// Copyright 2006, 2007, 2008 The Apache Software Foundation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package org.apache.tapestry5.ioc.internal.services;
import org.apache.tapestry5.ioc.internal.util.CollectionFactory;
import static org.apache.tapestry5.ioc.internal.util.CollectionFactory.newList;
import org.apache.tapestry5.ioc.internal.util.Defense;
import org.apache.tapestry5.ioc.internal.util.InheritanceSearch;
import org.apache.tapestry5.ioc.internal.util.InternalUtils;
import org.apache.tapestry5.ioc.services.ClassFabUtils;
import org.apache.tapestry5.ioc.services.Coercion;
import org.apache.tapestry5.ioc.services.CoercionTuple;
import org.apache.tapestry5.ioc.services.TypeCoercer;
import java.util.*;
public class TypeCoercerImpl implements TypeCoercer
{
// Constructed from the service's configuration.
private final Map<Class, List<CoercionTuple>> sourceTypeToTuple = CollectionFactory.newMap();
/**
* A coercion to a specific target type. Manages a cache of coercions to specific types.
*/
private class TargetCoercion
{
private final Class type;
private final Map<Class, Coercion> cache = CollectionFactory.newConcurrentMap();
TargetCoercion(Class type)
{
this.type = type;
}
void clearCache()
{
cache.clear();
}
Object coerce(Object input)
{
Class sourceType = input != null ? input.getClass() : void.class;
if (type.isAssignableFrom(sourceType)) return input;
Coercion c = getCoercion(sourceType);
try
{
return type.cast(c.coerce(input));
}
catch (Exception ex)
{
throw new RuntimeException(ServiceMessages.failedCoercion(
input,
type,
c,
ex), ex);
}
}
String explain(Class sourceType)
{
return getCoercion(sourceType).toString();
}
private Coercion getCoercion(Class sourceType)
{
Coercion c = cache.get(sourceType);
if (c == null)
{
c = findOrCreateCoercion(sourceType, type);
cache.put(sourceType, c);
}
return c;
}
}
/**
* Map from a target type to a TargetCoercion for that type.
*/
private final Map<Class, TargetCoercion> typeToTargetCoercion = new WeakHashMap<Class, TargetCoercion>();
private static final Coercion COERCION_NULL_TO_OBJECT = new Coercion<Void, Object>()
{
public Object coerce(Void input)
{
return null;
}
@Override
public String toString()
{
return "null --> null";
}
};
public TypeCoercerImpl(Collection<CoercionTuple> tuples)
{
for (CoercionTuple tuple : tuples)
{
Class key = tuple.getSourceType();
InternalUtils.addToMapList(sourceTypeToTuple, key, tuple);
}
}
@SuppressWarnings("unchecked")
public Object coerce(Object input, Class targetType)
{
Defense.notNull(targetType, "targetType");
Class effectiveTargetType = ClassFabUtils.getWrapperType(targetType);
if (effectiveTargetType.isInstance(input)) return input;
return getTargetCoercion(effectiveTargetType).coerce(input);
}
@SuppressWarnings("unchecked")
public <S, T> String explain(Class<S> inputType, Class<T> targetType)
{
Defense.notNull(inputType, "inputType");
Defense.notNull(targetType, "targetType");
Class effectiveTargetType = ClassFabUtils.getWrapperType(targetType);
// Is a coercion even necessary? Not if the target type is assignable from the
// input value.
if (effectiveTargetType.isAssignableFrom(inputType)) return "";
return getTargetCoercion(targetType).explain(inputType);
}
private synchronized TargetCoercion getTargetCoercion(Class targetType)
{
TargetCoercion tc = typeToTargetCoercion.get(targetType);
if (tc == null)
{
tc = new TargetCoercion(targetType);
typeToTargetCoercion.put(targetType, tc);
}
return tc;
}
public synchronized void clearCache()
{
// There's no need to clear the typeToTargetCoercion map, as it is a WeakHashMap and
// will release the keys for classes that are no longer in existence. On the other hand,
// there's likely all sorts of references to unloaded classes inside each TargetCoercion's
// individual cache, so clear all those.
for (TargetCoercion tc : typeToTargetCoercion.values())
{
// Can tc ever be null?
tc.clearCache();
}
}
/**
* Here's the real meat; we do a search of the space to find coercions, or a system of coercions, that accomplish
* the desired coercion.
* <p/>
* There's <strong>TREMENDOUS</strong> room to improve this algorithm. For example, inheritance lists could be
* cached. Further, there's probably more ways to early prune the search. However, even with dozens or perhaps
* hundreds of tuples, I suspect the search will still grind to a conclusion quickly.
* <p/>
* The order of operations should help ensure that the most efficient tuple chain is located. If you think about how
* tuples are added to the queue, there are two factors: size (the number of steps in the coercion) and "class
* distance" (that is, number of steps up the inheritance hiearchy). All the appropriate 1 step coercions will be
* considered first, in class distance order. Along the way, we'll queue up all the 2 step coercions, again in class
* distance order. By the time we reach some of those, we'll have begun queing up the 3 step coercions, and so
* forth, until we run out of input tuples we can use to fabricate multi-step compound coercions, or reach a final
* response.
* <p/>
* This does create a good number of short lived temporary objects (the compound tuples), but that's what the GC is
* really good at.
