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package org.reflections;

import com.google.common.base.Joiner;
import com.google.common.base.Predicate;
import com.google.common.collect.Iterables;
import com.google.common.collect.Lists;
import com.google.common.collect.Multimap;
import com.google.common.collect.Sets;
import org.reflections.scanners.*;
import org.reflections.scanners.Scanner;
import org.reflections.serializers.Serializer;
import org.reflections.serializers.XmlSerializer;
import org.reflections.util.ClasspathHelper;
import org.reflections.util.ConfigurationBuilder;
import org.reflections.util.FilterBuilder;
import org.reflections.util.Utils;
import org.reflections.vfs.Vfs;
import org.slf4j.Logger;

import javax.annotation.Nullable;
import java.io.*;
import java.lang.annotation.Annotation;
import java.lang.annotation.Inherited;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.Member;
import java.lang.reflect.Method;
import java.net.URL;
import java.util.*;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Future;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.regex.Pattern;

import static com.google.common.base.Predicates.in;
import static com.google.common.base.Predicates.not;
import static com.google.common.collect.Iterables.concat;
import static java.lang.String.format;
import static org.reflections.ReflectionUtils.*;
import static org.reflections.util.Utils.*;

/**
 * Reflections one-stop-shop object
 * 

Reflections scans your classpath, indexes the metadata, allows you to query it on runtime and may save and collect that information for many modules within your project. *

Using Reflections you can query your metadata such as: *

    *
  • get all subtypes of some type *
  • get all types/constructors/methods/fields annotated with some annotation, optionally with annotation parameters matching *
  • get all resources matching matching a regular expression *
  • get all methods with specific signature including parameters, parameter annotations and return type *
  • get all methods parameter names *
  • get all fields/methods/constructors usages in code *
*

A typical use of Reflections would be: *

 *      Reflections reflections = new Reflections("my.project.prefix");
 *
 *      Set<Class<? extends SomeType>> subTypes = reflections.getSubTypesOf(SomeType.class);
 *
 *      Set<Class<?>> annotated = reflections.getTypesAnnotatedWith(SomeAnnotation.class);
 * 
*

Basically, to use Reflections first instantiate it with one of the constructors, then depending on the scanners, use the convenient query methods: *

 *      Reflections reflections = new Reflections("my.package.prefix");
 *      //or
 *      Reflections reflections = new Reflections(ClasspathHelper.forPackage("my.package.prefix"), 
 *            new SubTypesScanner(), new TypesAnnotationScanner(), new FilterBuilder().include(...), ...);
 *
 *       //or using the ConfigurationBuilder
 *       new Reflections(new ConfigurationBuilder()
 *            .filterInputsBy(new FilterBuilder().include(FilterBuilder.prefix("my.project.prefix")))
 *            .setUrls(ClasspathHelper.forPackage("my.project.prefix"))
 *            .setScanners(new SubTypesScanner(), new TypeAnnotationsScanner().filterResultsBy(optionalFilter), ...));
 * 
* And then query, for example: *
 *       Set<Class<? extends Module>> modules = reflections.getSubTypesOf(com.google.inject.Module.class);
 *       Set<Class<?>> singletons =             reflections.getTypesAnnotatedWith(javax.inject.Singleton.class);
 *
 *       Set<String> properties =       reflections.getResources(Pattern.compile(".*\\.properties"));
 *       Set<Constructor> injectables = reflections.getConstructorsAnnotatedWith(javax.inject.Inject.class);
 *       Set<Method> deprecateds =      reflections.getMethodsAnnotatedWith(javax.ws.rs.Path.class);
 *       Set<Field> ids =               reflections.getFieldsAnnotatedWith(javax.persistence.Id.class);
 *
 *       Set<Method> someMethods =      reflections.getMethodsMatchParams(long.class, int.class);
 *       Set<Method> voidMethods =      reflections.getMethodsReturn(void.class);
 *       Set<Method> pathParamMethods = reflections.getMethodsWithAnyParamAnnotated(PathParam.class);
 *       Set<Method> floatToString =    reflections.getConverters(Float.class, String.class);
 *       List<String> parameterNames =  reflections.getMethodsParamNames(Method.class);
 *
 *       Set<Member> fieldUsage =       reflections.getFieldUsage(Field.class);
 *       Set<Member> methodUsage =      reflections.getMethodUsage(Method.class);
 *       Set<Member> constructorUsage = reflections.getConstructorUsage(Constructor.class);
 * 
*

