jdk/src/java.base/share/classes/java/lang/module/ModuleFinder.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2014, 2016, 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.File;
 import java.io.FilePermission;
 import java.nio.file.Files;
 import java.nio.file.Path;
 import java.nio.file.Paths;
 import java.security.AccessController;
 import java.security.Permission;
 import java.security.PrivilegedAction;
 import java.util.Arrays;
 import java.util.Collections;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.List;
 import java.util.Map;
 import java.util.Objects;
 import java.util.Optional;
 import java.util.Set;

 import sun.security.action.GetPropertyAction;

 /**
  * A finder of modules. A {@code ModuleFinder} is used to find modules during
  * <a href="Configuration.html#resolution">resolution</a> or
  * <a href="Configuration.html#servicebinding">service binding</a>.
  *
  * <p> A {@code ModuleFinder} can only find one module with a given name. A
  * {@code ModuleFinder} that finds modules in a sequence of directories, for
  * example, will locate the first occurrence of a module of a given name and
  * will ignore other modules of that name that appear in directories later in
  * the sequence. </p>
  *
  * <p> Example usage: </p>
  *
  * <pre>{@code
  *     Path dir1, dir2, dir3;
  *
  *     ModuleFinder finder = ModuleFinder.of(dir1, dir2, dir3);
  *
  *     Optional<ModuleReference> omref = finder.find("jdk.foo");
  *     omref.ifPresent(mref -> ... );
  *
  * }</pre>
  *
  * <p> The {@link #find(String) find} and {@link #findAll() findAll} methods
  * defined here can fail for several reasons. These include I/O errors, errors
  * detected parsing a module descriptor ({@code module-info.class}), or in the
  * case of {@code ModuleFinder} returned by {@link #of ModuleFinder.of}, that
  * two or more modules with the same name are found in a directory.
  * When an error is detected then these methods throw {@link FindException
  * FindException} with an appropriate {@link Throwable#getCause cause}.
  * The behavior of a {@code ModuleFinder} after a {@code FindException} is
  * thrown is undefined. For example, invoking {@code find} after an exception
  * is thrown may or may not scan the same modules that lead to the exception.
  * It is recommended that a module finder be discarded after an exception is
  * thrown. </p>
  *
  * <p> A {@code ModuleFinder} is not required to be thread safe. </p>
  *
  * @since 9
  */

 public interface ModuleFinder {

     /**
      * Finds a reference to a module of a given name.
      *
      * <p> A {@code ModuleFinder} provides a consistent view of the
      * modules that it locates. If {@code find} is invoked several times to
      * locate the same module (by name) then it will return the same result
      * each time. If a module is located then it is guaranteed to be a member
      * of the set of modules returned by the {@link #findAll() findAll}
      * method. </p>
      *
      * @param  name
      *         The name of the module to find
      *
      * @return A reference to a module with the given name or an empty
      *         {@code Optional} if not found
      *
      * @throws FindException
      *         If an error occurs finding the module
      *
      * @throws SecurityException
      *         If denied by the security manager
      */
     Optional<ModuleReference> find(String name);

     /**
      * Returns the set of all module references that this finder can locate.
      *
      * <p> A {@code ModuleFinder} provides a consistent view of the modules
      * that it locates. If {@link #findAll() findAll} is invoked several times
      * then it will return the same (equals) result each time. For each {@code
      * ModuleReference} element in the returned set then it is guaranteed that
      * {@link #find find} will locate the {@code ModuleReference} if invoked
      * to find that module. </p>
      *
      * @apiNote This is important to have for methods such as {@link
      * Configuration#resolveRequiresAndUses resolveRequiresAndUses} that need
      * to scan the module path to find modules that provide a specific service.
      *
      * @return The set of all module references that this finder locates
      *
      * @throws FindException
      *         If an error occurs finding all modules
      *
      * @throws SecurityException
      *         If denied by the security manager
      */
     Set<ModuleReference> findAll();

