/* * Copyright (c) 2009, 2020, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package java.lang.module; import java.io.InputStream; import java.io.IOException; import java.io.PrintStream; import java.io.UncheckedIOException; import java.nio.ByteBuffer; import java.nio.file.Path; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.EnumSet; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Locale; import java.util.Map; import java.util.Objects; import java.util.Optional; import java.util.Set; import java.util.function.Supplier; import java.util.stream.Collectors; import java.util.stream.Stream; import static jdk.internal.module.Checks.*; import static java.util.Objects.*; import jdk.internal.module.Checks; import jdk.internal.module.ModuleInfo; /** * A module descriptor. * *

A module descriptor describes a named module and defines methods to * obtain each of its components. The module descriptor for a named module * in the Java virtual machine is obtained by invoking the {@link * java.lang.Module Module}'s {@link java.lang.Module#getDescriptor * getDescriptor} method. Module descriptors can also be created using the * {@link ModuleDescriptor.Builder} class or by reading the binary form of a * module declaration ({@code module-info.class}) using the {@link * #read(InputStream,Supplier) read} methods defined here.

* *

A module descriptor describes a normal, open, or automatic * module. Normal modules and open modules describe their {@linkplain * #requires() dependences}, {@link #exports() exported-packages}, the services * that they {@linkplain #uses() use} or {@linkplain #provides() provide}, and other * components. Normal modules may {@linkplain #opens() open} specific * packages. The module descriptor for an open module does not declare any * open packages (its {@code opens} method returns an empty set) but when * instantiated in the Java virtual machine then it is treated as if all * packages are open. The module descriptor for an automatic module does not * declare any dependences (except for the mandatory dependency on {@code * java.base}), and does not declare any exported or open packages. Automatic * modules receive special treatment during resolution so that they read all * other modules in the configuration. When an automatic module is instantiated * in the Java virtual machine then it reads every unnamed module and is * treated as if all packages are exported and open.

* *

{@code ModuleDescriptor} objects are immutable and safe for use by * multiple concurrent threads.

* * @see java.lang.Module * @since 9 * @spec JPMS */ public class ModuleDescriptor implements Comparable { /** * A modifier on a module. * * @see ModuleDescriptor#modifiers() * @since 9 * @spec JPMS */ public enum Modifier { /** * An open module. An open module does not declare any open packages * but the resulting module is treated as if all packages are open. */ OPEN, /** * An automatic module. An automatic module is treated as if it exports * and opens all packages. * * @apiNote This modifier does not correspond to a module flag in the * binary form of a module declaration ({@code module-info.class}). */ AUTOMATIC, /** * The module was not explicitly or implicitly declared. */ SYNTHETIC, /** * The module was implicitly declared. */ MANDATED; } /** *

A dependence upon a module.

* * @see ModuleDescriptor#requires() * @since 9 * @spec JPMS */ public final static class Requires implements Comparable { /** * A modifier on a module dependence. * * @see Requires#modifiers() * @since 9 * @spec JPMS */ public enum Modifier { /** * The dependence causes any module which depends on the current * module to have an implicitly declared dependence on the module * named by the {@code Requires}. */ TRANSITIVE, /** * The dependence is mandatory in the static phase, during compilation, * but is optional in the dynamic phase, during execution. */ STATIC, /** * The dependence was not explicitly or implicitly declared in the * source of the module declaration. */ SYNTHETIC, /** * The dependence was implicitly declared in the source of the module * declaration. */ MANDATED; } private final Set mods; private final String name; private final Version compiledVersion; private final String rawCompiledVersion; private Requires(Set ms, String mn, Version v, String vs) { assert v == null || vs == null; this.mods = Set.copyOf(ms); this.name = mn; this.compiledVersion = v; this.rawCompiledVersion = vs; } private Requires(Set ms, String mn, Version v, boolean unused) { this.mods = ms; this.name = mn; this.compiledVersion = v; this.rawCompiledVersion = null; } /** * Returns the set of modifiers. * * @return A possibly-empty unmodifiable set of modifiers */ public Set modifiers() { return mods; } /** * Return the module name. * * @return The module name */ public String name() { return name; } /** * Returns the version of the module if recorded at compile-time. * * @return The version of the module if recorded at compile-time, * or an empty {@code Optional} if no version was recorded or * the version string recorded is {@linkplain Version#parse(String) * unparseable} */ public Optional compiledVersion() { return Optional.ofNullable(compiledVersion); } /** * Returns the string with the possibly-unparseable version of the module * if recorded at compile-time. * * @return The string containing the version of the module if recorded * at compile-time, or an empty {@code Optional} if no version * was recorded * * @see #compiledVersion() */ public Optional rawCompiledVersion() { if (compiledVersion != null) { return Optional.of(compiledVersion.toString()); } else { return Optional.ofNullable(rawCompiledVersion); } } /** * Compares this module dependence to another. * *

Two {@code Requires} objects are compared by comparing their * module names lexicographically. Where the module names are equal * then the sets of modifiers are compared in the same way that * module modifiers are compared (see {@link ModuleDescriptor#compareTo * ModuleDescriptor.compareTo}). Where the module names are equal and * the set of modifiers are equal then the version of the modules * recorded at compile-time are compared. When comparing the versions * recorded at compile-time then a dependence that has a recorded * version is considered to succeed a dependence that does not have a * recorded version. If both recorded versions are {@linkplain * Version#parse(String) unparseable} then the {@linkplain * #rawCompiledVersion() raw version strings} are compared * lexicographically.

* * @param that * The module dependence to compare * * @return A negative integer, zero, or a positive integer if this module * dependence is less than, equal to, or greater than the given * module dependence */ @Override public int compareTo(Requires that) { if (this == that) return 0; int c = this.name().compareTo(that.name()); if (c != 0) return c; // modifiers long v1 = modsValue(this.modifiers()); long v2 = modsValue(that.modifiers()); c = Long.compare(v1, v2); if (c != 0) return c; // compiledVersion c = compare(this.compiledVersion, that.compiledVersion); if (c != 0) return c; // rawCompiledVersion c = compare(this.rawCompiledVersion, that.rawCompiledVersion); if (c != 0) return c; return 0; } /** * Tests this module dependence for equality with the given object. * *

If the given object is not a {@code Requires} then this method * returns {@code false}. Two module dependence objects are equal if * the module names are equal, set of modifiers are equal, and the * compiled version of both modules is equal or not recorded for * both modules.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob * the object to which this object is to be compared * * @return {@code true} if, and only if, the given object is a module * dependence that is equal to this module dependence */ @Override public boolean equals(Object ob) { if (!(ob instanceof Requires)) return false; Requires that = (Requires)ob; return name.equals(that.name) && mods.equals(that.mods) && Objects.equals(compiledVersion, that.compiledVersion) && Objects.equals(rawCompiledVersion, that.rawCompiledVersion); } /** * Computes a hash code for this module dependence. * *

The hash code is based upon the module name, modifiers, and the * module version if recorded at compile time. It satisfies the general * contract of the {@link Object#hashCode Object.hashCode} method.

