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/*******************************************************************************
* Copyright (c) 2018, TechEmpower, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name TechEmpower, Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL TECHEMPOWER, INC. BE LIABLE FOR ANY DIRECT,
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* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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package com.techempower.cache;
import com.google.common.primitives.*;
import gnu.trove.map.*;
import gnu.trove.map.hash.*;
import java.lang.reflect.*;
import java.util.*;
import java.util.concurrent.*;
import org.reflections.*;
import com.techempower.*;
import com.techempower.cache.annotation.*;
import com.techempower.classloader.*;
import com.techempower.collection.*;
import com.techempower.data.*;
import com.techempower.data.EntityGroup.Builder;
import com.techempower.data.annotation.*;
import com.techempower.gemini.cluster.*;
import com.techempower.gemini.configuration.*;
import com.techempower.helper.*;
import com.techempower.log.*;
import com.techempower.reflect.*;
import com.techempower.util.*;
/**
* This class serves as a storage manager for several entity groups and the
* relationships between those entity groups. It also provides some extra
* functionality such as sorting.
*
* Although this class has evolved into a role of controlling storage for both
* cached and non-cached entities, it remains in the com.techempower.cache
* package because most applications use caching to some degree (there is no
* parent class without caching from which this class derives functionality)
* and also for compatibility reasons.
*
* When used as part of a Gemini application, Gemini's InfrastructureServlet
* will automatically call the initialize method when the Servlet is
* initialized.
*
* Configuration options:
*
* - EntityStore.CacheMethodValues - Cache the values of objects
* queried by reflection (in getObjectByMethod, etc.), which can improve the
* performance of future lookups at the cost of memory? Default is no.
*
*/
public class EntityStore
implements Configurable
{
//
// Constants.
//
public static final String COMPONENT_CODE = "cach";
private static final Class[] NO_PARAMETERS = new Class[0];
private static final Object[] NO_VALUES = new Object[0];
private static final int INITIAL_GROUPS_SIZE = 20;
private static final String ERROR_METHOD_ACCESS = "Method cannot be accessed: ";
private static final String ERROR_FIELD_ACCESS = "Field cannot be accessed: ";
//
// Member variables.
//
private final TechEmpowerApplication application;
private final Map,EntityGroup>
groups;
private final ConnectorFactory connectorFactory;
private final ComponentLog log;
private final ComponentLog entityLog;
private volatile CacheListener[] listeners;
private ExecutorService preinitializationTasks = Executors.newSingleThreadExecutor();
private Reflections reflections = null;
private boolean initialized = false;
private boolean cacheMethodValues = false;
/**
* The registered method value caches. These allow you to quickly find
* entities by the value of a given field.
*/
private Map, MethodValueCache> methodValueCaches = new HashMap<>();
private final TLongObjectMap> entityGroupClassesById = new TLongObjectHashMap<>();
/**
* The list of all relations managed by this entity store. This is a
* superset of the {@link #cachedRelations} list.
*/
private final List> relations = new ArrayList<>();
/**
* The list of all cached relations managed by this entity store. This is a
* subset of the {@link #relations} list. Some operations, such as
* communicating about cache resets, only affect cached relations, so this
* list is provided (in addition to the other) as a convenience.
*/
private final List> cachedRelations = new ArrayList<>();
/**
* A map from definition classes (in practice, any arbitrary class) to
* relations.
*/
private final ConcurrentMap>, EntityRelation> relationsMap = new ConcurrentHashMap<>();
private ConcurrentMap cachedResponses = new ConcurrentHashMap<>();
/**
* Keeps track of the methods that are annotated with either @Indexed or
* @NotIndexed.
*/
private final Map, Map> indexedAnnotatedMethods = new HashMap<>();
/**
* Keeps track of the classes that are annotated with either @Indexed or
* @NotIndexed.
*/
private final Map, Boolean> indexedAnnotatedClasses = new HashMap<>();
/**
* The type adapters used by entity groups in this cache. These allow
* non-standard data entity field types to be stored in the database.
*/
private final List> typeAdapters = new ArrayList<>();
//
// Member methods.
//
/**
* Constructor.
*
* @param application a reference to the application using this
* EntityStore.
* @param connectorFactory A ConnectorFactory to use to
* communicate with the database.
*/
public EntityStore(TechEmpowerApplication application,
final ConnectorFactory connectorFactory)
{
this.application = application;
this.connectorFactory = connectorFactory;
this.groups = new HashMap<>(INITIAL_GROUPS_SIZE);
this.listeners = new CacheListener[0];
this.log = application.getLog(COMPONENT_CODE);
this.entityLog = application.getLog("data");
// Start constructing Reflections on a new thread since it takes a
// bit of time.
preinitializationTasks.submit(new Runnable() {
@Override
public void run() {
try
{
log.log("Instantiating Reflections component.");
reflections = PackageClassLoader.getReflectionClassLoader(application);
log.log("Reflections component instantiated: " + reflections);
}
catch (Exception exc)
{
log.log("Exception while instantiating Reflections component.", exc);
}
}
});
}
/**
* Configure the cache.