     /**
      * Returns a module finder that locates the <em>system modules</em>. The
      * system modules are typically linked into the Java run-time image.
      * The module finder will always find {@code java.base}.
      *
      * <p> If there is a security manager set then its {@link
      * SecurityManager#checkPermission(Permission) checkPermission} method is
      * invoked to check that the caller has been granted {@link FilePermission}
      * to recursively read the directory that is the value of the system
      * property {@code java.home}. </p>
      *
      * @return A {@code ModuleFinder} that locates the system modules
      *
      * @throws SecurityException
      *         If denied by the security manager
      */
     static ModuleFinder ofSystem() {
         String home;

         SecurityManager sm = System.getSecurityManager();
         if (sm != null) {
             PrivilegedAction<String> pa = new GetPropertyAction("java.home");
             home = AccessController.doPrivileged(pa);
             Permission p = new FilePermission(home + File.separator + "-", "read");
             sm.checkPermission(p);
         } else {
             home = System.getProperty("java.home");
         }

         Path modules = Paths.get(home, "lib", "modules");
         if (Files.isRegularFile(modules)) {
             return new SystemModuleFinder();
         } else {
             Path mlib = Paths.get(home, "modules");
             if (Files.isDirectory(mlib)) {
                 return of(mlib);
             } else {
                 throw new InternalError("Unable to detect the run-time image");
             }
         }
     }

