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com.fitbur.snakeyaml.constructor.Constructor Maven / Gradle / Ivy
/**
* Copyright (c) 2008, 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 com.fitbur.snakeyaml.constructor;
import java.beans.IntrospectionException;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.Collection;
import java.util.Date;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Set;
import java.util.SortedMap;
import java.util.SortedSet;
import java.util.TreeMap;
import java.util.TreeSet;
import com.fitbur.snakeyaml.TypeDescription;
import com.fitbur.snakeyaml.error.YAMLException;
import com.fitbur.snakeyaml.introspector.Property;
import com.fitbur.snakeyaml.nodes.MappingNode;
import com.fitbur.snakeyaml.nodes.Node;
import com.fitbur.snakeyaml.nodes.NodeId;
import com.fitbur.snakeyaml.nodes.NodeTuple;
import com.fitbur.snakeyaml.nodes.ScalarNode;
import com.fitbur.snakeyaml.nodes.SequenceNode;
import com.fitbur.snakeyaml.nodes.Tag;
/**
* Construct a custom Java instance.
*/
public class Constructor extends SafeConstructor {
private final Map> typeTags;
protected final Map, TypeDescription> typeDefinitions;
public Constructor() {
this(Object.class);
}
/**
* Create Constructor for the specified class as the root.
*
* @param theRoot
* - the class (usually JavaBean) to be constructed
*/
public Constructor(Class extends Object> theRoot) {
this(new TypeDescription(checkRoot(theRoot)));
}
/**
* Ugly Java way to check the argument in the constructor
*/
private static Class extends Object> checkRoot(Class extends Object> theRoot) {
if (theRoot == null) {
throw new NullPointerException("Root class must be provided.");
} else
return theRoot;
}
public Constructor(TypeDescription theRoot) {
if (theRoot == null) {
throw new NullPointerException("Root type must be provided.");
}
this.yamlConstructors.put(null, new ConstructYamlObject());
if (!Object.class.equals(theRoot.getType())) {
rootTag = new Tag(theRoot.getType());
}
typeTags = new HashMap>();
typeDefinitions = new HashMap, TypeDescription>();
yamlClassConstructors.put(NodeId.scalar, new ConstructScalar());
yamlClassConstructors.put(NodeId.mapping, new ConstructMapping());
yamlClassConstructors.put(NodeId.sequence, new ConstructSequence());
addTypeDescription(theRoot);
}
/**
* Create Constructor for a class which does not have to be in the classpath
* or for a definition from a Spring ApplicationContext.
*
* @param theRoot
* fully qualified class name of the root class (usually
* JavaBean)
* @throws ClassNotFoundException
*/
public Constructor(String theRoot) throws ClassNotFoundException {
this(Class.forName(check(theRoot)));
}
private static final String check(String s) {
if (s == null) {
throw new NullPointerException("Root type must be provided.");
}
if (s.trim().length() == 0) {
throw new YAMLException("Root type must be provided.");
}
return s;
}
/**
* Make YAML aware how to parse a custom Class. If there is no root Class
* assigned in constructor then the 'root' property of this definition is
* respected.
*
* @param definition
* to be added to the Constructor
* @return the previous value associated with definition , or
* null if there was no mapping for definition .
*/
public TypeDescription addTypeDescription(TypeDescription definition) {
if (definition == null) {
throw new NullPointerException("TypeDescription is required.");
}
Tag tag = definition.getTag();
typeTags.put(tag, definition.getType());
return typeDefinitions.put(definition.getType(), definition);
}
/**
* Construct mapping instance (Map, JavaBean) when the runtime class is
* known.
*/
protected class ConstructMapping implements Construct {
/**
* Construct JavaBean. If type safe collections are used please look at
* TypeDescription
.
