Is there any way to compare such strings on bash, e.g.: 2.4.5 and 2.8 and 2.4.5.1?

  • 4
    No, don't do it with bc. It's text not numbers. 2.1 < 2.10 would fail this way. – viraptor Feb 26 at 23:32

26 Answers 26

up vote 160 down vote accepted

Here is a pure Bash version that doesn't require any external utilities:

#!/bin/bash
vercomp () {
    if [[ $1 == $2 ]]
    then
        return 0
    fi
    local IFS=.
    local i ver1=($1) ver2=($2)
    # fill empty fields in ver1 with zeros
    for ((i=${#ver1[@]}; i<${#ver2[@]}; i++))
    do
        ver1[i]=0
    done
    for ((i=0; i<${#ver1[@]}; i++))
    do
        if [[ -z ${ver2[i]} ]]
        then
            # fill empty fields in ver2 with zeros
            ver2[i]=0
        fi
        if ((10#${ver1[i]} > 10#${ver2[i]}))
        then
            return 1
        fi
        if ((10#${ver1[i]} < 10#${ver2[i]}))
        then
            return 2
        fi
    done
    return 0
}

testvercomp () {
    vercomp $1 $2
    case $? in
        0) op='=';;
        1) op='>';;
        2) op='<';;
    esac
    if [[ $op != $3 ]]
    then
        echo "FAIL: Expected '$3', Actual '$op', Arg1 '$1', Arg2 '$2'"
    else
        echo "Pass: '$1 $op $2'"
    fi
}

# Run tests
# argument table format:
# testarg1   testarg2     expected_relationship
echo "The following tests should pass"
while read -r test
do
    testvercomp $test
done << EOF
1            1            =
2.1          2.2          <
3.0.4.10     3.0.4.2      >
4.08         4.08.01      <
3.2.1.9.8144 3.2          >
3.2          3.2.1.9.8144 <
1.2          2.1          <
2.1          1.2          >
5.6.7        5.6.7        =
1.01.1       1.1.1        =
1.1.1        1.01.1       =
1            1.0          =
1.0          1            =
1.0.2.0      1.0.2        =
1..0         1.0          =
1.0          1..0         =
EOF

echo "The following test should fail (test the tester)"
testvercomp 1 1 '>'

Run the tests:

$ . ./vercomp
The following tests should pass
Pass: '1 = 1'
Pass: '2.1 < 2.2'
Pass: '3.0.4.10 > 3.0.4.2'
Pass: '4.08 < 4.08.01'
Pass: '3.2.1.9.8144 > 3.2'
Pass: '3.2 < 3.2.1.9.8144'
Pass: '1.2 < 2.1'
Pass: '2.1 > 1.2'
Pass: '5.6.7 = 5.6.7'
Pass: '1.01.1 = 1.1.1'
Pass: '1.1.1 = 1.01.1'
Pass: '1 = 1.0'
Pass: '1.0 = 1'
Pass: '1.0.2.0 = 1.0.2'
Pass: '1..0 = 1.0'
Pass: '1.0 = 1..0'
The following test should fail (test the tester)
FAIL: Expected '>', Actual '=', Arg1 '1', Arg2 '1'
  • 2
    Looks good now; I withdraw my objections. – Gordon Davisson Oct 26 '10 at 19:19
  • 1
    Could you state explicitly license of this code snippet? Code looks perfect but I'm not sure if I can use it in AGPLv3 licensed project. – Kamil Dziedzic Jul 31 '14 at 23:31
  • 3
    @KamilDziedzic: The license terms are stated at the bottom of this page (and most others). – Dennis Williamson Aug 1 '14 at 1:08
  • 4
    gnu.org/licenses/license-list.html#ccbysa Please don't use it for software or documentation, since it is incompatible with the GNU GPL :/ but +1 for great code – Kamil Dziedzic Aug 1 '14 at 9:44
  • 1
    this fails '1.4rc2 > 1.3.3'. notice the alphanumeric version – Salimane Adjao Moustapha Dec 9 '14 at 11:52

If you have coreutils-7 (in Ubuntu Karmic but not Jaunty) then your sort command should have a -V option (version sort) which you could use to do the comparison:

verlte() {
    [  "$1" = "`echo -e "$1\n$2" | sort -V | head -n1`" ]
}

verlt() {
    [ "$1" = "$2" ] && return 1 || verlte $1 $2
}

verlte 2.5.7 2.5.6 && echo "yes" || echo "no" # no
verlt 2.4.10 2.4.9 && echo "yes" || echo "no" # no
verlt 2.4.8 2.4.10 && echo "yes" || echo "no" # yes
verlte 2.5.6 2.5.6 && echo "yes" || echo "no" # yes
verlt 2.5.6 2.5.6 && echo "yes" || echo "no" # no
  • 5
    Nice solution. For Mac OSX users, you can use GNU Coreutils gsort. That's available through homebrew: brew install coreutils. Then the above should just be modified to use gsort. – justsee Apr 1 '13 at 4:33
  • I got it working in a script in Ubuntu precise by removing -e from echo. – Hannes R. Mar 31 '14 at 12:38
  • 2
    Doesn't work with e.g. Busybox on an embedded Linux system, because Busybox sort doesn't have -V option. – Craig McQueen Jul 1 '15 at 4:47
  • @CraigMcQueen -V is using filevercmp from gnulib. Interestingly, not the strverscmp from glibc: stackoverflow.com/a/37015135/895245 – Ciro Santilli 新疆改造中心 六四事件 法轮功 May 4 '16 at 13:10
  • 1
    It's better to use printf instead of echo -e. – phk Nov 5 '16 at 10:53

There probably is no universally correct way to achieve this. If you are trying to compare versions in the Debian package system try dpkg --compare-versions <first> <relation> <second>.

