package org.apache.maven.artifact.versioning; /* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ import java.util.ArrayList; import java.util.Collections; import java.util.Iterator; import java.util.List; import org.apache.maven.artifact.Artifact; /** * Construct a version range from a specification. * * @author <a href="mailto:brett@apache.org">Brett Porter</a> */ public class VersionRange { private final ArtifactVersion recommendedVersion; private final List<Restriction> restrictions; private VersionRange( ArtifactVersion recommendedVersion, List<Restriction> restrictions ) { this.recommendedVersion = recommendedVersion; this.restrictions = restrictions; } public ArtifactVersion getRecommendedVersion() { return recommendedVersion; } public List<Restriction> getRestrictions() { return restrictions; } public VersionRange cloneOf() { List<Restriction> copiedRestrictions = null; if ( restrictions != null ) { copiedRestrictions = new ArrayList<>(); if ( !restrictions.isEmpty() ) { copiedRestrictions.addAll( restrictions ); } } return new VersionRange( recommendedVersion, copiedRestrictions ); } /** * <p> * Create a version range from a string representation * </p> * Some spec examples are: * <ul> * <li><code>1.0</code> Version 1.0</li> * <li><code>[1.0,2.0)</code> Versions 1.0 (included) to 2.0 (not included)</li> * <li><code>[1.0,2.0]</code> Versions 1.0 to 2.0 (both included)</li> * <li><code>[1.5,)</code> Versions 1.5 and higher</li> * <li><code>(,1.0],[1.2,)</code> Versions up to 1.0 (included) and 1.2 or higher</li> * </ul> * * @param spec string representation of a version or version range * @return a new {@link VersionRange} object that represents the spec * @throws InvalidVersionSpecificationException * */ public static VersionRange createFromVersionSpec( String spec ) throws InvalidVersionSpecificationException { if ( spec == null ) { return null; } List<Restriction> restrictions = new ArrayList<>(); String process = spec; ArtifactVersion version = null; ArtifactVersion upperBound = null; ArtifactVersion lowerBound = null; while ( process.startsWith( "[" ) || process.startsWith( "(" ) ) { int index1 = process.indexOf( ')' ); int index2 = process.indexOf( ']' ); int index = index2; if ( index2 < 0 || index1 < index2 ) { if ( index1 >= 0 ) { index = index1; } } if ( index < 0 ) { throw new InvalidVersionSpecificationException( "Unbounded range: " + spec ); } Restriction restriction = parseRestriction( process.substring( 0, index + 1 ) ); if ( lowerBound == null ) { lowerBound = restriction.getLowerBound(); } if ( upperBound != null ) { if ( restriction.getLowerBound() == null || restriction.getLowerBound().compareTo( upperBound ) < 0 ) { throw new InvalidVersionSpecificationException( "Ranges overlap: " + spec ); } } restrictions.add( restriction ); upperBound = restriction.getUpperBound(); process = process.substring( index + 1 ).trim(); if ( process.length() > 0 && process.startsWith( "," ) ) { process = process.substring( 1 ).trim(); } } if ( process.length() > 0 ) { if ( restrictions.size() > 0 ) { throw new InvalidVersionSpecificationException( "Only fully-qualified sets allowed in multiple set scenario: " + spec ); } else { version = new DefaultArtifactVersion( process ); restrictions.add( Restriction.EVERYTHING ); } } return new VersionRange( version, restrictions ); } private static Restriction parseRestriction( String spec ) throws InvalidVersionSpecificationException { boolean lowerBoundInclusive = spec.startsWith( "[" ); boolean upperBoundInclusive = spec.endsWith( "]" ); String process = spec.substring( 1, spec.length() - 1 ).trim(); Restriction restriction; int index = process.indexOf( ',' ); if ( index < 0 ) { if ( !lowerBoundInclusive || !upperBoundInclusive ) { throw new InvalidVersionSpecificationException( "Single version must be surrounded by []: " + spec ); } ArtifactVersion version = new DefaultArtifactVersion( process ); restriction = new Restriction( version, lowerBoundInclusive, version, upperBoundInclusive ); } else { String lowerBound = process.substring( 0, index ).trim(); String upperBound = process.substring( index + 1 ).trim(); if ( lowerBound.equals( upperBound ) ) { throw new InvalidVersionSpecificationException( "Range cannot have identical boundaries: " + spec ); } ArtifactVersion lowerVersion = null; if ( lowerBound.length() > 0 ) { lowerVersion = new DefaultArtifactVersion( lowerBound ); } ArtifactVersion