*
* @param node
* node where the keys are property names (they can only be
* String
s) and values are objects to be created
* @return constructed JavaBean
*/
public Object construct(Node node) {
MappingNode mnode = (MappingNode) node;
if (Properties.class.isAssignableFrom(node.getType())) {
Properties properties = new Properties();
if (!node.isTwoStepsConstruction()) {
constructMapping2ndStep(mnode, properties);
} else {
throw new YAMLException("Properties must not be recursive.");
}
return properties;
} else if (SortedMap.class.isAssignableFrom(node.getType())) {
SortedMap map = new TreeMap();
if (!node.isTwoStepsConstruction()) {
constructMapping2ndStep(mnode, map);
}
return map;
} else if (Map.class.isAssignableFrom(node.getType())) {
if (node.isTwoStepsConstruction()) {
return createDefaultMap();
} else {
return constructMapping(mnode);
}
} else if (SortedSet.class.isAssignableFrom(node.getType())) {
SortedSet set = new TreeSet();
// XXX why this is not used ?
// if (!node.isTwoStepsConstruction()) {
constructSet2ndStep(mnode, set);
// }
return set;
} else if (Collection.class.isAssignableFrom(node.getType())) {
if (node.isTwoStepsConstruction()) {
return createDefaultSet();
} else {
return constructSet(mnode);
}
} else {
if (node.isTwoStepsConstruction()) {
return createEmptyJavaBean(mnode);
} else {
return constructJavaBean2ndStep(mnode, createEmptyJavaBean(mnode));
}
}
}
@SuppressWarnings("unchecked")
public void construct2ndStep(Node node, Object object) {
if (Map.class.isAssignableFrom(node.getType())) {
constructMapping2ndStep((MappingNode) node, (Map) object);
} else if (Set.class.isAssignableFrom(node.getType())) {
constructSet2ndStep((MappingNode) node, (Set) object);
} else {
constructJavaBean2ndStep((MappingNode) node, object);
}
}
protected Object createEmptyJavaBean(MappingNode node) {
try {
/**
* Using only default constructor. Everything else will be
* initialized on 2nd step. If we do here some partial
* initialization, how do we then track what need to be done on
* 2nd step? I think it is better to get only object here (to
* have it as reference for recursion) and do all other thing on
* 2nd step.
*/
java.lang.reflect.Constructor> c = node.getType().getDeclaredConstructor();
c.setAccessible(true);
return c.newInstance();
} catch (Exception e) {
throw new YAMLException(e);
}
}
protected Object constructJavaBean2ndStep(MappingNode node, Object object) {
flattenMapping(node);
Class extends Object> beanType = node.getType();
List nodeValue = node.getValue();
for (NodeTuple tuple : nodeValue) {
ScalarNode keyNode;
if (tuple.getKeyNode() instanceof ScalarNode) {
// key must be scalar
keyNode = (ScalarNode) tuple.getKeyNode();
} else {
throw new YAMLException("Keys must be scalars but found: " + tuple.getKeyNode());
}
Node valueNode = tuple.getValueNode();
// keys can only be Strings
keyNode.setType(String.class);
String key = (String) constructObject(keyNode);
try {
Property property = getProperty(beanType, key);
valueNode.setType(property.getType());
TypeDescription memberDescription = typeDefinitions.get(beanType);
boolean typeDetected = false;
if (memberDescription != null) {
switch (valueNode.getNodeId()) {
case sequence:
SequenceNode snode = (SequenceNode) valueNode;
Class extends Object> memberType = memberDescription
.getListPropertyType(key);
if (memberType != null) {
snode.setListType(memberType);
typeDetected = true;
} else if (property.getType().isArray()) {
snode.setListType(property.getType().getComponentType());
typeDetected = true;
}
break;
case mapping:
MappingNode mnode = (MappingNode) valueNode;
Class extends Object> keyType = memberDescription.getMapKeyType(key);
if (keyType != null) {
mnode.setTypes(keyType, memberDescription.getMapValueType(key));
typeDetected = true;
}
break;
default: // scalar
}
}
if (!typeDetected && valueNode.getNodeId() != NodeId.scalar) {
// only if there is no explicit TypeDescription
Class>[] arguments = property.getActualTypeArguments();
if (arguments != null && arguments.length > 0) {
// type safe (generic) collection may contain the
// proper class
