Bash: find non-repeated elements in an array - arrays

I'm looking for a way to find non-repeated elements in an array in bash.
Simple example:
joined_arrays=(CVE-2015-4840 CVE-2015-4840 CVE-2015-4860 CVE-2015-4860 CVE-2016-3598)
<magic>
non_repeated=(CVE-2016-3598)
To give context, the goal here is to end up with an array of all package update CVEs that aren't generally available via 'yum update' on a host due to being excluded. The way I came up with doing such a thing is to populate 3 preliminary arrays:
available_updates=() #just what 'yum update' would provide
all_updates=() #including excluded ones
joined_updates=() # contents of both prior arrays
Then apply logic to joined_updates=() that would return only elements that are included exactly once. Any element with two occurrences is one that can be updated normally and doesn't need to end up in the 'excluded_updates=()' array.
Hopefully this makes sense. As I was typing it out I'm wondering if it might be simpler to just remove all elements found in available_updates=() from all_updates=(), leaving the remaining ones as the excluded updates.
Thanks!

One pure-bash approach is to store a counter in an associative array, and then look for items where the counter is exactly one:
declare -A seen=( ) # create an associative array (requires bash 4)
for item in "${joined_arrays[#]}"; do # iterate over original items
(( seen[$item] += 1 )) # increment value associated with item
done
declare -a non_repeated=( )
for item in "${!seen[#]}"; do # iterate over keys
if (( ${seen[$item]} == 1 )); then # if counter for that key is 1...
non_repeated+=( "$item" ) # ...add that item to the output array.
done
declare -p non_repeated # print result
Another, terser (but buggier -- doesn't work with values containing newline literals) approach is to take advantage of standard text manipulation tools:
non_repeated=( ) # setup
# use uniq -c to count; filter for results with a count of 1
while read -r count value; do
(( count == 1 )) && non_repeated+=( "$value" )
done < <(printf '%s\n' "${joined_arrays[#]}" | sort | uniq -c)
declare -p non_repeated # print result
...or, even terser (and buggier, requiring that the array value split into exactly one field in awk):
readarray -t non_repeated \
< <(printf '%s\n' "${joined_arrays[#]}" | sort | uniq -c | awk '$1 == 1 { print $2; }'
To crib an answer I really should have come up myself from #Aaron (who deserves an upvote from anyone using this; do note that it retains the doesn't-work-with-values-with-newlines bug), one can also use uniq -u:
readarray -t non_repeated < <(printf '%s\n' "${joined_arrays[#]}" | sort | uniq -u)

I would rely on uniq.
It's -u option is made for this exact case, outputting only the uniques occurrences. It relies on the input to be a sorted linefeed-separated list of tokens, hence the need for IFS and sort :
$ my_test_array=( 1 2 3 2 1 0 )
$ printf '%s\n' "${my_test_array[#]}" | sort | uniq -u
0
3

Here is a single awk based solution that doesn't require sort:
arr=( 1 2 3 2 1 0 )
printf '%s\n' "${arr[#]}" |
awk '{++fq[$0]} END{for(i in fq) if (fq[i]==1) print i}'
0
3

Related

BASH: Sorting Associative array without echoing it [duplicate]