*/
@Override
public void configure(EnhancedProperties props)
{
// First read the legacy name for this property and then the new name.
cacheMethodValues = props.getBoolean("CacheController.CacheMethodValues", false);
cacheMethodValues = props.getBoolean("EntityStore.CacheMethodValues", cacheMethodValues);
methodValueCaches = new HashMap<>();
// This should only happen when the application is reconfigured.
if (CollectionHelper.isNonEmpty(groups))
{
for (EntityGroup group : groups.values())
{
methodValueCaches.put(group.type(),
new MethodValueCache<>(this, group.type()));
}
}
}
/**
* Are we caching this method's values? This is dependent on the value of
* {@code cacheMethodValues} and also whether or not the method has been
* annotated with {@code @Indexed} or {@code @NotIndexed} annotations.
*
* {@code forceIndexedMethods} and {@code forceNotIndexedMethods} must be
* initialized for this class type before calling this. This should be
* done when registering a cache group.
*
* @return true if this method has its values cached. Returns false if this
* method does not have its values cached or this class type is not registered
* in the cache group.
*/
protected boolean isIndexed(Class type, String methodName)
{
// This is not a cached data entity, so immediately return false.
if (!groups.containsKey(type))
{
return false;
}
Boolean classIndexed = indexedAnnotatedClasses.get(type);
// The class wasn't specifically annotated, so use the global cacheMethodValues
// value.
if (classIndexed == null)
{
classIndexed = cacheMethodValues;
}
// If we are caching method values by default, then we only need to check
// if this method was explicitly marked as @NotIndexed.
if (classIndexed)
{
Boolean methodIndexed = indexedAnnotatedMethods.get(type).get(methodName);
// This will always return true unless the method was specifically
// annotated and explicitly marked as @NotIndexed.
return methodIndexed == null || methodIndexed;
}
// If we are not caching method values by default, then we only need to check
// if this method was explicitly marked as @Indexed.
else
{
Boolean methodIndexed = indexedAnnotatedMethods.get(type).get(methodName);
// This method was specifically annotated and explicitly marked as
// @Indexed.
return methodIndexed != null && methodIndexed;
}
}
/**
* Gets a ComponentLog for entities to use.
*/
public ComponentLog getEntityLog()
{
return entityLog;
}
/**
* Reset all entity groups controlled by this controller.
*/
public void reset()
{
reset(true, true);
}
/**
* Reset each entity group controlled by this controller. Note that
* listeners are only notified of the full reset as a coarse-grained
* notification. That is, the listeners will not receive individual
* calls to cacheTypeReset for all entity types during a full reset.
*
* @param notifyListeners Should CacheListeners be notified of this reset?
*/
public void reset(boolean notifyListeners, boolean notifyDistributionListeners)
{
log.log("Full reset.", LogLevel.DEBUG);
// Reset entity groups.
for (EntityGroup group : groups.values())
{
group.reset();
}
// Reset relations.
for (CachedRelation relation : cachedRelations)
{
relation.reset(notifyListeners, notifyDistributionListeners);
}
// Reset method value cache.
for (MethodValueCache methodValueCache : methodValueCaches.values())
{
methodValueCache.reset();
}
// Notify the listeners of the full reset only. We do not call
// cacheTypeReset for each entity type.
if (notifyListeners)
{
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify)
{
listener.cacheFullReset();
}
}
}
/**
* Reset the entity group specified by the type id.
*/
public void reset(Class type)
{
reset(type, true, true);
}
/**
* Reset the entity group specified by the type id.
*
* @param type the object type of the entity group to be reset.
* @param notifyListeners Should CacheListeners be notified of this reset?
* @param notifyDistributionListeners Whether to notify any
* DistributionListeners; only used When notifyListeners is true.
*/
public void reset(Class type,
boolean notifyListeners,
boolean notifyDistributionListeners)
{
for (CachedRelation relation : cachedRelations)
{
relation.reset(type, notifyListeners, notifyListeners);
}
final MethodValueCache methodValueCache = methodValueCaches.get(type);
if (methodValueCache != null)
{
methodValueCache.reset();
}
final EntityGroup group = groups.get(type);
if (group != null)
{
group.reset();
if (notifyListeners)
{
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify)
{
if (!(listener instanceof DistributionListener)
|| notifyDistributionListeners)
{
listener.cacheTypeReset(group.type());
}
}
}
}
}
/**
* Adds a CacheListener to be notified of cache events.
*/
public synchronized void addListener(CacheListener listener)
{
// Do nothing if we already have this listener in our list.
if (CollectionHelper.arrayContains(listeners, listener))
{
return;
}
// Copy existing listeners.
final CacheListener[] newArray = new CacheListener[listeners.length + 1];
if (listeners.length > 0)
{
System.arraycopy(listeners, 0, newArray, 0, listeners.length);
}
// Add our new listener.
newArray[newArray.length - 1] = listener;
// Replace the member variable.
listeners = newArray;
}
/**
* Removes a CacheListener.
*/
public synchronized void removeListener(CacheListener listener)
{
if (CollectionHelper.arrayContains(listeners, listener))
{
final CacheListener[] newArray = new CacheListener[listeners.length - 1];
int index = 0;
for (CacheListener l : listeners)
{
if (l != listener)
{
newArray[index++] = l;
}
}
listeners = newArray;
}
}
/**
* Gets an entity group by type. Returns null if no such entity group
* is found.