if (valueNode.getNodeId() == NodeId.sequence) {
Class> t = arguments[0];
SequenceNode snode = (SequenceNode) valueNode;
snode.setListType(t);
} else if (valueNode.getTag().equals(Tag.SET)) {
Class> t = arguments[0];
MappingNode mnode = (MappingNode) valueNode;
mnode.setOnlyKeyType(t);
mnode.setUseClassConstructor(true);
} else if (property.getType().isAssignableFrom(Map.class)) {
Class> ketType = arguments[0];
Class> valueType = arguments[1];
MappingNode mnode = (MappingNode) valueNode;
mnode.setTypes(ketType, valueType);
mnode.setUseClassConstructor(true);
} else {
// the type for collection entries cannot be
// detected
}
}
}
Object value = constructObject(valueNode);
// Correct when the property expects float but double was
// constructed
if (property.getType() == Float.TYPE || property.getType() == Float.class) {
if (value instanceof Double) {
value = ((Double) value).floatValue();
}
}
property.set(object, value);
} catch (Exception e) {
throw new ConstructorException("Cannot create property=" + key
+ " for JavaBean=" + object, node.getStartMark(), e.getMessage(),
valueNode.getStartMark(), e);
}
}
return object;
}
protected Property getProperty(Class extends Object> type, String name)
throws IntrospectionException {
return getPropertyUtils().getProperty(type, name);
}
}
/**
* Construct an instance when the runtime class is not known but a global
* tag with a class name is defined. It delegates the construction to the
* appropriate constructor based on the node kind (scalar, sequence,
* mapping)
*/
protected class ConstructYamlObject implements Construct {
private Construct getConstructor(Node node) {
Class> cl = getClassForNode(node);
node.setType(cl);
// call the constructor as if the runtime class is defined
Construct constructor = yamlClassConstructors.get(node.getNodeId());
return constructor;
}
public Object construct(Node node) {
Object result = null;
try {
result = getConstructor(node).construct(node);
} catch (ConstructorException e) {
throw e;
} catch (Exception e) {
throw new ConstructorException(null, null, "Can't construct a java object for "
+ node.getTag() + "; exception=" + e.getMessage(), node.getStartMark(), e);
}
return result;
}
public void construct2ndStep(Node node, Object object) {
try {
getConstructor(node).construct2ndStep(node, object);
} catch (Exception e) {
throw new ConstructorException(null, null,
"Can't construct a second step for a java object for " + node.getTag()
+ "; exception=" + e.getMessage(), node.getStartMark(), e);
}
}
}
/**
* Construct scalar instance when the runtime class is known. Recursive
* structures are not supported.
*/
protected class ConstructScalar extends AbstractConstruct {
public Object construct(Node nnode) {
ScalarNode node = (ScalarNode) nnode;
Class> type = node.getType();
Object result;
if (type.isPrimitive() || type == String.class || Number.class.isAssignableFrom(type)
|| type == Boolean.class || Date.class.isAssignableFrom(type)
|| type == Character.class || type == BigInteger.class
|| type == BigDecimal.class || Enum.class.isAssignableFrom(type)
|| Tag.BINARY.equals(node.getTag()) || Calendar.class.isAssignableFrom(type)) {
// standard classes created directly
result = constructStandardJavaInstance(type, node);
} else {
// there must be only 1 constructor with 1 argument
java.lang.reflect.Constructor>[] javaConstructors = type.getConstructors();
int oneArgCount = 0;
java.lang.reflect.Constructor> javaConstructor = null;
for (java.lang.reflect.Constructor> c : javaConstructors) {
if (c.getParameterTypes().length == 1) {
oneArgCount++;
javaConstructor = c;
}
}
Object argument;
if (javaConstructor == null) {
throw new YAMLException("No single argument constructor found for " + type);
} else if (oneArgCount == 1) {
argument = constructStandardJavaInstance(
javaConstructor.getParameterTypes()[0], node);
} else {
// TODO it should be possible to use implicit types instead
// of forcing String. Resolver must be available here to
// obtain the implicit tag. Then we can set the tag and call
// callConstructor(node) to create the argument instance.