  • 2
    +1 even it is not quit an answer to the question. But it was very helpful to me nevertheless. – Arvodan Feb 16 '11 at 13:33
  • 5
    Usage: dpkg --compare-versions "1.0" "lt" "1.2" means 1.0 less than 1.2. The comparison result $? is 0 if true so you can use it directly after if statement. – KrisWebDev Mar 27 '16 at 15:32

GNU sort has an option for it:

printf '2.4.5\n2.8\n2.4.5.1\n' | sort -V

gives:

2.4.5
2.4.5.1
2.8
  • 2
    The question seems to be about version sort. Consider: echo -e "2.4.10\n2.4.9" | sort -n -t. – kanaka Oct 26 '10 at 13:46
  • 2
    sorting this numerically is not right. You would need to at least normalize the strings first. – frankc Oct 26 '10 at 19:44
  • @kanaka - You are correct. – mouviciel Oct 30 '13 at 17:04
  • 2
    Doesn't work with e.g. Busybox on an embedded Linux system, because Busybox sort doesn't have -V option. – Craig McQueen Jul 1 '15 at 4:59
  • It's worth noting that if the version number can be anything then would be better to use it in the form printf '%s\n' "2.4.5" "2.8" "2.4.5.1" | sort -V. – phk Nov 5 '16 at 10:58

Well if you know the number of fields you can use -k n,n and get a super-simple solution

echo '2.4.5
2.8
2.4.5.1
2.10.2' | sort -t '.' -k 1,1 -k 2,2 -k 3,3 -k 4,4 -g

2.4.5
2.4.5.1
2.8
2.10.2
  • 3
    four years late to the party, but my favorite solution by far :) – LOAS Mar 11 '15 at 8:15
  • This doesn't work for 2.4-r9 and r.4-r10. – Craig McQueen Jul 6 '15 at 6:42
  • yeah, the -t option only accepts single character tabs...otherwise, 2.4-r9 would work as well. What a shame :/ – scottyseus Jul 7 '15 at 14:53
  • For Solaris compat, I had to change -g to -n. Any reason why not to for this example? On a side-note... to perform a "greater than" type comparison, you can check if the desired sort is the same as the actual sort... e.g. desired="1.9\n1.11"; actual="$(echo -e $desired |sort -t '.' -k 1,1 -k 2,2 -g)"; and then verify if [ "$desired" = "$actual" ]. – tresf Jan 16 '16 at 6:16

This is for at most 4 fields in the version.

$ function ver { printf "%03d%03d%03d%03d" $(echo "$1" | tr '.' ' '); }
$ [ $(ver 10.9) -lt $(ver 10.10) ] && echo hello  
hello
  • 3
    In case the version could also have 5 fields, the above could be made safe like this: printf "%03d%03d%03d%03d" $(echo "$1" | tr '.' '\n' | head -n 4) – robinst Apr 20 '15 at 4:57
  • 2
    Not sure if it all applies to all versions of bash, but in my case a semicolon is missing after the last round bracket. – Holger Brandl Aug 11 '17 at 17:26
  • 1
    @robinst For head -n to work, I had to change to tr '.' '\n' – Victor Sergienko Oct 13 '17 at 21:04
  • 2
    It will not work properly for "10.09" though. – Oleksii Chekulaiev Oct 30 '17 at 20:04
  • 1
    @OleksiiChekulaiev Pipe tr output through sed 's/\(^\| \)0\([0-9][0-9]*\)/\1\2/g' which will take care of that (Rather clumsily) – Otheus Jun 13 at 17:32
function version { echo "$@" | awk -F. '{ printf("%d%03d%03d%03d\n", $1,$2,$3,$4); }'; }

Used as such:

if [ $(version $VAR) -ge $(version "6.2.0") ]; then
    echo "Version is up to date"
fi

(from https://apple.stackexchange.com/a/123408/11374)

  • 2
    This one is much superior to just using default bash printf as proposed above. It correctly processes versions like "1.09" that regular printf in unable to process because "09 is not a correct number". It also automatically removes leading zeroes which is great because sometimes leading zeroes can lead to comparison errors. – Oleksii Chekulaiev Oct 30 '17 at 20:15

You can recursively split on . and compare as shown in the following algorithm, taken from here. It returns 10 if the versions are the same, 11 if version 1 is greater than version 2 and 9 otherwise.

