Awesome
Java SemVer v0.10.2 (SemVer 2)
Java SemVer is a Java implementation of the Semantic Versioning Specification (http://semver.org/).
Versioning
Java SemVer is versioned according to the SemVer Specification.
NOTE: The current version of the Java SemVer library has a major version of zero, which according to the SemVer p.4 means that the library is under initial development and its public API should not be considered stable.
Contributing
For the guidelines on how to report bugs, request features, submit code changes,
and contribute in various other ways please refer to the CONTRIBUTING.md
file.
License
Java SemVer is licensed under the MIT License - see the LICENSE
file for details.
Library Usage
Installation
To use the latest stable version add the following dependency to your project
<dependency>
<groupId>com.github.zafarkhaja</groupId>
<artifactId>java-semver</artifactId>
<version>0.10.2</version>
</dependency>
Common Use Cases
The Java SemVer library is built around the Version
class which represents
version as defined by the SemVer Specification. The Version
class contains
methods for parsing version strings, incrementing obtained versions, checking
their individual characteristics, comparing with each other and determining
their relative precedence.
Below are some common use cases of the Version
class
import com.github.zafarkhaja.semver.Version;
Creating Versions
There are 3 ways to obtain a Version
instance:
- by using the
Version.parse()
orVersion.tryParse()
methods
Version v = Version.parse("1.2.3-pre-release+build.metadata");
Optional<Version> o = Version.tryParse("1.2.3-pre-release+build.metadata");
- by using the
Version.of()
method
Version v = Version.of(1, 2, 3, "pre-release", "build.metadata");
- by using the
Version.Builder
class
Version v1 = new Version.Builder() // 0.0.0
.setVersionCore(0, 1) // 0.1.0
.setMajorVersion(1) // 1.1.0
.setPreReleaseVersion("beta") // 1.1.0-beta
.addPreReleaseIdentifiers("1") // 1.1.0-beta.1
.setBuildMetadata("build", "1") // 1.1.0-beta.1+build.1
.unsetBuildMetadata() // 1.1.0-beta.1
.build()
;
Version v2 = v1.toBuilder() // 1.1.0-beta.1
.setMinorVersion(2) // 1.2.0-beta.1
.setPatchVersion(3) // 1.2.3-beta.1
.unsetPreReleaseVersion() // 1.2.3
.build()
;
Incrementing Versions
The Version
class provides "incrementor" methods for incrementing normal and
pre-release versions. Due to its nature as metadata, incrementing build metadata
is not supported.
Version v = Version.of(0, 1, 0) // 0.1.0
.nextPatchVersion() // 0.1.1
.nextMinorVersion() // 0.2.0
.withBuildMetadata("abcdefg") // 0.2.0+abcdefg
.nextMajorVersion("beta") // 1.0.0-beta
.nextPreReleaseVersion() // 1.0.0-beta.1
.nextPreReleaseVersion("rc", "1") // 1.0.0-rc.1
.nextPreReleaseVersion() // 1.0.0-rc.2
.toStableVersion() // 1.0.0
;
Comparing Versions
The recommended way to determine version precedence is to use "comparator" methods
Version v1 = Version.of(1, 2, 3, "rc.1", "build.1");
Version v2 = Version.of(1, 2, 3, "rc.1", "build.2");
v1.isHigherThan(v2); // false
v1.isHigherThanOrEquivalentTo(v2); // true
v1.isLowerThan(v2); // false
v1.isLowerThanOrEquivalentTo(v2); // true
v1.isEquivalentTo(v2); // true
The other options, mainly intended for use in comparison-based data structures,
are the Version.INCREMENT_ORDER
comparator for "natural" ordering, and the
Version.PRECEDENCE_ORDER
comparator for highest precedence ordering, which is
reverse of the former one.
Version v1 = Version.of(1, 2, 3, "rc.1");
Version v2 = Version.of(1, 2, 3, "rc.2");
Version.INCREMENT_ORDER.compare(v1, v2); // < 0 -> [v1, v2]
Version.PRECEDENCE_ORDER.compare(v1, v2); // > 0 -> [v2, v1]
NOTE: The equals()
and compareTo()
methods don't adhere to the
Specification regarding build metadata, and therefore shouldn't be used for
determining version precedence. Also, they are not really intended to be used
directly, but rather by hash- and comparison-based data structures, respectively.
That said, there are still cases where they can prove useful, like testing
versions for exact equality or ordering them based on their build metadata.
Version v1 = Version.of(1, 2, 3, null, "build.1");
Version v2 = Version.of(1, 2, 3, null, "build.2");
v1.isEquivalentTo(v2); // true
v1.equals(v2); // false
v1.isLowerThan(v2); // false
v1.compareTo(v2); // < 0
Range Expressions
Java SemVer supports Range Expressions with an opinionated BNF grammar.
NOTE: The Java SemVer Range Expressions are not fully compatible with the
node-semver
ranges.
Version v = Version.of(1, 2, 3, "pre-release");
v.satisfies(">=1.0.0 && <2.0.0"); // false
The following is the list of supported notations and their interpretations:
- Wildcard Ranges (
*
|X
|x
):1.*
interpreted as>=1.0.0 && <2.0.0
- Tilde Ranges (
~
):~1.5
interpreted as>=1.5.0 && <1.6.0
- Hyphen Ranges (
-
):1.0-2.0
interpreted as>=1.0.0 && <=2.0.0
- Caret Ranges (
^
):^0.2.3
interpreted as>=0.2.3 && <0.3.0
- Partial Version Ranges:
1
interpreted as1.x
or>=1.0.0 && <2.0.0
- Negation operator:
!(1.x)
interpreted as<1.0.0 && >=2.0.0
- Parenthesized expressions:
~1.3 || (1.4.* && !=1.4.5) || ~2
There is also an internal DSL available just in case...
import static com.github.zafarkhaja.semver.expr.CompositeExpression.Helper.*;
Version v = Version.of(1, "beta");
v.satisfies(gte(Version.of(1)).and(lt(Version.of(2)))); // false
Exception Handling
These are the exceptions you can expect when working with the Version
class:
ArithmeticException
is thrown if increment operation causes numeric identifier overflowIllegalArgumentException
, depending on the method and the parameter type, is thrown if you pass anull
reference, an emptyString
, or a negative numberIllegalStateException
is thrown in situations when a certain method call is unexpected, like incrementing a pre-release version of a stable versionParseException
and its subtypes are thrown if the specified string argument can't be parsed