I have an array in Bash, for example:
array=(a c b f 3 5)
I need to sort the array. Not just displaying the content in a sorted way, but to get a new array with the sorted elements. The new sorted array can be a completely new one or the old one.
You don't really need all that much code:
IFS=$'\n' sorted=($(sort <<<"${array[*]}"))
unset IFS
Supports whitespace in elements (as long as it's not a newline), and works in Bash 3.x.
e.g.:
$ array=("a c" b f "3 5")
$ IFS=$'\n' sorted=($(sort <<<"${array[*]}")); unset IFS
$ printf "[%s]\n" "${sorted[#]}"
[3 5]
[a c]
[b]
[f]
Note: #sorontar has pointed out that care is required if elements contain wildcards such as * or ?:
The sorted=($(...)) part is using the "split and glob" operator. You should turn glob off: set -f or set -o noglob or shopt -op noglob or an element of the array like * will be expanded to a list of files.
What's happening:
The result is a culmination six things that happen in this order:
IFS=$'\n'
"${array[*]}"
<<<
sort
sorted=($(...))
unset IFS
First, the IFS=$'\n'
This is an important part of our operation that affects the outcome of 2 and 5 in the following way:
Given:
"${array[*]}" expands to every element delimited by the first character of IFS
sorted=() creates elements by splitting on every character of IFS
IFS=$'\n' sets things up so that elements are expanded using a new line as the delimiter, and then later created in a way that each line becomes an element. (i.e. Splitting on a new line.)
Delimiting by a new line is important because that's how sort operates (sorting per line). Splitting by only a new line is not-as-important, but is needed preserve elements that contain spaces or tabs.
The default value of IFS is a space, a tab, followed by a new line, and would be unfit for our operation.
Next, the sort <<<"${array[*]}" part
<<<, called here strings, takes the expansion of "${array[*]}", as explained above, and feeds it into the standard input of sort.
With our example, sort is fed this following string:
a c
b
f
3 5
Since sort sorts, it produces:
3 5
a c
b
f
Next, the sorted=($(...)) part
The $(...) part, called command substitution, causes its content (sort <<<"${array[*]}) to run as a normal command, while taking the resulting standard output as the literal that goes where ever $(...) was.
In our example, this produces something similar to simply writing:
sorted=(3 5
a c
b
f
)
sorted then becomes an array that's created by splitting this literal on every new line.
Finally, the unset IFS
This resets the value of IFS to the default value, and is just good practice.
It's to ensure we don't cause trouble with anything that relies on IFS later in our script. (Otherwise we'd need to remember that we've switched things around--something that might be impractical for complex scripts.)
Original response:
array=(a c b "f f" 3 5)
readarray -t sorted < <(for a in "${array[#]}"; do echo "$a"; done | sort)
output:
$ for a in "${sorted[#]}"; do echo "$a"; done
3
5
a
b
c
f f
Note this version copes with values that contains special characters or whitespace (except newlines)
Note readarray is supported in bash 4+.
Edit Based on the suggestion by #Dimitre I had updated it to:
readarray -t sorted < <(printf '%s\0' "${array[#]}" | sort -z | xargs -0n1)
which has the benefit of even understanding sorting elements with newline characters embedded correctly. Unfortunately, as correctly signaled by #ruakh this didn't mean the the result of readarray would be correct, because readarray has no option to use NUL instead of regular newlines as line-separators.
If you don't need to handle special shell characters in the array elements:
array=(a c b f 3 5)
sorted=($(printf '%s\n' "${array[#]}"|sort))
With bash you'll need an external sorting program anyway.
With zsh no external programs are needed and special shell characters are easily handled:
% array=('a a' c b f 3 5); printf '%s\n' "${(o)array[#]}"
3
5
a a
b
c
f
ksh has set -s to sort ASCIIbetically.
Here's a pure Bash quicksort implementation:
#!/bin/bash
# quicksorts positional arguments
# return is in array qsort_ret
qsort() {
local pivot i smaller=() larger=()
qsort_ret=()
(($#==0)) && return 0
pivot=$1
shift
for i; do
# This sorts strings lexicographically.
if [[ $i < $pivot ]]; then
smaller+=( "$i" )
else
larger+=( "$i" )
fi
done
qsort "${smaller[#]}"
smaller=( "${qsort_ret[#]}" )
qsort "${larger[#]}"
larger=( "${qsort_ret[#]}" )
qsort_ret=( "${smaller[#]}" "$pivot" "${larger[#]}" )
}
Use as, e.g.,
$ array=(a c b f 3 5)
$ qsort "${array[#]}"
$ declare -p qsort_ret
declare -a qsort_ret='([0]="3" [1]="5" [2]="a" [3]="b" [4]="c" [5]="f")'
This implementation is recursive… so here's an iterative quicksort:
#!/bin/bash
# quicksorts positional arguments
# return is in array qsort_ret
# Note: iterative, NOT recursive! :)
qsort() {
(($#==0)) && return 0
local stack=( 0 $(($#-1)) ) beg end i pivot smaller larger
qsort_ret=("$#")
while ((${#stack[#]})); do
beg=${stack[0]}
end=${stack[1]}
stack=( "${stack[#]:2}" )
smaller=() larger=()
pivot=${qsort_ret[beg]}
for ((i=beg+1;i<=end;++i)); do
if [[ "${qsort_ret[i]}" < "$pivot" ]]; then
smaller+=( "${qsort_ret[i]}" )
else
larger+=( "${qsort_ret[i]}" )
fi
done
qsort_ret=( "${qsort_ret[#]:0:beg}" "${smaller[#]}" "$pivot" "${larger[#]}" "${qsort_ret[#]:end+1}" )
if ((${#smaller[#]}>=2)); then stack+=( "$beg" "$((beg+${#smaller[#]}-1))" ); fi
if ((${#larger[#]}>=2)); then stack+=( "$((end-${#larger[#]}+1))" "$end" ); fi
done
}
In both cases, you can change the order you use: I used string comparisons, but you can use arithmetic comparisons, compare wrt file modification time, etc. just use the appropriate test; you can even make it more generic and have it use a first argument that is the test function use, e.g.,
#!/bin/bash
# quicksorts positional arguments
# return is in array qsort_ret
# Note: iterative, NOT recursive! :)
# First argument is a function name that takes two arguments and compares them
qsort() {
(($#<=1)) && return 0
local compare_fun=$1
shift
local stack=( 0 $(($#-1)) ) beg end i pivot smaller larger
qsort_ret=("$#")
while ((${#stack[#]})); do
beg=${stack[0]}
end=${stack[1]}
stack=( "${stack[#]:2}" )
smaller=() larger=()
pivot=${qsort_ret[beg]}
for ((i=beg+1;i<=end;++i)); do
if "$compare_fun" "${qsort_ret[i]}" "$pivot"; then
smaller+=( "${qsort_ret[i]}" )
else
larger+=( "${qsort_ret[i]}" )
fi
done
qsort_ret=( "${qsort_ret[#]:0:beg}" "${smaller[#]}" "$pivot" "${larger[#]}" "${qsort_ret[#]:end+1}" )
if ((${#smaller[#]}>=2)); then stack+=( "$beg" "$((beg+${#smaller[#]}-1))" ); fi
if ((${#larger[#]}>=2)); then stack+=( "$((end-${#larger[#]}+1))" "$end" ); fi
done
}
Then you can have this comparison function:
compare_mtime() { [[ $1 -nt $2 ]]; }
and use:
$ qsort compare_mtime *
$ declare -p qsort_ret
to have the files in current folder sorted by modification time (newest first).
NOTE. These functions are pure Bash! no external utilities, and no subshells! they are safe wrt any funny symbols you may have (spaces, newline characters, glob characters, etc.).
NOTE2. The test [[ $i < $pivot ]] is correct. It uses the lexicographical string comparison. If your array only contains integers and you want to sort numerically, use ((i < pivot)) instead.
Please don't edit this answer to change that. It has already been edited (and rolled back) a couple of times. The test I gave here is correct and corresponds to the output given in the example: the example uses both strings and numbers, and the purpose is to sort it in lexicographical order. Using ((i < pivot)) in this case is wrong.
tl;dr:
Sort array a_in and store the result in a_out (elements must not have embedded newlines[1]
):
Bash v4+:
readarray -t a_out < <(printf '%s\n' "${a_in[#]}" | sort)
Bash v3:
IFS=$'\n' read -d '' -r -a a_out < <(printf '%s\n' "${a_in[#]}" | sort)
Advantages over antak's solution:
You needn't worry about accidental globbing (accidental interpretation of the array elements as filename patterns), so no extra command is needed to disable globbing (set -f, and set +f to restore it later).
You needn't worry about resetting IFS with unset IFS.[2]
Optional reading: explanation and sample code
The above combines Bash code with external utility sort for a solution that works with arbitrary single-line elements and either lexical or numerical sorting (optionally by field):
Performance: For around 20 elements or more, this will be faster than a pure Bash solution - significantly and increasingly so once you get beyond around 100 elements.
(The exact thresholds will depend on your specific input, machine, and platform.)
The reason it is fast is that it avoids Bash loops.
printf '%s\n' "${a_in[#]}" | sort performs the sorting (lexically, by default - see sort's POSIX spec):
"${a_in[#]}" safely expands to the elements of array a_in as individual arguments, whatever they contain (including whitespace).
printf '%s\n' then prints each argument - i.e., each array element - on its own line, as-is.
Note the use of a process substitution (<(...)) to provide the sorted output as input to read / readarray (via redirection to stdin, <), because read / readarray must run in the current shell (must not run in a subshell) in order for output variable a_out to be visible to the current shell (for the variable to remain defined in the remainder of the script).
Reading sort's output into an array variable:
Bash v4+: readarray -t a_out reads the individual lines output by sort into the elements of array variable a_out, without including the trailing \n in each element (-t).
Bash v3: readarray doesn't exist, so read must be used:
IFS=$'\n' read -d '' -r -a a_out tells read to read into array (-a) variable a_out, reading the entire input, across lines (-d ''), but splitting it into array elements by newlines (IFS=$'\n'. $'\n', which produces a literal newline (LF), is a so-called ANSI C-quoted string).
(-r, an option that should virtually always be used with read, disables unexpected handling of \ characters.)
Annotated sample code:
#!/usr/bin/env bash
# Define input array `a_in`:
# Note the element with embedded whitespace ('a c')and the element that looks like
# a glob ('*'), chosen to demonstrate that elements with line-internal whitespace
# and glob-like contents are correctly preserved.
a_in=( 'a c' b f 5 '*' 10 )
# Sort and store output in array `a_out`
# Saving back into `a_in` is also an option.
IFS=$'\n' read -d '' -r -a a_out < <(printf '%s\n' "${a_in[#]}" | sort)
# Bash 4.x: use the simpler `readarray -t`:
# readarray -t a_out < <(printf '%s\n' "${a_in[#]}" | sort)
# Print sorted output array, line by line:
printf '%s\n' "${a_out[#]}"
Due to use of sort without options, this yields lexical sorting (digits sort before letters, and digit sequences are treated lexically, not as numbers):
*
10
5
a c
b
f
If you wanted numerical sorting by the 1st field, you'd use sort -k1,1n instead of just sort, which yields (non-numbers sort before numbers, and numbers sort correctly):
*
a c
b
f
5
10
[1] To handle elements with embedded newlines, use the following variant (Bash v4+, with GNU sort):
readarray -d '' -t a_out < <(printf '%s\0' "${a_in[#]}" | sort -z).
Michał Górny's helpful answer has a Bash v3 solution.
[2] While IFS is set in the Bash v3 variant, the change is scoped to the command.
By contrast, what follows IFS=$'\n'  in antak's answer is an assignment rather than a command, in which case the IFS change is global.
In the 3-hour train trip from Munich to Frankfurt (which I had trouble to reach because Oktoberfest starts tomorrow) I was thinking about my first post. Employing a global array is a much better idea for a general sort function. The following function handles arbitary strings (newlines, blanks etc.):
declare BSORT=()
function bubble_sort()
{ #
# #param [ARGUMENTS]...
#
# Sort all positional arguments and store them in global array BSORT.
# Without arguments sort this array. Return the number of iterations made.
#
# Bubble sorting lets the heaviest element sink to the bottom.
#
(($# > 0)) && BSORT=("$#")
local j=0 ubound=$((${#BSORT[*]} - 1))
while ((ubound > 0))
do
local i=0
while ((i < ubound))
do
if [ "${BSORT[$i]}" \> "${BSORT[$((i + 1))]}" ]
then
local t="${BSORT[$i]}"
BSORT[$i]="${BSORT[$((i + 1))]}"
BSORT[$((i + 1))]="$t"
fi
((++i))
done
((++j))
((--ubound))
done
echo $j
}
bubble_sort a c b 'z y' 3 5
echo ${BSORT[#]}
This prints:
3 5 a b c z y
The same output is created from
BSORT=(a c b 'z y' 3 5)
bubble_sort
echo ${BSORT[#]}
Note that probably Bash internally uses smart-pointers, so the swap-operation could be cheap (although I doubt it). However, bubble_sort demonstrates that more advanced functions like merge_sort are also in the reach of the shell language.