// On the other hand it may be safer to require a custom
// constructor to avoid guessing the argument class
argument = constructScalar(node);
try {
javaConstructor = type.getConstructor(String.class);
} catch (Exception e) {
throw new YAMLException("Can't construct a java object for scalar "
+ node.getTag() + "; No String constructor found. Exception="
+ e.getMessage(), e);
}
}
try {
result = javaConstructor.newInstance(argument);
} catch (Exception e) {
throw new ConstructorException(null, null,
"Can't construct a java object for scalar " + node.getTag()
+ "; exception=" + e.getMessage(), node.getStartMark(), e);
}
}
return result;
}
@SuppressWarnings("unchecked")
private Object constructStandardJavaInstance(@SuppressWarnings("rawtypes")
Class type, ScalarNode node) {
Object result;
if (type == String.class) {
Construct stringConstructor = yamlConstructors.get(Tag.STR);
result = stringConstructor.construct(node);
} else if (type == Boolean.class || type == Boolean.TYPE) {
Construct boolConstructor = yamlConstructors.get(Tag.BOOL);
result = boolConstructor.construct(node);
} else if (type == Character.class || type == Character.TYPE) {
Construct charConstructor = yamlConstructors.get(Tag.STR);
String ch = (String) charConstructor.construct(node);
if (ch.length() == 0) {
result = null;
} else if (ch.length() != 1) {
throw new YAMLException("Invalid node Character: '" + ch + "'; length: "
+ ch.length());
} else {
result = Character.valueOf(ch.charAt(0));
}
} else if (Date.class.isAssignableFrom(type)) {
Construct dateConstructor = yamlConstructors.get(Tag.TIMESTAMP);
Date date = (Date) dateConstructor.construct(node);
if (type == Date.class) {
result = date;
} else {
try {
java.lang.reflect.Constructor> constr = type.getConstructor(long.class);
result = constr.newInstance(date.getTime());
} catch (RuntimeException e) {
throw e;
} catch (Exception e) {
throw new YAMLException("Cannot construct: '" + type + "'");
}
}
} else if (type == Float.class || type == Double.class || type == Float.TYPE
|| type == Double.TYPE || type == BigDecimal.class) {
if (type == BigDecimal.class) {
result = new BigDecimal(node.getValue());
} else {
Construct doubleConstructor = yamlConstructors.get(Tag.FLOAT);
result = doubleConstructor.construct(node);
if (type == Float.class || type == Float.TYPE) {
result = new Float((Double) result);
}
}
} else if (type == Byte.class || type == Short.class || type == Integer.class
|| type == Long.class || type == BigInteger.class || type == Byte.TYPE
|| type == Short.TYPE || type == Integer.TYPE || type == Long.TYPE) {
Construct intConstructor = yamlConstructors.get(Tag.INT);
result = intConstructor.construct(node);
if (type == Byte.class || type == Byte.TYPE) {
result = Byte.valueOf(result.toString());
} else if (type == Short.class || type == Short.TYPE) {
result = Short.valueOf(result.toString());
} else if (type == Integer.class || type == Integer.TYPE) {
result = Integer.parseInt(result.toString());
} else if (type == Long.class || type == Long.TYPE) {
result = Long.valueOf(result.toString());
} else {
// only BigInteger left
result = new BigInteger(result.toString());
}
} else if (Enum.class.isAssignableFrom(type)) {
String enumValueName = node.getValue();
try {
result = Enum.valueOf(type, enumValueName);
} catch (Exception ex) {
throw new YAMLException("Unable to find enum value '" + enumValueName
+ "' for enum class: " + type.getName());
}
} else if (Calendar.class.isAssignableFrom(type)) {
ConstructYamlTimestamp contr = new ConstructYamlTimestamp();
contr.construct(node);
result = contr.getCalendar();
} else if (Number.class.isAssignableFrom(type)) {
ConstructYamlNumber contr = new ConstructYamlNumber();
result = contr.construct(node);
} else {
throw new YAMLException("Unsupported class: " + type);
}
return result;
}
}
/**
* Construct sequence (List, Array, or immutable object) when the runtime
* class is known.