     /**
      * Returns a module finder that locates modules on the file system by
      * searching a sequence of directories and/or packaged modules.
      *
      * Each element in the given array is one of:
      * <ol>
      *     <li><p> A path to a directory of modules.</p></li>
      *     <li><p> A path to the <em>top-level</em> directory of an
      *         <em>exploded module</em>. </p></li>
      *     <li><p> A path to a <em>packaged module</em>. </p></li>
      * </ol>
      *
      * The module finder locates modules by searching each directory, exploded
      * module, or packaged module in array index order. It finds the first
      * occurrence of a module with a given name and ignores other modules of
      * that name that appear later in the sequence.
      *
      * <p> If an element is a path to a directory of modules then each entry in
      * the directory is a packaged module or the top-level directory of an
      * exploded module. The module finder's {@link #find(String) find} or
      * {@link #findAll() findAll} methods throw {@link FindException} if a
      * directory containing more than one module with the same name is
      * encountered. </p>
      *
      * <p> If an element in the array is a path to a directory, and that
      * directory contains a file named {@code module-info.class}, then the
      * directory is treated as an exploded module rather than a directory of
      * modules. </p>
      *
      * <p> The module finder returned by this method supports modules that are
      * packaged as JAR files. A JAR file with a {@code module-info.class} in
      * the top-level directory of the JAR file (or overridden by a versioned
      * entry in a {@link java.util.jar.JarFile#isMultiRelease() multi-release}
      * JAR file) is a modular JAR and is an <em>explicit module</em>.
      * A JAR file that does not have a {@code module-info.class} in the
      * top-level directory is an {@link ModuleDescriptor#isAutomatic automatic}
      * module. The {@link ModuleDescriptor} for an automatic module is created as
      * follows:
      *
      * <ul>
      *
      *     <li><p> The module {@link ModuleDescriptor#name() name}, and {@link
      *     ModuleDescriptor#version() version} if applicable, is derived from
      *     the file name of the JAR file as follows: </p>
      *
      *     <ul>
      *
      *         <li><p> The {@code .jar} suffix is removed. </p></li>
      *
      *         <li><p> If the name matches the regular expression {@code
      *         "-(\\d+(\\.|$))"} then the module name will be derived from the
      *         subsequence proceeding the hyphen of the first occurrence. The
      *         subsequence after the hyphen is parsed as a {@link
      *         ModuleDescriptor.Version} and ignored if it cannot be parsed as
      *         a {@code Version}. </p></li>
      *
      *         <li><p> For the module name, then all non-alphanumeric
      *         characters ({@code [^A-Za-z0-9])} are replaced with a dot
      *         ({@code "."}), all repeating dots are replaced with one dot,
      *         and all leading and trailing dots are removed. </p></li>
      *
      *         <li><p> As an example, a JAR file named {@code foo-bar.jar} will
      *         derive a module name {@code foo.bar} and no version. A JAR file
      *         named {@code foo-1.2.3-SNAPSHOT.jar} will derive a module name
      *         {@code foo} and {@code 1.2.3-SNAPSHOT} as the version. </p></li>
      *
      *     </ul></li>
      *
      *     <li><p> It {@link ModuleDescriptor#requires() requires} {@code
      *     java.base}. </p></li>
      *
      *     <li><p> All entries in the JAR file with names ending with {@code
      *     .class} are assumed to be class files where the name corresponds
      *     to the fully qualified name of the class. The packages of all
      *     classes are {@link ModuleDescriptor#exports() exported}. </p></li>
      *
      *     <li><p> The contents of all entries starting with {@code
      *     META-INF/services/} are assumed to be service configuration files
      *     (see {@link java.util.ServiceLoader}). The name of the file
      *     (that follows {@code META-INF/services/}) is assumed to be the
      *     fully-qualified binary name of a service type. The entries in the
      *     file are assumed to be the fully-qualified binary names of
      *     provider classes. </p></li>
      *
      *     <li><p> If the JAR file has a {@code Main-Class} attribute in its
      *     main manifest then its value is the {@link
      *     ModuleDescriptor#mainClass() main class}. </p></li>
      *
      * </ul>
      *
      * <p> If a {@code ModuleDescriptor} cannot be created (by means of the
      * {@link ModuleDescriptor.Builder ModuleDescriptor.Builder} API) for an
      * automatic module then {@code FindException} is thrown. This can arise,
      * for example, when a legal Java identifier name cannot be derived from
      * the file name of the JAR file or where a package name derived from an
      * entry ending with {@code .class} is not a legal Java identifier. </p>
      *
      * <p> In addition to JAR files, an implementation may also support modules
      * that are packaged in other implementation specific module formats. When
      * a file is encountered that is not recognized as a packaged module then
      * {@code FindException} is thrown. An implementation may choose to ignore
      * some files, {@link java.nio.file.Files#isHidden hidden} files for
      * example. Paths to files that do not exist are always ignored. </p>
      *
      * <p> As with automatic modules, the contents of a packaged or exploded
      * module may need to be <em>scanned</em> in order to determine the packages
      * in the module. If a {@code .class} file that corresponds to a class in an
      * unnamed package is encountered then {@code FindException} is thrown. </p>
      *
      * <p> Finders created by this method are lazy and do not eagerly check
      * that the given file paths are directories or packaged modules.
      * Consequently, the {@code find} or {@code findAll} methods will only
      * fail if invoking these methods results in searching a directory or
      * packaged module and an error is encountered. </p>
      *
      * @param entries
      *        A possibly-empty array of paths to directories of modules
      *        or paths to packaged or exploded modules
      *
      * @return A {@code ModuleFinder} that locates modules on the file system
      */
     static ModuleFinder of(Path... entries) {
         // special case zero entries
         if (entries.length == 0) {
             return new ModuleFinder() {
                 @Override
                 public Optional<ModuleReference> find(String name) {
                     Objects.requireNonNull(name);
                     return Optional.empty();
                 }