Another solution that uses external sort and copes with any special characters (except for NULs :)). Should work with bash-3.2 and GNU or BSD sort (sadly, POSIX doesn't include -z).
local e new_array=()
while IFS= read -r -d '' e; do
new_array+=( "${e}" )
done < <(printf "%s\0" "${array[#]}" | LC_ALL=C sort -z)
First look at the input redirection at the end. We're using printf built-in to write out the array elements, zero-terminated. The quoting makes sure array elements are passed as-is, and specifics of shell printf cause it to reuse the last part of format string for each remaining parameter. That is, it's equivalent to something like:
for e in "${array[#]}"; do
printf "%s\0" "${e}"
done
The null-terminated element list is then passed to sort. The -z option causes it to read null-terminated elements, sort them and output null-terminated as well. If you needed to get only the unique elements, you can pass -u since it is more portable than uniq -z. The LC_ALL=C ensures stable sort order independently of locale — sometimes useful for scripts. If you want the sort to respect locale, remove that.
The <() construct obtains the descriptor to read from the spawned pipeline, and < redirects the standard input of the while loop to it. If you need to access the standard input inside the pipe, you may use another descriptor — exercise for the reader :).
Now, back to the beginning. The read built-in reads output from the redirected stdin. Setting empty IFS disables word splitting which is unnecessary here — as a result, read reads the whole 'line' of input to the single provided variable. -r option disables escape processing that is undesired here as well. Finally, -d '' sets the line delimiter to NUL — that is, tells read to read zero-terminated strings.
As a result, the loop is executed once for every successive zero-terminated array element, with the value being stored in e. The example just puts the items in another array but you may prefer to process them directly :).
Of course, that's just one of the many ways of achieving the same goal. As I see it, it is simpler than implementing complete sorting algorithm in bash and in some cases it will be faster. It handles all special characters including newlines and should work on most of the common systems. Most importantly, it may teach you something new and awesome about bash :).
Keep it simple ;)
In the following example, the array b is the sorted version of the array a!
The second line echos each item of the array a, then pipes them to the sort command, and the output is used to initiate the array b.
a=(2 3 1)
b=( $( for x in ${a[#]}; do echo $x; done | sort ) )
echo ${b[#]} # output: 1 2 3
min sort:
#!/bin/bash
array=(.....)
index_of_element1=0
while (( ${index_of_element1} < ${#array[#]} )); do
element_1="${array[${index_of_element1}]}"
index_of_element2=$((index_of_element1 + 1))
index_of_min=${index_of_element1}
min_element="${element_1}"
for element_2 in "${array[#]:$((index_of_element1 + 1))}"; do
min_element="`printf "%s\n%s" "${min_element}" "${element_2}" | sort | head -n+1`"
if [[ "${min_element}" == "${element_2}" ]]; then
index_of_min=${index_of_element2}
fi
let index_of_element2++
done
array[${index_of_element1}]="${min_element}"
array[${index_of_min}]="${element_1}"
let index_of_element1++
done
try this:
echo ${array[#]} | awk 'BEGIN{RS=" ";} {print $1}' | sort
Output will be:
3
5
a
b
c
f
Problem solved.
If you can compute a unique integer for each element in the array, like this:
tab='0123456789abcdefghijklmnopqrstuvwxyz'
# build the reversed ordinal map
for ((i = 0; i < ${#tab}; i++)); do
declare -g ord_${tab:i:1}=$i
done
function sexy_int() {
local sum=0
local i ch ref
for ((i = 0; i < ${#1}; i++)); do
ch="${1:i:1}"
ref="ord_$ch"
(( sum += ${!ref} ))
done
return $sum
}
sexy_int hello
echo "hello -> $?"
sexy_int world
echo "world -> $?"
then, you can use these integers as array indexes, because Bash always use sparse array, so no need to worry about unused indexes:
array=(a c b f 3 5)
for el in "${array[#]}"; do
sexy_int "$el"
sorted[$?]="$el"
done
echo "${sorted[#]}"
Pros. Fast.
Cons. Duplicated elements are merged, and it can be impossible to map contents to 32-bit unique integers.
array=(a c b f 3 5)
new_array=($(echo "${array[#]}" | sed 's/ /\n/g' | sort))
echo ${new_array[#]}
echo contents of new_array will be:
3 5 a b c f
There is a workaround for the usual problem of spaces and newlines:
Use a character that is not in the original array (like $'\1' or $'\4' or similar).
This function gets the job done:
# Sort an Array may have spaces or newlines with a workaround (wa=$'\4')
sortarray(){ local wa=$'\4' IFS=''
if [[ $* =~ [$wa] ]]; then
echo "$0: error: array contains the workaround char" >&2
exit 1
fi
set -f; local IFS=$'\n' x nl=$'\n'
set -- $(printf '%s\n' "${#//$nl/$wa}" | sort -n)
for x
do sorted+=("${x//$wa/$nl}")
done
}
This will sort the array:
$ array=( a b 'c d' $'e\nf' $'g\1h')
$ sortarray "${array[#]}"
$ printf '<%s>\n' "${sorted[#]}"
<a>
<b>
<c d>
<e
f>
<gh>
This will complain that the source array contains the workaround character:
$ array=( a b 'c d' $'e\nf' $'g\4h')
$ sortarray "${array[#]}"
./script: error: array contains the workaround char
description
We set two local variables wa (workaround char) and a null IFS
Then (with ifs null) we test that the whole array $*.
Does not contain any woraround char [[ $* =~ [$wa] ]].
If it does, raise a message and signal an error: exit 1
Avoid filename expansions: set -f
Set a new value of IFS (IFS=$'\n') a loop variable x and a newline var (nl=$'\n').
We print all values of the arguments received (the input array $#).
but we replace any new line by the workaround char "${#//$nl/$wa}".
send those values to be sorted sort -n.
and place back all the sorted values in the positional arguments set --.
Then we assign each argument one by one (to preserve newlines).
in a loop for x
to a new array: sorted+=(…)
inside quotes to preserve any existing newline.
restoring the workaround to a newline "${x//$wa/$nl}".
done
This question looks closely related. And BTW, here's a mergesort in Bash (without external processes):
mergesort() {
local -n -r input_reference="$1"
local -n output_reference="$2"
local -r -i size="${#input_reference[#]}"
local merge previous
local -a -i runs indices
local -i index previous_idx merged_idx \
run_a_idx run_a_stop \
run_b_idx run_b_stop
output_reference=("${input_reference[#]}")
if ((size == 0)); then return; fi
previous="${output_reference[0]}"
runs=(0)
for ((index = 0;;)) do
for ((++index;; ++index)); do
if ((index >= size)); then break 2; fi
if [[ "${output_reference[index]}" < "$previous" ]]; then break; fi
previous="${output_reference[index]}"
done
previous="${output_reference[index]}"
runs+=(index)
done
runs+=(size)
while (("${#runs[#]}" > 2)); do
indices=("${!runs[#]}")
merge=("${output_reference[#]}")
for ((index = 0; index < "${#indices[#]}" - 2; index += 2)); do
merged_idx=runs[indices[index]]
run_a_idx=merged_idx
previous_idx=indices[$((index + 1))]
run_a_stop=runs[previous_idx]
run_b_idx=runs[previous_idx]
run_b_stop=runs[indices[$((index + 2))]]
unset runs[previous_idx]
while ((run_a_idx < run_a_stop && run_b_idx < run_b_stop)); do
if [[ "${merge[run_a_idx]}" < "${merge[run_b_idx]}" ]]; then
output_reference[merged_idx++]="${merge[run_a_idx++]}"
else
output_reference[merged_idx++]="${merge[run_b_idx++]}"
fi
done
while ((run_a_idx < run_a_stop)); do
output_reference[merged_idx++]="${merge[run_a_idx++]}"
done
while ((run_b_idx < run_b_stop)); do
output_reference[merged_idx++]="${merge[run_b_idx++]}"
done
done
done
}
declare -ar input=({z..a}{z..a})
declare -a output
mergesort input output
echo "${input[#]}"
echo "${output[#]}"
Many thanks to the people that answered before me. Using their excellent input, bash documentation and ideas from other treads, this is what works perfectly for me without IFS change
array=("a \n c" b f "3 5")
Using process substitution and read array in bash > v4.4 WITH EOL character
readarray -t sorted < <(sort < <(printf '%s\n' "${array[#]}"))
Using process substitution and read array in bash > v4.4 WITH NULL character
readarray -td '' sorted < <(sort -z < <(printf '%s\0' "${array[#]}"))
Finally we verify with
printf "[%s]\n" "${sorted[#]}"
output is
[3 5]
[a \n c]
[b]
[f]
Please, let me know if that is a correct test for embedded /n as both solutions produce the same result, but the first one is not supposed to work properly with embedded /n
I am not convinced that you'll need an external sorting program in Bash.
Here is my implementation for the simple bubble-sort algorithm.
function bubble_sort()
{ #
# Sorts all positional arguments and echoes them back.
#
# Bubble sorting lets the heaviest (longest) element sink to the bottom.
#
local array=($#) max=$(($# - 1))
while ((max > 0))
do
local i=0
while ((i < max))
do
if [ ${array[$i]} \> ${array[$((i + 1))]} ]
then
local t=${array[$i]}
array[$i]=${array[$((i + 1))]}
array[$((i + 1))]=$t
fi
((i += 1))
done
((max -= 1))
done
echo ${array[#]}
}
array=(a c b f 3 5)
echo " input: ${array[#]}"
echo "output: $(bubble_sort ${array[#]})"
This shall print:
input: a c b f 3 5
output: 3 5 a b c f
a=(e b 'c d')
shuf -e "${a[#]}" | sort >/tmp/f
mapfile -t g </tmp/f
Great answers here. Learned a lot. After reading them all, I figure I'd throw my hat into the ring. I think this is the shortest method (and probably faster as it doesn't do much shell script parsing, though there is the matter of the spawning of printf and sort, but they're only called once each) and handles whitespace in the data:
a=(3 "2 a" 1) # Setup!
IFS=$'\n' b=( $(printf "%s\n" "${a[#]}" | sort) ); unset IFS # Sort!
printf "'%s' " "${b[#]}"; # Success!
Outputs:
'1' '2 a' '3'
Note that the IFS change is limited in scope to the line it is on. if you know that the array has no whitespace in it, you don't need the IFS modification.
Inspiration was from #yas's answer and #Alcamtar comments.
EDIT
Oh, I somehow missed the actually accepted answer which is even shorter than mine. Doh!
IFS=$'\n' sorted=($(sort <<<"${array[*]}")); unset IFS
Turns out that the unset is required because this is a variable assignment that has no command.
I'd recommend going to that answer because it has some interesting stuff on globbing which could be relevant if the array has wildcards in it. It also has a detailed description as to what is happening.
EDIT 2
GNU has an extension in which sort delimits records using \0 which is good if you have LFs in your data. However, when it gets returned to the shell to be assign to an array, I don't see a good way convert it so that the shell will delimit on \0, because even setting IFS=$'\0', the shell doesn't like it and doesn't properly break it up.
array=(z 'b c'); { set "${array[#]}"; printf '%s\n' "$#"; } \
| sort \
| mapfile -t array; declare -p array
declare -a array=([0]="b c" [1]="z")
Open an inline function {...} to get a fresh set of positional arguments (e.g. $1, $2, etc).
Copy the array to the positional arguments. (e.g. set "${array[#]}" will copy the nth array argument to the nth positional argument. Note the quotes preserve whitespace that may be contained in an array element).
Print each positional argument (e.g. printf '%s\n' "$#" will print each positional argument on its own line. Again, note the quotes preserve whitespace that may be contained in each positional argument).
Then sort does its thing.
Read the stream into an array with mapfile (e.g. mapfile -t array reads each line into the variable array and the -t ignores the \n in each line).
Dump the array to show its been sorted.
As a function:
set +m
shopt -s lastpipe
sort_array() {
declare -n ref=$1
set "${ref[#]}"
printf '%s\n' "$#"
| sort \
| mapfile -t $ref
}
then
array=(z y x); sort_array array; declare -p array
declare -a array=([0]="x" [1]="y" [2]="z")
I look forward to being ripped apart by all the UNIX gurus! :)
sorted=($(echo ${array[#]} | tr " " "\n" | sort))
In the spirit of bash / linux, I would pipe the best command-line tool for each step. sort does the main job but needs input separated by newline instead of space, so the very simple pipeline above simply does:
Echo array content --> replace space by newline --> sort
$() is to echo the result
($()) is to put the "echoed result" in an array
Note: as #sorontar mentioned in a comment to a different question:
The sorted=($(...)) part is using the "split and glob" operator. You should turn glob off: set -f or set -o noglob or shopt -op noglob or an element of the array like * will be expanded to a list of files.