*/
@SuppressWarnings("unchecked")
public EntityGroup getGroup(Class type)
{
return (EntityGroup)groups.get(type);
}
/**
* Gets an entity group by type, throwing a ControllerError if no such
* group is found.
*/
protected EntityGroup getGroupSafe(Class type)
{
if (type == null)
{
throw new ControllerError("Invalid parameter: type is null.");
}
EntityGroup toReturn = getGroup(type);
if (toReturn == null)
{
throw new ControllerError(type.getSimpleName() + " is not registered with the EntityStore.");
}
else
{
return toReturn;
}
}
/**
* Gets a cache group by its unique group number.
*
* This method is intended for internal use within the Gemini core, not
* broad use within Gemini applications.
*/
public EntityGroup getGroup(int groupNumber)
{
return getGroup(entityGroupClassesById.get(groupNumber));
}
/**
* Gets a cached relation by its unique id.
*
* This method is intended for internal use within the Gemini core, not broad
* use within Gemini applications.
*/
public CachedRelation getCachedRelation(long relationId)
{
return cachedRelations.get(Ints.saturatedCast(relationId - 1));
}
/**
* Collects @Indexed and @NotIndexed annotations for data entity methods.
* This should be called before adding the entity to the cache group.
*/
protected void collectIndexedMethodAnnotations(EntityGroup group)
{
indexedAnnotatedMethods.put(group.type(), new HashMap());
for (Method method : group.type().getMethods())
{
if (method.isAnnotationPresent(Indexed.class))
{
indexedAnnotatedMethods.get(group.type()).put(method.getName(), true);
}
else if (method.getAnnotation(NotIndexed.class) != null)
{
indexedAnnotatedMethods.get(group.type()).put(method.getName(), false);
}
}
if (group.type().isAnnotationPresent(Indexed.class))
{
indexedAnnotatedClasses.put(group.type(), true);
}
else if (group.type().isAnnotationPresent(NotIndexed.class))
{
indexedAnnotatedClasses.put(group.type(), false);
}
}
/**
* Add a new cache group to this Controller.
*
* @param group The entities to be cached.
*/
public void register(EntityGroup.Builder group)
{
register(group.build(this));
}
/**
* Add a new cache group to this Controller.
*
* @param group The entities to be cached.
*/
public EntityGroup register(EntityGroup group)
{
// Collect @Indexed and @NotIndexed annotations
collectIndexedMethodAnnotations(group);
// Add the group.
groups.put(group.type(), group);
// Give the group a unique ID.
group.setGroupNumber(groups.size());
entityGroupClassesById.put(group.getGroupNumber(), group.type());
methodValueCaches.put(group.type(),
new MethodValueCache<>(this, group.type()));
log.log("Registered " + group + " with id " + group.getGroupNumber(),
LogLevel.DEBUG);
return group;
}
/**
* Returns a list of registered entity groups.
*/
public List> getGroupList()
{
return new ArrayList<>(groups.values());
}
/**
* Get the connector factory for this CC.
*/
public ConnectorFactory getConnectorFactory()
{
return connectorFactory;
}
/**
* Gets the Application reference.
*/
public TechEmpowerApplication getApplication()
{
return application;
}
/**
* Gets the ComponentLog reference.
*/
public ComponentLog getLog()
{
return log;
}
/**
* Initialize the EntityStore. The basic implementation provided here
* will attempt to find any classes annotated with the Entity and
* CachedEntity annotations within the application's package hierarchy.
*/
public void initialize()
{
// Wait for pre-initialization tasks to complete.
try
{
log.log("Completing preinitialization tasks.");
preinitializationTasks.shutdown();
log.log("Awaiting termination of preinitialization tasks.");
preinitializationTasks.awaitTermination(5L, TimeUnit.MINUTES);
log.log("Preinitialization tasks complete.");
log.log("Reflections component: " + reflections);
}
catch (InterruptedException iexc)
{
log.log("Preinitialization interrupted.", iexc);
}
// Throw an exception if Reflections is not ready.
if (reflections == null)
{
throw new ConfigurationError("Reflections not ready; application cannot start.");
}
// The default behavior is to search com.techempower and the package of
// the main application for any cache annotations and auto register any
// entity types found.
register();
initialized = true;
}
/**
* Return the number of the objects contained in the entity group specified
* by type. Throws ControllerError if no such group is registered.
*/
public int size(Class type)
{
return getGroupSafe(type).size();
}
/**
* Return all the objects contained in the entity group specified by
* type. Throws ControllerError if no such group is registered.
*/
public List list(Class type)
{
return getGroupSafe(type).list();
}
/**
* Return all the objects contained in the entity group specified by
* type, mapped by id. Throws ControllerError if no such group is registered.
*/
public TLongObjectMap map(Class type)
{
return getGroupSafe(type).map();
}
/**
* Return a collection of objects contained in the entity group based
* on a method name value and object type. Returns empty collection in the
* event of an error or if no objects cannot be found.
*/
@SuppressWarnings("unchecked")
public List list(Class type, String methodName, Object value)
{
if (isIndexed(type, methodName))
{
MethodValueCache methodValueCache = (MethodValueCache)methodValueCaches.get(type);
if (methodValueCache != null)
{
return methodValueCache.getObjects(methodName, value);
}
}
return list(type, methodName, NO_PARAMETERS, value);
}
/**
* Simplified list convenience method.