                 @Override
                 public Set<ModuleReference> findAll() {
                     return Collections.emptySet();
                 }
             };
         }

         return new ModulePath(entries);
     }

     /**
      * Returns a module finder that is composed from a sequence of zero or more
      * module finders. The {@link #find(String) find} method of the resulting
      * module finder will locate a module by invoking the {@code find} method
      * of each module finder, in array index order, until either the module is
      * found or all module finders have been searched. The {@link #findAll()
      * findAll} method of the resulting module finder will return a set of
      * modules that includes all modules located by the first module finder.
      * The set of modules will include all modules located by the second or
      * subsequent module finder that are not located by previous module finders
      * in the sequence.
      *
      * <p> When locating modules then any exceptions or errors thrown by the
      * {@code find} or {@code findAll} methods of the underlying module finders
      * will be propogated to the caller of the resulting module finder's
      * {@code find} or {@code findAll} methods. </p>
      *
      * @param finders
      *        The array of module finders
      *
      * @return A {@code ModuleFinder} that composes a sequence of module finders
      */
     static ModuleFinder compose(ModuleFinder... finders) {
         final List<ModuleFinder> finderList = Arrays.asList(finders);
         finderList.forEach(Objects::requireNonNull);

         return new ModuleFinder() {
             private final Map<String, ModuleReference> nameToModule = new HashMap<>();
             private Set<ModuleReference> allModules;

             @Override
             public Optional<ModuleReference> find(String name) {
                 // cached?
                 ModuleReference mref = nameToModule.get(name);
                 if (mref != null)
                     return Optional.of(mref);
                 Optional<ModuleReference> omref = finderList.stream()
                         .map(f -> f.find(name))
                         .flatMap(Optional::stream)
                         .findFirst();
                 omref.ifPresent(m -> nameToModule.put(name, m));
                 return omref;
             }

             @Override
             public Set<ModuleReference> findAll() {
                 if (allModules != null)
                     return allModules;
                 // seed with modules already found
                 Set<ModuleReference> result = new HashSet<>(nameToModule.values());
                 finderList.stream()
                           .flatMap(f -> f.findAll().stream())
                           .forEach(mref -> {
                               String name = mref.descriptor().name();
                               if (nameToModule.putIfAbsent(name, mref) == null) {
                                   result.add(mref);
                               }
                           });
                 allModules = Collections.unmodifiableSet(result);
                 return allModules;
             }
         };
     }

 }
	/*
	* Copyright (c) 2014, 2016, 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.File;
	import java.io.FilePermission;
	import java.nio.file.Files;
	import java.nio.file.Path;
	import java.nio.file.Paths;
	import java.security.AccessController;
	import java.security.Permission;
	import java.security.PrivilegedAction;
	import java.util.Arrays;
	import java.util.Collections;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.List;
	import java.util.Map;
	import java.util.Objects;
	import java.util.Optional;
	import java.util.Set;

	import sun.security.action.GetPropertyAction;

	/**
	* A finder of modules. A {@code ModuleFinder} is used to find modules during
	* <a href="Configuration.html#resolution">resolution</a> or
	* <a href="Configuration.html#servicebinding">service binding</a>.
	*
	* <p> A {@code ModuleFinder} can only find one module with a given name. A
	* {@code ModuleFinder} that finds modules in a sequence of directories, for
	* example, will locate the first occurrence of a module of a given name and
	* will ignore other modules of that name that appear in directories later in
	* the sequence. </p>
	*
	* <p> Example usage: </p>
	*
	* <pre>{@code
	* Path dir1, dir2, dir3;
	*
	* ModuleFinder finder = ModuleFinder.of(dir1, dir2, dir3);
	*
	* Optional<ModuleReference> omref = finder.find("jdk.foo");
	* omref.ifPresent(mref -> ... );
	*
	* }</pre>
	*
	* <p> The {@link #find(String) find} and {@link #findAll() findAll} methods
	* defined here can fail for several reasons. These include I/O errors, errors
	* detected parsing a module descriptor ({@code module-info.class}), or in the
	* case of {@code ModuleFinder} returned by {@link #of ModuleFinder.of}, that
	* two or more modules with the same name are found in a directory.
	* When an error is detected then these methods throw {@link FindException
	* FindException} with an appropriate {@link Throwable#getCause cause}.
	* The behavior of a {@code ModuleFinder} after a {@code FindException} is
	* thrown is undefined. For example, invoking {@code find} after an exception
	* is thrown may or may not scan the same modules that lead to the exception.
	* It is recommended that a module finder be discarded after an exception is
	* thrown. </p>
	*
	* <p> A {@code ModuleFinder} is not required to be thread safe. </p>
	*
	* @since 9
	*/