BASH: sorting an associative array with their keys

So I am quite struggling with arrays in shell scripting, especially dealing with sorting the key values. Here's what I have
declare -A array
Array[0]=(0)
Array[1]=(4)
Array[2]=(6)
Array[3]=(1)
So in each array we have (0,4,6,1), if we sort them to the largest to the smallest, it would be (6,4,1,0). Now, I wonder if I could sort the key of the value, and put them in a new array like this(sort of like ranking them):
newArray[0]=(2) # 2 which was the key for 6
newArray[1]=(1) # 1 which was the key for 4
newArray[2]=(3) # 3 which was the key for 1
newArray[3]=(0) # 0 which was the key for 0
I've tried some solutions but they are so much hard coded and not working for some situations. Any helps would be appreciated.
Create a tuple of index+value.
Sort over value.
Remove values.
Read into an array.
array=(0 4 6 1)
tmp=$(
# for every index in the array
for ((i = 0; i < ${#array[#]}; ++i)); do
# output the index, space, an array value on every line
echo "$i ${array[i]}"
done |
# sort lines using Key as second column Numeric Reverse
sort -k2nr |
# using space as Delimiter, extract first Field from each line
cut -d' ' -f1
)
# Load tmp into an array separated by newlines.
readarray -t newArray <<<"$tmp"
# output
declare -p newArray
outputs:
declare -a newArray=([0]="2" [1]="1" [2]="3" [3]="0")

