All Downloads are FREE. Search and download functionalities are using the official Maven repository.
Please wait. This can take some minutes ...
Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance.
Project price only 1 $
You can buy this project and download/modify it how often you want.
org.yaml.snakeyaml.constructor.BaseConstructor Maven / Gradle / Ivy
Go to download
swagger-all is a rebundled verison of Swagger as one OSGi bundle.
/**
* Copyright (c) 2008-2012, http://www.snakeyaml.org
*
* 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.yaml.snakeyaml.constructor;
import java.lang.reflect.Array;
import java.util.ArrayList;
import java.util.Collection;
import java.util.EnumMap;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.yaml.snakeyaml.composer.Composer;
import org.yaml.snakeyaml.composer.ComposerException;
import org.yaml.snakeyaml.error.YAMLException;
import org.yaml.snakeyaml.introspector.PropertyUtils;
import org.yaml.snakeyaml.nodes.MappingNode;
import org.yaml.snakeyaml.nodes.Node;
import org.yaml.snakeyaml.nodes.NodeId;
import org.yaml.snakeyaml.nodes.NodeTuple;
import org.yaml.snakeyaml.nodes.ScalarNode;
import org.yaml.snakeyaml.nodes.SequenceNode;
import org.yaml.snakeyaml.nodes.Tag;
public abstract class BaseConstructor {
/**
* It maps the node kind to the the Construct implementation. When the
* runtime class is known then the implicit tag is ignored.
*/
protected final Map yamlClassConstructors = new EnumMap(
NodeId.class);
/**
* It maps the (explicit or implicit) tag to the Construct implementation.
* It is used:
* 1) explicit tag - if present.
* 2) implicit tag - when the runtime class of the instance is unknown (the
* node has the Object.class)
*/
protected final Map yamlConstructors = new HashMap();
/**
* It maps the (explicit or implicit) tag to the Construct implementation.
* It is used when no exact match found.
*/
protected final Map yamlMultiConstructors = new HashMap();
private Composer composer;
private final Map constructedObjects;
private final Set recursiveObjects;
private final ArrayList, RecursiveTuple>> maps2fill;
private final ArrayList, Object>> sets2fill;
protected Tag rootTag;
private PropertyUtils propertyUtils;
private boolean explicitPropertyUtils;
public BaseConstructor() {
constructedObjects = new HashMap();
recursiveObjects = new HashSet();
maps2fill = new ArrayList, RecursiveTuple>>();
sets2fill = new ArrayList, Object>>();
rootTag = null;
explicitPropertyUtils = false;
}
public void setComposer(Composer composer) {
this.composer = composer;
}
/**
* Check if more documents available
*
* @return true when there are more YAML documents in the stream
*/
public boolean checkData() {
// If there are more documents available?
return composer.checkNode();
}
/**
* Construct and return the next document
*
* @return constructed instance
*/
public Object getData() {
// Construct and return the next document.
composer.checkNode();
Node node = composer.getNode();
if (rootTag != null) {
node.setTag(rootTag);
}
return constructDocument(node);
}
/**
* Ensure that the stream contains a single document and construct it
*
* @return constructed instance
* @throws ComposerException
* in case there are more documents in the stream
*/
public Object getSingleData(Class> type) {
// Ensure that the stream contains a single document and construct it
Node node = composer.getSingleNode();
if (node != null) {
if (Object.class != type) {
node.setTag(new Tag(type));
} else if (rootTag != null) {
node.setTag(rootTag);
}
return constructDocument(node);
}
return null;
}
/**
* Construct complete YAML document. Call the second step in case of
* recursive structures. At the end cleans all the state.
*
* @param node
* root Node
* @return Java instance
*/
private Object constructDocument(Node node) {
Object data = constructObject(node);
fillRecursive();
constructedObjects.clear();
recursiveObjects.clear();
return data;
}
private void fillRecursive() {
if (!maps2fill.isEmpty()) {
for (RecursiveTuple, RecursiveTuple> entry : maps2fill) {
RecursiveTuple key_value = entry._2();
entry._1().put(key_value._1(), key_value._2());
}
maps2fill.clear();
}
if (!sets2fill.isEmpty()) {
for (RecursiveTuple, Object> value : sets2fill) {
value._1().add(value._2());
}
sets2fill.clear();
}
}
/**
* Construct object from the specified Node. Return existing instance if the
* node is already constructed.
*
* @param node
* Node to be constructed
* @return Java instance
*/
protected Object constructObject(Node node) {
if (constructedObjects.containsKey(node)) {
return constructedObjects.get(node);
}
if (recursiveObjects.contains(node)) {
throw new ConstructorException(null, null, "found unconstructable recursive node",
node.getStartMark());
}
recursiveObjects.add(node);
Construct constructor = getConstructor(node);
Object data = constructor.construct(node);
constructedObjects.put(node, data);
recursiveObjects.remove(node);
if (node.isTwoStepsConstruction()) {
constructor.construct2ndStep(node, data);
}
return data;
}
/**
* Get the constructor to construct the Node. For implicit tags if the
* runtime class is known a dedicated Construct implementation is used.
* Otherwise the constructor is chosen by the tag.
