Ответ 1
Обозначьте строки с точкой в качестве разделителя, а затем сравните целочисленный перевод бок о бок, начиная с левого.
Как вы сравниваете две строки версии в Java?
Существует ли стандартная идиома для сравнения номеров версий? Я не могу просто использовать прямой String compareTo, потому что я еще не знаю, сколько будет максимального количества выпусков точек. Мне нужно сравнить версии и выполнить следующие условия:
1.0 < 1.1
1.0.1 < 1.1
1.9 < 1.10
Ответы
Ответ 2
Другое решение для этого старого сообщения (для тех, которые могут помочь):
public class Version implements Comparable<Version> {
private String version;
public final String get() {
return this.version;
}
public Version(String version) {
if(version == null)
throw new IllegalArgumentException("Version can not be null");
if(!version.matches("[0-9]+(\\.[0-9]+)*"))
throw new IllegalArgumentException("Invalid version format");
this.version = version;
}
@Override public int compareTo(Version that) {
if(that == null)
return 1;
String[] thisParts = this.get().split("\\.");
String[] thatParts = that.get().split("\\.");
int length = Math.max(thisParts.length, thatParts.length);
for(int i = 0; i < length; i++) {
int thisPart = i < thisParts.length ?
Integer.parseInt(thisParts[i]) : 0;
int thatPart = i < thatParts.length ?
Integer.parseInt(thatParts[i]) : 0;
if(thisPart < thatPart)
return -1;
if(thisPart > thatPart)
return 1;
}
return 0;
}
@Override public boolean equals(Object that) {
if(this == that)
return true;
if(that == null)
return false;
if(this.getClass() != that.getClass())
return false;
return this.compareTo((Version) that) == 0;
}
}
Version a = new Version("1.1");
Version b = new Version("1.1.1");
a.compareTo(b) // return -1 (a<b)
a.equals(b) // return false
Version a = new Version("2.0");
Version b = new Version("1.9.9");
a.compareTo(b) // return 1 (a>b)
a.equals(b) // return false
Version a = new Version("1.0");
Version b = new Version("1");
a.compareTo(b) // return 0 (a=b)
a.equals(b) // return true
Version a = new Version("1");
Version b = null;
a.compareTo(b) // return 1 (a>b)
a.equals(b) // return false
List<Version> versions = new ArrayList<Version>();
versions.add(new Version("2"));
versions.add(new Version("1.0.5"));
versions.add(new Version("1.01.0"));
versions.add(new Version("1.00.1"));
Collections.min(versions).get() // return min version
Collections.max(versions).get() // return max version
// WARNING
Version a = new Version("2.06");
Version b = new Version("2.060");
a.equals(b) // return false
Edit:
@daiscog: Спасибо за ваше замечание, этот фрагмент кода был разработан для платформы Android, и, как рекомендовано Google, метод "соответствует" проверяет всю строку, в отличие от Java, которая использует шаблон регулирования. (Документация по Android - Документация JAVA)
Ответ 3
Это очень просто, используя Maven:
import org.apache.maven.artifact.versioning.DefaultArtifactVersion;
DefaultArtifactVersion minVersion = new DefaultArtifactVersion("1.0.1");
DefaultArtifactVersion maxVersion = new DefaultArtifactVersion("1.10");
DefaultArtifactVersion version = new DefaultArtifactVersion("1.11");
if (version.compareTo(minVersion) < 0 || version.compareTo(maxVersion) > 0) {
System.out.println("Sorry, your version is unsupported");
}
Вы можете получить правильную строку зависимостей для Maven Artifact от на этой странице:
<dependency>
<groupId>org.apache.maven</groupId>
<artifactId>maven-artifact</artifactId>
<version>3.0.3</version>
</dependency>
Ответ 4
Вам нужно нормализовать строки версии, чтобы их можно было сравнить. Что-то вроде
import java.util.regex.Pattern;
public class Main {
public static void main(String... args) {
compare("1.0", "1.1");
compare("1.0.1", "1.1");
compare("1.9", "1.10");
compare("1.a", "1.9");
}
private static void compare(String v1, String v2) {
String s1 = normalisedVersion(v1);
String s2 = normalisedVersion(v2);
int cmp = s1.compareTo(s2);
String cmpStr = cmp < 0 ? "<" : cmp > 0 ? ">" : "==";
System.out.printf("'%s' %s '%s'%n", v1, cmpStr, v2);
}
public static String normalisedVersion(String version) {
return normalisedVersion(version, ".", 4);
}
public static String normalisedVersion(String version, String sep, int maxWidth) {
String[] split = Pattern.compile(sep, Pattern.LITERAL).split(version);
StringBuilder sb = new StringBuilder();
for (String s : split) {
sb.append(String.format("%" + maxWidth + 's', s));
}
return sb.toString();
}
}
Печать
'1.0' < '1.1' '1.0.1' < '1.1' '1.9' < '1.10' '1.a' > '1.9'
Ответ 5
Лучше всего использовать существующий код, возьмите класс Maven ComparableVersion
преимущества:
- Лицензия Apache, версия 2.0,
- проверено,
- используется (копируется) в нескольких проектах, таких как spring -security-core, jboss и т.д.