Does array 1 contain any of the strings in array 2

I am trying to make an if statement where if array1 contains any of the strings in array2 it should print "match" else print "no match"
So far I have the following. Not sure how to complete it. Both loops should break as soon as the first match is found.
#!/bin/bash
array1=(a b c 1 2 3)
array2=(b 1)
for a in "${array1[#]}"
do
for b in "${array2[#]}"
do
if [ "$a" == "$b" ]; then
echo "Match!"
break
fi
done
done
Maybe this isn't even the best way to do it?
This illustrates the desired result
if [ array1 contains strings in array2 ]
then
echo "match"
else
echo "no match"
fi
To check whether array1 contains any entry from array2 you can use grep. This will be way faster and shorter than loops in bash.
The following commands exit with status code 0 if and only if there is a match. Use them as ...
if COMMAND FROM BELOW; then
echo match
else
echo no match
fi
Single-Line Array Entries
The simple version for strings without linebreaks is
printf %s\\n "${array1[#]}" | grep -qFxf <(printf %s\\n "${array2[#]}")
Multiline Array Entries
Sadly there doesn't seem to be a straightforward way to make this work for array entries with linebreaks. GNU grep has the option -z to set the "line" delimiters in the input to null, but apparently no option to do the same for the file provided to -f. Listing the entries from array2 as -e arguments to grep is not working either -- grep -F seems to be unable to match multiline patterns. However, we can use the following hack:
printf %q\\n "${array1[#]}" | grep -qFxf <(printf %q\\n "${array2[#]}")
Here we assume that bash's built-in printf %q always prints a unique single line -- which it currently does. However, future implementations of bash may change this. The documentation help printf only states that the output thas to be correctly quoted for bash.
For a fast solution, you're better off using an external tool that can process the entire array as a whole (such as the grep-based answers). Doing nested loops in pure bash is likely to be slower for any substantial amount of data (where the item-by-item processing in bash is likely to be more expensive than the external process start-up time).
However, if you do need a pure bash solution, I see that your current solution has no way to print out the "no match" scenario. In addition, it may print out "match" multiple times.
To fix that, you can just store the fact that a match has been found, and use that to both:
exit the outer loop early as well as the inner loop; and
print the correct string at the end.
To do this, you can use something like:
#!/bin/bash
# Test data.
array1=(a b c 1 2 3)
array2=(b 1)
# Default to not-found state.
foundMatch=false
for a in "${array1[#]}" ; do
for b in "${array2[#]}" ; do
# Any match switches to found state and exits inner loop.
[[ "$a" == "$b" ]] && foundMatch=true && break
done
# If found, exit outer loop as well.
${foundMatch} && break
done
# Output appropriate message for found/not-found state.
$foundMatch && echo "Match" || echo "No match"
For array elements which does not contain newlines, the grep -qf with printf "%s\n" would be a good option. For comparing arrays with any elements, I ended with this:
cmp -s /dev/null <(comm -z12 <(printf "%s\0" "${array1[#]}" | sort -z) <(printf "%s\0" "${array2[#]}" | sort -z))
The printf "%s\0" "${array[#]}" | sort -z print a sorted list of zero terminated array elements. The comm -z12 then extracts common elements in both lists. The cmp -s /dev/null checks if the output of comm is empty, which will not be empty if any element is in both lists. You could use [ -z "$(comm -z ...)" ] to check if the output of comm would be empty, but bash will complain that the output of a command captured with $(..) contains a null byte, so it's better to cmp -s /dev/null.
I think | is faster then <(), so your if could be:
if ! printf "%s\0" "${array1[#]}" | sort -z |
comm -z12 - <(printf "%s\0" "${array2[#]}" | sort -z) |
cmp -s /dev/null -; then
echo "Some elements are in both array1 and array2"
fi
The following could work:
printf "%s\0" "${array1[#]}" | eval grep -qzFx "$(printf " -e %q" "${array2[#]}")"
But I believe I found a bug in grepv3.1 when matching a newline character with -x flag. If you don't use the newline character, the above line works.
Would you try the following:
array1=(a b c 1 2 3)
array2=(b 1)
declare -A seen # set marks of the elements of array1
for b in "${array2[#]}"; do
(( seen[$b]++ ))
done
for a in "${array1[#]}"; do
(( ${seen[$a]} )) && echo "match" && exit
done
echo "no match"
It may be efficient by avoiding the double loop, although the discussion of efficiency may be meaningless as long as using bash :)

How does bash array slicing work when start index is not provided?

I'm looking at a script, and I'm having trouble determining what is going on.
Here is an example:
# Command to get the last 4 occurrences of a pattern in a file
lsCommand="ls /my/directory | grep -i my_pattern | tail -4"
# Load the results of that command into an array
dirArray=($(echo $(eval $lsCommand) | tr ' ' '\n'))
# What is this doing?
yesterdaysFileArray=($(echo ${x[#]::$((${#x[#]} / 2))} | tr ' ' '\n'))
There is a lot going on here. I understand how arrays work, but I don't know how $x is getting referenced if it was never declared.
I see that the $((${#x[#]} / 2}} is taking the number of elements and dividing it in half, and the tr is used to create the array. But what else is going on?
I think the last line is an array slice pattern in bash of form ${array[#]:1:2}, where array[#] returns the contents of the array, :1:2 takes a slice of length 2, starting at index 1.
So for your case though you are taking the start index empty because you haven't specified any and length as half the count of array.
But there is a lot better way to do this in bash as below. Don't use eval and use the built-in globbing support from the shell itself
cd /my/directory
fileArray=()
for file in *my_pattern*; do
[[ -f "$file" ]] || { printf '%s\n' 'no file found'; return 1; }
fileArray+=( "$file" )
done
and do
printf '%s\n' "${fileArray[#]::${#fileArray[#]}/2}"