#!/bin/bash
do_version_check() {

   [ "$1" == "$2" ] && return 10

   ver1front=`echo $1 | cut -d "." -f -1`
   ver1back=`echo $1 | cut -d "." -f 2-`

   ver2front=`echo $2 | cut -d "." -f -1`
   ver2back=`echo $2 | cut -d "." -f 2-`

   if [ "$ver1front" != "$1" ] || [ "$ver2front" != "$2" ]; then
       [ "$ver1front" -gt "$ver2front" ] && return 11
       [ "$ver1front" -lt "$ver2front" ] && return 9

       [ "$ver1front" == "$1" ] || [ -z "$ver1back" ] && ver1back=0
       [ "$ver2front" == "$2" ] || [ -z "$ver2back" ] && ver2back=0
       do_version_check "$ver1back" "$ver2back"
       return $?
   else
           [ "$1" -gt "$2" ] && return 11 || return 9
   fi
}    

do_version_check "$1" "$2"

Source

I'm using embedded Linux (Yocto) with BusyBox. BusyBox sort doesn't have a -V option (but BusyBox expr match can do regular expressions). So I needed a Bash version compare which worked with that constraint.

I've made the following (similar to Dennis Williamson's answer) to compare using a "natural sort" type of algorithm. It splits the string into numeric parts and non-numeric parts; it compares the numeric parts numerically (so 10 is greater than 9), and compares the non-numeric parts as a plain ASCII comparison.

ascii_frag() {
    expr match "$1" "\([^[:digit:]]*\)"
}

ascii_remainder() {
    expr match "$1" "[^[:digit:]]*\(.*\)"
}

numeric_frag() {
    expr match "$1" "\([[:digit:]]*\)"
}

numeric_remainder() {
    expr match "$1" "[[:digit:]]*\(.*\)"
}

vercomp_debug() {
    OUT="$1"
    #echo "${OUT}"
}

# return 1 for $1 > $2
# return 2 for $1 < $2
# return 0 for equal
vercomp() {
    local WORK1="$1"
    local WORK2="$2"
    local NUM1="", NUM2="", ASCII1="", ASCII2=""
    while true; do
        vercomp_debug "ASCII compare"
        ASCII1=`ascii_frag "${WORK1}"`
        ASCII2=`ascii_frag "${WORK2}"`
        WORK1=`ascii_remainder "${WORK1}"`
        WORK2=`ascii_remainder "${WORK2}"`
        vercomp_debug "\"${ASCII1}\" remainder \"${WORK1}\""
        vercomp_debug "\"${ASCII2}\" remainder \"${WORK2}\""

        if [ "${ASCII1}" \> "${ASCII2}" ]; then
            vercomp_debug "ascii ${ASCII1} > ${ASCII2}"
            return 1
        elif [ "${ASCII1}" \< "${ASCII2}" ]; then
            vercomp_debug "ascii ${ASCII1} < ${ASCII2}"
            return 2
        fi
        vercomp_debug "--------"

        vercomp_debug "Numeric compare"
        NUM1=`numeric_frag "${WORK1}"`
        NUM2=`numeric_frag "${WORK2}"`
        WORK1=`numeric_remainder "${WORK1}"`
        WORK2=`numeric_remainder "${WORK2}"`
        vercomp_debug "\"${NUM1}\" remainder \"${WORK1}\""
        vercomp_debug "\"${NUM2}\" remainder \"${WORK2}\""

        if [ -z "${NUM1}" -a -z "${NUM2}" ]; then
            vercomp_debug "blank 1 and blank 2 equal"
            return 0
        elif [ -z "${NUM1}" -a -n "${NUM2}" ]; then
            vercomp_debug "blank 1 less than non-blank 2"
            return 2
        elif [ -n "${NUM1}" -a -z "${NUM2}" ]; then
            vercomp_debug "non-blank 1 greater than blank 2"
            return 1
        fi

        if [ "${NUM1}" -gt "${NUM2}" ]; then
            vercomp_debug "num ${NUM1} > ${NUM2}"
            return 1
        elif [ "${NUM1}" -lt "${NUM2}" ]; then
            vercomp_debug "num ${NUM1} < ${NUM2}"
            return 2
        fi
        vercomp_debug "--------"
    done
}

It can compare more complicated version numbers such as

  • 1.2-r3 versus 1.2-r4
  • 1.2rc3 versus 1.2r4

Note that it doesn't return the same result for some of the corner-cases in Dennis Williamson's answer. In particular:

1            1.0          <
1.0          1            >
1.0.2.0      1.0.2        >
1..0         1.0          >
1.0          1..0         <

But those are corner cases, and I think the results are still reasonable.

if it's just about to know whether one version is lower than another I came up checking whether sort --version-sort changes the order of my version strings:

    string="$1
$2"
    [ "$string" == "$(sort --version-sort <<< "$string")" ]

I implemented a function that returns the same results as Dennis Williamson's but uses fewer lines. It does perform a sanity check initially which causes 1..0 to fail from his tests (which I would argue should be the case) but all of his other tests pass with this code:

#!/bin/bash
version_compare() {
    if [[ $1 =~ ^([0-9]+\.?)+$ && $2 =~ ^([0-9]+\.?)+$ ]]; then
        local l=(${1//./ }) r=(${2//./ }) s=${#l[@]}; [[ ${#r[@]} -gt ${#l[@]} ]] && s=${#r[@]}

        for i in $(seq 0 $((s - 1))); do
            [[ ${l[$i]} -gt ${r[$i]} ]] && return 1
            [[ ${l[$i]} -lt ${r[$i]} ]] && return 2
        done

        return 0
    else
        echo "Invalid version number given"
        exit 1
    fi
}
  • It's not working... It thinks that 1.15 is less than 1.8.1. – Carlo Wood Jan 28 '17 at 23:47
  • I fixed it. I had forgotten to subshell the seq command – v0rtex Feb 7 '17 at 21:32
  • Ok cool. No time to test again but I removed my down vote ;) – Carlo Wood Feb 11 '17 at 0:19