- несколько функций
- это уже java.lang.Comparable
- просто скопировать-вставить, что один класс, никаких сторонних зависимостей
Не включайте зависимость от maven-артефакта, поскольку это приведет к различным транзитивным зависимостям
Ответ 6
// VersionComparator.java
import java.util.Comparator;
public class VersionComparator implements Comparator {
public boolean equals(Object o1, Object o2) {
return compare(o1, o2) == 0;
}
public int compare(Object o1, Object o2) {
String version1 = (String) o1;
String version2 = (String) o2;
VersionTokenizer tokenizer1 = new VersionTokenizer(version1);
VersionTokenizer tokenizer2 = new VersionTokenizer(version2);
int number1 = 0, number2 = 0;
String suffix1 = "", suffix2 = "";
while (tokenizer1.MoveNext()) {
if (!tokenizer2.MoveNext()) {
do {
number1 = tokenizer1.getNumber();
suffix1 = tokenizer1.getSuffix();
if (number1 != 0 || suffix1.length() != 0) {
// Version one is longer than number two, and non-zero
return 1;
}
}
while (tokenizer1.MoveNext());
// Version one is longer than version two, but zero
return 0;
}
number1 = tokenizer1.getNumber();
suffix1 = tokenizer1.getSuffix();
number2 = tokenizer2.getNumber();
suffix2 = tokenizer2.getSuffix();
if (number1 < number2) {
// Number one is less than number two
return -1;
}
if (number1 > number2) {
// Number one is greater than number two
return 1;
}
boolean empty1 = suffix1.length() == 0;
boolean empty2 = suffix2.length() == 0;
if (empty1 && empty2) continue; // No suffixes
if (empty1) return 1; // First suffix is empty (1.2 > 1.2b)
if (empty2) return -1; // Second suffix is empty (1.2a < 1.2)
// Lexical comparison of suffixes
int result = suffix1.compareTo(suffix2);
if (result != 0) return result;
}
if (tokenizer2.MoveNext()) {
do {
number2 = tokenizer2.getNumber();
suffix2 = tokenizer2.getSuffix();
if (number2 != 0 || suffix2.length() != 0) {
// Version one is longer than version two, and non-zero
return -1;
}
}
while (tokenizer2.MoveNext());
// Version two is longer than version one, but zero
return 0;
}
return 0;
}
}
// VersionTokenizer.java
public class VersionTokenizer {
private final String _versionString;
private final int _length;
private int _position;
private int _number;
private String _suffix;
private boolean _hasValue;
public int getNumber() {
return _number;
}
public String getSuffix() {
return _suffix;
}
public boolean hasValue() {
return _hasValue;
}
public VersionTokenizer(String versionString) {
if (versionString == null)
throw new IllegalArgumentException("versionString is null");
_versionString = versionString;
_length = versionString.length();
}
public boolean MoveNext() {
_number = 0;
_suffix = "";
_hasValue = false;
// No more characters
if (_position >= _length)
return false;
_hasValue = true;
while (_position < _length) {
char c = _versionString.charAt(_position);
if (c < '0' || c > '9') break;
_number = _number * 10 + (c - '0');
_position++;
}
int suffixStart = _position;
while (_position < _length) {
char c = _versionString.charAt(_position);
if (c == '.') break;
_position++;
}
_suffix = _versionString.substring(suffixStart, _position);
if (_position < _length) _position++;
return true;
}
}
Пример:
public class Main
{
private static VersionComparator cmp;
public static void main (String[] args)
{
cmp = new VersionComparator();
Test(new String[]{"1.1.2", "1.2", "1.2.0", "1.2.1", "1.12"});
Test(new String[]{"1.3", "1.3a", "1.3b", "1.3-SNAPSHOT"});
}
private static void Test(String[] versions) {
for (int i = 0; i < versions.length; i++) {
for (int j = i; j < versions.length; j++) {
Test(versions[i], versions[j]);
}
}
}
private static void Test(String v1, String v2) {
int result = cmp.compare(v1, v2);
String op = "==";
if (result < 0) op = "<";
if (result > 0) op = ">";
System.out.printf("%s %s %s\n", v1, op, v2);
}
}
Вывод:
1.1.2 == 1.1.2 ---> same length and value
1.1.2 < 1.2 ---> first number (1) less than second number (2) => -1
1.1.2 < 1.2.0 ---> first number (1) less than second number (2) => -1
1.1.2 < 1.2.1 ---> first number (1) less than second number (2) => -1
1.1.2 < 1.12 ---> first number (1) less than second number (12) => -1
1.2 == 1.2 ---> same length and value
1.2 == 1.2.0 ---> first shorter than second, but zero
1.2 < 1.2.1 ---> first shorter than second, and non-zero
1.2 < 1.12 ---> first number (2) less than second number (12) => -1
1.2.0 == 1.2.0 ---> same length and value
1.2.0 < 1.2.1 ---> first number (0) less than second number (1) => -1
1.2.0 < 1.12 ---> first number (2) less than second number (12) => -1
1.2.1 == 1.2.1 ---> same length and value
1.2.1 < 1.12 ---> first number (2) less than second number (12) => -1
1.12 == 1.12 ---> same length and value
1.3 == 1.3 ---> same length and value
1.3 > 1.3a ---> first suffix ('') is empty, but not second ('a') => 1
1.3 > 1.3b ---> first suffix ('') is empty, but not second ('b') => 1
1.3 > 1.3-SNAPSHOT ---> first suffix ('') is empty, but not second ('-SNAPSHOT') => 1
1.3a == 1.3a ---> same length and value
1.3a < 1.3b ---> first suffix ('a') compared to second suffix ('b') => -1
1.3a < 1.3-SNAPSHOT ---> first suffix ('a') compared to second suffix ('-SNAPSHOT') => -1
1.3b == 1.3b ---> same length and value
1.3b < 1.3-SNAPSHOT ---> first suffix ('b') compared to second suffix ('-SNAPSHOT') => -1
1.3-SNAPSHOT == 1.3-SNAPSHOT ---> same length and value
Ответ 7
Интересно, почему все предполагают, что версии состоят только из целых чисел - в моем случае это было не так.