	public interface ModuleFinder {

	/**
	* Finds a reference to a module of a given name.
	*
	* <p> A {@code ModuleFinder} provides a consistent view of the
	* modules that it locates. If {@code find} is invoked several times to
	* locate the same module (by name) then it will return the same result
	* each time. If a module is located then it is guaranteed to be a member
	* of the set of modules returned by the {@link #findAll() findAll}
	* method. </p>
	*
	* @param name
	* The name of the module to find
	*
	* @return A reference to a module with the given name or an empty
	* {@code Optional} if not found
	*
	* @throws FindException
	* If an error occurs finding the module
	*
	* @throws SecurityException
	* If denied by the security manager
	*/
	Optional<ModuleReference> find(String name);

	/**
	* Returns the set of all module references that this finder can locate.
	*
	* <p> A {@code ModuleFinder} provides a consistent view of the modules
	* that it locates. If {@link #findAll() findAll} is invoked several times
	* then it will return the same (equals) result each time. For each {@code
	* ModuleReference} element in the returned set then it is guaranteed that
	* {@link #find find} will locate the {@code ModuleReference} if invoked
	* to find that module. </p>
	*
	* @apiNote This is important to have for methods such as {@link
	* Configuration#resolveRequiresAndUses resolveRequiresAndUses} that need
	* to scan the module path to find modules that provide a specific service.
	*
	* @return The set of all module references that this finder locates
	*
	* @throws FindException
	* If an error occurs finding all modules
	*
	* @throws SecurityException
	* If denied by the security manager
	*/
	Set<ModuleReference> findAll();

	/**
	* Returns a module finder that locates the <em>system modules</em>. The
	* system modules are typically linked into the Java run-time image.
	* The module finder will always find {@code java.base}.
	*
	* <p> If there is a security manager set then its {@link
	* SecurityManager#checkPermission(Permission) checkPermission} method is
	* invoked to check that the caller has been granted {@link FilePermission}
	* to recursively read the directory that is the value of the system
	* property {@code java.home}. </p>
	*
	* @return A {@code ModuleFinder} that locates the system modules
	*
	* @throws SecurityException
	* If denied by the security manager
	*/
	static ModuleFinder ofSystem() {
	String home;

	SecurityManager sm = System.getSecurityManager();
	if (sm != null) {
	PrivilegedAction<String> pa = new GetPropertyAction("java.home");
	home = AccessController.doPrivileged(pa);
	Permission p = new FilePermission(home + File.separator + "-", "read");
	sm.checkPermission(p);
	} else {
	home = System.getProperty("java.home");
	}

	Path modules = Paths.get(home, "lib", "modules");
	if (Files.isRegularFile(modules)) {
	return new SystemModuleFinder();
	} else {
	Path mlib = Paths.get(home, "modules");
	if (Files.isDirectory(mlib)) {
	return of(mlib);
	} else {
	throw new InternalError("Unable to detect the run-time image");
	}
	}
	}