You can use other scanners defined in Reflections as well, such as: SubTypesScanner, TypeAnnotationsScanner (both default), * ResourcesScanner, MethodAnnotationsScanner, ConstructorAnnotationsScanner, FieldAnnotationsScanner, * MethodParameterScanner, MethodParameterNamesScanner, MemberUsageScanner or any custom scanner. *

Use {@link #getStore()} to access and query the store directly *

In order to save the store metadata, use {@link #save(String)} or {@link #save(String, org.reflections.serializers.Serializer)} * for example with {@link org.reflections.serializers.XmlSerializer} or {@link org.reflections.serializers.JavaCodeSerializer} *

In order to collect pre saved metadata and avoid re-scanning, use {@link #collect(String, com.google.common.base.Predicate, org.reflections.serializers.Serializer...)}} *

Make sure to scan all the transitively relevant packages. *
for instance, given your class C extends B extends A, and both B and A are located in another package than C, * when only the package of C is scanned - then querying for sub types of A returns nothing (transitive), but querying for sub types of B returns C (direct). * In that case make sure to scan all relevant packages a priori.
*

For Javadoc, source code, and more information about Reflections Library, see http://github.com/ronmamo/reflections/ */ public class Reflections { @Nullable public static Logger log = findLogger(Reflections.class); protected final transient Configuration configuration; protected Store store; /** * constructs a Reflections instance and scan according to given {@link org.reflections.Configuration} *

it is preferred to use {@link org.reflections.util.ConfigurationBuilder} */ public Reflections(final Configuration configuration) { this.configuration = configuration; store = new Store(configuration); if (configuration.getScanners() != null && !configuration.getScanners().isEmpty()) { //inject to scanners for (Scanner scanner : configuration.getScanners()) { scanner.setConfiguration(configuration); scanner.setStore(store.getOrCreate(scanner.getClass().getSimpleName())); } scan(); } } /** * a convenient constructor for scanning within a package prefix. *

this actually create a {@link org.reflections.Configuration} with: *
- urls that contain resources with name {@code prefix} *
- filterInputsBy where name starts with the given {@code prefix} *
- scanners set to the given {@code scanners}, otherwise defaults to {@link org.reflections.scanners.TypeAnnotationsScanner} and {@link org.reflections.scanners.SubTypesScanner}. * @param prefix package prefix, to be used with {@link org.reflections.util.ClasspathHelper#forPackage(String, ClassLoader...)} )} * @param scanners optionally supply scanners, otherwise defaults to {@link org.reflections.scanners.TypeAnnotationsScanner} and {@link org.reflections.scanners.SubTypesScanner} */ public Reflections(final String prefix, @Nullable final Scanner... scanners) { this((Object) prefix, scanners); } /** * a convenient constructor for Reflections, where given {@code Object...} parameter types can be either: *

    *
  • {@link String} - would add urls using {@link org.reflections.util.ClasspathHelper#forPackage(String, ClassLoader...)} ()}
  • *
  • {@link Class} - would add urls using {@link org.reflections.util.ClasspathHelper#forClass(Class, ClassLoader...)}
  • *
  • {@link ClassLoader} - would use this classloaders in order to find urls in {@link org.reflections.util.ClasspathHelper#forPackage(String, ClassLoader...)} and {@link org.reflections.util.ClasspathHelper#forClass(Class, ClassLoader...)}
  • *
  • {@link org.reflections.scanners.Scanner} - would use given scanner, overriding the default scanners
  • *
  • {@link java.net.URL} - would add the given url for scanning
  • *
  • {@link Object[]} - would use each element as above
  • *
* * use any parameter type in any order. this constructor uses instanceof on each param and instantiate a {@link org.reflections.util.ConfigurationBuilder} appropriately. * if you prefer the usual statically typed constructor, don't use this, although it can be very useful. * *