* * @return The hash-code value for this module dependence */ @Override public int hashCode() { int hash = name.hashCode() * 43 + mods.hashCode(); if (compiledVersion != null) hash = hash * 43 + compiledVersion.hashCode(); if (rawCompiledVersion != null) hash = hash * 43 + rawCompiledVersion.hashCode(); return hash; } /** * Returns a string describing this module dependence. * * @return A string describing this module dependence */ @Override public String toString() { String what; if (compiledVersion != null) { what = name() + " (@" + compiledVersion + ")"; } else { what = name(); } return ModuleDescriptor.toString(mods, what); } } /** *

A package exported by a module, may be qualified or unqualified.

* * @see ModuleDescriptor#exports() * @since 9 * @spec JPMS */ public final static class Exports implements Comparable { /** * A modifier on an exported package. * * @see Exports#modifiers() * @since 9 * @spec JPMS */ public enum Modifier { /** * The export was not explicitly or implicitly declared in the * source of the module declaration. */ SYNTHETIC, /** * The export was implicitly declared in the source of the module * declaration. */ MANDATED; } private final Set mods; private final String source; private final Set targets; // empty if unqualified export /** * Constructs an export */ private Exports(Set ms, String source, Set targets) { this.mods = Set.copyOf(ms); this.source = source; this.targets = Set.copyOf(targets); } private Exports(Set ms, String source, Set targets, boolean unused) { this.mods = ms; this.source = source; this.targets = targets; } /** * Returns the set of modifiers. * * @return A possibly-empty unmodifiable set of modifiers */ public Set modifiers() { return mods; } /** * Returns {@code true} if this is a qualified export. * * @return {@code true} if this is a qualified export */ public boolean isQualified() { return !targets.isEmpty(); } /** * Returns the package name. * * @return The package name */ public String source() { return source; } /** * For a qualified export, returns the non-empty and immutable set * of the module names to which the package is exported. For an * unqualified export, returns an empty set. * * @return The set of target module names or for an unqualified * export, an empty set */ public Set targets() { return targets; } /** * Compares this module export to another. * *

Two {@code Exports} objects are compared by comparing the package * names lexicographically. Where the packages names are equal then the * sets of modifiers are compared in the same way that module modifiers * are compared (see {@link ModuleDescriptor#compareTo * ModuleDescriptor.compareTo}). Where the package names are equal and * the set of modifiers are equal then the set of target modules are * compared. This is done by sorting the names of the target modules * in ascending order, and according to their natural ordering, and then * comparing the corresponding elements lexicographically. Where the * sets differ in size, and the larger set contains all elements of the * smaller set, then the larger set is considered to succeed the smaller * set.

* * @param that * The module export to compare * * @return A negative integer, zero, or a positive integer if this module * export is less than, equal to, or greater than the given * export dependence */ @Override public int compareTo(Exports that) { if (this == that) return 0; int c = source.compareTo(that.source); if (c != 0) return c; // modifiers long v1 = modsValue(this.modifiers()); long v2 = modsValue(that.modifiers()); c = Long.compare(v1, v2); if (c != 0) return c; // targets c = compare(targets, that.targets); if (c != 0) return c; return 0; } /** * Computes a hash code for this module export. * *

The hash code is based upon the modifiers, the package name, * and for a qualified export, the set of modules names to which the * package is exported. It satisfies the general contract of the * {@link Object#hashCode Object.hashCode} method. * * @return The hash-code value for this module export */ @Override public int hashCode() { int hash = mods.hashCode(); hash = hash * 43 + source.hashCode(); return hash * 43 + targets.hashCode(); } /** * Tests this module export for equality with the given object. * *

If the given object is not an {@code Exports} then this method * returns {@code false}. Two module exports objects are equal if their * set of modifiers is equal, the package names are equal and the set * of target module names is equal.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob * the object to which this object is to be compared * * @return {@code true} if, and only if, the given object is a module * dependence that is equal to this module dependence */ @Override public boolean equals(Object ob) { if (!(ob instanceof Exports)) return false; Exports other = (Exports)ob; return Objects.equals(this.mods, other.mods) && Objects.equals(this.source, other.source) && Objects.equals(this.targets, other.targets); } /** * Returns a string describing the exported package. * * @return A string describing the exported package */ @Override public String toString() { String s = ModuleDescriptor.toString(mods, source); if (targets.isEmpty()) return s; else return s + " to " + targets; } } /** *

A package opened by a module, may be qualified or unqualified.

* *

The opens directive in a module declaration declares a * package to be open to allow all types in the package, and all their * members, not just public types and their public members to be reflected * on by APIs that support private access or a way to bypass or suppress * default Java language access control checks.

* * @see ModuleDescriptor#opens() * @since 9 * @spec JPMS */ public final static class Opens implements Comparable { /** * A modifier on an open package. * * @see Opens#modifiers() * @since 9 * @spec JPMS */ public enum Modifier { /** * The open package was not explicitly or implicitly declared in * the source of the module declaration. */ SYNTHETIC, /** * The open package was implicitly declared in the source of the * module declaration. */ MANDATED; } private final Set mods; private final String source; private final Set targets; // empty if unqualified export /** * Constructs an {@code Opens}. */ private Opens(Set ms, String source, Set targets) { this.mods = Set.copyOf(ms); this.source = source; this.targets = Set.copyOf(targets); } private Opens(Set ms, String source, Set targets, boolean unused) { this.mods = ms; this.source = source; this.targets = targets; } /** * Returns the set of modifiers. * * @return A possibly-empty unmodifiable set of modifiers */ public Set modifiers() { return mods; } /** * Returns {@code true} if this is a qualified {@code Opens}. * * @return {@code true} if this is a qualified {@code Opens} */ public boolean isQualified() { return !targets.isEmpty(); } /** * Returns the package name. * * @return The package name */ public String source() { return source; } /** * For a qualified {@code Opens}, returns the non-empty and immutable set * of the module names to which the package is open. For an * unqualified {@code Opens}, returns an empty set. * * @return The set of target module names or for an unqualified * {@code Opens}, an empty set */ public Set targets() { return targets; } /** * Compares this module {@code Opens} to another. * *

Two {@code Opens} objects are compared by comparing the package * names lexicographically. Where the packages names are equal then the * sets of modifiers are compared in the same way that module modifiers * are compared (see {@link ModuleDescriptor#compareTo * ModuleDescriptor.compareTo}). Where the package names are equal and * the set of modifiers are equal then the set of target modules are * compared. This is done by sorting the names of the target modules * in ascending order, and according to their natural ordering, and then * comparing the corresponding elements lexicographically. Where the * sets differ in size, and the larger set contains all elements of the * smaller set, then the larger set is considered to succeed the smaller * set.