	/**
	* Returns a module finder that locates modules on the file system by
	* searching a sequence of directories and/or packaged modules.
	*
	* Each element in the given array is one of:
	* <ol>
	* <li><p> A path to a directory of modules.</p></li>
	* <li><p> A path to the <em>top-level</em> directory of an
	* <em>exploded module</em>. </p></li>
	* <li><p> A path to a <em>packaged module</em>. </p></li>
	* </ol>
	*
	* The module finder locates modules by searching each directory, exploded
	* module, or packaged module in array index order. It finds the first
	* occurrence of a module with a given name and ignores other modules of
	* that name that appear later in the sequence.
	*
	* <p> If an element is a path to a directory of modules then each entry in
	* the directory is a packaged module or the top-level directory of an
	* exploded module. The module finder's {@link #find(String) find} or
	* {@link #findAll() findAll} methods throw {@link FindException} if a
	* directory containing more than one module with the same name is
	* encountered. </p>
	*
	* <p> If an element in the array is a path to a directory, and that
	* directory contains a file named {@code module-info.class}, then the
	* directory is treated as an exploded module rather than a directory of
	* modules. </p>
	*
	* <p> The module finder returned by this method supports modules that are
	* packaged as JAR files. A JAR file with a {@code module-info.class} in
	* the top-level directory of the JAR file (or overridden by a versioned
	* entry in a {@link java.util.jar.JarFile#isMultiRelease() multi-release}
	* JAR file) is a modular JAR and is an <em>explicit module</em>.
	* A JAR file that does not have a {@code module-info.class} in the
	* top-level directory is an {@link ModuleDescriptor#isAutomatic automatic}
	* module. The {@link ModuleDescriptor} for an automatic module is created as
	* follows:
	*
	* <ul>
	*
	* <li><p> The module {@link ModuleDescriptor#name() name}, and {@link
	* ModuleDescriptor#version() version} if applicable, is derived from
	* the file name of the JAR file as follows: </p>
	*
	* <ul>
	*
	* <li><p> The {@code .jar} suffix is removed. </p></li>
	*
	* <li><p> If the name matches the regular expression {@code
	* "-(\\d+(\\.\|$))"} then the module name will be derived from the
	* subsequence proceeding the hyphen of the first occurrence. The
	* subsequence after the hyphen is parsed as a {@link
	* ModuleDescriptor.Version} and ignored if it cannot be parsed as
	* a {@code Version}. </p></li>
	*
	* <li><p> For the module name, then all non-alphanumeric
	* characters ({@code [^A-Za-z0-9])} are replaced with a dot
	* ({@code "."}), all repeating dots are replaced with one dot,
	* and all leading and trailing dots are removed. </p></li>
	*
	* <li><p> As an example, a JAR file named {@code foo-bar.jar} will
	* derive a module name {@code foo.bar} and no version. A JAR file
	* named {@code foo-1.2.3-SNAPSHOT.jar} will derive a module name
	* {@code foo} and {@code 1.2.3-SNAPSHOT} as the version. </p></li>
	*
	* </ul></li>
	*
	* <li><p> It {@link ModuleDescriptor#requires() requires} {@code
	* java.base}. </p></li>
	*
	* <li><p> All entries in the JAR file with names ending with {@code
	* .class} are assumed to be class files where the name corresponds
	* to the fully qualified name of the class. The packages of all
	* classes are {@link ModuleDescriptor#exports() exported}. </p></li>
	*
	* <li><p> The contents of all entries starting with {@code
	* META-INF/services/} are assumed to be service configuration files
	* (see {@link java.util.ServiceLoader}). The name of the file
	* (that follows {@code META-INF/services/}) is assumed to be the
	* fully-qualified binary name of a service type. The entries in the
	* file are assumed to be the fully-qualified binary names of
	* provider classes. </p></li>
	*
	* <li><p> If the JAR file has a {@code Main-Class} attribute in its
	* main manifest then its value is the {@link
	* ModuleDescriptor#mainClass() main class}. </p></li>
	*
	* </ul>
	*
	* <p> If a {@code ModuleDescriptor} cannot be created (by means of the
	* {@link ModuleDescriptor.Builder ModuleDescriptor.Builder} API) for an
	* automatic module then {@code FindException} is thrown. This can arise,
	* for example, when a legal Java identifier name cannot be derived from
	* the file name of the JAR file or where a package name derived from an
	* entry ending with {@code .class} is not a legal Java identifier. </p>
	*
	* <p> In addition to JAR files, an implementation may also support modules
	* that are packaged in other implementation specific module formats. When
	* a file is encountered that is not recognized as a packaged module then
	* {@code FindException} is thrown. An implementation may choose to ignore
	* some files, {@link java.nio.file.Files#isHidden hidden} files for
	* example. Paths to files that do not exist are always ignored. </p>
	*
	* <p> As with automatic modules, the contents of a packaged or exploded
	* module may need to be <em>scanned</em> in order to determine the packages
	* in the module. If a {@code .class} file that corresponds to a class in an
	* unnamed package is encountered then {@code FindException} is thrown. </p>
	*
	* <p> Finders created by this method are lazy and do not eagerly check
	* that the given file paths are directories or packaged modules.
	* Consequently, the {@code find} or {@code findAll} methods will only
	* fail if invoking these methods results in searching a directory or
	* packaged module and an error is encountered. </p>
	*
	* @param entries
	* A possibly-empty array of paths to directories of modules
	* or paths to packaged or exploded modules
	*
	* @return A {@code ModuleFinder} that locates modules on the file system
	*/
	static ModuleFinder of(Path... entries) {
	// special case zero entries
	if (entries.length == 0) {
	return new ModuleFinder() {
	@Override
	public Optional<ModuleReference> find(String name) {
	Objects.requireNonNull(name);
	return Optional.empty();
	}