for example: *
     *     new Reflections("my.package", classLoader);
     *     //or
     *     new Reflections("my.package", someScanner, anotherScanner, classLoader);
     *     //or
     *     new Reflections(myUrl, myOtherUrl);
     * 
*/ public Reflections(final Object... params) { this(ConfigurationBuilder.build(params)); } protected Reflections() { configuration = new ConfigurationBuilder(); store = new Store(configuration); } // protected void scan() { if (configuration.getUrls() == null || configuration.getUrls().isEmpty()) { if (log != null) log.warn("given scan urls are empty. set urls in the configuration"); return; } if (log != null && log.isDebugEnabled()) { log.debug("going to scan these urls:\n" + Joiner.on("\n").join(configuration.getUrls())); } long time = System.currentTimeMillis(); int scannedUrls = 0; ExecutorService executorService = configuration.getExecutorService(); List> futures = Lists.newArrayList(); for (final URL url : configuration.getUrls()) { try { if (executorService != null) { futures.add(executorService.submit(new Runnable() { public void run() { if (log != null && log.isDebugEnabled()) log.debug("[" + Thread.currentThread().toString() + "] scanning " + url); scan(url); } })); } else { scan(url); } scannedUrls++; } catch (ReflectionsException e) { if (log != null && log.isWarnEnabled()) log.warn("could not create Vfs.Dir from url. ignoring the exception and continuing", e); } } //todo use CompletionService if (executorService != null) { for (Future future : futures) { try { future.get(); } catch (Exception e) { throw new RuntimeException(e); } } } time = System.currentTimeMillis() - time; if (log != null) { int keys = 0; int values = 0; for (String index : store.keySet()) { keys += store.get(index).keySet().size(); values += store.get(index).size(); } log.info(format("Reflections took %d ms to scan %d urls, producing %d keys and %d values %s", time, scannedUrls, keys, values, executorService != null && executorService instanceof ThreadPoolExecutor ? format("[using %d cores]", ((ThreadPoolExecutor) executorService).getMaximumPoolSize()) : "")); } } protected void scan(URL url) { Vfs.Dir dir = Vfs.fromURL(url); try { for (final Vfs.File file : dir.getFiles()) { // scan if inputs filter accepts file relative path or fqn Predicate inputsFilter = configuration.getInputsFilter(); String path = file.getRelativePath(); String fqn = path.replace('/', '.'); if (inputsFilter == null || inputsFilter.apply(path) || inputsFilter.apply(fqn)) { Object classObject = null; for (Scanner scanner : configuration.getScanners()) { try { if (scanner.acceptsInput(path) || scanner.acceptResult(fqn)) { classObject = scanner.scan(file, classObject); } } catch (Exception e) { if (log != null && log.isDebugEnabled()) log.debug("could not scan file " + file.getRelativePath() + " in url " + url.toExternalForm() + " with scanner " + scanner.getClass().getSimpleName(), e.getMessage()); } } } } } finally { dir.close(); } } /** collect saved Reflection xml resources and merge it into a Reflections instance *

by default, resources are collected from all urls that contains the package META-INF/reflections * and includes files matching the pattern .*-reflections.xml * */ public static Reflections collect() { return collect("META-INF/reflections/", new FilterBuilder().include(".*-reflections.xml")); } /** * collect saved Reflections resources from all urls that contains the given packagePrefix and matches the given resourceNameFilter * and de-serializes them using the default serializer {@link org.reflections.serializers.XmlSerializer} or using the optionally supplied optionalSerializer *

* it is preferred to use a designated resource prefix (for example META-INF/reflections but not just META-INF), * so that relevant urls could be found much faster * @param optionalSerializer - optionally supply one serializer instance. if not specified or null, {@link org.reflections.serializers.XmlSerializer} will be used */ public static Reflections collect(final String packagePrefix, final Predicate resourceNameFilter, @Nullable Serializer... optionalSerializer) { Serializer serializer = optionalSerializer != null && optionalSerializer.length == 1 ? optionalSerializer[0] : new XmlSerializer(); Collection urls = ClasspathHelper.forPackage(packagePrefix); if (urls.isEmpty()) return null; long start = System.currentTimeMillis(); final Reflections reflections = new Reflections(); Iterable files = Vfs.findFiles(urls, packagePrefix, resourceNameFilter); for (final Vfs.File file : files) { InputStream inputStream = null; try { inputStream = file.openInputStream(); reflections.merge(serializer.read(inputStream)); } catch (IOException e) { throw new ReflectionsException("could not merge " + file, e); } finally { close(inputStream); } } if (log != null) { Store store = reflections.getStore(); int keys = 0; int values = 0; for (String index : store.keySet()) { keys += store.get(index).keySet().size(); values += store.get(index).size(); } log.info(format("Reflections took %d ms to collect %d url%s, producing %d keys and %d values [%s]", System.currentTimeMillis() - start, urls.size(), urls.size() > 1 ? "s" : "", keys, values, Joiner.on(", ").join(urls))); } return reflections; } /** merges saved Reflections resources from the given input stream, using the serializer configured in this instance's Configuration *
useful if you know the serialized resource location and prefer not to look it up the classpath * */ public Reflections collect(final InputStream inputStream) { try { merge(configuration.getSerializer().read(inputStream)); if (log != null) log.info("Reflections collected metadata from input stream using serializer " + configuration.getSerializer().getClass().getName()); } catch (Exception ex) { throw new ReflectionsException("could not merge input stream", ex); } return this; } /** merges saved Reflections resources from the given file, using the serializer configured in this instance's Configuration *