Зачем изобретать колесо (если версия соответствует стандарту Semver)
Сначала установите https://github.com/vdurmont/semver4j через Maven
Затем используйте эту библиотеку
Semver sem = new Semver("1.2.3");
sem.isGreaterThan("1.2.2"); // true
Ответ 8
public static int compareVersions(String version1, String version2){
String[] levels1 = version1.split("\\.");
String[] levels2 = version2.split("\\.");
int length = Math.max(levels1.length, levels2.length);
for (int i = 0; i < length; i++){
Integer v1 = i < levels1.length ? Integer.parseInt(levels1[i]) : 0;
Integer v2 = i < levels2.length ? Integer.parseInt(levels2[i]) : 0;
int compare = v1.compareTo(v2);
if (compare != 0){
return compare;
}
}
return 0;
}
Ответ 9
public int compare(String v1, String v2) {
v1 = v1.replaceAll("\\s", "");
v2 = v2.replaceAll("\\s", "");
String[] a1 = v1.split("\\.");
String[] a2 = v2.split("\\.");
List<String> l1 = Arrays.asList(a1);
List<String> l2 = Arrays.asList(a2);
int i=0;
while(true){
Double d1 = null;
Double d2 = null;
try{
d1 = Double.parseDouble(l1.get(i));
}catch(IndexOutOfBoundsException e){
}
try{
d2 = Double.parseDouble(l2.get(i));
}catch(IndexOutOfBoundsException e){
}
if (d1 != null && d2 != null) {
if (d1.doubleValue() > d2.doubleValue()) {
return 1;
} else if (d1.doubleValue() < d2.doubleValue()) {
return -1;
}
} else if (d2 == null && d1 != null) {
if (d1.doubleValue() > 0) {
return 1;
}
} else if (d1 == null && d2 != null) {
if (d2.doubleValue() > 0) {
return -1;
}
} else {
break;
}
i++;
}
return 0;
}
Ответ 10
Я создал простую утилиту для сравнения версий на платформе Android, используя Semantic Versioning. Поэтому он работает только для строк в формате X.Y.Z(Major.Minor.Patch), где X, Y и Z - целые неотрицательные числа. Вы можете найти его на GitHub.
Метод Version.compareVersions(String v1, String v2) сравнивает две строки версии. Он возвращает 0, если версии равны, 1, если версия v1 до версии v2, -1, если версия v1 находится после версии v2, -2, если формат версии недействителен.
Ответ 11
для моих проектов я использую свою библиотеку общедоступной версии https://github.com/raydac/commons-version
он содержит два вспомогательных класса - для синтаксического анализа версии (анализируемая версия может быть сравнена с другим объектом версии, поскольку она сопоставима) и VersionValidator, которая позволяет проверять версию для некоторого выражения типа !=ide-1.1.1,>idea-1.3.4-SNAPSHOT;<1.2.3
Ответ 12
/**
* written by: Stan Towianski - May 2018
* notes: I make assumption each of 3 version sections a.b.c is not longer then 4 digits: aaaa.bbbb.cccc-MODWORD1(-)modnum2
* 5.10.13-release-1 becomes 0000500100013.501 6.0-snapshot becomes 0000600000000.100
* MODWORD1 = -xyz/NotMatching, -SNAPSHOT, -ALPHA, -BETA, -RC, -RELEASE/nothing return: .0, .1, .2, .3, .4, .5
* modnum2 = up to 2 digit/chars second version
* */
public class VersionCk {
private static boolean isVersionHigher( String baseVersion, String testVersion )
{
System.out.println( "versionToComparable( baseVersion ) =" + versionToComparable( baseVersion ) );
System.out.println( "versionToComparable( testVersion ) =" + versionToComparable( testVersion ) + " is this higher ?" );
return versionToComparable( testVersion ).compareTo( versionToComparable( baseVersion ) ) > 0;
}
//---- not worrying about += for something so small
private static String versionToComparable( String version )
{
// System.out.println("version - " + version);
String versionNum = version;
int at = version.indexOf( '-' );
if ( at >= 0 )
versionNum = version.substring( 0, at );
String[] numAr = versionNum.split( "\\." );
String versionFormatted = "0";
for ( String tmp : numAr )
{
versionFormatted += String.format( "%4s", tmp ).replace(' ', '0');
}
while ( versionFormatted.length() < 12 ) // pad out to aaaa.bbbb.cccc
{
versionFormatted += "0000";
}
// System.out.println( "converted min version =" + versionFormatted + "= : " + versionNum );
return versionFormatted + getVersionModifier( version, at );
}
