13

Hey I have created a Groovy script that will extract the version numbers of some folder. I would then like to compare the version numbers and select the highest.

I got my script to run through the dir folder and I then get the versions in this format: 02.2.02.01

So I could get something like this:

  • 02.2.02.01
  • 02.2.02.02
  • 02.2.03.01

I don't have them as a list but like this:

baseDir.listFiles().each { file -> 
  def string = file.getName().substring(5, 15)
  // do stuff
}

Also I have tested that Groovy could compare them with the > operator and it can! But now I need to select the one with the highest version

11 Answers 11

13

This appears to work

String mostRecentVersion(List versions) {
  def sorted = versions.sort(false) { a, b -> 

    List verA = a.tokenize('.')
    List verB = b.tokenize('.')

    def commonIndices = Math.min(verA.size(), verB.size())

    for (int i = 0; i < commonIndices; ++i) {
      def numA = verA[i].toInteger()
      def numB = verB[i].toInteger()
      println "comparing $numA and $numB"

      if (numA != numB) {
        return numA <=> numB
      }
    }

    // If we got this far then all the common indices are identical, so whichever version is longer must be more recent
    verA.size() <=> verB.size()
  }

  println "sorted versions: $sorted"
  sorted[-1]
}

Here is an inadequate set of tests. You should add some more.

assert mostRecentVersion(['02.2.02.01', '02.2.02.02', '02.2.03.01']) == '02.2.03.01' 
assert mostRecentVersion(['4', '2']) == '4'
assert mostRecentVersion(['4.1', '4']) == '4.1'
assert mostRecentVersion(['4.1', '5']) == '5'

Run this code and the tests in the Groovy console to verify that it works

| improve this answer | |
  • +1 It should be noted that the mostRecentVersion method will leave the versions parameter sorted after it has been executed (as List.sort mutates the list by default). If this is not wanted, you can (in groovy 1.8.1+) call: def sorted = versions.sort(false) { a, b -> – tim_yates Oct 11 '11 at 10:29
  • 1
    @tim_yates Couldn't you just let me enjoy my moment of triumph? Oh no, you had to nitpick. I have grudgingly updated my answer to include your suggestion, thanks :) – Dónal Oct 11 '11 at 10:50
  • Hahaha...sorry ;-) shuffles off back to his desk – tim_yates Oct 11 '11 at 10:59
  • Good answer! You may use the Collection's max(Comparable) method if you prefer to keep the original list unmodified (and make the method's complexity linear ;)... not that it really matters in this case I would guess hehe) – epidemian Oct 12 '11 at 1:28
13

If we're going for the shortest answer, this must come close ;-)

String mostRecentVersion( List versions ) {
  versions.sort( false ) { a, b ->
    [a,b]*.tokenize('.')*.collect { it as int }.with { u, v ->
      [u,v].transpose().findResult{ x,y-> x<=>y ?: null } ?: u.size() <=> v.size()
    }
  }[-1]
}
| improve this answer | |
  • 2
    +1 because there just aren't many people who will proudly proclaim their shortness in a public forum. Good for you. – Dónal Oct 12 '11 at 15:10
4

Mine is the shortest! lol )

versions = versions.sort {a, b ->
  def a1 = a.tokenize('.')*.toInteger(), b1 = b.tokenize('.')*.toInteger()
  for (i in 0..<[a1.size(), b1.size()].min()) 
    if (a1[i] != b1[i]) return a1[i] <=> b1[i]
  0
}
| improve this answer | |
4

If anyone is using Grails (e.g. Grails 2.2.3), I think VersionComparator already provides exactly what we need.

If you are not using Grails, you can always Google the source code of this class.

Example of working tests:

import org.codehaus.groovy.grails.plugins.VersionComparator

assert ['1.13.4', '1.4.5'].sort( new VersionComparator() ) == ['1.4.5', '1.13.4']
assert ['3.1.20', '3', '3.0.1', '3.1'].sort( new VersionComparator() ) == ['3', '3.0.1', '3.1', '3.1.20']
assert ['02.2.02.02', '02.2.03.01', '02.2.02.01'].sort( new VersionComparator() ) == ['02.2.02.01', '02.2.02.02', '02.2.03.01']
assert ['4', '2'].sort( new VersionComparator() ) == ['2', '4']
assert ['4.1', '4'].sort( new VersionComparator() ) == ['4', '4.1']
assert ['4.1', '5'].sort( new VersionComparator() ) == ['4.1', '5']

assert new VersionComparator().compare( '1.13.4', '1.4.5' ) > 0
assert new VersionComparator().compare( '1.4.5', '1.13.4' ) < 0

Hope this helps.

| improve this answer | |
3
String maxVersion(versions) {
    versions.max { a, b ->
        List verA = a.tokenize('.')
        List verB = b.tokenize('.')
        def commonIndices = Math.min(verA.size(), verB.size())
        for (int i = 0; i < commonIndices; ++i) {
            def numA = verA[i].toInteger()
            def numB = verB[i].toInteger()
            if (numA != numB) {
                return numA <=> numB
            }
        }
        verA.size() <=> verB.size()
    }
}
| improve this answer | |
1