How to sort an array in Bash

I have an array in Bash, for example:
array=(a c b f 3 5)
I need to sort the array. Not just displaying the content in a sorted way, but to get a new array with the sorted elements. The new sorted array can be a completely new one or the old one.
You don't really need all that much code:
IFS=$'\n' sorted=($(sort <<<"${array[*]}"))
unset IFS
Supports whitespace in elements (as long as it's not a newline), and works in Bash 3.x.
e.g.:
$ array=("a c" b f "3 5")
$ IFS=$'\n' sorted=($(sort <<<"${array[*]}")); unset IFS
$ printf "[%s]\n" "${sorted[#]}"
[3 5]
[a c]
[b]
[f]
Note: #sorontar has pointed out that care is required if elements contain wildcards such as * or ?:
The sorted=($(...)) part is using the "split and glob" operator. You should turn glob off: set -f or set -o noglob or shopt -op noglob or an element of the array like * will be expanded to a list of files.
What's happening:
The result is a culmination six things that happen in this order:
IFS=$'\n'
"${array[*]}"
<<<
sort
sorted=($(...))
unset IFS
First, the IFS=$'\n'
This is an important part of our operation that affects the outcome of 2 and 5 in the following way:
Given:
"${array[*]}" expands to every element delimited by the first character of IFS
sorted=() creates elements by splitting on every character of IFS
IFS=$'\n' sets things up so that elements are expanded using a new line as the delimiter, and then later created in a way that each line becomes an element. (i.e. Splitting on a new line.)
Delimiting by a new line is important because that's how sort operates (sorting per line). Splitting by only a new line is not-as-important, but is needed preserve elements that contain spaces or tabs.
The default value of IFS is a space, a tab, followed by a new line, and would be unfit for our operation.
Next, the sort <<<"${array[*]}" part
<<<, called here strings, takes the expansion of "${array[*]}", as explained above, and feeds it into the standard input of sort.
With our example, sort is fed this following string:
a c
b
f
3 5
Since sort sorts, it produces:
3 5
a c
b
f
Next, the sorted=($(...)) part
The $(...) part, called command substitution, causes its content (sort <<<"${array[*]}) to run as a normal command, while taking the resulting standard output as the literal that goes where ever $(...) was.
In our example, this produces something similar to simply writing:
sorted=(3 5
a c
b
f
)
sorted then becomes an array that's created by splitting this literal on every new line.
Finally, the unset IFS
This resets the value of IFS to the default value, and is just good practice.
It's to ensure we don't cause trouble with anything that relies on IFS later in our script. (Otherwise we'd need to remember that we've switched things around--something that might be impractical for complex scripts.)
Original response:
array=(a c b "f f" 3 5)
readarray -t sorted < <(for a in "${array[#]}"; do echo "$a"; done | sort)
output:
$ for a in "${sorted[#]}"; do echo "$a"; done
3
5
a
b
c
f f
Note this version copes with values that contains special characters or whitespace (except newlines)
Note readarray is supported in bash 4+.
Edit Based on the suggestion by #Dimitre I had updated it to:
readarray -t sorted < <(printf '%s\0' "${array[#]}" | sort -z | xargs -0n1)
which has the benefit of even understanding sorting elements with newline characters embedded correctly. Unfortunately, as correctly signaled by #ruakh this didn't mean the the result of readarray would be correct, because readarray has no option to use NUL instead of regular newlines as line-separators.
If you don't need to handle special shell characters in the array elements:
array=(a c b f 3 5)
sorted=($(printf '%s\n' "${array[#]}"|sort))
With bash you'll need an external sorting program anyway.
With zsh no external programs are needed and special shell characters are easily handled:
% array=('a a' c b f 3 5); printf '%s\n' "${(o)array[#]}"
3
5
a a
b
c
f
ksh has set -s to sort ASCIIbetically.
Here's a pure Bash quicksort implementation:
#!/bin/bash
# quicksorts positional arguments
# return is in array qsort_ret
qsort() {
local pivot i smaller=() larger=()
qsort_ret=()
(($#==0)) && return 0
pivot=$1
shift
for i; do
# This sorts strings lexicographically.
if [[ $i < $pivot ]]; then
smaller+=( "$i" )
else
larger+=( "$i" )
fi
done
qsort "${smaller[#]}"
smaller=( "${qsort_ret[#]}" )
qsort "${larger[#]}"
larger=( "${qsort_ret[#]}" )
qsort_ret=( "${smaller[#]}" "$pivot" "${larger[#]}" )
}
Use as, e.g.,
$ array=(a c b f 3 5)
$ qsort "${array[#]}"
$ declare -p qsort_ret
declare -a qsort_ret='([0]="3" [1]="5" [2]="a" [3]="b" [4]="c" [5]="f")'
This implementation is recursive… so here's an iterative quicksort:
#!/bin/bash
# quicksorts positional arguments
# return is in array qsort_ret
# Note: iterative, NOT recursive! :)
qsort() {
(($#==0)) && return 0
local stack=( 0 $(($#-1)) ) beg end i pivot smaller larger
qsort_ret=("$#")
while ((${#stack[#]})); do
beg=${stack[0]}
end=${stack[1]}
stack=( "${stack[#]:2}" )
smaller=() larger=()
pivot=${qsort_ret[beg]}
for ((i=beg+1;i<=end;++i)); do
if [[ "${qsort_ret[i]}" < "$pivot" ]]; then
smaller+=( "${qsort_ret[i]}" )
else
larger+=( "${qsort_ret[i]}" )
fi
done
qsort_ret=( "${qsort_ret[#]:0:beg}" "${smaller[#]}" "$pivot" "${larger[#]}" "${qsort_ret[#]:end+1}" )
if ((${#smaller[#]}>=2)); then stack+=( "$beg" "$((beg+${#smaller[#]}-1))" ); fi
if ((${#larger[#]}>=2)); then stack+=( "$((end-${#larger[#]}+1))" "$end" ); fi
done
}
In both cases, you can change the order you use: I used string comparisons, but you can use arithmetic comparisons, compare wrt file modification time, etc. just use the appropriate test; you can even make it more generic and have it use a first argument that is the test function use, e.g.,
#!/bin/bash
# quicksorts positional arguments
# return is in array qsort_ret
# Note: iterative, NOT recursive! :)
# First argument is a function name that takes two arguments and compares them
qsort() {
(($#<=1)) && return 0
local compare_fun=$1
shift
local stack=( 0 $(($#-1)) ) beg end i pivot smaller larger
qsort_ret=("$#")
while ((${#stack[#]})); do
beg=${stack[0]}
end=${stack[1]}
stack=( "${stack[#]:2}" )
smaller=() larger=()
pivot=${qsort_ret[beg]}
for ((i=beg+1;i<=end;++i)); do
if "$compare_fun" "${qsort_ret[i]}" "$pivot"; then
smaller+=( "${qsort_ret[i]}" )
else
larger+=( "${qsort_ret[i]}" )
fi
done
qsort_ret=( "${qsort_ret[#]:0:beg}" "${smaller[#]}" "$pivot" "${larger[#]}" "${qsort_ret[#]:end+1}" )
if ((${#smaller[#]}>=2)); then stack+=( "$beg" "$((beg+${#smaller[#]}-1))" ); fi
if ((${#larger[#]}>=2)); then stack+=( "$((end-${#larger[#]}+1))" "$end" ); fi
done
}
Then you can have this comparison function:
compare_mtime() { [[ $1 -nt $2 ]]; }
and use:
$ qsort compare_mtime *
$ declare -p qsort_ret
to have the files in current folder sorted by modification time (newest first).
NOTE. These functions are pure Bash! no external utilities, and no subshells! they are safe wrt any funny symbols you may have (spaces, newline characters, glob characters, etc.).
NOTE2. The test [[ $i < $pivot ]] is correct. It uses the lexicographical string comparison. If your array only contains integers and you want to sort numerically, use ((i < pivot)) instead.
Please don't edit this answer to change that. It has already been edited (and rolled back) a couple of times. The test I gave here is correct and corresponds to the output given in the example: the example uses both strings and numbers, and the purpose is to sort it in lexicographical order. Using ((i < pivot)) in this case is wrong.
tl;dr:
Sort array a_in and store the result in a_out (elements must not have embedded newlines[1]
):
Bash v4+:
readarray -t a_out < <(printf '%s\n' "${a_in[#]}" | sort)
Bash v3:
IFS=$'\n' read -d '' -r -a a_out < <(printf '%s\n' "${a_in[#]}" | sort)
Advantages over antak's solution:
You needn't worry about accidental globbing (accidental interpretation of the array elements as filename patterns), so no extra command is needed to disable globbing (set -f, and set +f to restore it later).
You needn't worry about resetting IFS with unset IFS.[2]
Optional reading: explanation and sample code
The above combines Bash code with external utility sort for a solution that works with arbitrary single-line elements and either lexical or numerical sorting (optionally by field):
Performance: For around 20 elements or more, this will be faster than a pure Bash solution - significantly and increasingly so once you get beyond around 100 elements.