*/
public List list(Class type,
String methodName, Object[] args, Object value)
{
return list(type, methodName, NO_PARAMETERS, args, value);
}
/**
* Simplified list convenience method.
*/
public List list(Class type,
String methodName, Class[] paramTypes, Object[] args, Object value)
{
return list(type, methodName, paramTypes, args, value, false);
}
/**
* Simplified list convenience method.
*/
public List list(Class type,
String methodName, Object value, boolean loose)
{
return list(type, methodName, NO_PARAMETERS, NO_VALUES, value, loose);
}
/**
* Return a collection of objects contained in the entity group based
* on a method name value and object type. Returns empty collection in the
* event of an error or if no IdentifiableObjects cannot be found.
*
* @param methodName a method from which the return value is compared to the
* "value" parameter.
* @param paramTypes the types of the parameters this method takes,
* required if you are also providing an "args" parameter.
* @param args method parameters passed to "methodName" method when invoked.
* @param value the value for which to search.
* @param loose if true, the value returned by the method will be matched
* both literally and after a call to "toString"
*/
public List list(Class type,
String methodName, Class[] paramTypes, Object[] args, Object value,
boolean loose)
{
List toReturn = new ArrayList<>();
List objects = list(type);
if (CollectionHelper.isNonEmpty(objects))
{
// Try to get the method.
Method method;
try
{
method = type.getDeclaredMethod(methodName, paramTypes);
}
catch (NoSuchMethodException exc)
{
try
{
method = type.getMethod(methodName, paramTypes);
}
catch (NoSuchMethodException etexc)
{
throw new ControllerError("No method found: " + methodName, etexc);
}
}
// Continue if we have a method.
if (method != null)
{
try
{
Iterator iterator = objects.iterator();
T object;
while (iterator.hasNext())
{
object = iterator.next();
// Check the value returned by the method.
Object objValue = method.invoke(object, args);
if (value.equals(objValue))
{
toReturn.add(object);
}
else if ((loose) && (value.equals(objValue.toString())))
{
toReturn.add(object);
}
}
}
catch (InvocationTargetException etexc)
{
throw new ControllerError("Unable to invoke method: " + methodName, etexc);
}
catch (SecurityException | IllegalAccessException e)
{
throw new ControllerError(ERROR_METHOD_ACCESS + methodName, e);
}
}
}
return toReturn;
}
/**
* Return a particular IdentifiableObject contained in the entity group
* based on ID and object type. Returns null if no such entity group
* is found.
*
* @param identifier identifier for the object
*/
public T get(Class type, long identifier)
{
return getGroupSafe(type).get(identifier);
}
/**
* Return a particular IdentifiableObject contained in the entity group
* based on ID and object type. Returns null if no such entity group
* is found.
*
* @param identifier A string representation of an integer identity for
* the object; must be a number. If the parse fails, id -1 will be used
* (which should return null).
*
* @return The object of the given type and with the given identifier if
* found, null if the type and/or identifier was null or invalid
* or if the entity could not be found
*/
public T get(Class type, String identifier)
{
return get(type, NumberHelper.parseIntPermissive(identifier, -1));
}
/**
* Finds the object in a given entity group with the highest identity.
*/
public Identifiable getHighestIdentity(Class type)
{
long highestID = getGroupSafe(type).highest();
return get(type, highestID);
}
/**
* Finds the object in a given entity group with the lowest identity.
*/
public Identifiable getLowestIdentity(Class type)
{
long lowestID = getGroupSafe(type).lowest();
return get(type, lowestID);
}
/**
* Return the set of IdentifiableObjects contained in a entity group sorted
* by a field.
*
* @param unsorted The original unsorted collection of objects.
* @param sortField the field or method by which to sort the
* IdentifiableObjects.
* @param comparisonType the comparison type as specified by
* ReflectiveComparator.
* @param ordering either ASCENDING or DESCENDING, as specified by
* ReflectiveComparator.
* @param ignoreCase If comparing Strings, should case be ignored?
* Has no effect if comparing anything other than Strings.
*/
public List sortedList(Collection unsorted,
String sortField, int comparisonType, int ordering, boolean ignoreCase)
{
if (unsorted != null)
{
final List results = new ArrayList<>(unsorted);
final ReflectiveComparator comparator = new ReflectiveComparator<>(
sortField, comparisonType, ordering);
comparator.setIgnoreCase(ignoreCase);
// Sort the results.
Collections.sort(results, comparator);
return results;
}
else
{
return Collections.emptyList();
}
}
/**
* Return the set of IdentifiableObjects contained in a entity group sorted
* by a field.
*
* @param unsorted The original unsorted collection of objects.
* @param sortField the field or method by which to sort the
* IdentifiableObjects.
* @param comparisonType the comparison type as specified by
* ReflectiveComparator.
* @param ordering either ASCENDING or DESCENDING, as specified by
* ReflectiveComparator.
*/
public List sortedList(Collection unsorted,
String sortField, int comparisonType, int ordering)
{
return sortedList(unsorted, sortField, comparisonType, ordering, false);
}
/**
* Return the set of IdentifiableObjects contained in a entity group sorted
* by a field. Assumes an ASCENDING ordering.
*
* @param unsorted The original unsorted collection of objects.
* @param sortField the field or method by which to sort the
* IdentifiableObjects.