*/
protected class ConstructSequence implements Construct {
@SuppressWarnings("unchecked")
public Object construct(Node node) {
SequenceNode snode = (SequenceNode) node;
if (Set.class.isAssignableFrom(node.getType())) {
if (node.isTwoStepsConstruction()) {
throw new YAMLException("Set cannot be recursive.");
} else {
return constructSet(snode);
}
} else if (Collection.class.isAssignableFrom(node.getType())) {
if (node.isTwoStepsConstruction()) {
return createDefaultList(snode.getValue().size());
} else {
return constructSequence(snode);
}
} else if (node.getType().isArray()) {
if (node.isTwoStepsConstruction()) {
return createArray(node.getType(), snode.getValue().size());
} else {
return constructArray(snode);
}
} else {
// create immutable object
List> possibleConstructors = new ArrayList>(
snode.getValue().size());
for (java.lang.reflect.Constructor> constructor : node.getType()
.getConstructors()) {
if (snode.getValue().size() == constructor.getParameterTypes().length) {
possibleConstructors.add(constructor);
}
}
if (!possibleConstructors.isEmpty()) {
if (possibleConstructors.size() == 1) {
Object[] argumentList = new Object[snode.getValue().size()];
java.lang.reflect.Constructor> c = possibleConstructors.get(0);
int index = 0;
for (Node argumentNode : snode.getValue()) {
Class> type = c.getParameterTypes()[index];
// set runtime classes for arguments
argumentNode.setType(type);
argumentList[index++] = constructObject(argumentNode);
}
try {
return c.newInstance(argumentList);
} catch (Exception e) {
throw new YAMLException(e);
}
}
// use BaseConstructor
List argumentList = (List) constructSequence(snode);
Class>[] parameterTypes = new Class[argumentList.size()];
int index = 0;
for (Object parameter : argumentList) {
parameterTypes[index] = parameter.getClass();
index++;
}
for (java.lang.reflect.Constructor> c : possibleConstructors) {
Class>[] argTypes = c.getParameterTypes();
boolean foundConstructor = true;
for (int i = 0; i < argTypes.length; i++) {
if (!wrapIfPrimitive(argTypes[i]).isAssignableFrom(parameterTypes[i])) {
foundConstructor = false;
break;
}
}
if (foundConstructor) {
try {
return c.newInstance(argumentList.toArray());
} catch (Exception e) {
throw new YAMLException(e);
}
}
}
}
throw new YAMLException("No suitable constructor with "
+ String.valueOf(snode.getValue().size()) + " arguments found for "
+ node.getType());
}
}
private final Class extends Object> wrapIfPrimitive(Class> clazz) {
if (!clazz.isPrimitive()) {
return clazz;
}
if (clazz == Integer.TYPE) {
return Integer.class;
}
if (clazz == Float.TYPE) {
return Float.class;
}
if (clazz == Double.TYPE) {
return Double.class;
}
if (clazz == Boolean.TYPE) {
return Boolean.class;
}
if (clazz == Long.TYPE) {
return Long.class;
}
if (clazz == Character.TYPE) {
return Character.class;
}
if (clazz == Short.TYPE) {
return Short.class;
}
if (clazz == Byte.TYPE) {
return Byte.class;
}
throw new YAMLException("Unexpected primitive " + clazz);
}
@SuppressWarnings("unchecked")
public void construct2ndStep(Node node, Object object) {
SequenceNode snode = (SequenceNode) node;
if (List.class.isAssignableFrom(node.getType())) {
List list = (List) object;
constructSequenceStep2(snode, list);
} else if (node.getType().isArray()) {
constructArrayStep2(snode, object);
} else {
throw new YAMLException("Immutable objects cannot be recursive.");
}
}
}
protected Class> getClassForNode(Node node) {
Class extends Object> classForTag = typeTags.get(node.getTag());
if (classForTag == null) {
String name = node.getTag().getClassName();
Class> cl;
try {
cl = getClassForName(name);
} catch (ClassNotFoundException e) {
throw new YAMLException("Class not found: " + name);
}
typeTags.put(node.getTag(), cl);
return cl;
} else {
return classForTag;
}
}
protected Class> getClassForName(String name) throws ClassNotFoundException {
return Class.forName(name);
}
}