upperVersion = null; if ( upperBound.length() > 0 ) { upperVersion = new DefaultArtifactVersion( upperBound ); } if ( upperVersion != null && lowerVersion != null && upperVersion.compareTo( lowerVersion ) < 0 ) { throw new InvalidVersionSpecificationException( "Range defies version ordering: " + spec ); } restriction = new Restriction( lowerVersion, lowerBoundInclusive, upperVersion, upperBoundInclusive ); } return restriction; } public static VersionRange createFromVersion( String version ) { List<Restriction> restrictions = Collections.emptyList(); return new VersionRange( new DefaultArtifactVersion( version ), restrictions ); } /** * Creates and returns a new <code>VersionRange</code> that is a restriction of this * version range and the specified version range. * <p> * Note: Precedence is given to the recommended version from this version range over the * recommended version from the specified version range. * </p> * * @param restriction the <code>VersionRange</code> that will be used to restrict this version * range. * @return the <code>VersionRange</code> that is a restriction of this version range and the * specified version range. * <p> * The restrictions of the returned version range will be an intersection of the restrictions * of this version range and the specified version range if both version ranges have * restrictions. Otherwise, the restrictions on the returned range will be empty. * </p> * <p> * The recommended version of the returned version range will be the recommended version of * this version range, provided that ranges falls within the intersected restrictions. If * the restrictions are empty, this version range's recommended version is used if it is not * <code>null</code>. If it is <code>null</code>, the specified version range's recommended * version is used (provided it is non-<code>null</code>). If no recommended version can be * obtained, the returned version range's recommended version is set to <code>null</code>. * </p> * @throws NullPointerException if the specified <code>VersionRange</code> is * <code>null</code>. */ public VersionRange restrict( VersionRange restriction ) { List<Restriction> r1 = this.restrictions; List<Restriction> r2 = restriction.restrictions; List<Restriction> restrictions; if ( r1.isEmpty() || r2.isEmpty() ) { restrictions = Collections.emptyList(); } else { restrictions = intersection( r1, r2 ); } ArtifactVersion version = null; if ( restrictions.size() > 0 ) { for ( Restriction r : restrictions ) { if ( recommendedVersion != null && r.containsVersion( recommendedVersion ) ) { // if we find the original, use that version = recommendedVersion; break; } else if ( version == null && restriction.getRecommendedVersion() != null && r.containsVersion( restriction.getRecommendedVersion() ) ) { // use this if we can, but prefer the original if possible version = restriction.getRecommendedVersion(); } } } // Either the original or the specified version ranges have no restrictions else if ( recommendedVersion != null ) { // Use the original recommended version since it exists version = recommendedVersion; } else if ( restriction.recommendedVersion != null ) { // Use the recommended version from the specified VersionRange since there is no // original recommended version version = restriction.recommendedVersion; } /* TODO should throw this immediately, but need artifact else { throw new OverConstrainedVersionException( "Restricting incompatible version ranges" ); } */ return new VersionRange( version, restrictions ); } private List<Restriction> intersection( List<Restriction> r1, List<Restriction> r2 ) { List<Restriction> restrictions = new ArrayList<>( r1.size() + r2.size() ); Iterator<Restriction> i1 = r1.iterator(); Iterator<Restriction> i2 = r2.iterator(); Restriction res1 = i1.next(); Restriction res2 = i2.next(); boolean done = false; while ( !done ) { if ( res1.getLowerBound() == null || res2.getUpperBound() == null || res1.getLowerBound().compareTo( res2.getUpperBound() ) <= 0 ) { if ( res1.getUpperBound() == null || res2.getLowerBound() == null || res1.getUpperBound().compareTo( res2.getLowerBound() ) >= 0 ) { ArtifactVersion lower; ArtifactVersion upper; boolean lowerInclusive; boolean upperInclusive; // overlaps if ( res1.getLowerBound() == null ) { lower = res2.getLowerBound(); lowerInclusive = res2.isLowerBoundInclusive(); } else if ( res2.getLowerBound() == null ) { lower = res1.getLowerBound(); lowerInclusive = res1.isLowerBoundInclusive(); } else { int comparison = res1.getLowerBound().compareTo( res2.getLowerBound() ); if ( comparison < 0 ) { lower = res2.getLowerBound(); lowerInclusive = res2.isLowerBoundInclusive(); } else if ( comparison == 0 ) { lower = res1.getLowerBound(); lowerInclusive = res1.isLowerBoundInclusive() && res2.isLowerBoundInclusive(); } else { lower = res1.getLowerBound(); lowerInclusive = res1.isLowerBoundInclusive(); } } if ( res1.getUpperBound() == null ) { upper = res2.getUpperBound(); upperInclusive = res2.isUpperBoundInclusive(); } else if ( res2.getUpperBound() == null ) { upper = res1.getUpperBound(); upperInclusive = res1.isUpperBoundInclusive(); } else { int comparison = res1.getUpperBound().compareTo( res2.getUpperBound() ); if ( comparison < 0 ) { upper = res1.getUpperBound(); upperInclusive = res1.isUpperBoundInclusive(); } else if ( comparison == 0 ) { upper = res1.getUpperBound(); upperInclusive = res1.isUpperBoundInclusive() && res2.isUpperBoundInclusive(); } else { upper = res2.getUpperBound(); upperInclusive = res2.isUpperBoundInclusive(); } } // don't add if they are equal and one is not inclusive if ( lower == null || upper == null || lower.compareTo( upper ) != 0 ) { restrictions.add( new Restriction( lower, lowerInclusive, upper, upperInclusive ) ); } else if ( lowerInclusive && upperInclusive ) { restrictions.add( new Restriction( lower, lowerInclusive, upper, upperInclusive ) ); } //noinspection ObjectEquality if ( upper == res2.getUpperBound() ) { // advance res2 if ( i2.hasNext() ) { res2 = i2.next(); } else { done = true; } } else { // advance res1 if ( i1.hasNext() ) { res1 = i1.next(); } else { done = true; } } } else { // move on to next in r1 if ( i1.hasNext() ) { res1 = i1.next(); } else { done = true; } } } else { // move on to next in r2 if ( i2.hasNext() ) { res2 = i2.next(); } else { done = true; } } } return restrictions; } public ArtifactVersion getSelectedVersion( Artifact artifact ) throws OverConstrainedVersionException { ArtifactVersion version; if ( recommendedVersion != null ) { version = recommendedVersion; } else { if ( restrictions.size() == 0 ) { throw new OverConstrainedVersionException( "The artifact has no valid ranges", artifact ); } version = null; } return version; } public boolean isSelectedVersionKnown( Artifact artifact ) throws OverConstrainedVersionException { boolean value = false; if ( recommendedVersion != null ) { value = true; } else { if ( restrictions.size() == 0 ) { throw new OverConstrainedVersionException( "The artifact has no valid ranges", artifact ); } } return value; } public String toString() { if ( recommendedVersion != null ) { return recommendedVersion.toString(); } else { StringBuilder buf = new StringBuilder(); for ( Iterator<Restriction> i = restrictions.iterator(); i.hasNext(); ) { Restriction r = i.next(); buf.append( r.toString() ); if ( i.hasNext() ) { buf.append( ',' ); } } return buf.toString(); } } public ArtifactVersion matchVersion( List<ArtifactVersion> versions ) { // TODO could be more efficient by sorting the list and then moving along the restrictions in order? ArtifactVersion matched = null; for ( ArtifactVersion version : versions ) { if ( containsVersion( version ) ) { // valid - check if it is greater than the currently matched version if ( matched == null || version.compareTo( matched ) > 0 ) { matched = version; } } } return matched; } public boolean containsVersion( ArtifactVersion version ) { for ( Restriction restriction : restrictions ) { if ( restriction.containsVersion( version ) ) { return true; } } return false; } public boolean hasRestrictions() { return !restrictions.isEmpty() && recommendedVersion == null; } public boolean equals( Object obj ) { if ( this == obj ) { return true; } if ( !( obj instanceof VersionRange ) ) { return false; } VersionRange other = (VersionRange) obj; boolean equals = recommendedVersion == other.recommendedVersion || ( ( recommendedVersion != null ) && recommendedVersion.equals( other.recommendedVersion ) ); equals &= restrictions == other.restrictions || ( ( restrictions != null ) && restrictions.equals( other.restrictions ) ); return equals; } public int hashCode() { int hash = 7; hash = 31 * hash + ( recommendedVersion == null ? 0 : recommendedVersion.hashCode() ); hash = 31 * hash + ( restrictions == null ? 0 : restrictions.hashCode() ); return hash; } }