For old version/busybox sort. Simple form provide roughly result and often works.

sort -n

This is escpecial useful on version which contains alpha symbols like

10.c.3
10.a.4
2.b.5
  • This doesn't work for 2.4-r9 and r.4-r10. – Craig McQueen Jul 6 '15 at 6:47

Here is a simple Bash function that uses no external commands. It works for version strings that have up to three numeric parts in them - less than 3 is fine as well. It can easily be extended for more. It implements =, <, <=, >, >=, and != conditions.

#!/bin/bash
vercmp() {
    version1=$1 version2=$2 condition=$3

    IFS=. v1_array=($version1) v2_array=($version2)
    v1=$((v1_array[0] * 100 + v1_array[1] * 10 + v1_array[2]))
    v2=$((v2_array[0] * 100 + v2_array[1] * 10 + v2_array[2]))
    diff=$((v2 - v1))
    [[ $condition = '='  ]] && ((diff == 0)) && return 0
    [[ $condition = '!=' ]] && ((diff != 0)) && return 0
    [[ $condition = '<'  ]] && ((diff >  0)) && return 0
    [[ $condition = '<=' ]] && ((diff >= 0)) && return 0
    [[ $condition = '>'  ]] && ((diff <  0)) && return 0
    [[ $condition = '>=' ]] && ((diff <= 0)) && return 0
    return 1
}

Here is the test:

for tv1 in '*' 1.1.1 2.5.3 7.3.0 0.5.7 10.3.9 8.55.32 0.0.1; do
    for tv2 in 3.1.1 1.5.3 4.3.0 0.0.7 0.3.9 11.55.32 10.0.0 '*'; do
      for c in '=' '>' '<' '>=' '<=' '!='; do
        vercmp "$tv1" "$tv2" "$c" && printf '%s\n' "$tv1 $c $tv2 is true" || printf '%s\n' "$tv1 $c $tv2 is false"
      done
    done
done

A subset of the test output:

<snip>

* >= * is true
* <= * is true
* != * is true
1.1.1 = 3.1.1 is false
1.1.1 > 3.1.1 is false
1.1.1 < 3.1.1 is true
1.1.1 >= 3.1.1 is false
1.1.1 <= 3.1.1 is true
1.1.1 != 3.1.1 is true
1.1.1 = 1.5.3 is false
1.1.1 > 1.5.3 is false
1.1.1 < 1.5.3 is true
1.1.1 >= 1.5.3 is false
1.1.1 <= 1.5.3 is true
1.1.1 != 1.5.3 is true
1.1.1 = 4.3.0 is false
1.1.1 > 4.3.0 is false

<snip>
$ for OVFTOOL_VERSION in "4.2.0" "4.2.1" "5.2.0" "3.2.0" "4.1.9" "4.0.1" "4.3.0" "4.5.0" "4.2.1" "30.1.0" "4" "5" "4.1" "4.3"
> do
>   if [ $(echo "$OVFTOOL_VERSION 4.2.0" | tr " " "\n" | sort --version-sort | head -n 1) = 4.2.0 ]; then 
>     echo "$OVFTOOL_VERSION is >= 4.2.0"; 
>   else 
>     echo "$OVFTOOL_VERSION is < 4.2.0"; 
>   fi
> done
4.2.0 is >= 4.2.0
4.2.1 is >= 4.2.0
5.2.0 is >= 4.2.0
3.2.0 is < 4.2.0
4.1.9 is < 4.2.0
4.0.1 is < 4.2.0
4.3.0 is >= 4.2.0
4.5.0 is >= 4.2.0
4.2.1 is >= 4.2.0
30.1.0 is >= 4.2.0
4 is < 4.2.0
5 is >= 4.2.0
4.1 is < 4.2.0
4.3 is >= 4.2.0
  • Function V - pure bash solution, no external utilities required.
  • Supports = == != < <= > and >= (lexicographic).
  • Optional tail letter comparison: 1.5a < 1.5b
  • Unequal length comparison: 1.6 > 1.5b
  • Reads left-to-right: if V 1.5 '<' 1.6; then ....