* * @param that * The module {@code Opens} to compare * * @return A negative integer, zero, or a positive integer if this module * {@code Opens} is less than, equal to, or greater than the given * module {@code Opens} */ @Override public int compareTo(Opens that) { if (this == that) return 0; int c = source.compareTo(that.source); if (c != 0) return c; // modifiers long v1 = modsValue(this.modifiers()); long v2 = modsValue(that.modifiers()); c = Long.compare(v1, v2); if (c != 0) return c; // targets c = compare(targets, that.targets); if (c != 0) return c; return 0; } /** * Computes a hash code for this module {@code Opens}. * *

The hash code is based upon the modifiers, the package name, * and for a qualified {@code Opens}, the set of modules names to which the * package is opened. It satisfies the general contract of the * {@link Object#hashCode Object.hashCode} method. * * @return The hash-code value for this module {@code Opens} */ @Override public int hashCode() { int hash = mods.hashCode(); hash = hash * 43 + source.hashCode(); return hash * 43 + targets.hashCode(); } /** * Tests this module {@code Opens} for equality with the given object. * *

If the given object is not an {@code Opens} then this method * returns {@code false}. Two {@code Opens} objects are equal if their * set of modifiers is equal, the package names are equal and the set * of target module names is equal.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob * the object to which this object is to be compared * * @return {@code true} if, and only if, the given object is a module * dependence that is equal to this module dependence */ @Override public boolean equals(Object ob) { if (!(ob instanceof Opens)) return false; Opens other = (Opens)ob; return Objects.equals(this.mods, other.mods) && Objects.equals(this.source, other.source) && Objects.equals(this.targets, other.targets); } /** * Returns a string describing the open package. * * @return A string describing the open package */ @Override public String toString() { String s = ModuleDescriptor.toString(mods, source); if (targets.isEmpty()) return s; else return s + " to " + targets; } } /** *

A service that a module provides one or more implementations of.

* * @see ModuleDescriptor#provides() * @since 9 * @spec JPMS */ public final static class Provides implements Comparable { private final String service; private final List providers; private Provides(String service, List providers) { this.service = service; this.providers = List.copyOf(providers); } private Provides(String service, List providers, boolean unused) { this.service = service; this.providers = providers; } /** * Returns the fully qualified class name of the service type. * * @return The fully qualified class name of the service type */ public String service() { return service; } /** * Returns the list of the fully qualified class names of the providers * or provider factories. * * @return A non-empty and unmodifiable list of the fully qualified class * names of the providers or provider factories */ public List providers() { return providers; } /** * Compares this {@code Provides} to another. * *

Two {@code Provides} objects are compared by comparing the fully * qualified class name of the service type lexicographically. Where the * class names are equal then the list of the provider class names are * compared by comparing the corresponding elements of both lists * lexicographically and in sequence. Where the lists differ in size, * {@code N} is the size of the shorter list, and the first {@code N} * corresponding elements are equal, then the longer list is considered * to succeed the shorter list.

* * @param that * The {@code Provides} to compare * * @return A negative integer, zero, or a positive integer if this * {@code Provides} is less than, equal to, or greater than * the given {@code Provides} */ public int compareTo(Provides that) { if (this == that) return 0; int c = service.compareTo(that.service); if (c != 0) return c; // compare provider class names in sequence int size1 = this.providers.size(); int size2 = that.providers.size(); for (int index=0; index size2) ? 1 : -1; } } /** * Computes a hash code for this {@code Provides}. * *

The hash code is based upon the service type and the set of * providers. It satisfies the general contract of the {@link * Object#hashCode Object.hashCode} method.

* * @return The hash-code value for this module provides */ @Override public int hashCode() { return service.hashCode() * 43 + providers.hashCode(); } /** * Tests this {@code Provides} for equality with the given object. * *

If the given object is not a {@code Provides} then this method * returns {@code false}. Two {@code Provides} objects are equal if the * service type is equal and the list of providers is equal.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob * the object to which this object is to be compared * * @return {@code true} if, and only if, the given object is a * {@code Provides} that is equal to this {@code Provides} */ @Override public boolean equals(Object ob) { if (!(ob instanceof Provides)) return false; Provides other = (Provides)ob; return Objects.equals(this.service, other.service) && Objects.equals(this.providers, other.providers); } /** * Returns a string describing this {@code Provides}. * * @return A string describing this {@code Provides} */ @Override public String toString() { return service + " with " + providers; } } /** * A module's version string. * *

A version string has three components: The version number itself, an * optional pre-release version, and an optional build version. Each * component is a sequence of tokens; each token is either a non-negative * integer or a string. Tokens are separated by the punctuation characters * {@code '.'}, {@code '-'}, or {@code '+'}, or by transitions from a * sequence of digits to a sequence of characters that are neither digits * nor punctuation characters, or vice versa. * *

    * *
  • The version number is a sequence of tokens separated by * {@code '.'} characters, terminated by the first {@code '-'} or {@code * '+'} character.
    • * *
  • The pre-release version is a sequence of tokens separated * by {@code '.'} or {@code '-'} characters, terminated by the first * {@code '+'} character.
    • * *
  • The build version is a sequence of tokens separated by * {@code '.'}, {@code '-'}, or {@code '+'} characters. * *
* *

When comparing two version strings, the elements of their * corresponding components are compared in pointwise fashion. If one * component is longer than the other, but otherwise equal to it, then the * first component is considered the greater of the two; otherwise, if two * corresponding elements are integers then they are compared as such; * otherwise, at least one of the elements is a string, so the other is * converted into a string if it is an integer and the two are compared * lexicographically. Trailing integer elements with the value zero are * ignored. * *

Given two version strings, if their version numbers differ then the * result of comparing them is the result of comparing their version * numbers; otherwise, if one of them has a pre-release version but the * other does not then the first is considered to precede the second, * otherwise the result of comparing them is the result of comparing their * pre-release versions; otherwise, the result of comparing them is the * result of comparing their build versions. * * @see ModuleDescriptor#version() * @since 9 * @spec JPMS */ public final static class Version implements Comparable { private final String version; // If Java had disjunctive types then we'd write List here // private final List sequence; private final List pre; private final List build; // Take a numeric token starting at position i // Append it to the given list // Return the index of the first character not taken // Requires: s.charAt(i) is (decimal) numeric // private static int takeNumber(String s, int i, List acc) { char c = s.charAt(i); int d = (c - '0'); int n = s.length(); while (++i < n) { c = s.charAt(i); if (c >= '0' && c <= '9') { d = d * 10 + (c - '0'); continue; } break; } acc.add(d); return i; } // Take a string token starting at position i // Append it to the given list // Return the index of the first character not taken // Requires: s.charAt(i) is not '.' // private static int takeString(String s, int i, List acc) { int b = i; int n = s.length(); while (++i < n) { char c = s.charAt(i); if (c != '.' && c != '-' && c != '+' && !(c >= '0' && c <= '9')) continue; break; } acc.add(s.substring(b, i)); return i; } // Syntax: tok+ ( '-' tok+)? ( '+' tok+)? // First token string is sequence, second is pre, third is build // Tokens are separated by '.' or '-', or by changes between alpha & numeric // Numeric tokens are compared as decimal integers // Non-numeric tokens are compared lexicographically // A version with a non-empty pre is less than a version with same seq but no pre // Tokens in build may contain '-' and '+' // private Version(String v) { if (v == null) throw new IllegalArgumentException("Null version string"); int n = v.length(); if (n == 0) throw new IllegalArgumentException("Empty version string"); int i = 0; char c = v.charAt(i); if (!(c >= '0' && c <= '9')) throw new IllegalArgumentException(v + ": Version string does not start" + " with a number"); List sequence = new ArrayList<>(4); List pre = new ArrayList<>(2); List build = new ArrayList<>(2); i = takeNumber(v, i, sequence); while (i < n) { c = v.charAt(i); if (c == '.') { i++; continue; } if (c == '-' || c == '+') { i++; break; } if (c >= '0' && c <= '9') i = takeNumber(v, i, sequence); else i = takeString(v, i, sequence); } if (c == '-' && i >= n) throw new IllegalArgumentException(v + ": Empty pre-release"); while (i < n) { c = v.charAt(i); if (c >= '0' && c <= '9') i = takeNumber(v, i, pre); else i = takeString(v, i, pre); if (i >= n) break; c = v.charAt(i); if (c == '.' || c == '-') { i++; continue; } if (c == '+') { i++; break; } } if (c == '+' && i >= n) throw new IllegalArgumentException(v + ": Empty pre-release"); while (i < n) { c = v.charAt(i); if (c >= '0' && c <= '9') i = takeNumber(v, i, build); else i = takeString(v, i, build); if (i >= n) break; c = v.charAt(i); if (c == '.' || c == '-' || c == '+') { i++; continue; } } this.version = v; this.sequence = sequence; this.pre = pre; this.build = build; } /** * Parses the given string as a version string. * * @param v * The string to parse * * @return The resulting {@code Version} * * @throws IllegalArgumentException * If {@code v} is {@code null}, an empty string, or cannot be * parsed as a version string */ public static Version parse(String v) { return new Version(v); } @SuppressWarnings("unchecked") private int cmp(Object o1, Object o2) { return ((Comparable)o1).compareTo(o2); } private int compareTokens(List ts1, List ts2) { int n = Math.min(ts1.size(), ts2.size()); for (int i = 0; i < n; i++) { Object o1 = ts1.get(i); Object o2 = ts2.get(i); if ((o1 instanceof Integer && o2 instanceof Integer) || (o1 instanceof String && o2 instanceof String)) { int c = cmp(o1, o2); if (c == 0) continue; return c; } // Types differ, so convert number to string form int c = o1.toString().compareTo(o2.toString()); if (c == 0) continue; return c; } List rest = ts1.size() > ts2.size() ? ts1 : ts2; int e = rest.size(); for (int i = n; i < e; i++) { Object o = rest.get(i); if (o instanceof Integer && ((Integer)o) == 0) continue; return ts1.size() - ts2.size(); } return 0; } /** * Compares this module version to another module version. Module * versions are compared as described in the class description. * * @param that * The module version to compare * * @return A negative integer, zero, or a positive integer as this * module version is less than, equal to, or greater than the * given module version */ @Override public int compareTo(Version that) { int c = compareTokens(this.sequence, that.sequence); if (c != 0) return c; if (this.pre.isEmpty()) { if (!that.pre.isEmpty()) return +1; } else { if (that.pre.isEmpty()) return -1; } c = compareTokens(this.pre, that.pre); if (c != 0) return c; return compareTokens(this.build, that.build); } /** * Tests this module version for equality with the given object. * *