useful if you know the serialized resource location and prefer not to look it up the classpath * */ public Reflections collect(final File file) { FileInputStream inputStream = null; try { inputStream = new FileInputStream(file); return collect(inputStream); } catch (FileNotFoundException e) { throw new ReflectionsException("could not obtain input stream from file " + file, e); } finally { Utils.close(inputStream); } } /** * merges a Reflections instance metadata into this instance */ public Reflections merge(final Reflections reflections) { if (reflections.store != null) { for (String indexName : reflections.store.keySet()) { Multimap index = reflections.store.get(indexName); for (String key : index.keySet()) { for (String string : index.get(key)) { store.getOrCreate(indexName).put(key, string); } } } } return this; } //query /** * gets all sub types in hierarchy of a given type *

depends on SubTypesScanner configured */ public Set> getSubTypesOf(final Class type) { return Sets.newHashSet(ReflectionUtils.forNames( store.getAll(index(SubTypesScanner.class), Arrays.asList(type.getName())), loaders())); } /** * get types annotated with a given annotation, both classes and annotations *

{@link java.lang.annotation.Inherited} is not honored by default. *

when honoring @Inherited, meta-annotation should only effect annotated super classes and its sub types *

Note that this (@Inherited) meta-annotation type has no effect if the annotated type is used for anything other then a class. * Also, this meta-annotation causes annotations to be inherited only from superclasses; annotations on implemented interfaces have no effect. *

depends on TypeAnnotationsScanner and SubTypesScanner configured */ public Set> getTypesAnnotatedWith(final Class annotation) { return getTypesAnnotatedWith(annotation, false); } /** * get types annotated with a given annotation, both classes and annotations *

{@link java.lang.annotation.Inherited} is honored according to given honorInherited. *

when honoring @Inherited, meta-annotation should only effect annotated super classes and it's sub types *

when not honoring @Inherited, meta annotation effects all subtypes, including annotations interfaces and classes *

Note that this (@Inherited) meta-annotation type has no effect if the annotated type is used for anything other then a class. * Also, this meta-annotation causes annotations to be inherited only from superclasses; annotations on implemented interfaces have no effect. *

depends on TypeAnnotationsScanner and SubTypesScanner configured */ public Set> getTypesAnnotatedWith(final Class annotation, boolean honorInherited) { Iterable annotated = store.get(index(TypeAnnotationsScanner.class), annotation.getName()); Iterable classes = getAllAnnotated(annotated, annotation.isAnnotationPresent(Inherited.class), honorInherited); return Sets.newHashSet(concat(forNames(annotated, loaders()), forNames(classes, loaders()))); } /** * get types annotated with a given annotation, both classes and annotations, including annotation member values matching *

{@link java.lang.annotation.Inherited} is not honored by default *

depends on TypeAnnotationsScanner configured */ public Set> getTypesAnnotatedWith(final Annotation annotation) { return getTypesAnnotatedWith(annotation, false); } /** * get types annotated with a given annotation, both classes and annotations, including annotation member values matching *