<>

# Sample output
# Note: ++ (true) and __ (false) mean that V works correctly.

++ 3.6 '>' 3.5b
__ 2.5.7 '<=' 2.5.6
++ 2.4.10 '<' 2.5.9
__ 3.0002 '>' 3.0003.3
++ 4.0-RC2 '>' 4.0-RC1

<>

function V() # $1-a $2-op $3-$b
# Compare a and b as version strings. Rules:
# R1: a and b : dot-separated sequence of items. Items are numeric. The last item can optionally end with letters, i.e., 2.5 or 2.5a.
# R2: Zeros are automatically inserted to compare the same number of items, i.e., 1.0 < 1.0.1 means 1.0.0 < 1.0.1 => yes.
# R3: op can be '=' '==' '!=' '<' '<=' '>' '>=' (lexicographic).
# R4: Unrestricted number of digits of any item, i.e., 3.0003 > 3.0000004.
# R5: Unrestricted number of items.
{
  local a=$1 op=$2 b=$3 al=${1##*.} bl=${3##*.}
  while [[ $al =~ ^[[:digit:]] ]]; do al=${al:1}; done
  while [[ $bl =~ ^[[:digit:]] ]]; do bl=${bl:1}; done
  local ai=${a%$al} bi=${b%$bl}

  local ap=${ai//[[:digit:]]} bp=${bi//[[:digit:]]}
  ap=${ap//./.0} bp=${bp//./.0}

  local w=1 fmt=$a.$b x IFS=.
  for x in $fmt; do [ ${#x} -gt $w ] && w=${#x}; done
  fmt=${*//[^.]}; fmt=${fmt//./%${w}s}
  printf -v a $fmt $ai$bp; printf -v a "%s-%${w}s" $a $al
  printf -v b $fmt $bi$ap; printf -v b "%s-%${w}s" $b $bl

  case $op in
    '<='|'>=' ) [ "$a" ${op:0:1} "$b" ] || [ "$a" = "$b" ] ;;
    * )         [ "$a" $op "$b" ] ;;
  esac
}

Code Explained

Line 1: Define local variables:

  • a, op, b - comparison operands and operator, i.e., "3.6" > "3.5a".
  • al, bl - letter tails of a and b, initialized to the tail item, i.e., "6" and "5a".

Lines 2, 3: Left-trim digits from the tail items so only letters are left, if any, i.e., "" and "a".

Line 4: Right trim letters from a and b to leave just the sequence of numeric items as local variables ai and bi, i.e., "3.6" and "3.5". Notable example: "4.01-RC2" > "4.01-RC1" yields ai="4.01" al="-RC2" and bi="4.01" bl="-RC1".

Line 6: Define local variables:

  • ap, bp - zero right-paddings for ai and bi. Start by keeping the inter-item dots only, of which number equals the number of elements of a and b respectively.

Line 7: Then append "0" after each dot to make padding masks.

Line 9: Local variables:

  • w - item width
  • fmt - printf format string, to be calculated
  • x - temporary
  • With IFS=. bash splits variable values at '.'.

Line 10: Calculate w, the maximum item width, which will be used to align items for lexicographic comparison. In our example w=2.

Line 11: Create the printf alignment format by replacing each character of $a.$b with %${w}s, i.e., "3.6" > "3.5a" yields "%2s%2s%2s%2s".

Line 12: "printf -v a" sets the value of variable a. This is equivalent to a=sprintf(...) in many programming languages. Note that here, by effect of IFS=. the arguments to printf split into individual items.

With the first printf items of a are left-padded with spaces while enough "0" items are appended from bp to ensure that the resulting string a can be meaningfully compared to a similarly formatted b.

Note that we append bp - not ap to ai because ap and bp may have different lenghts, so this results in a and b having equal lengths.

With the second printf we append the letter part al to a with enough padding to enable meaningful comparison. Now a is ready for comparison with b.

Line 13: Same as line 12 but for b.

Line 15: Split comparison cases between non-built-in (<= and >=) and built-in operators.

Line 16: If the comparison operator is <= then test for a<b or a=b - respectively >= a<b or a=b

Line 17: Test for built-in comparison operators.

<>

# All tests

function P { printf "$@"; }
function EXPECT { printf "$@"; }
function CODE { awk $BASH_LINENO'==NR{print " "$2,$3,$4}' "$0"; }
P 'Note: ++ (true) and __ (false) mean that V works correctly.\n'

V 2.5    '!='  2.5      && P + || P _; EXPECT _; CODE
V 2.5    '='   2.5      && P + || P _; EXPECT +; CODE
V 2.5    '=='  2.5      && P + || P _; EXPECT +; CODE

V 2.5a   '=='  2.5b     && P + || P _; EXPECT _; CODE
V 2.5a   '<'   2.5b     && P + || P _; EXPECT +; CODE
V 2.5a   '>'   2.5b     && P + || P _; EXPECT _; CODE
V 2.5b   '>'   2.5a     && P + || P _; EXPECT +; CODE
V 2.5b   '<'   2.5a     && P + || P _; EXPECT _; CODE
V 3.5    '<'   3.5b     && P + || P _; EXPECT +; CODE
V 3.5    '>'   3.5b     && P + || P _; EXPECT _; CODE
V 3.5b   '>'   3.5      && P + || P _; EXPECT +; CODE
V 3.5b   '<'   3.5      && P + || P _; EXPECT _; CODE
V 3.6    '<'   3.5b     && P + || P _; EXPECT _; CODE
V 3.6    '>'   3.5b     && P + || P _; EXPECT +; CODE
V 3.5b   '<'   3.6      && P + || P _; EXPECT +; CODE
V 3.5b   '>'   3.6      && P + || P _; EXPECT _; CODE