If the given object is not a {@code Version} then this method * returns {@code false}. Two module version are equal if their * corresponding components are equal.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob * the object to which this object is to be compared * * @return {@code true} if, and only if, the given object is a module * reference that is equal to this module reference */ @Override public boolean equals(Object ob) { if (!(ob instanceof Version)) return false; return compareTo((Version)ob) == 0; } /** * Computes a hash code for this module version. * *

The hash code is based upon the components of the version and * satisfies the general contract of the {@link Object#hashCode * Object.hashCode} method.

* * @return The hash-code value for this module version */ @Override public int hashCode() { return version.hashCode(); } /** * Returns the string from which this version was parsed. * * @return The string from which this version was parsed. */ @Override public String toString() { return version; } } private final String name; private final Version version; private final String rawVersionString; private final Set modifiers; private final boolean open; // true if modifiers contains OPEN private final boolean automatic; // true if modifiers contains AUTOMATIC private final Set requires; private final Set exports; private final Set opens; private final Set uses; private final Set provides; private final Set packages; private final String mainClass; private ModuleDescriptor(String name, Version version, String rawVersionString, Set modifiers, Set requires, Set exports, Set opens, Set uses, Set provides, Set packages, String mainClass) { assert version == null || rawVersionString == null; this.name = name; this.version = version; this.rawVersionString = rawVersionString; this.modifiers = Set.copyOf(modifiers); this.open = modifiers.contains(Modifier.OPEN); this.automatic = modifiers.contains(Modifier.AUTOMATIC); assert (requires.stream().map(Requires::name).distinct().count() == requires.size()); this.requires = Set.copyOf(requires); this.exports = Set.copyOf(exports); this.opens = Set.copyOf(opens); this.uses = Set.copyOf(uses); this.provides = Set.copyOf(provides); this.packages = Set.copyOf(packages); this.mainClass = mainClass; } /** * Creates a module descriptor from its components. * The arguments are pre-validated and sets are unmodifiable sets. */ ModuleDescriptor(String name, Version version, Set modifiers, Set requires, Set exports, Set opens, Set uses, Set provides, Set packages, String mainClass, int hashCode, boolean unused) { this.name = name; this.version = version; this.rawVersionString = null; this.modifiers = modifiers; this.open = modifiers.contains(Modifier.OPEN); this.automatic = modifiers.contains(Modifier.AUTOMATIC); this.requires = requires; this.exports = exports; this.opens = opens; this.uses = uses; this.provides = provides; this.packages = packages; this.mainClass = mainClass; this.hash = hashCode; } /** *

Returns the module name.

* * @return The module name */ public String name() { return name; } /** *

Returns the set of module modifiers.

* * @return A possibly-empty unmodifiable set of modifiers */ public Set modifiers() { return modifiers; } /** *

Returns {@code true} if this is an open module.

* *

This method is equivalent to testing if the set of {@link #modifiers() * modifiers} contains the {@link Modifier#OPEN OPEN} modifier.

* * @return {@code true} if this is an open module */ public boolean isOpen() { return open; } /** *

Returns {@code true} if this is an automatic module.

* *

This method is equivalent to testing if the set of {@link #modifiers() * modifiers} contains the {@link Modifier#OPEN AUTOMATIC} modifier.

* * @return {@code true} if this is an automatic module */ public boolean isAutomatic() { return automatic; } /** *

Returns the set of {@code Requires} objects representing the module * dependences.

* *

The set includes a dependency on "{@code java.base}" when this * module is not named "{@code java.base}". If this module is an automatic * module then it does not have a dependency on any module other than * "{@code java.base}".

* * @return A possibly-empty unmodifiable set of {@link Requires} objects */ public Set requires() { return requires; } /** *

Returns the set of {@code Exports} objects representing the exported * packages.

* *

If this module is an automatic module then the set of exports * is empty.

* * @return A possibly-empty unmodifiable set of exported packages */ public Set exports() { return exports; } /** *

Returns the set of {@code Opens} objects representing the open * packages.

* *

If this module is an open module or an automatic module then the * set of open packages is empty.

* * @return A possibly-empty unmodifiable set of open packages */ public Set opens() { return opens; } /** *

Returns the set of service dependences.

* *

If this module is an automatic module then the set of service * dependences is empty.

* * @return A possibly-empty unmodifiable set of the fully qualified class * names of the service types used */ public Set uses() { return uses; } /** *

Returns the set of {@code Provides} objects representing the * services that the module provides.

* * @return The possibly-empty unmodifiable set of the services that this * module provides */ public Set provides() { return provides; } /** *

Returns the module version.

* * @return This module's version, or an empty {@code Optional} if the * module does not have a version or the version is * {@linkplain Version#parse(String) unparseable} */ public Optional version() { return Optional.ofNullable(version); } /** *

Returns the string with the possibly-unparseable version of the * module.