(The exact thresholds will depend on your specific input, machine, and platform.)
The reason it is fast is that it avoids Bash loops.
printf '%s\n' "${a_in[#]}" | sort performs the sorting (lexically, by default - see sort's POSIX spec):
"${a_in[#]}" safely expands to the elements of array a_in as individual arguments, whatever they contain (including whitespace).
printf '%s\n' then prints each argument - i.e., each array element - on its own line, as-is.
Note the use of a process substitution (<(...)) to provide the sorted output as input to read / readarray (via redirection to stdin, <), because read / readarray must run in the current shell (must not run in a subshell) in order for output variable a_out to be visible to the current shell (for the variable to remain defined in the remainder of the script).
Reading sort's output into an array variable:
Bash v4+: readarray -t a_out reads the individual lines output by sort into the elements of array variable a_out, without including the trailing \n in each element (-t).
Bash v3: readarray doesn't exist, so read must be used:
IFS=$'\n' read -d '' -r -a a_out tells read to read into array (-a) variable a_out, reading the entire input, across lines (-d ''), but splitting it into array elements by newlines (IFS=$'\n'. $'\n', which produces a literal newline (LF), is a so-called ANSI C-quoted string).
(-r, an option that should virtually always be used with read, disables unexpected handling of \ characters.)
Annotated sample code:
#!/usr/bin/env bash
# Define input array `a_in`:
# Note the element with embedded whitespace ('a c')and the element that looks like
# a glob ('*'), chosen to demonstrate that elements with line-internal whitespace
# and glob-like contents are correctly preserved.
a_in=( 'a c' b f 5 '*' 10 )
# Sort and store output in array `a_out`
# Saving back into `a_in` is also an option.
IFS=$'\n' read -d '' -r -a a_out < <(printf '%s\n' "${a_in[#]}" | sort)
# Bash 4.x: use the simpler `readarray -t`:
# readarray -t a_out < <(printf '%s\n' "${a_in[#]}" | sort)
# Print sorted output array, line by line:
printf '%s\n' "${a_out[#]}"
Due to use of sort without options, this yields lexical sorting (digits sort before letters, and digit sequences are treated lexically, not as numbers):
*
10
5
a c
b
f
If you wanted numerical sorting by the 1st field, you'd use sort -k1,1n instead of just sort, which yields (non-numbers sort before numbers, and numbers sort correctly):
*
a c
b
f
5
10
[1] To handle elements with embedded newlines, use the following variant (Bash v4+, with GNU sort):
readarray -d '' -t a_out < <(printf '%s\0' "${a_in[#]}" | sort -z).
Michał Górny's helpful answer has a Bash v3 solution.
[2] While IFS is set in the Bash v3 variant, the change is scoped to the command.
By contrast, what follows IFS=$'\n'  in antak's answer is an assignment rather than a command, in which case the IFS change is global.
In the 3-hour train trip from Munich to Frankfurt (which I had trouble to reach because Oktoberfest starts tomorrow) I was thinking about my first post. Employing a global array is a much better idea for a general sort function. The following function handles arbitary strings (newlines, blanks etc.):
declare BSORT=()
function bubble_sort()
{ #
# #param [ARGUMENTS]...
#
# Sort all positional arguments and store them in global array BSORT.
# Without arguments sort this array. Return the number of iterations made.
#
# Bubble sorting lets the heaviest element sink to the bottom.
#
(($# > 0)) && BSORT=("$#")
local j=0 ubound=$((${#BSORT[*]} - 1))
while ((ubound > 0))
do
local i=0
while ((i < ubound))
do
if [ "${BSORT[$i]}" \> "${BSORT[$((i + 1))]}" ]
then
local t="${BSORT[$i]}"
BSORT[$i]="${BSORT[$((i + 1))]}"
BSORT[$((i + 1))]="$t"
fi
((++i))
done
((++j))
((--ubound))
done
echo $j
}
bubble_sort a c b 'z y' 3 5
echo ${BSORT[#]}
This prints:
3 5 a b c z y
The same output is created from
BSORT=(a c b 'z y' 3 5)
bubble_sort
echo ${BSORT[#]}
Note that probably Bash internally uses smart-pointers, so the swap-operation could be cheap (although I doubt it). However, bubble_sort demonstrates that more advanced functions like merge_sort are also in the reach of the shell language.
Another solution that uses external sort and copes with any special characters (except for NULs :)). Should work with bash-3.2 and GNU or BSD sort (sadly, POSIX doesn't include -z).
local e new_array=()
while IFS= read -r -d '' e; do
new_array+=( "${e}" )
done < <(printf "%s\0" "${array[#]}" | LC_ALL=C sort -z)
First look at the input redirection at the end. We're using printf built-in to write out the array elements, zero-terminated. The quoting makes sure array elements are passed as-is, and specifics of shell printf cause it to reuse the last part of format string for each remaining parameter. That is, it's equivalent to something like:
for e in "${array[#]}"; do
printf "%s\0" "${e}"
done
The null-terminated element list is then passed to sort. The -z option causes it to read null-terminated elements, sort them and output null-terminated as well. If you needed to get only the unique elements, you can pass -u since it is more portable than uniq -z. The LC_ALL=C ensures stable sort order independently of locale — sometimes useful for scripts. If you want the sort to respect locale, remove that.
The <() construct obtains the descriptor to read from the spawned pipeline, and < redirects the standard input of the while loop to it. If you need to access the standard input inside the pipe, you may use another descriptor — exercise for the reader :).
Now, back to the beginning. The read built-in reads output from the redirected stdin. Setting empty IFS disables word splitting which is unnecessary here — as a result, read reads the whole 'line' of input to the single provided variable. -r option disables escape processing that is undesired here as well. Finally, -d '' sets the line delimiter to NUL — that is, tells read to read zero-terminated strings.
As a result, the loop is executed once for every successive zero-terminated array element, with the value being stored in e. The example just puts the items in another array but you may prefer to process them directly :).
Of course, that's just one of the many ways of achieving the same goal. As I see it, it is simpler than implementing complete sorting algorithm in bash and in some cases it will be faster. It handles all special characters including newlines and should work on most of the common systems. Most importantly, it may teach you something new and awesome about bash :).
Keep it simple ;)
In the following example, the array b is the sorted version of the array a!
The second line echos each item of the array a, then pipes them to the sort command, and the output is used to initiate the array b.
a=(2 3 1)
b=( $( for x in ${a[#]}; do echo $x; done | sort ) )
echo ${b[#]} # output: 1 2 3
min sort:
#!/bin/bash
array=(.....)
index_of_element1=0
while (( ${index_of_element1} < ${#array[#]} )); do
element_1="${array[${index_of_element1}]}"
index_of_element2=$((index_of_element1 + 1))
index_of_min=${index_of_element1}
min_element="${element_1}"
for element_2 in "${array[#]:$((index_of_element1 + 1))}"; do
min_element="`printf "%s\n%s" "${min_element}" "${element_2}" | sort | head -n+1`"
if [[ "${min_element}" == "${element_2}" ]]; then
index_of_min=${index_of_element2}
fi
let index_of_element2++
done
array[${index_of_element1}]="${min_element}"
array[${index_of_min}]="${element_1}"
let index_of_element1++
done
try this:
echo ${array[#]} | awk 'BEGIN{RS=" ";} {print $1}' | sort
Output will be:
3
5
a
b
c
f
Problem solved.
If you can compute a unique integer for each element in the array, like this:
tab='0123456789abcdefghijklmnopqrstuvwxyz'
# build the reversed ordinal map
for ((i = 0; i < ${#tab}; i++)); do
declare -g ord_${tab:i:1}=$i
done
function sexy_int() {
local sum=0
local i ch ref
for ((i = 0; i < ${#1}; i++)); do
ch="${1:i:1}"
ref="ord_$ch"
(( sum += ${!ref} ))
done
return $sum
}
sexy_int hello
echo "hello -> $?"
sexy_int world
echo "world -> $?"
then, you can use these integers as array indexes, because Bash always use sparse array, so no need to worry about unused indexes:
array=(a c b f 3 5)
for el in "${array[#]}"; do
sexy_int "$el"
sorted[$?]="$el"
done
echo "${sorted[#]}"
Pros. Fast.
Cons. Duplicated elements are merged, and it can be impossible to map contents to 32-bit unique integers.