V 2.5.7  '<='  2.5.6    && P + || P _; EXPECT _; CODE
V 2.4.10 '<'   2.4.9    && P + || P _; EXPECT _; CODE
V 2.4.10 '<'   2.5.9    && P + || P _; EXPECT +; CODE
V 3.4.10 '<'   2.5.9    && P + || P _; EXPECT _; CODE
V 2.4.8  '>'   2.4.10   && P + || P _; EXPECT _; CODE
V 2.5.6  '<='  2.5.6    && P + || P _; EXPECT +; CODE
V 2.5.6  '>='  2.5.6    && P + || P _; EXPECT +; CODE
V 3.0    '<'   3.0.3    && P + || P _; EXPECT +; CODE
V 3.0002 '<'   3.0003.3 && P + || P _; EXPECT +; CODE
V 3.0002 '>'   3.0003.3 && P + || P _; EXPECT _; CODE
V 3.0003.3 '<' 3.0002   && P + || P _; EXPECT _; CODE
V 3.0003.3 '>' 3.0002   && P + || P _; EXPECT +; CODE

V 4.0-RC2 '>' 4.0-RC1   && P + || P _; EXPECT +; CODE
V 4.0-RC2 '<' 4.0-RC1   && P + || P _; EXPECT _; CODE

Here is another pure bash solution without any external calls:

#!/bin/bash

function version_compare {

IFS='.' read -ra ver1 <<< "$1"
IFS='.' read -ra ver2 <<< "$2"

[[ ${#ver1[@]} -gt ${#ver2[@]} ]] && till=${#ver1[@]} || till=${#ver2[@]}

for ((i=0; i<${till}; i++)); do

    local num1; local num2;

    [[ -z ${ver1[i]} ]] && num1=0 || num1=${ver1[i]}
    [[ -z ${ver2[i]} ]] && num2=0 || num2=${ver2[i]}

    if [[ $num1 -gt $num2 ]]; then
        echo ">"; return 0
    elif
       [[ $num1 -lt $num2 ]]; then
        echo "<"; return 0
    fi
done

echo "="; return 0
}

echo "${1} $(version_compare "${1}" "${2}") ${2}"

And there is even more simple solution, if you are sure that the versions in question do not contain leading zeros after the first dot:

#!/bin/bash

function version_compare {

local ver1=${1//.}
local ver2=${2//.}


    if [[ $ver1 -gt $ver2 ]]; then
        echo ">"; return 0
    elif    
       [[ $ver1 -lt $ver2 ]]; then
        echo "<"; return 0
    fi 

echo "="; return 0
}

echo "${1} $(version_compare "${1}" "${2}") ${2}"

This will work for something like 1.2.3 vs 1.3.1 vs 0.9.7, but won't work with 1.2.3 vs 1.2.3.0 or 1.01.1 vs 1.1.1

  • Second version may result in 4.4.4 > 44.3 – yairchu Jun 21 '16 at 8:31

Here's a refinement of the top answer (Dennis's) that is more concise and uses a different return value scheme to make it easy to implement <= and >= with a single comparison. It also compares everything after the first character not in [0-9.] lexicographically, so 1.0rc1 < 1.0rc2.

# Compares two tuple-based, dot-delimited version numbers a and b (possibly
# with arbitrary string suffixes). Returns:
# 1 if a<b
# 2 if equal
# 3 if a>b
# Everything after the first character not in [0-9.] is compared
# lexicographically using ASCII ordering if the tuple-based versions are equal.
compare-versions() {
    if [[ $1 == $2 ]]; then
        return 2
    fi
    local IFS=.
    local i a=(${1%%[^0-9.]*}) b=(${2%%[^0-9.]*})
    local arem=${1#${1%%[^0-9.]*}} brem=${2#${2%%[^0-9.]*}}
    for ((i=0; i<${#a[@]} || i<${#b[@]}; i++)); do
        if ((10#${a[i]:-0} < 10#${b[i]:-0})); then
            return 1
        elif ((10#${a[i]:-0} > 10#${b[i]:-0})); then
            return 3
        fi
    done
    if [ "$arem" '<' "$brem" ]; then
        return 1
    elif [ "$arem" '>' "$brem" ]; then
        return 3
    fi
    return 2
}
  • Here's an upvote because it's being used here – Code Bling Feb 13 at 16:11

I came across and solved this problem, to add an additional (and shorter and simpler) answer...

First note, extended shell comparison failed as you may already know...

    if [[ 1.2.0 < 1.12.12 ]]; then echo true; else echo false; fi
    false

Using the sort -t'.'-g (or sort -V as mentioned by kanaka) to order versions and simple bash string comparison I found a solution. The input file contains versions in columns 3 and 4 which I want to compare. This iterates through the list identifying a match or if one is greater than the other. Hope this may still help anyone looking to do this using bash as simple as possible.

while read l
do
    #Field 3 contains version on left to compare (change -f3 to required column).
    kf=$(echo $l | cut -d ' ' -f3)
    #Field 4 contains version on right to compare (change -f4 to required column).
    mp=$(echo $l | cut -d ' ' -f4)

    echo 'kf = '$kf
    echo 'mp = '$mp

    #To compare versions m.m.m the two can be listed and sorted with a . separator and the greater version found.
    gv=$(echo -e $kf'\n'$mp | sort -t'.' -g | tail -n 1)

    if [ $kf = $mp ]; then 
        echo 'Match Found: '$l
    elif [ $kf = $gv ]; then
        echo 'Karaf feature file version is greater '$l
    elif [ $mp = $gv ]; then
        echo 'Maven pom file version is greater '$l
   else
       echo 'Comparison error '$l
   fi
done < features_and_pom_versions.tmp.txt

Thanks to Barry's blog for the sort idea... ref: http://bkhome.org/blog/?viewDetailed=02199

### the answer is does we second argument is higher
function _ver_higher {
        ver=`echo -ne "$1\n$2" |sort -Vr |head -n1`
        if [ "$2" == "$1" ]; then
                return 1
        elif [ "$2" == "$ver" ]; then
                return 0
        else
                return 1
        fi
}

if _ver_higher $1 $2; then
        echo higher
else
        echo same or less
fi

It's pretty simple and small.