//---- use order low to high: -xyz, -SNAPSHOT, -ALPHA, -BETA, -RC, -RELEASE/nothing returns: 0, 1, 2, 3, 4, 5
private static String getVersionModifier( String version, int at )
{
// System.out.println("version - " + version );
String[] wordModsAr = { "-SNAPSHOT", "-ALPHA", "-BETA", "-RC", "-RELEASE" };
if ( at < 0 )
return "." + wordModsAr.length + "00"; // make nothing = RELEASE level
int i = 1;
for ( String word : wordModsAr )
{
if ( ( at = version.toUpperCase().indexOf( word ) ) > 0 )
return "." + i + getSecondVersionModifier( version.substring( at + word.length() ) );
i++;
}
return ".000";
}
//---- add 2 chars for any number after first modifier. -rc2 or -rc-2 returns 02
private static String getSecondVersionModifier( String version )
{
System.out.println( "second modifier =" + version + "=" );
Matcher m = Pattern.compile("(.*?)(\\d+).*").matcher( version );
// if ( m.matches() )
// System.out.println( "match ? =" + m.matches() + "= m.group(1) =" + m.group(1) + "= m.group(2) =" + m.group(2) + "= m.group(3) =" + (m.groupCount() >= 3 ? m.group(3) : "x") );
// else
// System.out.println( "No match" );
return m.matches() ? String.format( "%2s", m.group(2) ).replace(' ', '0') : "00";
}
public static void main(String[] args)
{
checkVersion( "3.10.0", "3.4.0");
checkVersion( "5.4.2", "5.4.1");
checkVersion( "5.4.4", "5.4.5");
checkVersion( "5.4.9", "5.4.12");
checkVersion( "5.9.222", "5.10.12");
checkVersion( "5.10.12", "5.10.12");
checkVersion( "5.10.13", "5.10.14");
checkVersion( "6.7.0", "6.8");
checkVersion( "6.7", "2.7.0");
checkVersion( "6", "6.3.1");
checkVersion( "4", "4.0.0");
checkVersion( "6.3.0", "6");
checkVersion( "5.10.12-Alpha", "5.10.12-beTA");
checkVersion( "5.10.13-release", "5.10.14-beta");
checkVersion( "6.7.0", "6.8-snapshot");
checkVersion( "6.7.1", "6.7.0-release");
checkVersion( "6-snapshot", "6.0.0-beta");
checkVersion( "6.0-snapshot", "6.0.0-whatthe");
checkVersion( "5.10.12-Alpha-1", "5.10.12-alpha-2");
checkVersion( "5.10.13-release-1", "5.10.13-release2");
checkVersion( "10-rc42", "10.0.0-rc53");
}
private static void checkVersion(String baseVersion, String testVersion)
{
System.out.println( "baseVersion - " + baseVersion );
System.out.println( "testVersion - " + testVersion );
System.out.println( "isVersionHigher = " + isVersionHigher( baseVersion, testVersion ) );
System.out.println( "---------------");
}
}
некоторый выход:
---------------
baseVersion - 6.7
testVersion - 2.7.0
versionToComparable( baseVersion ) =0000600070000.500
versionToComparable( testVersion ) =0000200070000.500 is this higher ?
isVersionHigher = false
---------------
baseVersion - 6
testVersion - 6.3.1
versionToComparable( baseVersion ) =0000600000000.500
versionToComparable( testVersion ) =0000600030001.500 is this higher ?
isVersionHigher = true
---------------
baseVersion - 4
testVersion - 4.0.0
versionToComparable( baseVersion ) =0000400000000.500
versionToComparable( testVersion ) =0000400000000.500 is this higher ?
isVersionHigher = false
---------------
baseVersion - 6.3.0
testVersion - 6
versionToComparable( baseVersion ) =0000600030000.500
versionToComparable( testVersion ) =0000600000000.500 is this higher ?
isVersionHigher = false
---------------
baseVersion - 5.10.12-Alpha
testVersion - 5.10.12-beTA
second modifier ==
versionToComparable( baseVersion ) =0000500100012.200
second modifier ==
versionToComparable( testVersion ) =0000500100012.300 is this higher ?
second modifier ==
second modifier ==
isVersionHigher = true
---------------
baseVersion - 5.10.13-release
testVersion - 5.10.14-beta
second modifier ==
versionToComparable( baseVersion ) =0000500100013.500
second modifier ==
versionToComparable( testVersion ) =0000500100014.300 is this higher ?
second modifier ==
second modifier ==
isVersionHigher = true
---------------
baseVersion - 6.7.0
testVersion - 6.8-snapshot
versionToComparable( baseVersion ) =0000600070000.500
second modifier ==
versionToComparable( testVersion ) =0000600080000.100 is this higher ?