* @param comparisonType the comparison type as specified by
* ReflectiveComparator.
*/
public List sortedList(Collection unsorted,
String sortField, int comparisonType)
{
return sortedList(unsorted, sortField, comparisonType,
ReflectiveComparator.ASCENDING, false);
}
/**
* Return the set of IdentifiableObjects contained in a entity group sorted
* by a field. Assumes an ASCENDING ordering.
*
* @param sortField the field or method by which to sort the
* IdentifiableObjects.
* @param comparisonType the comparison type as specified by
* ReflectiveComparator.
*/
public List sortedList(Class type, String sortField,
int comparisonType)
{
return sortedList(list(type), sortField, comparisonType);
}
/**
* Return the set of IdentifiableObjects contained in a entity group sorted
* by a field.
*
* @param sortField the field or method by which to sort the
* IdentifiableObjects.
* @param comparisonType the comparison type as specified by
* ReflectiveComparator.
* @param ordering either ASCENDING or DESCENDING, as specified by
* ReflectiveComparator.
* @param ignoreCase If comparing Strings, should case be ignored?
* Has no effect if comparing anything other than Strings.
*/
public List sortedList(Class type,
String sortField, int comparisonType, int ordering, boolean ignoreCase)
{
return sortedList(list(type), sortField, comparisonType, ordering,
ignoreCase);
}
/**
* Return the set of IdentifiableObjects contained in a entity group sorted
* by a field.
*
* @param sortField the field or method by which to sort the
* IdentifiableObjects.
* @param comparisonType the comparison type as specified by
* ReflectiveComparator.
* @param ordering either ASCENDING or DESCENDING, as specified by
* ReflectiveComparator.
*/
public List sortedList(Class type, String sortField,
int comparisonType, int ordering)
{
return sortedList(list(type), sortField, comparisonType, ordering);
}
/**
* Return a particular IdentifiableObject contained in the entity group
* based on a field value and object type. Returns null in the event of an
* error or if the entity group cannot be found.
*
* @param fieldName the field to match the value to
* @param value the value on which to search
*/
public T getByField(Class type, String fieldName, Object value)
{
Field field = null;
final List list = list(type);
try
{
for (T object : list)
{
// Cache a reference to the Field if not yet done so.
if (field == null)
{
field = object.getClass().getDeclaredField(fieldName);
}
// Check the value of the field within this object.
Object objValue = field.get(object);
if (value.equals(objValue))
{
return object;
}
}
}
catch (NoSuchFieldException | SecurityException | IllegalAccessException e)
{
throw new ControllerError(ERROR_FIELD_ACCESS + fieldName, e);
}
// If we get here, return null.
return null;
}
/**
* Return a particular IdentifiableObject contained in the entity group
* based on a method name and object type. Returns null in the event of an
* error or if the entity group cannot be found.
*
* @param methodName the method to call
* @param value the value on which to search
*/
@SuppressWarnings("unchecked")
public T get(Class type, String methodName, Object value)
{
if (isIndexed(type, methodName))
{
MethodValueCache methodValueCache = (MethodValueCache)methodValueCaches.get(type);
if (methodValueCache != null)
{
return methodValueCache.getObject(methodName, value);
}
}
Method method = null;
final List list = list(type);
try
{
for (T object : list)
{
// Cache a reference to the Method if not yet done so.
if (method == null)
{
method = object.getClass().getMethod(methodName, NO_PARAMETERS);
}
// Check the value of the field within this object.
final Object objValue = method.invoke(object, NO_VALUES);
if (Objects.equals(value, objValue))
{
return object;
}
}
}
catch (NoSuchMethodException | SecurityException | IllegalAccessException | InvocationTargetException e)
{
throw new ControllerError(ERROR_METHOD_ACCESS + methodName, e);
}
// If we get here, return null.
return null;
}
/**
* Refreshes a single object in the cache.
*
* @param id the id of the object
*/
public void refresh(Class type, long... ids)
{
getGroupSafe(type).refresh(ids);
final MethodValueCache methodValueCache = methodValueCaches.get(type);
if (methodValueCache != null)
{
for (long id : ids) {
methodValueCache.update(id);
}
}
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify) {
for (long id : ids) {
listener.cacheObjectExpired(type, id);
}
}
}
/**
* Puts a data entity into the database/data-store. This will also cache
* the entity if a cache is in use. If the entity is new and is assigned
* a new Identity during the put operation, the entity will be affected
* directly.
*/
@SuppressWarnings("unchecked")
public void put(T entity)
{
if (entity == null)
{
throw new ControllerError("Cannot put null entity.");
}
getGroupSafe((Class)entity.getClass()).put(entity);
// Update method value caches.
final MethodValueCache methodValueCache = methodValueCaches.get(entity.getClass());
if (methodValueCache != null)
{
methodValueCache.update(entity.getId());
}
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify)
{
listener.cacheObjectExpired(entity.getClass(), entity.getId());
}
}
/**
* Remove a data entity from the database/data-store. This will also
* remove the entity from the cache if a cache is in use.
*/
public void remove(Class type, long id)
{
T entity = get(type, id);
if (entity != null)
{
remove(entity);
}
}
/**
* Remove a data entity from the database/data-store. This will also
* remove the entity from the cache if a cache is in use.