  • This will break when there are backslashes in the versions, better replace echo -ne "$1\n$2" with printf '%s\n ' "$1" "$2". Also it's better to use $() instead of the backtics. – phk Nov 5 '16 at 10:52

How about this? Seems to work?

checkVersion() {
subVer1=$1
subVer2=$2

[ "$subVer1" == "$subVer2" ] && echo "Version is same"
echo "Version 1 is $subVer1"
testVer1=$subVer1
echo "Test version 1 is $testVer1"
x=0
while [[ $testVer1 != "" ]]
do
  ((x++))
  testVer1=`echo $subVer1|cut -d "." -f $x`
  echo "testVer1 now is $testVer1"
  testVer2=`echo $subVer2|cut -d "." -f $x`
  echo "testVer2 now is $testVer2"
  if [[ $testVer1 -gt $testVer2 ]]
  then
    echo "$ver1 is greater than $ver2"
    break
  elif [[ "$testVer2" -gt "$testVer1" ]]
  then
    echo "$ver2 is greater than $ver1"
    break
  fi
  echo "This is the sub verion for first value $testVer1"
  echo "This is the sub verion for second value $testVer2"
done
}

ver1=$1
ver2=$2
checkVersion "$ver1" "$ver2"

Thanks to Dennis's solution, we can extend it to allow comparison operators '>', '<', '=', '==', '<=', and '>='.

# compver ver1 '=|==|>|<|>=|<=' ver2
compver() { 
    local op
    vercomp $1 $3
    case $? in
        0) op='=';;
        1) op='>';;
        2) op='<';;
    esac
    [[ $2 == *$op* ]] && return 0 || return 1
}

We can then use comparison operators in the expressions like:

compver 1.7 '<=' 1.8
compver 1.7 '==' 1.7
compver 1.7 '=' 1.7

and test only the true/false of the result, like:

if compver $ver1 '>' $ver2; then
    echo "Newer"
fi

Here's another pure bash version, rather smaller than the accepted answer. It only checks whether a version is less than or equal to a "minimum version", and it will check alphanumeric sequences lexicographically, which often gives the wrong result ("snapshot" is not later than "release", to give a common example). It will work fine for major/minor.

is_number() {
    case "$BASH_VERSION" in
        3.1.*)
            PATTERN='\^\[0-9\]+\$'
            ;;
        *)
            PATTERN='^[0-9]+$'
            ;;
    esac

    [[ "$1" =~ $PATTERN ]]
}

min_version() {
    if [[ $# != 2 ]]
    then
        echo "Usage: min_version current minimum"
        return
    fi

    A="${1%%.*}"
    B="${2%%.*}"

    if [[ "$A" != "$1" && "$B" != "$2" && "$A" == "$B" ]]
    then
        min_version "${1#*.}" "${2#*.}"
    else
        if is_number "$A" && is_number "$B"
        then
            [[ "$A" -ge "$B" ]]
        else
            [[ ! "$A" < "$B" ]]
        fi
    fi
}

I implemented yet another comparator function. This one had two specific requirements: (i) I didn't want the function to fail by using return 1 but echo instead; (ii) as we're retrieving versions from a git repository version "1.0" should be bigger than "1.0.2", meaning that "1.0" comes from trunk.

function version_compare {
  IFS="." read -a v_a <<< "$1"
  IFS="." read -a v_b <<< "$2"

  while [[ -n "$v_a" || -n "$v_b" ]]; do
    [[ -z "$v_a" || "$v_a" -gt "$v_b" ]] && echo 1 && return
    [[ -z "$v_b" || "$v_b" -gt "$v_a" ]] && echo -1 && return

    v_a=("${v_a[@]:1}")
    v_b=("${v_b[@]:1}")
  done

  echo 0
}

Feel free to comment and suggest improvements.

