org.simpleframework.xml.core.Source Maven / Gradle / Ivy
/*
* Source.java July 2006
*
* Copyright (C) 2006, Niall Gallagher
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
* Public License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place, Suite 330,
* Boston, MA 02111-1307 USA
*/
package org.simpleframework.xml.core;
import org.simpleframework.xml.Version;
import org.simpleframework.xml.filter.Filter;
import org.simpleframework.xml.strategy.Strategy;
import org.simpleframework.xml.strategy.Value;
import org.simpleframework.xml.stream.InputNode;
import org.simpleframework.xml.stream.NodeMap;
import org.simpleframework.xml.stream.OutputNode;
import org.simpleframework.xml.stream.Style;
/**
* The Source
object acts as a contextual object that is
* used to store all information regarding an instance of serialization
* or deserialization. This maintains the Strategy
as
* well as the Filter
used to replace template variables.
* When serialization and deserialization are performed the source is
* required as it acts as a factory for objects used in the process.
*
* For serialization the source object is required as a factory for
* Schema
objects, which are used to visit each field
* in the class that can be serialized. Also this can be used to get
* any data entered into the session Map
object.
*
* When deserializing the source object provides the contextual data
* used to replace template variables extracted from the XML source.
* This is performed using the Filter
object. Also, as
* in serialization it acts as a factory for the Schema
* objects used to examine the serializable fields of an object.
*
* @author Niall Gallagher
*/
class Source implements Context {
/**
* This is used to replace variables within the XML source.
*/
private TemplateEngine engine;
/**
* This is the strategy used to resolve the element classes.
*/
private Strategy strategy;
/**
* This support is used to convert the strings encountered.
*/
private Support support;
/**
* This is used to store the source context attribute values.
*/
private Session session;
/**
* This is the filter used by this object for templating.
*/
private Filter filter;
/**
* This is the style that is used by this source instance.
*/
private Style style;
/**
* Constructor for the Source
object. This is used to
* maintain a context during the serialization process. It holds
* the Strategy
and Context
used in the
* serialization process. The same source instance is used for
* each XML element evaluated in a the serialization process.
*
* @param strategy this is used to resolve the classes used
* @param support this is the context used to process strings
* @param style this is the style used for the serialization
*/
public Source(Strategy strategy, Support support, Style style) {
this.filter = new TemplateFilter(this, support);
this.engine = new TemplateEngine(filter);
this.session = new Session();
this.strategy = strategy;
this.support = support;
this.style = style;
}
/**
* This is used to acquire the Session
object that
* is used to store the values used within the serialization
* process. This provides the internal map that is passed to all
* of the call back methods so that is can be populated.
*
* @return this returns the session that is used by this source
*/
public Session getSession() {
return session;
}
/**
* This is used to acquire the Support
object.
* The support object is used to translate strings to and from
* their object representations and is also used to convert the
* strings to their template values. This is the single source
* of translation for all of the strings encountered.
*
* @return this returns the support used by the context
*/
public Support getSupport() {
return support;
}
/**
* This is used to acquire the Style
for the format.
* If no style has been set a default style is used, which does
* not modify the attributes and elements that are used to build
* the resulting XML document.
*
* @return this returns the style used for this format object
*/
public Style getStyle() {
if(style == null) {
style = new DefaultStyle();
}
return style;
}
/**
* This is used to determine if the type specified is a floating
* point type. Types that are floating point are the double and
* float primitives as well as the java types for this primitives.
*
* @param type this is the type to determine if it is a float
*
* @return this returns true if the type is a floating point
*/
public boolean isFloat(Class type) throws Exception {
return support.isFloat(type);
}
/**
* This is used to determine whether the scanned class represents
* a primitive type. A primitive type is a type that contains no
* XML annotations and so cannot be serialized with an XML form.
* Instead primitives a serialized using transformations.
*
* @param type this is the type to determine if it is primitive
*
* @return this returns true if no XML annotations were found
*/
public boolean isPrimitive(Class type) throws Exception {
return support.isPrimitive(type);
}
/**
* This will create an Instance
that can be used
* to instantiate objects of the specified class. This leverages
* an internal constructor cache to ensure creation is quicker.
*
* @param type this is the type that is to be instantiated
*
* @return this will return an object for instantiating objects
*/
public Instance getInstance(Class type) {
return support.getInstance(type);
}
/**
* This will create an Instance
that can be used
* to instantiate objects of the specified class. This leverages
* an internal constructor cache to ensure creation is quicker.