*/
public void remove(T entity)
{
if (entity == null)
{
throw new ControllerError("Cannot remove null entity.");
}
getGroupSafe(entity.getClass()).remove(entity.getId());
// Update relations.
for (EntityRelation relation : relations)
{
relation.removeEntity(entity);
}
// Update method value cache.
final MethodValueCache methodValueCache = methodValueCaches.get(entity.getClass());
if (methodValueCache != null)
{
methodValueCache.delete(entity.getId());
}
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify)
{
listener.removeFromCache(entity.getClass(), entity.getId());
}
}
//
// Custom Caching
//
// The following methods allow for additional custom caching to be defined
//
/**
* Registers the given relation with the cache and notifies the listeners.
*
* @param relation a relation between Identifiable objects
*/
public >
E register(EntityRelation.Builder relation)
{
return register(relation.build(this), null);
}
/**
* Registers the given relation with the cache and notifies the listeners. Once registered,
* you will be able to get this relation from the cache via the provided Class.
*/
public , D extends EntityRelationDescriptor>
E register(EntityRelation.Builder relation, Class definition)
{
return register(relation.build(this), definition);
}
/**
* Registers the given relation with the cache and notifies the listeners.
*
* @param relation a relation between Identifiable objects
*/
public > E register(E relation)
{
return register(relation, null);
}
/**
* Registers the given relation with the cache and notifies the listeners.
* If definition is not null, then once registered, you will be able to get
* this relation from the cache via the provided definition Class. Useful if
* you have two CachedRelations on the same two classes.
*
* @param definition a Class that will be used later on to look up this
* relation
*/
@SuppressWarnings("unchecked")
public , D extends EntityRelationDescriptor>
E register(E relation, Class definition)
{
relations.add(relation);
if (relation instanceof CachedRelation)
{
final CachedRelation cr = (CachedRelation) relation;
cachedRelations.add(cr);
// Give the relation a unique ID.
cr.setId(cachedRelations.size());
log.log("Registered " + cr + " with id " + cr.getId(),
LogLevel.DEBUG);
}
// if we're provided with a definition Class, we need to add this relation
// to our relationMap for quick lookup via the definition class
if (definition != null)
{
relationsMap.put((Class>)definition,
relation);
}
return relation;
}
/**
* Registers all entities, cached entities and cached relations in a given
* package. Uses the annotations in com.techempower.data.annotation.
*/
@SuppressWarnings("unchecked")
public void register()
{
log.log("Registering annotated entities, relations, and type adapters.");
try
{
final ExecutorService service = Executors.newFixedThreadPool(5);
// @Entity-annoted classes.
service.submit(new Runnable() {
@Override
public void run() {
for (Class clazz : reflections.getTypesAnnotatedWith(Entity.class))
{
// The annotation can contain some additional information on how to
// build this EntityGroup.
final Entity annotation = clazz.getAnnotation(Entity.class);
final Builder builder = EntityGroup.of(
(Class)clazz);
if (!annotation.table().isEmpty()) {
builder.table(annotation.table());
}
if (!annotation.id().isEmpty()) {
builder.id(annotation.id());
}
if (!annotation.comparator().isEmpty()) {
builder.comparator(annotation.comparator());
}
// finally register the EntityGroup
register(builder);
}
}
});
// @CachedEntity-annotated classes.
service.submit(new Runnable() {
@Override
public void run() {
for (Class clazz : reflections.getTypesAnnotatedWith(CachedEntity.class))
{
// The annotation can contain some additional information on how to
// build this CacheGroup.
final CachedEntity annotation = clazz.getAnnotation(CachedEntity.class);
final Builder builder;
if (annotation.lruSize() > 0)
{
final LruCacheGroup.Builder lruBuilder = LruCacheGroup.of((Class)clazz);
lruBuilder.maximumSize(annotation.lruSize());
builder = lruBuilder;
}
else
{
builder = CacheGroup.of((Class)clazz);
}
if (!annotation.table().isEmpty())
{
builder.table(annotation.table());
}
if (!annotation.id().isEmpty())
{
builder.id(annotation.id());
}
if (!annotation.comparator().isEmpty())
{
builder.comparator(annotation.comparator());
}
// finally register the CacheGroup
register(builder);
}
}
});
// @PureMemoryEntity-annotated classes.
service.submit(new Runnable() {
@Override
public void run() {
for (Class clazz : reflections.getTypesAnnotatedWith(PureMemoryEntity.class))
{
register(PureMemoryGroup.of((Class)clazz));
}
}
});
// Relations.
service.submit(new Runnable() {
@Override
public void run() {
for (@SuppressWarnings("rawtypes")
Class clazz :
reflections.getSubTypesOf(EntityRelationDescriptor.class))
{
// We check for the existence of any @Relation annotations.
if (clazz.isAnnotationPresent(Relation.class))
{
final Relation annotation = clazz.getAnnotation(Relation.class);
// A class uses the @Relation annotation must specify 2 fields, one
// with @Left and one with @Right. To help us determine which two
// Identifiable classes make up this relation.
final Field[] fields = clazz.getDeclaredFields();
Field left = null;
Field right = null;
for (Field field : fields)
{
if (field.isAnnotationPresent(Left.class))
{
left = field;
}
else if (field.isAnnotationPresent(Right.class))
{
right = field;
}
}
// We need to have both a left column and right column specified via
// the @Left and @Right annotations. TODO The classes defined by
// these annotations must also be of subclasses of Identifiable.
if (left == null || right == null)
{
// If anything here fails I don't want to start up, I want to
// be notified immediately.
throw new RuntimeException(
"Cannot create CachedRelation from @Relation definition class without specifying @Left and @Right Identifiables.");
}
final Left leftAnnotation = left.getAnnotation(Left.class);
final Right rightAnnotation = right.getAnnotation(Right.class);
// We're ready to register this CachedRelation. The table name will
// be inferred from the class name. The left and right column names
// will use the name of the parameters.