Another approach(modified version of @joynes) that compares dotted versions as asked in the question
(i.e "1.2", "2.3.4", "1.0", "1.10.1", etc.).
The maximum number of positions has to be known in advance. The approach expects max 3 version positions.

expr $(printf "$1\n$2" | sort -t '.' -k 1,1 -k 2,2 -k 3,3 -g | sed -n 2p) != $2

example usage:

expr $(printf "1.10.1\n1.7" | sort -t '.' -k 1,1 -k 2,2 -k 3,3 -g | sed -n 2p) != "1.7"

returns: 1 since 1.10.1 is bigger than 1.7

expr $(printf "1.10.1\n1.11" | sort -t '.' -k 1,1 -k 2,2 -k 3,3 -g | sed -n 2p) != "1.11"

returns: 0 since 1.10.1 is lower than 1.11

You can use version CLI to check version's constraints

$ version ">=1.0, <2.0" "1.7"
$ go version | version ">=1.9"

Bash script example:

#!/bin/bash

if `version -b ">=9.0.0" "$(gcc --version)"`; then
  echo "gcc version satisfies constraints >=9.0.0"
else
  echo "gcc version doesn't satisfies constraints >=9.0.0"
fi

Here's a pure Bash solution that supports revisions (e.g. '1.0-r1'), based on the answer posted by Dennis Williamson. It can easily be modified to support stuff like '-RC1' or extract the version from a more complex string by changing the regular expression.

For details regarding the implementation, please refer to in-code comments and/or enable the included debug code:

#!/bin/bash

# Compare two version strings [$1: version string 1 (v1), $2: version string 2 (v2)]
# Return values:
#   0: v1 == v2
#   1: v1 > v2
#   2: v1 < v2
# Based on: https://stackoverflow.com/a/4025065 by Dennis Williamson
function compare_versions() {

    # Trivial v1 == v2 test based on string comparison
    [[ "$1" == "$2" ]] && return 0

    # Local variables
    local regex="^(.*)-r([0-9]*)$" va1=() vr1=0 va2=() vr2=0 len i IFS="."

    # Split version strings into arrays, extract trailing revisions
    if [[ "$1" =~ ${regex} ]]; then
        va1=(${BASH_REMATCH[1]})
        [[ -n "${BASH_REMATCH[2]}" ]] && vr1=${BASH_REMATCH[2]}
    else
        va1=($1)
    fi
    if [[ "$2" =~ ${regex} ]]; then
        va2=(${BASH_REMATCH[1]})
        [[ -n "${BASH_REMATCH[2]}" ]] && vr2=${BASH_REMATCH[2]}
    else
        va2=($2)
    fi

    # Bring va1 and va2 to same length by filling empty fields with zeros
    (( ${#va1[@]} > ${#va2[@]} )) && len=${#va1[@]} || len=${#va2[@]}
    for ((i=0; i < len; ++i)); do
        [[ -z "${va1[i]}" ]] && va1[i]="0"
        [[ -z "${va2[i]}" ]] && va2[i]="0"
    done

    # Append revisions, increment length
    va1+=($vr1)
    va2+=($vr2)
    len=$((len+1))

    # *** DEBUG ***
    #echo "TEST: '${va1[@]} (?) ${va2[@]}'"

    # Compare version elements, check if v1 > v2 or v1 < v2
    for ((i=0; i < len; ++i)); do
        if (( 10#${va1[i]} > 10#${va2[i]} )); then
            return 1
        elif (( 10#${va1[i]} < 10#${va2[i]} )); then
            return 2
        fi
    done

    # All elements are equal, thus v1 == v2
    return 0
}

# Test compare_versions [$1: version string 1, $2: version string 2, $3: expected result]
function test_compare_versions() {
    local op
    compare_versions "$1" "$2"
    case $? in
        0) op="==" ;;
        1) op=">" ;;
        2) op="<" ;;
    esac
    if [[ "$op" == "$3" ]]; then
        echo -e "\e[1;32mPASS: '$1 $op $2'\e[0m"
    else
        echo -e "\e[1;31mFAIL: '$1 $3 $2' (result: '$1 $op $2')\e[0m"
    fi
}

echo -e "\nThe following tests should pass:"
while read -r test; do
    test_compare_versions $test
done << EOF
1            1            ==
2.1          2.2          <
3.0.4.10     3.0.4.2      >
4.08         4.08.01      <
3.2.1.9.8144 3.2          >
3.2          3.2.1.9.8144 <
1.2          2.1          <
2.1          1.2          >
5.6.7        5.6.7        ==
1.01.1       1.1.1        ==
1.1.1        1.01.1       ==
1            1.0          ==
1.0          1            ==
1.0.2.0      1.0.2        ==
1..0         1.0          ==
1.0          1..0         ==
1.0-r1       1.0-r3       <
1.0-r9       2.0          <
3.0-r15      3.0-r9       >
...-r1       ...-r2       <
2.0-r1       1.9.8.21-r2  >
1.0          3.8.9.32-r   <
-r           -r3          <
-r3          -r           >
-r3          -r3          ==
-r           -r           ==
0.0-r2       0.0.0.0-r2   ==
1.0.0.0-r2   1.0-r2       ==
0.0.0.1-r7   -r9          >
0.0-r0       0            ==
1.002.0-r6   1.2.0-r7     <
001.001-r2   1.1-r2       ==
5.6.1-r0     5.6.1        ==
EOF

echo -e "\nThe following tests should fail:"
while read -r test; do
    test_compare_versions $test
done << EOF
1            1            >
3.0.5-r5     3..5-r5      >
4.9.21-r3    4.8.22-r9    <
1.0-r        1.0-r1       ==
-r           1.0-r        >
-r1          0.0-r1       <
-r2          0-r2         <
EOF

echo -e "\nThe following line should be empty (local variables test):"
echo "$op $regex $va1 $vr1 $va2 $vr2 $len $i $IFS"

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