second modifier ==
isVersionHigher = true
---------------
baseVersion - 6.7.1
testVersion - 6.7.0-release
versionToComparable( baseVersion ) =0000600070001.500
second modifier ==
versionToComparable( testVersion ) =0000600070000.500 is this higher ?
second modifier ==
isVersionHigher = false
---------------
baseVersion - 6-snapshot
testVersion - 6.0.0-beta
second modifier ==
versionToComparable( baseVersion ) =0000600000000.100
second modifier ==
versionToComparable( testVersion ) =0000600000000.300 is this higher ?
second modifier ==
second modifier ==
isVersionHigher = true
---------------
baseVersion - 6.0-snapshot
testVersion - 6.0.0-whatthe
second modifier ==
versionToComparable( baseVersion ) =0000600000000.100
versionToComparable( testVersion ) =0000600000000.000 is this higher ?
second modifier ==
isVersionHigher = false
---------------
baseVersion - 5.10.12-Alpha-1
testVersion - 5.10.12-alpha-2
second modifier =-1=
versionToComparable( baseVersion ) =0000500100012.201
second modifier =-2=
versionToComparable( testVersion ) =0000500100012.202 is this higher ?
second modifier =-2=
second modifier =-1=
isVersionHigher = true
---------------
baseVersion - 5.10.13-release-1
testVersion - 5.10.13-release2
second modifier =-1=
versionToComparable( baseVersion ) =0000500100013.501
second modifier =2=
versionToComparable( testVersion ) =0000500100013.502 is this higher ?
second modifier =2=
second modifier =-1=
isVersionHigher = true
---------------
baseVersion - 10-rc42
testVersion - 10.0.0-rc53
second modifier =42=
versionToComparable( baseVersion ) =0001000000000.442
second modifier =53=
versionToComparable( testVersion ) =0001000000000.453 is this higher ?
second modifier =53=
second modifier =42=
isVersionHigher = true
---------------
Ответ 13
Написал небольшую функцию самостоятельно. Simpler Using Lists
public static boolean checkVersionUpdate(String olderVerison, String newVersion) {
if (olderVerison.length() == 0 || newVersion.length() == 0) {
return false;
}
List<String> newVerList = Arrays.asList(newVersion.split("\\."));
List<String> oldVerList = Arrays.asList(olderVerison.split("\\."));
int diff = newVerList.size() - oldVerList.size();
List<String> newList = new ArrayList<>();
if (diff > 0) {
newList.addAll(oldVerList);
for (int i = 0; i < diff; i++) {
newList.add("0");
}
return examineArray(newList, newVerList, diff);
} else if (diff < 0) {
newList.addAll(newVerList);
for (int i = 0; i < -diff; i++) {
newList.add("0");
}
return examineArray(oldVerList, newList, diff);
} else {
return examineArray(oldVerList, newVerList, diff);
}
}
public static boolean examineArray(List<String> oldList, List<String> newList, int diff) {
boolean newVersionGreater = false;
for (int i = 0; i < oldList.size(); i++) {
if (Integer.parseInt(newList.get(i)) > Integer.parseInt(oldList.get(i))) {
newVersionGreater = true;
break;
} else if (Integer.parseInt(newList.get(i)) < Integer.parseInt(oldList.get(i))) {
newVersionGreater = false;
break;
} else {
newVersionGreater = diff > 0;
}
}
return newVersionGreater;
}
Ответ 14
Я создал простой метод утилиты, который работает практически во всех случаях, кроме альфа-и бета-версий.
/**
* Compares versions
*
* @param ver1
* @param ver2
* @return 1 if {@code ver1} is > {@code ver2}, -1 if {@code ver1} is < {@code ver2} and 0 otherwise
*/
public static int compareVersions(String ver1, String ver2) {
// some null validations
if (ver1 == null || ver2 == null) {
return ver1 == ver2 ? 0 : ver1 == null ? -1 : 1;
}
String v1 = ver1.replaceAll("[^0-9]+", "");
String v2 = ver2.replaceAll("[^0-9]+", "");
int len1 = v1.length();
int len2 = v2.length();
// trim any trailing 0 (for comparing cases 6.3 and 6.3.0)
if (len1 > 0 && len2 > 0) {
v1 = (v1.charAt(len1 - 1) == '0') ? v1.substring(0, len1 - 1) : v1;
v2 = (v2.charAt(len2 - 1) == '0') ? v2.substring(0, len2 - 1) : v2;
}
int res = v1.compareTo(v2);
return res < 0 ? -1 : res > 0 ? 1 : res;
}
И вот для него unit test:
@Test
public void testCompareSDKVersions() {
assertEquals(1, compareSDKVersions("6.3.2", "5.2.4"));
assertEquals(1, compareSDKVersions("6.3.2-snapshot", "5.3.4"));
assertEquals(1, compareSDKVersions("7.0", "2.3.0"));
assertEquals(1, compareSDKVersions("7.0", ""));
assertEquals(1, compareSDKVersions("6.3.0", null));
assertEquals(0, compareSDKVersions("6.3", "6.3"));
assertEquals(0, compareSDKVersions("6.3", "6.3.0"));
assertEquals(0, compareSDKVersions("6.3.2-snapshot", "6.3.2"));
assertEquals(0, compareSDKVersions(null, null));
assertEquals(-1, compareSDKVersions("6.3.2", "6.3.3"));
assertEquals(-1, compareSDKVersions("6.0.1", "6.3"));
assertEquals(-1, compareSDKVersions("6.2", "6.3.0"));
assertEquals(-1, compareSDKVersions("", "7.0"));
assertEquals(-1, compareSDKVersions("6_2", "6_3_0"));
assertEquals(-1, compareSDKVersions(null, "6.3.0"));
}
compareSDKVersions метод в основном удаляет все, кроме чисел из строки версии, и сравнивает их лексикографически.