array=(a c b f 3 5)
new_array=($(echo "${array[#]}" | sed 's/ /\n/g' | sort))
echo ${new_array[#]}
echo contents of new_array will be:
3 5 a b c f
There is a workaround for the usual problem of spaces and newlines:
Use a character that is not in the original array (like $'\1' or $'\4' or similar).
This function gets the job done:
# Sort an Array may have spaces or newlines with a workaround (wa=$'\4')
sortarray(){ local wa=$'\4' IFS=''
if [[ $* =~ [$wa] ]]; then
echo "$0: error: array contains the workaround char" >&2
exit 1
fi
set -f; local IFS=$'\n' x nl=$'\n'
set -- $(printf '%s\n' "${#//$nl/$wa}" | sort -n)
for x
do sorted+=("${x//$wa/$nl}")
done
}
This will sort the array:
$ array=( a b 'c d' $'e\nf' $'g\1h')
$ sortarray "${array[#]}"
$ printf '<%s>\n' "${sorted[#]}"
<a>
<b>
<c d>
<e
f>
<gh>
This will complain that the source array contains the workaround character:
$ array=( a b 'c d' $'e\nf' $'g\4h')
$ sortarray "${array[#]}"
./script: error: array contains the workaround char
description
We set two local variables wa (workaround char) and a null IFS
Then (with ifs null) we test that the whole array $*.
Does not contain any woraround char [[ $* =~ [$wa] ]].
If it does, raise a message and signal an error: exit 1
Avoid filename expansions: set -f
Set a new value of IFS (IFS=$'\n') a loop variable x and a newline var (nl=$'\n').
We print all values of the arguments received (the input array $#).
but we replace any new line by the workaround char "${#//$nl/$wa}".
send those values to be sorted sort -n.
and place back all the sorted values in the positional arguments set --.
Then we assign each argument one by one (to preserve newlines).
in a loop for x
to a new array: sorted+=(…)
inside quotes to preserve any existing newline.
restoring the workaround to a newline "${x//$wa/$nl}".
done
This question looks closely related. And BTW, here's a mergesort in Bash (without external processes):
mergesort() {
local -n -r input_reference="$1"
local -n output_reference="$2"
local -r -i size="${#input_reference[#]}"
local merge previous
local -a -i runs indices
local -i index previous_idx merged_idx \
run_a_idx run_a_stop \
run_b_idx run_b_stop
output_reference=("${input_reference[#]}")
if ((size == 0)); then return; fi
previous="${output_reference[0]}"
runs=(0)
for ((index = 0;;)) do
for ((++index;; ++index)); do
if ((index >= size)); then break 2; fi
if [[ "${output_reference[index]}" < "$previous" ]]; then break; fi
previous="${output_reference[index]}"
done
previous="${output_reference[index]}"
runs+=(index)
done
runs+=(size)
while (("${#runs[#]}" > 2)); do
indices=("${!runs[#]}")
merge=("${output_reference[#]}")
for ((index = 0; index < "${#indices[#]}" - 2; index += 2)); do
merged_idx=runs[indices[index]]
run_a_idx=merged_idx
previous_idx=indices[$((index + 1))]
run_a_stop=runs[previous_idx]
run_b_idx=runs[previous_idx]
run_b_stop=runs[indices[$((index + 2))]]
unset runs[previous_idx]
while ((run_a_idx < run_a_stop && run_b_idx < run_b_stop)); do
if [[ "${merge[run_a_idx]}" < "${merge[run_b_idx]}" ]]; then
output_reference[merged_idx++]="${merge[run_a_idx++]}"
else
output_reference[merged_idx++]="${merge[run_b_idx++]}"
fi
done
while ((run_a_idx < run_a_stop)); do
output_reference[merged_idx++]="${merge[run_a_idx++]}"
done
while ((run_b_idx < run_b_stop)); do
output_reference[merged_idx++]="${merge[run_b_idx++]}"
done
done
done
}
declare -ar input=({z..a}{z..a})
declare -a output
mergesort input output
echo "${input[#]}"
echo "${output[#]}"
Many thanks to the people that answered before me. Using their excellent input, bash documentation and ideas from other treads, this is what works perfectly for me without IFS change
array=("a \n c" b f "3 5")
Using process substitution and read array in bash > v4.4 WITH EOL character
readarray -t sorted < <(sort < <(printf '%s\n' "${array[#]}"))
Using process substitution and read array in bash > v4.4 WITH NULL character
readarray -td '' sorted < <(sort -z < <(printf '%s\0' "${array[#]}"))
Finally we verify with
printf "[%s]\n" "${sorted[#]}"
output is
[3 5]
[a \n c]
[b]
[f]
Please, let me know if that is a correct test for embedded /n as both solutions produce the same result, but the first one is not supposed to work properly with embedded /n
I am not convinced that you'll need an external sorting program in Bash.
Here is my implementation for the simple bubble-sort algorithm.
function bubble_sort()
{ #
# Sorts all positional arguments and echoes them back.
#
# Bubble sorting lets the heaviest (longest) element sink to the bottom.
#
local array=($#) max=$(($# - 1))
while ((max > 0))
do
local i=0
while ((i < max))
do
if [ ${array[$i]} \> ${array[$((i + 1))]} ]
then
local t=${array[$i]}
array[$i]=${array[$((i + 1))]}
array[$((i + 1))]=$t
fi
((i += 1))
done
((max -= 1))
done
echo ${array[#]}
}
array=(a c b f 3 5)
echo " input: ${array[#]}"
echo "output: $(bubble_sort ${array[#]})"
This shall print:
input: a c b f 3 5
output: 3 5 a b c f
a=(e b 'c d')
shuf -e "${a[#]}" | sort >/tmp/f
mapfile -t g </tmp/f
Great answers here. Learned a lot. After reading them all, I figure I'd throw my hat into the ring. I think this is the shortest method (and probably faster as it doesn't do much shell script parsing, though there is the matter of the spawning of printf and sort, but they're only called once each) and handles whitespace in the data:
a=(3 "2 a" 1) # Setup!
IFS=$'\n' b=( $(printf "%s\n" "${a[#]}" | sort) ); unset IFS # Sort!
printf "'%s' " "${b[#]}"; # Success!
Outputs:
'1' '2 a' '3'
Note that the IFS change is limited in scope to the line it is on. if you know that the array has no whitespace in it, you don't need the IFS modification.
Inspiration was from #yas's answer and #Alcamtar comments.
EDIT
Oh, I somehow missed the actually accepted answer which is even shorter than mine. Doh!
IFS=$'\n' sorted=($(sort <<<"${array[*]}")); unset IFS
Turns out that the unset is required because this is a variable assignment that has no command.
I'd recommend going to that answer because it has some interesting stuff on globbing which could be relevant if the array has wildcards in it. It also has a detailed description as to what is happening.
EDIT 2
GNU has an extension in which sort delimits records using \0 which is good if you have LFs in your data. However, when it gets returned to the shell to be assign to an array, I don't see a good way convert it so that the shell will delimit on \0, because even setting IFS=$'\0', the shell doesn't like it and doesn't properly break it up.
array=(z 'b c'); { set "${array[#]}"; printf '%s\n' "$#"; } \
| sort \
| mapfile -t array; declare -p array
declare -a array=([0]="b c" [1]="z")
Open an inline function {...} to get a fresh set of positional arguments (e.g. $1, $2, etc).
Copy the array to the positional arguments. (e.g. set "${array[#]}" will copy the nth array argument to the nth positional argument. Note the quotes preserve whitespace that may be contained in an array element).
Print each positional argument (e.g. printf '%s\n' "$#" will print each positional argument on its own line. Again, note the quotes preserve whitespace that may be contained in each positional argument).
Then sort does its thing.
Read the stream into an array with mapfile (e.g. mapfile -t array reads each line into the variable array and the -t ignores the \n in each line).
Dump the array to show its been sorted.
As a function:
set +m
shopt -s lastpipe
sort_array() {
declare -n ref=$1
set "${ref[#]}"
printf '%s\n' "$#"
| sort \
| mapfile -t $ref
}
then
array=(z y x); sort_array array; declare -p array
declare -a array=([0]="x" [1]="y" [2]="z")
I look forward to being ripped apart by all the UNIX gurus! :)
sorted=($(echo ${array[#]} | tr " " "\n" | sort))
In the spirit of bash / linux, I would pipe the best command-line tool for each step. sort does the main job but needs input separated by newline instead of space, so the very simple pipeline above simply does:
Echo array content --> replace space by newline --> sort
$() is to echo the result
($()) is to put the "echoed result" in an array
Note: as #sorontar mentioned in a comment to a different question:
The sorted=($(...)) part is using the "split and glob" operator. You should turn glob off: set -f or set -o noglob or shopt -op noglob or an element of the array like * will be expanded to a list of files.

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