*
* @param node
* Node to be constructed
* @return Construct implementation for the specified node
*/
protected Construct getConstructor(Node node) {
if (node.useClassConstructor()) {
return yamlClassConstructors.get(node.getNodeId());
} else {
Construct constructor = yamlConstructors.get(node.getTag());
if (constructor == null) {
for (String prefix : yamlMultiConstructors.keySet()) {
if (node.getTag().startsWith(prefix)) {
return yamlMultiConstructors.get(prefix);
}
}
return yamlConstructors.get(null);
}
return constructor;
}
}
protected Object constructScalar(ScalarNode node) {
return node.getValue();
}
protected List createDefaultList(int initSize) {
return new ArrayList(initSize);
}
protected Set createDefaultSet(int initSize) {
return new LinkedHashSet(initSize);
}
@SuppressWarnings("unchecked")
protected T[] createArray(Class type, int size) {
return (T[]) Array.newInstance(type.getComponentType(), size);
}
@SuppressWarnings("unchecked")
protected List extends Object> constructSequence(SequenceNode node) {
List result;
if (List.class.isAssignableFrom(node.getType()) && !node.getType().isInterface()) {
// the root class may be defined (Vector for instance)
try {
result = (List) node.getType().newInstance();
} catch (Exception e) {
throw new YAMLException(e);
}
} else {
result = createDefaultList(node.getValue().size());
}
constructSequenceStep2(node, result);
return result;
}
@SuppressWarnings("unchecked")
protected Set extends Object> constructSet(SequenceNode node) {
Set result;
if (!node.getType().isInterface()) {
// the root class may be defined
try {
result = (Set) node.getType().newInstance();
} catch (Exception e) {
throw new YAMLException(e);
}
} else {
result = createDefaultSet(node.getValue().size());
}
constructSequenceStep2(node, result);
return result;
}
protected Object constructArray(SequenceNode node) {
return constructArrayStep2(node, createArray(node.getType(), node.getValue().size()));
}
protected void constructSequenceStep2(SequenceNode node, Collection collection) {
for (Node child : node.getValue()) {
collection.add(constructObject(child));
}
}
protected Object constructArrayStep2(SequenceNode node, Object array) {
int index = 0;
for (Node child : node.getValue()) {
Array.set(array, index++, constructObject(child));
}
return array;
}
protected Map createDefaultMap() {
// respect order from YAML document
return new LinkedHashMap();
}
protected Set createDefaultSet() {
// respect order from YAML document
return new LinkedHashSet();
}
protected Set constructSet(MappingNode node) {
Set set = createDefaultSet();
constructSet2ndStep(node, set);
return set;
}
protected Map constructMapping(MappingNode node) {
Map mapping = createDefaultMap();
constructMapping2ndStep(node, mapping);
return mapping;
}
protected void constructMapping2ndStep(MappingNode node, Map mapping) {
List nodeValue = (List) node.getValue();
for (NodeTuple tuple : nodeValue) {
Node keyNode = tuple.getKeyNode();
Node valueNode = tuple.getValueNode();
Object key = constructObject(keyNode);
if (key != null) {
try {
key.hashCode();// check circular dependencies
} catch (Exception e) {
throw new ConstructorException("while constructing a mapping",
node.getStartMark(), "found unacceptable key " + key, tuple
.getKeyNode().getStartMark(), e);
}
}
Object value = constructObject(valueNode);
if (keyNode.isTwoStepsConstruction()) {
/*
* if keyObject is created it 2 steps we should postpone putting
* it in map because it may have different hash after
* initialization compared to clean just created one. And map of
* course does not observe key hashCode changes.
*/
maps2fill.add(0,
new RecursiveTuple, RecursiveTuple>(
mapping, new RecursiveTuple(key, value)));
} else {
mapping.put(key, value);
}
}
}
protected void constructSet2ndStep(MappingNode node, Set set) {
List nodeValue = (List) node.getValue();
for (NodeTuple tuple : nodeValue) {
Node keyNode = tuple.getKeyNode();
Object key = constructObject(keyNode);
if (key != null) {
try {
key.hashCode();// check circular dependencies
} catch (Exception e) {
throw new ConstructorException("while constructing a Set", node.getStartMark(),
"found unacceptable key " + key, tuple.getKeyNode().getStartMark(), e);
}
}
if (keyNode.isTwoStepsConstruction()) {
/*
* if keyObject is created it 2 steps we should postpone putting
* it into the set because it may have different hash after
* initialization compared to clean just created one. And set of
* course does not observe value hashCode changes.
*/
sets2fill.add(0, new RecursiveTuple, Object>(set, key));
} else {
set.add(key);
}
}
}
// TODO protected List constructPairs(MappingNode node) {
// List pairs = new LinkedList();
// List nodeValue = (List) node.getValue();
// for (Iterator iter = nodeValue.iterator(); iter.hasNext();) {
// Node[] tuple = iter.next();
// Object key = constructObject(Object.class, tuple[0]);
// Object value = constructObject(Object.class, tuple[1]);
// pairs.add(new Object[] { key, value });
// }
// return pairs;
// }
public void setPropertyUtils(PropertyUtils propertyUtils) {
this.propertyUtils = propertyUtils;
explicitPropertyUtils = true;
}
public final PropertyUtils getPropertyUtils() {
if (propertyUtils == null) {
propertyUtils = new PropertyUtils();
}
return propertyUtils;
}
private static class RecursiveTuple {
private final T _1;
private final K _2;
public RecursiveTuple(T _1, K _2) {
this._1 = _1;
this._2 = _2;
}
public K _2() {
return _2;
}
public T _1() {
return _1;
}
}
public final boolean isExplicitPropertyUtils() {
return explicitPropertyUtils;
}
}