The code I am using with Jenkins ExtendedChoiceParameter (tolerant to non-integer fragments in the version string)

def vers = ['none']
new File(this.getBinding().getVariable('dir')).eachDir() { dir -> dirs.add(dir.getName()) }

vers.sort{x, y ->
  def xa = x.tokenize('._-'); def ya = y.tokenize('._-')
  def sz = Math.min(xa.size(), ya.size())
  for (int i = 0; i < sz; ++i) {
    def xs = xa[i]; def ys = ya[i];
    if (xs.isInteger() && ys.isInteger()) {
      def xn = xs.toInteger()
      def yn = ys.toInteger()
      if (xn != yn) { return xn <=> yn }
    } else if (xs != ys) {
      return xs <=> ys
    }
  }

  return xa.size() <=> ya.size()
}.reverse().join(',')
| improve this answer | |
1

Here my solution:

def availVersion = "1.5.0.2"
def ownVersion   = "2.6.0.1"

def availTokens = availVersion.split('\\.')
def ownTokens   = ownVersion.split('\\.')

def availSize   = availTokens.size()
def ownSize     = ownTokens.size()

def maxSize     = Math.max(availSize, ownSize)

for (int i = 1; i <= maxSize; i++) {
    def availItem = ((i <= availSize) ? availTokens[i - 1] : 0)
    def ownItem    = ((i <= ownSize)  ? ownTokens[i - 1]   : 0)

    print "Avail: ${availItem} -> Own: ${ownItem}\n"

    if ((ownItem > availItem) || ( (i == maxSize) && (ownItem >= availItem) )) {
        print "Upgrade NOT needed.\n"
        return
    }
}

print "Upgrade needed!\n"
| improve this answer | |
0

Here's a slightly modified version of Nikita's contribution:

List versions = [ '02.2.02.01', '02.2.02.02', '02.2.03.01']
String mostRecentVersion = versions.sort {a, b ->
  def a1 = a.tokenize('.')*.toInteger(), b1 = b.tokenize('.')*.toInteger()   

  for (i in 0..<[a1.size(), b1.size()].min()){      
    if (a1[i] != b1[i]) {
      return a1[i] <=> b1[i]   
    }
  }
}[-1]

assert mostRecentVersion == '02.2.03.01'
| improve this answer | |
0

Here is a modification of Tim's answer which takes two version strings and returns a boolean (true if the first is newer than the second)

String v1 = '02.2.01.02'
String v2 = '02.2.06.02'

boolean isMoreRecent( String a, String b ) {
    [a,b]*.tokenize('.')*.collect { it as int }.with { u, v ->
       Integer result = [u,v].transpose().findResult{ x,y -> x <=> y ?: null } ?: u.size() <=> v.size()
       return (result == 1)
    } 
}

assert !isMoreRecent(v1,v2)
assert isMoreRecent(v2,v1)​
| improve this answer | |
0

I use gradle 4.1 in Android Studio 3.0 Beta 7. There is VersionNumber.java (under C:\Users\ssfang.gradle\wrapper\dists\gradle-4.1-all\bzyivzo6n839fup2jbap0tjew\gradle-4.1\src\core\org\gradle\util)

For example:

apply plugin: 'com.android.application'

try{ // undocumented
    println "${android.plugin.getSdkFolder().getAbsolutePath()}"
    // Since 1.3.1 or 1.5.0? android studio version or android gradle plugin?
    println "${android.getSdkDirectory().getAbsolutePath()}"
}catch (ignored){
}

// As of android gradle plugin v2.1.2
println android.sdkDirectory.path
println android.ndkDirectory.path
def buildToolsVer = new File(android.sdkDirectory.path, 'build-tools').listFiles().collect{ VersionNumber.parse(it.getName()) }.sort()
println buildToolsVer
printf('%s, %s\n',  buildToolsVer.head(), buildToolsVer.last().toString())

def String mostRecentVersion(List<String> versions) {
//   TreeMap<VersionNumber, String> verNum2StrMap = versions.collectEntries(new TreeMap(), { [VersionNumber.parse(it), it] })

//    TreeMap<VersionNumber, String> verNum2StrMap = versions.inject(new TreeMap()) { memo, entry ->
//        memo[VersionNumber.parse(entry)] = entry
//        memo
//    }

    TreeMap<VersionNumber, String> verNum2StrMap = versions.inject(new TreeMap()) { map, verStr ->
        map << [(VersionNumber.parse(verStr)): verStr]
    }

    // println verNum2StrMap.lastEntry().value
    verNum2StrMap.lastEntry().value
}

assert mostRecentVersion(['02.2.02.01', '02.2.02.02', '02.2.03.01']) == '02.2.03.01'
assert mostRecentVersion(['4', '2']) == '4'
assert mostRecentVersion(['4.1', '4']) == '4.1'
assert mostRecentVersion(['4.1', '5']) == '5'

android {
    compileSdkVersion 25
    buildToolsVersion "26.0.2"
    defaultConfig {
        applicationId "ss.xsigner"
        minSdkVersion 14
        targetSdkVersion 22
        versionCode 1
        versionName "1.0"
        testInstrumentationRunner "android.support.test.runner.AndroidJUnitRunner"
        setProperty("archivesBaseName", "xsigner")
    }
}

--

enter image description here

enter image description here

| improve this answer | |
0

If you just need to implement Comparable or Comparator interface here's the shortest solution I came up with based on the other answers:

    [first, second]*.tokenize('.').with { a, b ->
        [a, b].transpose().findResult { x, y -> x <=> y ?: null } ?: a.size() <=> b.size()
    }
| improve this answer | |

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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