// Don't register it more than once.
if (getRelation((Class>)clazz) == null) {
final CachedRelation.Builder builder = CachedRelation.of(
(Class) left.getType(),
(Class) right.getType());
if (!annotation.table().isEmpty())
{
builder.table(annotation.table());
}
if (!leftAnnotation.column().isEmpty())
{
builder.leftColumn(leftAnnotation.column());
}
if (!rightAnnotation.column().isEmpty())
{
builder.rightColumn(rightAnnotation.column());
}
// Finally register the Relation
register(builder, clazz);
}
}
}
}
});
// Relations.
service.submit(new Runnable() {
@Override
public void run() {
// Finally, look for any TypeAdapter classes that are annotated
for (Class clazz :
reflections.getSubTypesOf(TypeAdapter.class))
{
// We check for the existence of any known annotations, including
// @Entity, @Cached, @Relation
if (clazz.isAnnotationPresent(EntityTypeAdapter.class))
{
try
{
register(clazz.getConstructor(NO_PARAMETERS).newInstance());
}
catch (InstantiationException
| IllegalAccessException
| NoSuchMethodException
| InvocationTargetException e)
{
throw new RuntimeException("Warn: Could not register TypeAdapter", e);
}
}
}
}
});
try
{
service.shutdown();
service.awaitTermination(1L, TimeUnit.HOURS);
}
catch (InterruptedException iexc)
{
log.log("Unable to register all entities in 1 hour!", LogLevel.CRITICAL);
}
log.log("Done registering annotated items.");
}
catch (ReflectionsException e)
{
throw new RuntimeException("Warn: problem registering class with reflection", e);
}
}
/**
* Returns the relation based on the definition class. This method requires
* that you provided a definition class when registering this cache group.
*/
@SuppressWarnings("unchecked")
public EntityRelation
getRelation(Class> definition)
{
return (EntityRelation) relationsMap.get(definition);
}
/**
* Returns the relation whose table name matches the given table name.
*
* @param tableName The name of the table in the relation to be returned.
* @return The relation whose table name matches the given table name.
*/
public EntityRelation
getRelation(String tableName)
{
for (EntityRelation relation : relations)
{
if (relation.tableName().equals(tableName))
{
return relation;
}
}
return null;
}
/**
* Returns a copy of the list of all relations in the cache. This is a
* superset of the relations returned by {@link #getCachedRelations()}.
*/
public List>
getRelations()
{
return new ArrayList<>(relations);
}
/**
* Returns a copy of the list of all cached relations in the cache.
* This is a subset of the relations returned by {@link #getRelations()}.
*/
public List>
getCachedRelations()
{
return new ArrayList<>(cachedRelations);
}
/**
* Returns the cached response text associated with the given parameter keys.
* @param parameterKeys The key of expected cached response.
* @return The cached response payload for the given parameterKeys or
* null if there is no cached response for the given
* request.
*/
public String getCachedResponse(String parameterKeys)
{
return cachedResponses.get(parameterKeys);
}
/**
* Caches the response text for the parameters associated with the given
* request.
* @param parameterKeys The key for the given responseText string.
* @param responseText The responseText to cache for the given request.
*/
public void setCachedResponse(String parameterKeys, String responseText)
{
// Remove the previous.
cachedResponses.remove(parameterKeys);
// Try to put it in.
cachedResponses.putIfAbsent(parameterKeys, responseText);
// This is inherently NOT thread-safe, but in cases where this
// comes up, we don't really care: some other thread put a response
// value in at or around the same time we removed and tried to put.
// If out put returns their value, then w/e. If it returns null, then
// we can assume ours was there first.
}
/**
* Clears all cached responses (in memory and on disk).
*/
public void clearCachedResponses()
{
// Brand new one, let the old one get garbage collected.
cachedResponses = new ConcurrentHashMap<>();
}
/**
* Returns a list of objects with the given ids. The objects are in the
* order specified by the given ids. The returned list will not include
* nulls.
*/
public List list(Class type, long... ids)
{
return list(type, CollectionHelper.toList(ids));
}
/**
* Returns a list of objects with the given ids. The objects are in the
* order specified by the given ids. The returned list will not include
* nulls.
*/
public List list(Class type, Collection ids)
{
return getGroupSafe(type).list(ids);
}
/**
* Returns a map of objects with the given ids.
*/
public TLongObjectMap map(Class type, long... ids)
{
return map(type, CollectionHelper.toList(ids));
}
/**
* Returns a map of objects with the given ids.
*/
public TLongObjectMap map(Class type, Collection ids)
{
return getGroupSafe(type).map(ids);
}
/**
* Remove the given entities from the database (and cache if applicable).
