntax. – Charles Duffy Nov 14 '20 at 16:35
0

keep it simple :

Array1=( "item1" "item2" "item3" "item-4" )
var="item3"

count=$(echo ${Array1[@]} | tr ' ' '\n' | awk '$1 == "'"$var"'"{print $0}' | wc -l)
[ $count -eq 0 ] && echo "Not found" || echo "found"
0
: NeedleInArgs "$needle" "${haystack[@]}"
: NeedleInArgs "$needle" arg1 arg2 .. argN
NeedleInArgs()
{
local a b;
printf -va '\n%q\n' "$1";
printf -vb '%q\n' "${@:2}";
case $'\n'"$b" in (*"$a"*) return 0;; esac;
return 1;
}

Use like:

NeedleInArgs "$needle" "${haystack[@]}" && echo "$needle" found || echo "$needle" not found;
  • For bash v3.1 and above (printf -v support)
  • No forks nor external programs
  • No loops (except internal expansions within bash)
  • Works for all possible values and arrays, no exceptions, nothing to worry about

Can also be used directly like in:

if      NeedleInArgs "$input" value1 value2 value3 value4;
then
        : input from the list;
else
        : input not from list;
fi;

For bash from v2.05b to v3.0 printf lacks -v, hence this needs 2 additional forks (but no execs, as printf is a bash builtin):

NeedleInArgs()
{
case $'\n'"`printf '%q\n' "${@:2}"`" in
(*"`printf '\n%q\n' "$1"`"*) return 0;;
esac;
return 1;
}

Note that I tested the timing:

check call0:  n: t4.43 u4.41 s0.00 f: t3.65 u3.64 s0.00 l: t4.91 u4.90 s0.00 N: t5.28 u5.27 s0.00 F: t2.38 u2.38 s0.00 L: t5.20 u5.20 s0.00
check call1:  n: t3.41 u3.40 s0.00 f: t2.86 u2.84 s0.01 l: t3.72 u3.69 s0.02 N: t4.01 u4.00 s0.00 F: t1.15 u1.15 s0.00 L: t4.05 u4.05 s0.00
check call2:  n: t3.52 u3.50 s0.01 f: t3.74 u3.73 s0.00 l: t3.82 u3.80 s0.01 N: t2.67 u2.67 s0.00 F: t2.64 u2.64 s0.00 L: t2.68 u2.68 s0.00
  • call0 and call1 are different variants of calls to another fast pure-bash-variant
  • call2 is this here.
  • N=notfound F=firstmatch L=lastmatch
  • lowercase letter is short array, uppercase is long array

As you can see, this variant here has a very stable runtime, so it does not depend that much on the match position. The runtime is dominated mostly by array length. The runtime of the searching variant is highly depending on the match position. So in edge cases this variant here can be (much) faster.

But very important, the searching variant is much mor RAM efficient, as this variant here always transforms the whole array into a big string.

So if your RAM is tight and you expect mostly early matches, then do not use this here. However if you want a predictable runtime, have long arrays to match expect late or no match at all, and also double RAM use is not much of a concern, then this here has some advantage.

Script used for timing test:

in_array()
{
    local needle="$1" arrref="$2[@]" item
    for item in "${!arrref}"; do
        [[ "${item}" == "${needle}" ]] && return 0
    done
    return 1
}

NeedleInArgs()
{
local a b;
printf -va '\n%q\n' "$1";
printf -vb '%q\n' "${@:2}";
case $'\n'"$b" in (*"$a"*) return 0;; esac;
return 1;
}

loop1() { for a in {1..100000}; do "$@"; done }
loop2() { for a in {1..1000}; do "$@"; done }

run()
{
  needle="$5"
  arr=("${@:6}")

  out="$( ( time -p "loop$2" "$3" ) 2>&1 )"

  ret="$?"
  got="${out}"
  syst="${got##*sys }"
  got="${got%"sys $syst"}"
  got="${got%$'\n'}"
  user="${got##*user }"
  got="${got%"user $user"}"
  got="${got%$'\n'}"
  real="${got##*real }"
  got="${got%"real $real"}"
  got="${got%$'\n'}"
  printf ' %s: t%q u%q s%q' "$1" "$real" "$user" "$syst"
  [ -z "$rest" ] && [ "$ret" = "$4" ] && return
  printf 'FAIL! expected %q got %q\n' "$4" "$ret"
  printf 'call:   %q\n' "$3"
  printf 'out:    %q\n' "$out"
  printf 'rest:   %q\n' "$rest"
  printf 'needle: %q\n' "$5"
  printf 'arr:   '; printf ' %q' "${@:6}"; printf '\n'
  exit 1
}

check()
{
  printf 'check %q: ' "$1"
  run n 1 "$1" 1 needle a b c d
  run f 1 "$1" 0 needle needle a b c d
  run l 1 "$1" 0 needle a b c d needle
  run N 2 "$1" 1 needle "${rnd[@]}"
  run F 2 "$1" 0 needle needle "${rnd[@]}"
  run L 2 "$1" 0 needle "${rnd[@]}" needle
  printf '\n'
}

call0() { chk=("${arr[@]}"); in_array "$needle" chk; }
call1() { in_array "$needle" arr; }
call2() { NeedleInArgs "$needle" "${arr[@]}"; }

rnd=()
for a in {1..1000}; do rnd+=("$a"); done

check call0
check call1
check call2
-1

My version of the regular expressions technique that's been suggested already:

values=(foo bar)
requestedValue=bar

requestedValue=${requestedValue##[[:space:]]}
requestedValue=${requestedValue%%[[:space:]]}
[[ "${values[@]/#/X-}" =~ "X-${requestedValue}" ]] || echo "Unsupported value"

What's happening here is that you're expanding the entire array of supported values into words and prepending a specific string, "X-" in this case, to each of them, and doing the same to the requested value. If this one is indeed contained in the array, then the resulting string will at most match one of the resulting tokens, or none at all in the contrary. In the latter case the || operator triggers and you know you're dealing with an unsupported value. Prior to all of that the requested value is stripped of all leading and trailing whitespace through standard shell string manipulation.

It's clean and elegant, I believe, though I'm not too sure of how performant it may be if your array of supported values is particularly large.

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