* * @return The string containing the version of the module or an empty * {@code Optional} if the module does not have a version * * @see #version() */ public Optional rawVersion() { if (version != null) { return Optional.of(version.toString()); } else { return Optional.ofNullable(rawVersionString); } } /** *

Returns a string containing the module name and, if present, its * version.

* * @return A string containing the module name and, if present, its * version */ public String toNameAndVersion() { if (version != null) { return name() + "@" + version; } else { return name(); } } /** *

Returns the module main class.

* * @return The fully qualified class name of the module's main class */ public Optional mainClass() { return Optional.ofNullable(mainClass); } /** * Returns the set of packages in the module. * *

The set of packages includes all exported and open packages, as well * as the packages of any service providers, and the package for the main * class.

* * @return A possibly-empty unmodifiable set of the packages in the module */ public Set packages() { return packages; } /** * A builder for building {@link ModuleDescriptor} objects. * *

{@code ModuleDescriptor} defines the {@link #newModule newModule}, * {@link #newOpenModule newOpenModule}, and {@link #newAutomaticModule * newAutomaticModule} methods to create builders for building * normal, open, and automatic modules.

* *

The set of packages in the module are accumulated by the {@code * Builder} as the {@link ModuleDescriptor.Builder#exports(String) exports}, * {@link ModuleDescriptor.Builder#opens(String) opens}, * {@link ModuleDescriptor.Builder#packages(Set) packages}, * {@link ModuleDescriptor.Builder#provides(String,List) provides}, and * {@link ModuleDescriptor.Builder#mainClass(String) mainClass} methods are * invoked.

* *

The module names, package names, and class names that are parameters * specified to the builder methods are the module names, package names, * and qualified names of classes (in named packages) as defined in the * The Java Language Specification.

* *

Example usage:

* 
{@code    ModuleDescriptor descriptor = ModuleDescriptor.newModule("stats.core")
     *         .requires("java.base")
     *         .exports("org.acme.stats.core.clustering")
     *         .exports("org.acme.stats.core.regression")
     *         .packages(Set.of("org.acme.stats.core.internal"))
     *         .build();
     * }
* * @apiNote A {@code Builder} checks the components and invariants as * components are added to the builder. The rationale for this is to detect * errors as early as possible and not defer all validation to the * {@link #build build} method. * * @since 9 * @spec JPMS */ public static final class Builder { final String name; final boolean strict; final Set modifiers; final boolean open; final boolean automatic; final Set packages = new HashSet<>(); final Map requires = new HashMap<>(); final Map exports = new HashMap<>(); final Map opens = new HashMap<>(); final Set uses = new HashSet<>(); final Map provides = new HashMap<>(); Version version; String rawVersionString; String mainClass; /** * Initializes a new builder with the given module name. * * If {@code strict} is {@code true} then module, package, and class * names are checked to ensure they are legal names. In addition, the * {@link #build buid} method will add "{@code requires java.base}" if * the dependency is not declared. */ Builder(String name, boolean strict, Set modifiers) { this.name = (strict) ? requireModuleName(name) : name; this.strict = strict; this.modifiers = modifiers; this.open = modifiers.contains(Modifier.OPEN); this.automatic = modifiers.contains(Modifier.AUTOMATIC); assert !open || !automatic; } /** * Returns a snapshot of the packages in the module. */ /* package */ Set packages() { return Collections.unmodifiableSet(packages); } /** * Adds a dependence on a module. * * @param req * The dependence * * @return This builder * * @throws IllegalArgumentException * If the dependence is on the module that this builder was * initialized to build * @throws IllegalStateException * If the dependence on the module has already been declared * or this builder is for an automatic module */ public Builder requires(Requires req) { if (automatic) throw new IllegalStateException("Automatic modules cannot declare" + " dependences"); String mn = req.name(); if (name.equals(mn)) throw new IllegalArgumentException("Dependence on self"); if (requires.containsKey(mn)) throw new IllegalStateException("Dependence upon " + mn + " already declared"); requires.put(mn, req); return this; } /** * Adds a dependence on a module with the given (and possibly empty) * set of modifiers. The dependence includes the version of the * module that was recorded at compile-time. * * @param ms * The set of modifiers * @param mn * The module name * @param compiledVersion * The version of the module recorded at compile-time * * @return This builder * * @throws IllegalArgumentException * If the module name is {@code null}, is not a legal module * name, or is equal to the module name that this builder * was initialized to build * @throws IllegalStateException * If the dependence on the module has already been declared * or this builder is for an automatic module */ public Builder requires(Set ms, String mn, Version compiledVersion) { Objects.requireNonNull(compiledVersion); if (strict) mn = requireModuleName(mn); return requires(new Requires(ms, mn, compiledVersion, null)); } /* package */Builder requires(Set ms, String mn, String rawCompiledVersion) { Requires r; try { Version v = Version.parse(rawCompiledVersion); r = new Requires(ms, mn, v, null); } catch (IllegalArgumentException e) { if (strict) throw e; r = new Requires(ms, mn, null, rawCompiledVersion); } return requires(r); } /** * Adds a dependence on a module with the given (and possibly empty) * set of modifiers. * * @param ms * The set of modifiers * @param mn * The module name * * @return This builder * * @throws IllegalArgumentException * If the module name is {@code null}, is not a legal module * name, or is equal to the module name that this builder * was initialized to build * @throws IllegalStateException * If the dependence on the module has already been declared * or this builder is for an automatic module */ public Builder requires(Set ms, String mn) { if (strict) mn = requireModuleName(mn); return requires(new Requires(ms, mn, null, null)); } /** * Adds a dependence on a module with an empty set of modifiers. * * @param mn * The module name * * @return This builder * * @throws IllegalArgumentException * If the module name is {@code null}, is not a legal module * name, or is equal to the module name that this builder * was initialized to build * @throws IllegalStateException * If the dependence on the module has already been declared * or this builder is for an automatic module */ public Builder requires(String mn) { return requires(EnumSet.noneOf(Requires.Modifier.class), mn); } /** * Adds an exported package. * * @param e * The export * * @return This builder * * @throws IllegalStateException * If the {@link Exports#source() package} is already declared as * exported or this builder is for an automatic module */ public Builder exports(Exports e) { if (automatic) { throw new IllegalStateException("Automatic modules cannot declare" + " exported packages"); } String source = e.source(); if (exports.containsKey(source)) { throw new IllegalStateException("Exported package " + source + " already declared"); } exports.put(source, e); packages.add(source); return this; } /** * Adds an exported package with the given (and possibly empty) set of * modifiers. The package is exported to a set of target modules. * * @param ms * The set of modifiers * @param pn * The package name * @param targets * The set of target modules names * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name, the set of target modules is empty, or the set * of target modules contains a name that is not a legal module * name * @throws IllegalStateException * If the package is already declared as exported * or this builder is for an automatic module */ public Builder exports(Set ms, String pn, Set targets) { targets = new HashSet<>(targets); if (targets.isEmpty()) throw new IllegalArgumentException("Empty target set"); if (strict) { requirePackageName(pn); targets.forEach(Checks::requireModuleName); } Exports e = new Exports(ms, pn, targets); return exports(e); } /** * Adds an exported package with the given (and possibly empty) set of * modifiers. The package is exported to all modules. * * @param ms * The set of modifiers * @param pn * The package name * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name * @throws IllegalStateException * If the package is already declared as exported * or this builder is for an automatic module */ public Builder exports(Set ms, String pn) { if (strict) { requirePackageName(pn); } Exports e = new Exports(ms, pn, Set.of()); return exports(e); } /** * Adds an exported package. The package is exported to a set of target * modules. * * @param pn * The package name * @param targets * The set of target modules names * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name, the set of target modules is empty, or the set * of target modules contains a name that is not a legal module * name * @throws IllegalStateException * If the package is already declared as exported * or this builder is for an automatic module */ public Builder exports(String pn, Set targets) { return exports(Set.of(), pn, targets); } /** * Adds an exported package. The package is exported to all modules. * * @param pn * The package name * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name * @throws IllegalStateException * If the package is already declared as exported * or this builder is for an automatic module */ public Builder exports(String pn) { return exports(Set.of(), pn); } /** * Adds an open package. * * @param obj * The {@code Opens} object * * @return This builder * * @throws IllegalStateException * If the package is already declared as open, or this is a * builder for an open module or automatic module */ public Builder opens(Opens obj) { if (open || automatic) { throw new IllegalStateException("Open or automatic modules cannot" + " declare open packages"); } String source = obj.source(); if (opens.containsKey(source)) { throw new IllegalStateException("Open package " + source + " already declared"); } opens.put(source, obj); packages.add(source); return this; } /** * Adds an open package with the given (and possibly empty) set of * modifiers. The package is open to a set of target modules. * * @param ms * The set of modifiers * @param pn * The package name * @param targets * The set of target modules names * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name, the set of target modules is empty, or the set * of target modules contains a name that is not a legal module * name * @throws IllegalStateException * If the package is already declared as open, or this is a * builder for an open module or automatic module */ public Builder opens(Set ms, String pn, Set targets) { targets = new HashSet<>(targets); if (targets.isEmpty()) throw new IllegalArgumentException("Empty target set"); if (strict) { requirePackageName(pn); targets.forEach(Checks::requireModuleName); } Opens opens = new Opens(ms, pn, targets); return opens(opens); } /** * Adds an open package with the given (and possibly empty) set of * modifiers. The package is open to all modules. * * @param ms * The set of modifiers * @param pn * The package name * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name * @throws IllegalStateException * If the package is already declared as open, or this is a * builder for an open module or automatic module */ public Builder opens(Set ms, String pn) { if (strict) { requirePackageName(pn); } Opens e = new Opens(ms, pn, Set.of()); return opens(e); } /** * Adds an open package. The package is open to a set of target modules. * * @param pn * The package name * @param targets * The set of target modules names * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name, the set of target modules is empty, or the set * of target modules contains a name that is not a legal module * name * @throws IllegalStateException * If the package is already declared as open, or this is a * builder for an open module or automatic module */ public Builder opens(String pn, Set targets) { return opens(Set.of(), pn, targets); } /** * Adds an open package. The package is open to all modules. * * @param pn * The package name * * @return This builder * * @throws IllegalArgumentException * If the package name is {@code null} or is not a legal * package name * @throws IllegalStateException * If the package is already declared as open, or this is a * builder for an open module or automatic module */ public Builder opens(String pn) { return opens(Set.of(), pn); } /** * Adds a service dependence. * * @param service * The service type * * @return This builder * * @throws IllegalArgumentException * If the service type is {@code null} or not a qualified name of * a class in a named package * @throws IllegalStateException * If a dependency on the service type has already been declared * or this is a builder for an automatic module */ public Builder uses(String service) { if (automatic) throw new IllegalStateException("Automatic modules can not declare" + " service dependences"); if (uses.contains(requireServiceTypeName(service))) throw new IllegalStateException("Dependence upon service " + service + " already declared"); uses.add(service); return this; } /** * Provides a service with one or more implementations. The package for * each {@link Provides#providers provider} (or provider factory) is * added to the module if not already added. * * @param p * The provides * * @return This builder * * @throws IllegalStateException * If the providers for the service type have already been * declared */ public Builder provides(Provides p) { String service = p.service(); if (provides.containsKey(service)) throw new IllegalStateException("Providers of service " + service + " already declared"); provides.put(service, p); p.providers().forEach(name -> packages.add(packageName(name))); return this; } /** * Provides implementations of a service. The package for each provider * (or provider factory) is added to the module if not already added. * * @param service * The service type * @param providers * The list of provider or provider factory class names * * @return This builder * * @throws IllegalArgumentException * If the service type or any of the provider class names is * {@code null} or not a qualified name of a class in a named * package, or the list of provider class names is empty * @throws IllegalStateException * If the providers for the service type have already been * declared */ public Builder provides(String service, List providers) { providers = new ArrayList<>(providers); if (providers.isEmpty()) throw new IllegalArgumentException("Empty providers set"); if (strict) { requireServiceTypeName(service); providers.forEach(Checks::requireServiceProviderName); } else { // Disallow service/providers in unnamed package String pn = packageName(service); if (pn.isEmpty()) { throw new IllegalArgumentException(service + ": unnamed package"); } for (String name : providers) { pn = packageName(name); if (pn.isEmpty()) { throw new IllegalArgumentException(name + ": unnamed package"); } } } Provides p = new Provides(service, providers); return provides(p); } /** * Adds packages to the module. All packages in the set of package names * that are not in the module are added to module. * * @param pns * The (possibly empty) set of package names * * @return This builder * * @throws IllegalArgumentException * If any of the package names is {@code null} or is not a * legal package name */ public Builder packages(Set pns) { if (strict) { pns = new HashSet<>(pns); pns.forEach(Checks::requirePackageName); } this.packages.addAll(pns); return this; } /** * Sets the module version. * * @param v * The version * * @return This builder */ public Builder version(Version v) { version = requireNonNull(v); rawVersionString = null; return this; } /** * Sets the module version. * * @param vs * The version string to parse * * @return This builder * * @throws IllegalArgumentException * If {@code vs} is {@code null} or cannot be parsed as a * version string * * @see Version#parse(String) */ public Builder version(String vs) { try { version = Version.parse(vs); rawVersionString = null; } catch (IllegalArgumentException e) { if (strict) throw e; version = null; rawVersionString = vs; } return this; } /** * Sets the module main class. The package for the main class is added * to the module if not already added. In other words, this method is * equivalent to first invoking this builder's {@link #packages(Set) * packages} method to add the package name of the main class. * * @param mc * The module main class * * @return This builder * * @throws IllegalArgumentException * If {@code mainClass} is {@code null} or not a qualified * name of a class in a named package */ public Builder mainClass(String mc) { String pn; if (strict) { mc = requireQualifiedClassName("main class name", mc); pn = packageName(mc); assert !pn.isEmpty(); } else { // Disallow main class in unnamed package pn = packageName(mc); if (pn.isEmpty()) { throw new IllegalArgumentException(mc + ": unnamed package"); } } packages.add(pn); mainClass = mc; return this; } /** * Builds and returns a {@code ModuleDescriptor} from its components. * *

The module will require "{@code java.base}" even if the dependence * has not been declared (the exception is when building a module named * "{@code java.base}" as it cannot require itself). The dependence on * "{@code java.base}" will have the {@link * java.lang.module.ModuleDescriptor.Requires.Modifier#MANDATED MANDATED} * modifier if the dependence was not declared.