*
* @param sourceType
* @param targetType
* @return coercer from sourceType to targetType
*/
@SuppressWarnings("unchecked")
private Coercion findOrCreateCoercion(Class sourceType, Class targetType)
{
if (sourceType == void.class) return searchForNullCoercion(targetType);
// These are instance variables because this method may be called concurrently.
// On a true race, we may go to the work of seeking out and/or fabricating
// a tuple twice, but it's more likely that different threads are looking
// for different source/target coercions.
Set<CoercionTuple> consideredTuples = CollectionFactory.newSet();
LinkedList<CoercionTuple> queue = CollectionFactory.newLinkedList();
seedQueue(sourceType, consideredTuples, queue);
while (!queue.isEmpty())
{
CoercionTuple tuple = queue.removeFirst();
// If the tuple results in a value type that is assignable to the desired target type,
// we're done! Later, we may add a concept of "cost" (i.e. number of steps) or
// "quality" (how close is the tuple target type to the desired target type). Cost
// is currently implicit, as compound tuples are stored deeper in the queue,
// so simpler coercions will be located earlier.
Class tupleTargetType = tuple.getTargetType();
if (targetType.isAssignableFrom(tupleTargetType)) return tuple.getCoercion();
// So .. this tuple doesn't get us directly to the target type.
// However, it *may* get us part of the way. Each of these
// represents a coercion from the source type to an intermediate type.
// Now we're going to look for conversions from the intermediate type
// to some other type.
queueIntermediates(sourceType, tuple, consideredTuples, queue);
}
// Not found anywhere. Identify the source and target type and a (sorted) list of
// all the known coercions.
throw new IllegalArgumentException(ServiceMessages.noCoercionFound(
sourceType,
targetType,
buildCoercionCatalog()));
}
/**
* Coercion from null is special; we match based on the target type and its not a spanning search. In many cases, we
* return a pass-thru that leaves the value as null.
*
* @param targetType desired type
* @return the coercion
*/
private Coercion searchForNullCoercion(Class targetType)
{
List<CoercionTuple> tuples = sourceTypeToTuple.get(void.class);
// We know it will never be null, because we make contributions
// to ensure this, but a little check doesn't hurt.
if (tuples != null)
{
for (CoercionTuple tuple : tuples)
{
Class tupleTargetType = tuple.getTargetType();
if (targetType.equals(tupleTargetType)) return tuple.getCoercion();
}
}
// Typical case: no match, this coercion passes the null through
// as null.
return COERCION_NULL_TO_OBJECT;
}
/**
* Builds a string listing all the coercions configured for the type coercer, sorted alphabetically.
*/
private String buildCoercionCatalog()
{
List<String> descriptions = newList();
for (List<CoercionTuple> list : sourceTypeToTuple.values())
{
for (CoercionTuple tuple : list)
descriptions.add(tuple.toString());
}
return InternalUtils.joinSorted(descriptions);
}
/**
* Seeds the pool with the initial set of coercions for the given type.
*/
private void seedQueue(Class sourceType, Set<CoercionTuple> consideredTuples,
LinkedList<CoercionTuple> queue)
{
// Work from the source type up looking for tuples
for (Class c : new InheritanceSearch(sourceType))
{
List<CoercionTuple> tuples = sourceTypeToTuple.get(c);
if (tuples == null) continue;
for (CoercionTuple tuple : tuples)
{
queue.addLast(tuple);
consideredTuples.add(tuple);
}
// Don't pull in Object -> type coercions when doing
// a search from null.
if (sourceType == void.class) return;
}
}
/**
* Creates and adds to the pool a new set of coercions based on an intermediate tuple. Adds compound coercion tuples
* to the end of the queue.
*
* @param sourceType the source type of the coercion
* @param intermediateTuple a tuple that converts from the source type to some intermediate type (that is not
* assignable to the target type)
* @param consideredTuples set of tuples that have already been added to the pool (directly, or as a compound
* coercion)
* @param queue the work queue of tuples
*/
@SuppressWarnings("unchecked")
private void queueIntermediates(Class sourceType, CoercionTuple intermediateTuple,
Set<CoercionTuple> consideredTuples, LinkedList<CoercionTuple> queue)
{
Class intermediateType = intermediateTuple.getTargetType();
for (Class c : new InheritanceSearch(intermediateType))
{
List<CoercionTuple> tuples = sourceTypeToTuple.get(c);
if (tuples == null) continue;
for (CoercionTuple tuple : tuples)
{
if (consideredTuples.contains(tuple)) continue;
Class newIntermediateType = tuple.getTargetType();
// If this tuple is for coercing from an intermediate type back towards our
// initial source type, then ignore it. This should only be an optimization,
// as branches that loop back towards the source type will
// eventually be considered and discarded.
if (sourceType.isAssignableFrom(newIntermediateType)) continue;
// The intermediateTuple coercer gets from S --> I1 (an intermediate type).
// The current tuple's coercer gets us from I2 --> X. where I2 is assignable
// from I1 (i.e., I2 is a superclass/superinterface of I1) and X is a new
// intermediate type, hopefully closer to our eventual target type.
Coercion compoundCoercer = new CompoundCoercion(intermediateTuple.getCoercion(),
tuple.getCoercion());
CoercionTuple compoundTuple = new CoercionTuple(sourceType, newIntermediateType,
compoundCoercer, false);
// So, every tuple that is added to the queue can take as input the sourceType.
// The target type may be another intermdiate type, or may be something
// assignable to the target type, which will bring the search to a succesful
// conclusion.
queue.addLast(compoundTuple);
consideredTuples.add(tuple);
}
}
}
}