{@link java.lang.annotation.Inherited} is honored according to given honorInherited *

depends on TypeAnnotationsScanner configured */ public Set> getTypesAnnotatedWith(final Annotation annotation, boolean honorInherited) { Iterable annotated = store.get(index(TypeAnnotationsScanner.class), annotation.annotationType().getName()); Iterable> filter = filter(forNames(annotated, loaders()), withAnnotation(annotation)); Iterable classes = getAllAnnotated(names(filter), annotation.annotationType().isAnnotationPresent(Inherited.class), honorInherited); return Sets.newHashSet(concat(filter, forNames(filter(classes, not(in(Sets.newHashSet(annotated)))), loaders()))); } protected Iterable getAllAnnotated(Iterable annotated, boolean inherited, boolean honorInherited) { if (honorInherited) { if (inherited) { Iterable subTypes = store.get(index(SubTypesScanner.class), filter(annotated, new Predicate() { public boolean apply(@Nullable String input) { return !ReflectionUtils.forName(input, loaders()).isInterface(); } })); return concat(subTypes, store.getAll(index(SubTypesScanner.class), subTypes)); } else { return annotated; } } else { Iterable subTypes = concat(annotated, store.getAll(index(TypeAnnotationsScanner.class), annotated)); return concat(subTypes, store.getAll(index(SubTypesScanner.class), subTypes)); } } /** * get all methods annotated with a given annotation *

depends on MethodAnnotationsScanner configured */ public Set getMethodsAnnotatedWith(final Class annotation) { Iterable methods = store.get(index(MethodAnnotationsScanner.class), annotation.getName()); return getMethodsFromDescriptors(methods, loaders()); } /** * get all methods annotated with a given annotation, including annotation member values matching *

depends on MethodAnnotationsScanner configured */ public Set getMethodsAnnotatedWith(final Annotation annotation) { return filter(getMethodsAnnotatedWith(annotation.annotationType()), withAnnotation(annotation)); } /** get methods with parameter types matching given {@code types}*/ public Set getMethodsMatchParams(Class... types) { return getMethodsFromDescriptors(store.get(index(MethodParameterScanner.class), names(types).toString()), loaders()); } /** get methods with return type match given type */ public Set getMethodsReturn(Class returnType) { return getMethodsFromDescriptors(store.get(index(MethodParameterScanner.class), names(returnType)), loaders()); } /** get methods with any parameter annotated with given annotation */ public Set getMethodsWithAnyParamAnnotated(Class annotation) { return getMethodsFromDescriptors(store.get(index(MethodParameterScanner.class), annotation.getName()), loaders()); } /** get methods with any parameter annotated with given annotation, including annotation member values matching */ public Set getMethodsWithAnyParamAnnotated(Annotation annotation) { return filter(getMethodsWithAnyParamAnnotated(annotation.annotationType()), withAnyParameterAnnotation(annotation)); } /** * get all constructors annotated with a given annotation *

depends on MethodAnnotationsScanner configured */ public Set getConstructorsAnnotatedWith(final Class annotation) { Iterable methods = store.get(index(MethodAnnotationsScanner.class), annotation.getName()); return getConstructorsFromDescriptors(methods, loaders()); } /** * get all constructors annotated with a given annotation, including annotation member values matching *

depends on MethodAnnotationsScanner configured */ public Set getConstructorsAnnotatedWith(final Annotation annotation) { return filter(getConstructorsAnnotatedWith(annotation.annotationType()), withAnnotation(annotation)); } /** get constructors with parameter types matching given {@code types}*/ public Set getConstructorsMatchParams(Class... types) { return getConstructorsFromDescriptors(store.get(index(MethodParameterScanner.class), names(types).toString()), loaders()); } /** get constructors with any parameter annotated with given annotation */ public Set getConstructorsWithAnyParamAnnotated(Class annotation) { return getConstructorsFromDescriptors(store.get(index(MethodParameterScanner.class), annotation.getName()), loaders()); } /** get constructors with any parameter annotated with given annotation, including annotation member values matching */ public Set getConstructorsWithAnyParamAnnotated(Annotation annotation) { return filter(getConstructorsWithAnyParamAnnotated(annotation.annotationType()), withAnyParameterAnnotation(annotation)); } /** * get all fields annotated with a given annotation *

depends on FieldAnnotationsScanner configured */ public Set getFieldsAnnotatedWith(final Class annotation) { final Set result = Sets.newHashSet(); for (String annotated : store.get(index(FieldAnnotationsScanner.class), annotation.getName())) { result.add(getFieldFromString(annotated, loaders())); } return result; } /** * get all methods annotated with a given annotation, including annotation member values matching *