* * @return The module descriptor */ public ModuleDescriptor build() { Set requires = new HashSet<>(this.requires.values()); Set exports = new HashSet<>(this.exports.values()); Set opens = new HashSet<>(this.opens.values()); // add dependency on java.base if (strict && !name.equals("java.base") && !this.requires.containsKey("java.base")) { requires.add(new Requires(Set.of(Requires.Modifier.MANDATED), "java.base", null, null)); } Set provides = new HashSet<>(this.provides.values()); return new ModuleDescriptor(name, version, rawVersionString, modifiers, requires, exports, opens, uses, provides, packages, mainClass); } } /** * Compares this module descriptor to another. * *

Two {@code ModuleDescriptor} objects are compared by comparing their * module names lexicographically. Where the module names are equal then the * module versions are compared. When comparing the module versions then a * module descriptor with a version is considered to succeed a module * descriptor that does not have a version. If both versions are {@linkplain * Version#parse(String) unparseable} then the {@linkplain #rawVersion() * raw version strings} are compared lexicographically. Where the module names * are equal and the versions are equal (or not present in both), then the * set of modifiers are compared. Sets of modifiers are compared by comparing * a binary value computed for each set. If a modifier is present * in the set then the bit at the position of its ordinal is {@code 1} * in the binary value, otherwise {@code 0}. If the two set of modifiers * are also equal then the other components of the module descriptors are * compared in a manner that is consistent with {@code equals}.

* * @param that * The module descriptor to compare * * @return A negative integer, zero, or a positive integer if this module * descriptor is less than, equal to, or greater than the given * module descriptor */ @Override public int compareTo(ModuleDescriptor that) { if (this == that) return 0; int c = this.name().compareTo(that.name()); if (c != 0) return c; c = compare(this.version, that.version); if (c != 0) return c; c = compare(this.rawVersionString, that.rawVersionString); if (c != 0) return c; long v1 = modsValue(this.modifiers()); long v2 = modsValue(that.modifiers()); c = Long.compare(v1, v2); if (c != 0) return c; c = compare(this.requires, that.requires); if (c != 0) return c; c = compare(this.packages, that.packages); if (c != 0) return c; c = compare(this.exports, that.exports); if (c != 0) return c; c = compare(this.opens, that.opens); if (c != 0) return c; c = compare(this.uses, that.uses); if (c != 0) return c; c = compare(this.provides, that.provides); if (c != 0) return c; c = compare(this.mainClass, that.mainClass); if (c != 0) return c; return 0; } /** * Tests this module descriptor for equality with the given object. * *

If the given object is not a {@code ModuleDescriptor} then this * method returns {@code false}. Two module descriptors are equal if each * of their corresponding components is equal.

* *

This method satisfies the general contract of the {@link * java.lang.Object#equals(Object) Object.equals} method.

* * @param ob * the object to which this object is to be compared * * @return {@code true} if, and only if, the given object is a module * descriptor that is equal to this module descriptor */ @Override public boolean equals(Object ob) { if (ob == this) return true; if (!(ob instanceof ModuleDescriptor)) return false; ModuleDescriptor that = (ModuleDescriptor)ob; return (name.equals(that.name) && modifiers.equals(that.modifiers) && requires.equals(that.requires) && Objects.equals(packages, that.packages) && exports.equals(that.exports) && opens.equals(that.opens) && uses.equals(that.uses) && provides.equals(that.provides) && Objects.equals(version, that.version) && Objects.equals(rawVersionString, that.rawVersionString) && Objects.equals(mainClass, that.mainClass)); } /** * Computes a hash code for this module descriptor. * *

The hash code is based upon the components of the module descriptor, * and satisfies the general contract of the {@link Object#hashCode * Object.hashCode} method.

* * @return The hash-code value for this module descriptor */ @Override public int hashCode() { int hc = hash; if (hc == 0) { hc = name.hashCode(); hc = hc * 43 + Objects.hashCode(modifiers); hc = hc * 43 + requires.hashCode(); hc = hc * 43 + Objects.hashCode(packages); hc = hc * 43 + exports.hashCode(); hc = hc * 43 + opens.hashCode(); hc = hc * 43 + uses.hashCode(); hc = hc * 43 + provides.hashCode(); hc = hc * 43 + Objects.hashCode(version); hc = hc * 43 + Objects.hashCode(rawVersionString); hc = hc * 43 + Objects.hashCode(mainClass); if (hc == 0) hc = -1; hash = hc; } return hc; } private transient int hash; // cached hash code /** *

Returns a string describing the module.

* * @return A string describing the module */ @Override public String toString() { StringBuilder sb = new StringBuilder(); if (isOpen()) sb.append("open "); sb.append("module { name: ").append(toNameAndVersion()); if (!requires.isEmpty()) sb.append(", ").append(requires); if (!uses.isEmpty()) sb.append(", uses: ").append(uses); if (!exports.isEmpty()) sb.append(", exports: ").append(exports); if (!opens.isEmpty()) sb.append(", opens: ").append(opens); if (!provides.isEmpty()) { sb.append(", provides: ").append(provides); } sb.append(" }"); return sb.toString(); } /** * Instantiates a builder to build a module descriptor. * * @param name * The module name * @param ms * The set of module modifiers * * @return A new builder * * @throws IllegalArgumentException * If the module name is {@code null} or is not a legal module * name, or the set of modifiers contains {@link * Modifier#AUTOMATIC AUTOMATIC} with other modifiers */ public static Builder newModule(String name, Set ms) { Set mods = new HashSet<>(ms); if (mods.contains(Modifier.AUTOMATIC) && mods.size() > 1) throw new IllegalArgumentException("AUTOMATIC cannot be used with" + " other modifiers"); return new Builder(name, true, mods); } /** * Instantiates a builder to build a module descriptor for a normal * module. This method is equivalent to invoking {@link #newModule(String,Set) * newModule} with an empty set of {@link ModuleDescriptor.Modifier modifiers}. * * @param name * The module name * * @return A new builder * * @throws IllegalArgumentException * If the module name is {@code null} or is not a legal module * name */ public static Builder newModule(String name) { return new Builder(name, true, Set.of()); } /** * Instantiates a builder to build a module descriptor for an open module. * This method is equivalent to invoking {@link #newModule(String,Set) * newModule} with the {@link ModuleDescriptor.Modifier#OPEN OPEN} modifier. * *

The builder for an open module cannot be used to declare any open * packages.

* * @param name * The module name * * @return A new builder that builds an open module * * @throws IllegalArgumentException * If the module name is {@code null} or is not a legal module * name */ public static Builder newOpenModule(String name) { return new Builder(name, true, Set.of(Modifier.OPEN)); } /** * Instantiates a builder to build a module descriptor for an automatic * module. This method is equivalent to invoking {@link #newModule(String,Set) * newModule} with the {@link ModuleDescriptor.Modifier#AUTOMATIC AUTOMATIC} * modifier. * *

The builder for an automatic module cannot be used to declare module * or service dependences. It also cannot be used to declare any exported * or open packages.