Ответ 15
Для Scala вы можете использовать библиотеку, которую я создал: https://github.com/kypeli/sversion
Version("1.2") > Version("1.1") // true
Version("1.2.1") > Version("1.1.2") // true
Version("1.1.1") == Version("1.1.1") // true
Version("1.1.1") > Version("1.1") // true
Version("1.1.0") == Version("1.1") // true
Version("1.1-RC2") > Version("1.1-RC1") // true
Version("1.1-RC1") > Version("1.1") // true
Ответ 16
Этот код пытается решить этот тип версий сравнения.
Большинство спецификаторов версии, напримеp >= 1.0, не требуют пояснений. specifier ~ > имеет особое значение, лучше всего показано на примере. ~ > 2.0.3 является идентичный >= 2.0.3 и < 2.1. ~ > 2.1 совпадает s >= 2.1 и < 3.0.
public static boolean apply(String cmpDeviceVersion, String reqDeviceVersion)
{
Boolean equal = !cmpDeviceVersion.contains(">") && !cmpDeviceVersion.contains(">=") &&
!cmpDeviceVersion.contains("<") && !cmpDeviceVersion.contains("<=") &&
!cmpDeviceVersion.contains("~>");
Boolean between = cmpDeviceVersion.contains("~>");
Boolean higher = cmpDeviceVersion.contains(">") && !cmpDeviceVersion.contains(">=") && !cmpDeviceVersion.contains("~>");
Boolean higherOrEqual = cmpDeviceVersion.contains(">=");
Boolean less = cmpDeviceVersion.contains("<") && !cmpDeviceVersion.contains("<=");
Boolean lessOrEqual = cmpDeviceVersion.contains("<=");
cmpDeviceVersion = cmpDeviceVersion.replaceAll("[<>=~]", "");
cmpDeviceVersion = cmpDeviceVersion.trim();
String[] version = cmpDeviceVersion.split("\\.");
String[] reqVersion = reqDeviceVersion.split("\\.");
if(equal)
{
return isEqual(version, reqVersion);
}
else if(between)
{
return isBetween(version, reqVersion);
}
else if(higher)
{
return isHigher(version, reqVersion);
}
else if(higherOrEqual)
{
return isEqual(version, reqVersion) || isHigher(version, reqVersion);
}
else if(less)
{
return isLess(version, reqVersion);
}
else if(lessOrEqual)
{
return isEqual(version, reqVersion) || isLess(version, reqVersion);
}
return false;
}
private static boolean isEqual(String[] version, String[] reqVersion)
{
String strVersion = StringUtils.join(version);
String strReqVersion = StringUtils.join(reqVersion);
if(version.length > reqVersion.length)
{
Integer diff = version.length - reqVersion.length;
strReqVersion += StringUtils.repeat(".0", diff);
}
else if(reqVersion.length > version.length)
{
Integer diff = reqVersion.length - version.length;
strVersion += StringUtils.repeat(".0", diff);
}
return strVersion.equals(strReqVersion);
}
private static boolean isHigher(String[] version, String[] reqVersion)
{
String strVersion = StringUtils.join(version);
String strReqVersion = StringUtils.join(reqVersion);
if(version.length > reqVersion.length)
{
Integer diff = version.length - reqVersion.length;
strReqVersion += StringUtils.repeat(".0", diff);
}
else if(reqVersion.length > version.length)
{
Integer diff = reqVersion.length - version.length;
strVersion += StringUtils.repeat(".0", diff);
}
return strReqVersion.compareTo(strVersion) > 0;
}
private static boolean isLess(String[] version, String[] reqVersion)
{
String strVersion = StringUtils.join(version);
String strReqVersion = StringUtils.join(reqVersion);
if(version.length > reqVersion.length)
{
Integer diff = version.length - reqVersion.length;
strReqVersion += StringUtils.repeat(".0", diff);
}
else if(reqVersion.length > version.length)
{
Integer diff = reqVersion.length - version.length;
strVersion += StringUtils.repeat(".0", diff);
}
return strReqVersion.compareTo(strVersion) < 0;
}
private static boolean isBetween(String[] version, String[] reqVersion)
{
return (isEqual(version, reqVersion) || isHigher(version, reqVersion)) &&
isLess(getNextVersion(version), reqVersion);
}
private static String[] getNextVersion(String[] version)
{
String[] nextVersion = new String[version.length];
for(int i = version.length - 1; i >= 0 ; i--)
{
if(i == version.length - 1)
{
nextVersion[i] = "0";
}
else if((i == version.length - 2) && NumberUtils.isNumber(version[i]))
{
nextVersion[i] = String.valueOf(NumberUtils.toInt(version[i]) + 1);
}
else
{
nextVersion[i] = version[i];
}
}
return nextVersion;
}
Ответ 17
Мне понравилась идея от @Peter Lawrey, и я расширил ее до дальнейших ограничений:
/**
* Normalize string array,
* Appends zeros if string from the array
* has length smaller than the maxLen.