*
* @param value this contains information on the object instance
*
* @return this will return an object for instantiating objects
*/
public Instance getInstance(Value value) {
return support.getInstance(value);
}
/**
* This is used to acquire the name of the specified type using
* the Root
annotation for the class. This will
* use either the name explicitly provided by the annotation or
* it will use the name of the class that the annotation was
* placed on if there is no explicit name for the root.
*
* @param type this is the type to acquire the root name for
*
* @return this returns the name of the type from the root
*/
public String getName(Class type) throws Exception {
return support.getName(type);
}
/**
* This returns the version for the type specified. The version is
* used to determine how the deserialization process is performed.
* If the version of the type is different from the version for
* the XML document, then deserialization is done in a best effort.
*
* @param type this is the type to acquire the version for
*
* @return the version that has been set for this XML schema class
*/
public Version getVersion(Class type) throws Exception {
return getScanner(type).getRevision();
}
/**
* This creates a Scanner
object that can be used to
* examine the fields within the XML class schema. The scanner
* maintains information when a field from within the scanner is
* visited, this allows the serialization and deserialization
* process to determine if all required XML annotations are used.
*
* @param type the schema class the scanner is created for
*
* @return a scanner that can maintains information on the type
*
* @throws Exception if the class contains an illegal schema
*/
private Scanner getScanner(Class type) throws Exception {
return support.getScanner(type);
}
/**
* This will acquire the Decorator
for the type.
* A decorator is an object that adds various details to the
* node without changing the overall structure of the node. For
* example comments and namespaces can be added to the node with
* a decorator as they do not affect the deserialization.
*
* @param type this is the type to acquire the decorator for
*
* @return this returns the decorator associated with this
*/
public Decorator getDecorator(Class type) throws Exception {
return getScanner(type).getDecorator();
}
/**
* This is used to acquire the Caller
object. This
* is used to call the callback methods within the object. If the
* object contains no callback methods then this will return an
* object that does not invoke any methods that are invoked.
*
* @param type this is the type to acquire the caller for
*
* @return this returns the caller for the specified type
*/
public Caller getCaller(Class type) throws Exception {
return getScanner(type).getCaller(this);
}
/**
* This creates a Schema
object that can be used to
* examine the fields within the XML class schema. The schema
* maintains information when a field from within the schema is
* visited, this allows the serialization and deserialization
* process to determine if all required XML annotations are used.
*
* @param type the schema class the schema is created for
*
* @return a new schema that can track visits within the schema
*
* @throws Exception if the class contains an illegal schema
*/
public Schema getSchema(Class type) throws Exception {
Scanner schema = getScanner(type);
if(schema == null) {
throw new PersistenceException("Invalid schema class %s", type);
}
return new ClassSchema(schema, this);
}
/**
* This is used to acquire the attribute mapped to the specified
* key. In order for this to return a value it must have been
* previously placed into the context as it is empty by default.
*
* @param key this is the name of the attribute to retrieve
*
* @return this returns the value mapped to the specified key
*/
public Object getAttribute(Object key) {
return session.get(key);
}
/**
* This is used to resolve and load a class for the given element.
* The class should be of the same type or a subclass of the class
* specified. It can be resolved using the details within the
* provided XML element, if the details used do not represent any
* serializable values they should be removed so as not to disrupt
* the deserialization process. For example the default strategy
* removes all "class" attributes from the given elements.
*
* @param type this is the type of the root element expected
* @param node this is the element used to resolve an override
*
* @return returns the type that should be used for the object
*
* @throws Exception thrown if the class cannot be resolved
*/
public Value getOverride(Class type, InputNode node) throws Exception {
NodeMap map = node.getAttributes();
if(node.isRoot()) {
return strategy.getRoot(type, map, session);
}
return strategy.getElement(type, map, session);
}
/**
* This is used to attach elements or attributes to the given
* element during the serialization process. This method allows
* the strategy to augment the XML document so that it can be
* deserialized using a similar strategy. For example the
* default strategy adds a "class" attribute to the element.
*
* @param type this is the field type for the associated value
* @param value this is the instance variable being serialized
* @param node this is the element used to represent the value
*
* @return this returns true if serialization has complete
*
* @throws Exception thrown if the details cannot be set
*/
public boolean setOverride(Class type, Object value, OutputNode node) throws Exception {
NodeMap map = node.getAttributes();
if(node.isRoot()) {
return strategy.setRoot(type, value, map, session);
}
return strategy.setElement(type, value, map, session);
}
/**
* Replaces any template variables within the provided string.
* This is used in the deserialization process to replace
* variables with system properties, environment variables, or
* used specified mappings. If a template variable does not have
* a mapping from the Filter
is is left unchanged.
*
* @param text this is processed by the template engine object
*
* @return this returns the text will all variables replaced
*/
public String getProperty(String text) {
return engine.process(text);
}
}