* * @param name * The module name * * @return A new builder that builds an automatic module * * @throws IllegalArgumentException * If the module name is {@code null} or is not a legal module * name * * @see ModuleFinder#of(Path[]) */ public static Builder newAutomaticModule(String name) { return new Builder(name, true, Set.of(Modifier.AUTOMATIC)); } /** * Reads the binary form of a module declaration from an input stream * as a module descriptor. * *

If the descriptor encoded in the input stream does not indicate a * set of packages in the module then the {@code packageFinder} will be * invoked. The set of packages that the {@code packageFinder} returns * must include all the packages that the module exports, opens, as well * as the packages of the service implementations that the module provides, * and the package of the main class (if the module has a main class). If * the {@code packageFinder} throws an {@link UncheckedIOException} then * {@link IOException} cause will be re-thrown.

* *

If there are bytes following the module descriptor then it is * implementation specific as to whether those bytes are read, ignored, * or reported as an {@code InvalidModuleDescriptorException}. If this * method fails with an {@code InvalidModuleDescriptorException} or {@code * IOException} then it may do so after some, but not all, bytes have * been read from the input stream. It is strongly recommended that the * stream be promptly closed and discarded if an exception occurs.

* * @apiNote The {@code packageFinder} parameter is for use when reading * module descriptors from legacy module-artifact formats that do not * record the set of packages in the descriptor itself. * * @param in * The input stream * @param packageFinder * A supplier that can produce the set of packages * * @return The module descriptor * * @throws InvalidModuleDescriptorException * If an invalid module descriptor is detected or the set of * packages returned by the {@code packageFinder} does not include * all of the packages obtained from the module descriptor * @throws IOException * If an I/O error occurs reading from the input stream or {@code * UncheckedIOException} is thrown by the package finder */ public static ModuleDescriptor read(InputStream in, Supplier> packageFinder) throws IOException { return ModuleInfo.read(in, requireNonNull(packageFinder)).descriptor(); } /** * Reads the binary form of a module declaration from an input stream as a * module descriptor. This method works exactly as specified by the 2-arg * {@link #read(InputStream,Supplier) read} method with the exception that * a packager finder is not used to find additional packages when the * module descriptor read from the stream does not indicate the set of * packages. * * @param in * The input stream * * @return The module descriptor * * @throws InvalidModuleDescriptorException * If an invalid module descriptor is detected * @throws IOException * If an I/O error occurs reading from the input stream */ public static ModuleDescriptor read(InputStream in) throws IOException { return ModuleInfo.read(in, null).descriptor(); } /** * Reads the binary form of a module declaration from a byte buffer * as a module descriptor. * *

If the descriptor encoded in the byte buffer does not indicate a * set of packages in the module then the {@code packageFinder} will be * invoked. The set of packages that the {@code packageFinder} returns * must include all the packages that the module exports, opens, as well * as the packages of the service implementations that the module provides, * and the package of the main class (if the module has a main class). If * the {@code packageFinder} throws an {@link UncheckedIOException} then * {@link IOException} cause will be re-thrown.

* *

The module descriptor is read from the buffer starting at index * {@code p}, where {@code p} is the buffer's {@link ByteBuffer#position() * position} when this method is invoked. Upon return the buffer's position * will be equal to {@code p + n} where {@code n} is the number of bytes * read from the buffer.

* *

If there are bytes following the module descriptor then it is * implementation specific as to whether those bytes are read, ignored, * or reported as an {@code InvalidModuleDescriptorException}. If this * method fails with an {@code InvalidModuleDescriptorException} then it * may do so after some, but not all, bytes have been read.

* * @apiNote The {@code packageFinder} parameter is for use when reading * module descriptors from legacy module-artifact formats that do not * record the set of packages in the descriptor itself. * * @param bb * The byte buffer * @param packageFinder * A supplier that can produce the set of packages * * @return The module descriptor * * @throws InvalidModuleDescriptorException * If an invalid module descriptor is detected or the set of * packages returned by the {@code packageFinder} does not include * all of the packages obtained from the module descriptor */ public static ModuleDescriptor read(ByteBuffer bb, Supplier> packageFinder) { return ModuleInfo.read(bb, requireNonNull(packageFinder)).descriptor(); } /** * Reads the binary form of a module declaration from a byte buffer as a * module descriptor. This method works exactly as specified by the 2-arg * {@link #read(ByteBuffer,Supplier) read} method with the exception that a * packager finder is not used to find additional packages when the module * descriptor encoded in the buffer does not indicate the set of packages. * * @param bb * The byte buffer * * @return The module descriptor * * @throws InvalidModuleDescriptorException * If an invalid module descriptor is detected */ public static ModuleDescriptor read(ByteBuffer bb) { return ModuleInfo.read(bb, null).descriptor(); } private static String packageName(String cn) { int index = cn.lastIndexOf('.'); return (index == -1) ? "" : cn.substring(0, index); } /** * Returns a string containing the given set of modifiers and label. */ private static String toString(Set mods, String what) { return (Stream.concat(mods.stream().map(e -> e.toString() .toLowerCase(Locale.ROOT)), Stream.of(what))) .collect(Collectors.joining(" ")); } private static > int compare(T obj1, T obj2) { if (obj1 != null) { return (obj2 != null) ? obj1.compareTo(obj2) : 1; } else { return (obj2 == null) ? 0 : -1; } } /** * Compares two sets of {@code Comparable} objects. */ @SuppressWarnings("unchecked") private static > int compare(Set s1, Set s2) { T[] a1 = (T[]) s1.toArray(); T[] a2 = (T[]) s2.toArray(); Arrays.sort(a1); Arrays.sort(a2); return Arrays.compare(a1, a2); } private static > long modsValue(Set set) { long value = 0; for (Enum e : set) { value += 1 << e.ordinal(); } return value; } static { /** * Setup the shared secret to allow code in other packages access * private package methods in java.lang.module. */ jdk.internal.access.SharedSecrets .setJavaLangModuleAccess(new jdk.internal.access.JavaLangModuleAccess() { @Override public Builder newModuleBuilder(String mn, boolean strict, Set modifiers) { return new Builder(mn, strict, modifiers); } @Override public Set packages(ModuleDescriptor.Builder builder) { return builder.packages(); } @Override public void requires(ModuleDescriptor.Builder builder, Set ms, String mn, String rawCompiledVersion) { builder.requires(ms, mn, rawCompiledVersion); } @Override public Requires newRequires(Set ms, String mn, Version v) { return new Requires(ms, mn, v, true); } @Override public Exports newExports(Set ms, String source) { return new Exports(ms, source, Set.of(), true); } @Override public Exports newExports(Set ms, String source, Set targets) { return new Exports(ms, source, targets, true); } @Override public Opens newOpens(Set ms, String source, Set targets) { return new Opens(ms, source, targets, true); } @Override public Opens newOpens(Set ms, String source) { return new Opens(ms, source, Set.of(), true); } @Override public Provides newProvides(String service, List providers) { return new Provides(service, providers, true); } @Override public ModuleDescriptor newModuleDescriptor(String name, Version version, Set modifiers, Set requires, Set exports, Set opens, Set uses, Set provides, Set packages, String mainClass, int hashCode) { return new ModuleDescriptor(name, version, modifiers, requires, exports, opens, uses, provides, packages, mainClass, hashCode, false); } @Override public Configuration resolveAndBind(ModuleFinder finder, Collection roots, PrintStream traceOutput) { return Configuration.resolveAndBind(finder, roots, traceOutput); } @Override public Configuration newConfiguration(ModuleFinder finder, Map> graph) { return new Configuration(finder, graph); } }); } }