**/
private String normalize(String[] split, int maxLen){
StringBuilder sb = new StringBuilder("");
for(String s : split) {
for(int i = 0; i<maxLen-s.length(); i++) sb.append('0');
sb.append(s);
}
return sb.toString();
}
/**
* Removes trailing zeros of the form '.00.0...00'
* (and does not remove zeros from, say, '4.1.100')
**/
public String removeTrailingZeros(String s){
int i = s.length()-1;
int k = s.length()-1;
while(i >= 0 && (s.charAt(i) == '.' || s.charAt(i) == '0')){
if(s.charAt(i) == '.') k = i-1;
i--;
}
return s.substring(0,k+1);
}
/**
* Compares two versions(works for alphabets too),
* Returns 1 if v1 > v2, returns 0 if v1 == v2,
* and returns -1 if v1 < v2.
**/
public int compareVersion(String v1, String v2) {
// Uncomment below two lines if for you, say, 4.1.0 is equal to 4.1
// v1 = removeTrailingZeros(v1);
// v2 = removeTrailingZeros(v2);
String[] splitv1 = v1.split("\\.");
String[] splitv2 = v2.split("\\.");
int maxLen = 0;
for(String str : splitv1) maxLen = Math.max(maxLen, str.length());
for(String str : splitv2) maxLen = Math.max(maxLen, str.length());
int cmp = normalize(splitv1, maxLen).compareTo(normalize(splitv2, maxLen));
return cmp > 0 ? 1 : (cmp < 0 ? -1 : 0);
}
Надеюсь, это поможет кому-то. Он прошел все тестовые примеры в интервьювом и литовом коде (необходимо раскомментировать две строки в функции compareVersion).
Легко протестировано!
Ответ 18
Скажем честно, лексикографическое сравнение String будет очень хорошо работать в большинстве случаев.
"1.0.0".compareTo("1.0.1") // -1
Возможна некоторая ошибка, если, например, у нас есть некоторое форматирование в некоторой версии
"1.01.1".compareTo("1.1.0") // -1 should be 1
Это можно легко исправить, очистив эти значения и, конечно, предоставив некоторые простые методы.
public class Version implements Comparable<Version>{
private static final String sanitizeRegex = ".0([1-9]+)";
private String value;
public Version(String value){
if(value == null) throw new IllegalArgumentException("A version need a valid value");
this.value = value.replaceAll(sanitizeRegex, ".$1");
}
public boolean isLessThan(Version o){
return this.compareTo(o) < 0;
}
public boolean isGreaterThan(Version o){
return this.compareTo(o) > 0;
}
public boolean isEquals(Version o) {
return this.compareTo(o) == 0;
}
@Override
public int compareTo(Version o) {
return this.value.compareTo(o.value);
}
@Override
public String toString() {
return value;
}
}
Регулярное выражение будет удалять, если необходимо, удаление ведущего 0.
01 -> 1
0 -> 0
00 -> 0
10 -> 10
Это позволяет нам иметь довольно простое сравнение, используя то, что уже существует.
Быстрый тест, взятый из ответа Йохана Пола
System.out.println(new Version("1.2").isGreaterThan(new Version("1.1") )); // true
System.out.println(new Version("1.2.1").isGreaterThan(new Version("1.1.2") )); // true
System.out.println(new Version("1.1.1").isGreaterThan(new Version("1.1.1") )); // false
System.out.println(new Version("1.1.1").isGreaterThan(new Version("1.1") )); // true
System.out.println(new Version("1.1.0").isGreaterThan(new Version("1.1") )); // true
System.out.println(new Version("1.1-RC2").isGreaterThan(new Version("1.1-RC1"))); // true
System.out.println(new Version("1.1-RC1").isGreaterThan(new Version("1.1") )); // true
System.out.println(new Version("1.0.1").isGreaterThan(new Version("1.1") )); // false
Ответ 19
public class VersionComparator {
/* loop through both version strings
* then loop through the inner string to computer the val of the int
* for each integer read, do num*10+<integer read>
* and stop when stumbling upon '.'
* When '.' is encountered...