*/
public void removeAll(Class type, long... ids)
{
removeAll(type, CollectionHelper.toList(ids));
}
/**
* Remove the given entities from the database (and cache if applicable).
*/
public void removeAll(Class type, Collection ids)
{
getGroupSafe(type).removeAll(ids);
// Update relations.
for (EntityRelation relation : relations)
{
for (long id : ids)
{
relation.removeEntity(type, id);
}
}
// Update method value caches.
MethodValueCache methodValueCache = methodValueCaches.get(type);
if (methodValueCache != null)
{
for (long id : ids)
{
methodValueCache.delete(id);
}
}
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify)
{
for (long id : ids)
{
listener.removeFromCache(type, id);
}
}
}
/**
* Put objects into the data store (and cache if applicable). This will
* always persist the objects to the data store; caching is only applicable
* when using the CacheGroup subclass or something similar.
*
* @param objects The objects to put ("put" means persist to disk and update
* in cache if this is a cache group.)
*/
@SafeVarargs
public final void putAll(T... objects)
{
putAll(CollectionHelper.toList(objects));
}
/**
* Put objects into the data store (and cache if applicable). This will
* always persist the objects to the data store; caching is only applicable
* when using the CacheGroup subclass or something similar.
*
* @param objects The objects to put ("put" means persist to disk and update
* in cache if this is a cache group.)
*/
@SuppressWarnings("unchecked")
public void putAll(Collection objects)
{
if (objects == null)
{
throw new ControllerError("Cannot putAll of a null collection.");
}
// Group the objects by type.
Map, Collection> map = new HashMap<>();
for (T object : objects)
{
Collection collection = map.get(object.getClass());
if (collection == null)
{
collection = new ArrayList<>();
map.put((Class)object.getClass(), collection);
}
collection.add(object);
}
// For each type, update the cache.
for (Map.Entry, Collection> entry : map.entrySet())
{
Class type = entry.getKey();
Collection collection = entry.getValue();
// Update the group.
getGroupSafe(type).putAll(collection);
// Update method value caches.
MethodValueCache methodValueCache =
(MethodValueCache)methodValueCaches.get(type);
if (methodValueCache != null)
{
for (T object : collection)
{
methodValueCache.update(object.getId());
}
}
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify)
{
for (T object : collection)
{
listener.cacheObjectExpired(object.getClass(), object.getId());
}
}
}
}
/**
* Remove the given entities from the database (and cache if applicable).
*/
@SafeVarargs
public final void removeAll(T... objects)
{
removeAll(CollectionHelper.toList(objects));
}
/**
* Remove the given entities from the database (and cache if applicable).
*/
@SuppressWarnings("unchecked")
public void removeAll(Collection objects)
{
if (objects == null)
{
throw new ControllerError("Cannot removeAll of a null collection.");
}
// Group the objects by type.
Map, Collection> map =
new HashMap<>();
for (T object : objects)
{
Collection collection = map.get(object.getClass());
if (collection == null)
{
collection = new ArrayList<>();
map.put((Class)object.getClass(), collection);
}
collection.add(object.getId());
}
// For each type, update the cache.
for (Map.Entry, Collection> entry : map.entrySet())
{
Class type = entry.getKey();
Collection collection = entry.getValue();
// Update the group.
getGroupSafe(type).removeAll(collection);
// Update relations.
for (EntityRelation relation : relations)
{
for (long id : collection)
{
relation.removeEntity(type, id);
}
}
// Update method value caches.
MethodValueCache methodValueCache =
(MethodValueCache)methodValueCaches.get(type);
if (methodValueCache != null)
{
for (long id : collection)
{
methodValueCache.delete(id);
}
}
// Notify the listeners.
final CacheListener[] toNotify = listeners;
for (CacheListener listener : toNotify) {
for (long id : collection) {
listener.removeFromCache(type, id);
}
}
}
}
/**
* Registers the given type adapter with this controller. The adapter will be
* used to translate all entity fields of one type to another type when
* persisting entities to the database. This is useful when you would like to
* persist custom or non-standard fields to the database. For example:
*
* // Allows all data entities to have DateMidnight (from Joda Time) fields
* // that get persisted like java.util.Date in the database.
* register(
* new TypeAdapter<DateMidnight, Date>() {
* public Date write(DateMidnight value)
* {
* return (value == null)
* ? null
* : value.toDate();
* }
* public DateMidnight read(Date value)
* {
* return (value == null)
* ? null
* : new DateMidnight(value);
* }
* });
*
*
* @param The adapter converts values from this type.
* @param The adapter converts values to this type.
*/
public void register(TypeAdapter adapter)
{
if (adapter == null)
{
throw new ControllerError("Cannot register a null type adapter.");
}
typeAdapters.add(adapter);
}
/**
* Returns an unmodifiable view of the type adapters registered with this
* controller. This method is intended for use in {@link EntityGroup} only.
*/
public List> getTypeAdapters()
{
return Collections.unmodifiableList(typeAdapters);
}
@Override
public String toString()
{
return "EntityStore " + (initialized
? "[" + groups.size() + " group" + StringHelper.pluralize(groups.size())
+ "; " + listeners.length + " listener" + StringHelper.pluralize(listeners.length)
+ "]"
: "[Not yet initialized]"
);
}
} // End EntityStore.