	@Override
	public Set<ModuleReference> findAll() {
	return Collections.emptySet();
	}
	};
	}

	return new ModulePath(entries);
	}

	/**
	* Returns a module finder that is composed from a sequence of zero or more
	* module finders. The {@link #find(String) find} method of the resulting
	* module finder will locate a module by invoking the {@code find} method
	* of each module finder, in array index order, until either the module is
	* found or all module finders have been searched. The {@link #findAll()
	* findAll} method of the resulting module finder will return a set of
	* modules that includes all modules located by the first module finder.
	* The set of modules will include all modules located by the second or
	* subsequent module finder that are not located by previous module finders
	* in the sequence.
	*
	* <p> When locating modules then any exceptions or errors thrown by the
	* {@code find} or {@code findAll} methods of the underlying module finders
	* will be propogated to the caller of the resulting module finder's
	* {@code find} or {@code findAll} methods. </p>
	*
	* @param finders
	* The array of module finders
	*
	* @return A {@code ModuleFinder} that composes a sequence of module finders
	*/
	static ModuleFinder compose(ModuleFinder... finders) {
	final List<ModuleFinder> finderList = Arrays.asList(finders);
	finderList.forEach(Objects::requireNonNull);

	return new ModuleFinder() {
	private final Map<String, ModuleReference> nameToModule = new HashMap<>();
	private Set<ModuleReference> allModules;

	@Override
	public Optional<ModuleReference> find(String name) {
	// cached?
	ModuleReference mref = nameToModule.get(name);
	if (mref != null)
	return Optional.of(mref);
	Optional<ModuleReference> omref = finderList.stream()
	.map(f -> f.find(name))
	.flatMap(Optional::stream)
	.findFirst();
	omref.ifPresent(m -> nameToModule.put(name, m));
	return omref;
	}

	@Override
	public Set<ModuleReference> findAll() {
	if (allModules != null)
	return allModules;
	// seed with modules already found
	Set<ModuleReference> result = new HashSet<>(nameToModule.values());
	finderList.stream()
	.flatMap(f -> f.findAll().stream())
	.forEach(mref -> {
	String name = mref.descriptor().name();
	if (nameToModule.putIfAbsent(name, mref) == null) {
	result.add(mref);
	}
	});
	allModules = Collections.unmodifiableSet(result);
	return allModules;
	}
	};
	}

	}