* see if '.' is encountered for both strings
* if it is then compare num1 and num2
* if num1 == num2... iterate over p1++, p2++
* else return (num1 > num2) ? 1 : -1
* If both the string end then compare(num1, num2) return 0, 1, -1
* else loop through the longer string and
* verify if it only has trailing zeros
* If it only has trailing zeros then return 0
* else it is greater than the other string
*/
public static int compareVersions(String v1, String v2) {
int num1 = 0;
int num2 = 0;
int p1 = 0;
int p2 = 0;
while (p1 < v1.length() && p2 < v2.length()) {
num1 = Integer.parseInt(v1.charAt(p1) + "");
num2 = Integer.parseInt(v2.charAt(p2) + "");
p1++;
p2++;
while (p1 < v1.length() && p2 < v2.length() && v1.charAt(p1) != '.' && v2.charAt(p2) != '.') {
if (p1 < v1.length()) num1 = num1 * 10 + Integer.parseInt(v1.charAt(p1) + "");
if (p2 < v2.length()) num2 = num2 * 10 + Integer.parseInt(v2.charAt(p2) + "");
p1++;
p2++;
}
if (p1 < v1.length() && p2 < v2.length() && v1.charAt(p1) == '.' && v2.charAt(p2) == '.') {
if ((num1 ^ num2) == 0) {
p1++;
p2++;
}
else return (num1 > num2) ? 1 : -1;
}
else if (p1 < v1.length() && p2 < v2.length() && v1.charAt(p1) == '.') return -1;
else if (p1 < v1.length() && p2 < v2.length() && v2.charAt(p2) == '.') return 1;
}
if (p1 == v1.length() && p2 == v2.length()) {
if ((num1 ^ num2) == 0) return 0;
else return (num1 > num2) ? 1 : -1;
}
else if (p1 == v1.length()) {
if ((num1 ^ num2) == 0) {
while (p2 < v2.length()) {
if (v2.charAt(p2) != '.' && v2.charAt(p2) != '0') return -1;
p2++;
}
return 0;
}
else return (num1 > num2) ? 1 : -1;
}
else {
if ((num1 ^ num2) == 0) {
while (p1 < v1.length()) {
if (v1.charAt(p1) != '.' && v1.charAt(p1) != '0') return 1;
p1++;
}
return 0;
}
else return (num1 > num2) ? 1 : -1;
}
}
public static void main(String[] args) {
System.out.println(compareVersions("11.23", "11.21.1.0.0.1.0") ^ 1);
System.out.println(compareVersions("11.21.1.0.0.1.0", "11.23") ^ -1);
System.out.println(compareVersions("11.23", "11.23.0.0.0.1.0") ^ -1);
System.out.println(compareVersions("11.2", "11.23") ^ -1);
System.out.println(compareVersions("11.23", "11.21.1.0.0.1.0") ^ 1);
System.out.println(compareVersions("1.21.1.0.0.1.0", "2.23") ^ -1);
System.out.println(compareVersions("11.23", "11.21.1.0.0.1.0") ^ 1);
System.out.println(compareVersions("11.23.0.0.0.0.0", "11.23") ^ 0);
System.out.println(compareVersions("11.23", "11.21.1.0.0.1.0") ^ 1);
System.out.println(compareVersions("1.5.1.3", "1.5.1.3.0") ^ 0);
System.out.println(compareVersions("1.5.1.4", "1.5.1.3.0") ^ 1);
System.out.println(compareVersions("1.2.1.3", "1.5.1.3.0") ^ -1);
System.out.println(compareVersions("1.2.1.3", "1.22.1.3.0") ^ -1);
System.out.println(compareVersions("1.222.1.3", "1.22.1.3.0") ^ 1);
}
}
Ответ 20
Здесь оптимизированная реализация:
public static final Comparator<CharSequence> VERSION_ORDER = new Comparator<CharSequence>() {
@Override
public int compare (CharSequence lhs, CharSequence rhs) {
int ll = lhs.length(), rl = rhs.length(), lv = 0, rv = 0, li = 0, ri = 0;
char c;
do {
lv = rv = 0;
while (--ll >= 0) {
c = lhs.charAt(li++);
if (c < '0' || c > '9')
break;
lv = lv*10 + c - '0';
}
while (--rl >= 0) {
c = rhs.charAt(ri++);
if (c < '0' || c > '9')
break;
rv = rv*10 + c - '0';
}
} while (lv == rv && (ll >= 0 || rl >= 0));
return lv - rv;
}
};
Результат:
"0.1" - "1.0" = -1
"1.0" - "1.0" = 0
"1.0" - "1.0.0" = 0
"10" - "1.0" = 9
"3.7.6" - "3.7.11" = -5
"foobar" - "1.0" = -1
Ответ 21
My java Solution
public int compareVersion(String version1, String version2) {
String[] first = version1.split("\\.");
String[] second = version2.split("\\.");
int len = first.length<=second.length? first.length:second.length;
// the loop runs for whichever is the short version of two strings
for(int i=0;i<len;i++){
int firstInt = Integer.parseInt(first[i]);
int secondInt = Integer.parseInt(second[i]);
if(firstInt<secondInt){
return -1;
}
else if(firstInt>secondInt){
return 1;
}
}
// below two condition check if the length are the not the same
//if first string length is short then start from after first string length and compare it with second string value. second string value is not zero that means it is greater.
if(first.length<second.length){
for(int i=first.length;i<second.length;i++){
int secondInt = Integer.parseInt(second[i]);
if(secondInt!=0){
return -1;
}
}
}
// similar logic as above just that first length is grater this time.
else if(first.length>second.length){
for(int i=second.length;i<first.length;i++){
int firstInt = Integer.parseInt(first[i]);
if(firstInt!=0){
return 1;
}
}
}
// return 0 if both string value is the same
return 0;
}