depends on FieldAnnotationsScanner configured */ public Set getFieldsAnnotatedWith(final Annotation annotation) { return filter(getFieldsAnnotatedWith(annotation.annotationType()), withAnnotation(annotation)); } /** get resources relative paths where simple name (key) matches given namePredicate *

depends on ResourcesScanner configured * */ public Set getResources(final Predicate namePredicate) { Iterable resources = Iterables.filter(store.get(index(ResourcesScanner.class)).keySet(), namePredicate); return Sets.newHashSet(store.get(index(ResourcesScanner.class), resources)); } /** get resources relative paths where simple name (key) matches given regular expression *

depends on ResourcesScanner configured *

Set xmls = reflections.getResources(".*\\.xml");
*/ public Set getResources(final Pattern pattern) { return getResources(new Predicate() { public boolean apply(String input) { return pattern.matcher(input).matches(); } }); } /** get parameter names of given {@code method} *

depends on MethodParameterNamesScanner configured */ public List getMethodParamNames(Method method) { Iterable names = store.get(index(MethodParameterNamesScanner.class), name(method)); return !Iterables.isEmpty(names) ? Arrays.asList(Iterables.getOnlyElement(names).split(", ")) : Arrays.asList(); } /** get parameter names of given {@code constructor} *

depends on MethodParameterNamesScanner configured */ public List getConstructorParamNames(Constructor constructor) { Iterable names = store.get(index(MethodParameterNamesScanner.class), Utils.name(constructor)); return !Iterables.isEmpty(names) ? Arrays.asList(Iterables.getOnlyElement(names).split(", ")) : Arrays.asList(); } /** get all given {@code field} usages in methods and constructors *

depends on MemberUsageScanner configured */ public Set getFieldUsage(Field field) { return getMembersFromDescriptors(store.get(index(MemberUsageScanner.class), name(field))); } /** get all given {@code method} usages in methods and constructors *

depends on MemberUsageScanner configured */ public Set getMethodUsage(Method method) { return getMembersFromDescriptors(store.get(index(MemberUsageScanner.class), name(method))); } /** get all given {@code constructors} usages in methods and constructors *

depends on MemberUsageScanner configured */ public Set getConstructorUsage(Constructor constructor) { return getMembersFromDescriptors(store.get(index(MemberUsageScanner.class), name(constructor))); } /** get all types scanned. this is effectively similar to getting all subtypes of Object. *

depends on SubTypesScanner configured with {@code SubTypesScanner(false)}, otherwise {@code ReflectionsException} is thrown *

note using this might be a bad practice. it is better to get types matching some criteria, * such as {@link #getSubTypesOf(Class)} or {@link #getTypesAnnotatedWith(Class)} * @return Set of String, and not of Class, in order to avoid definition of all types in PermGen */ public Set getAllTypes() { Set allTypes = Sets.newHashSet(store.getAll(index(SubTypesScanner.class), Object.class.getName())); if (allTypes.isEmpty()) { throw new ReflectionsException("Couldn't find subtypes of Object. " + "Make sure SubTypesScanner initialized to include Object class - new SubTypesScanner(false)"); } return allTypes; } /** returns the {@link org.reflections.Store} used for storing and querying the metadata */ public Store getStore() { return store; } /** returns the {@link org.reflections.Configuration} object of this instance */ public Configuration getConfiguration() { return configuration; } /** * serialize to a given directory and filename *

* it is preferred to specify a designated directory (for example META-INF/reflections), * so that it could be found later much faster using the load method *

see the documentation for the save method on the configured {@link org.reflections.serializers.Serializer} */ public File save(final String filename) { return save(filename, configuration.getSerializer()); } /** * serialize to a given directory and filename using given serializer *

* it is preferred to specify a designated directory (for example META-INF/reflections), * so that it could be found later much faster using the load method */ public File save(final String filename, final Serializer serializer) { File file = serializer.save(this, filename); if (log != null) //noinspection ConstantConditions log.info("Reflections successfully saved in " + file.getAbsolutePath() + " using " + serializer.getClass().getSimpleName()); return file; } private static String index(Class scannerClass) { return scannerClass.getSimpleName(); } private ClassLoader[] loaders() { return configuration.getClassLoaders(); } }





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