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/*   Copyright 2004 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.xmlbeans;

import org.apache.xmlbeans.impl.schema.XmlObjectFactory;
import org.w3c.dom.Node;

import javax.xml.namespace.QName;

/**
 * Corresponds to the XML Schema
 * xs:anyType,
 * the base type for all XML Beans.
 * 

* Since all XML Schema types are translated into corresponding XML Bean * classes, and all Schema type derivation corresponds to Java class * inheritance, the fact that all Schema types derive from xs:anyType means * that all XML Bean classes derive from XmlObject. *

* On this base class you will find a number of common facilities that * all XML Bean classes provide: *

*

    *
  • Every XML Bean class has an inner Factory class for creating and parsing * instances, including XmlObject. Use {@link XmlObjectFactory} itself * to produce untyped XML trees or XML trees that implement specific * subtypes of XmlObject depending on a recognized root document element. * If you depend on the automatic type inference, you will want to understand * the type inference issues described below. *
  • To write out an accurate XML file for the XML tree under this * XmlObject, use one of the {@link #save} methods, * or {@link #newInputStream} or {@link #newReader}. * Use {@link #toString} to produce a pretty-printed representation of the * XML subtree under this XML Object. If you save interior portions of * an XML document, you will want to understand the inner contents * versus outer container issues described below. *
  • It is also simple to copy an XmlObject instance to or from a standard * DOM tree or SAX stream. Use {@link XmlObjectFactory#parse(Node)}, * for example, to load from DOM; use {@link XmlObjectFactory#newXmlSaxHandler} * to load from SAX; use {@link #newDomNode()} to save to DOM; and use * {@link #save(org.xml.sax.ContentHandler, org.xml.sax.ext.LexicalHandler)} * to save to SAX. *
  • Use {@link #validate} to validate the subtree of XML under this * XML Object. If you wish to get information about the location * and reason for validation errors, see {@link XmlOptions#setErrorListener}, * and use {@link #validate(XmlOptions)}. *
  • Use {@link #newCursor} to access the full XML infoset, for example, * if you need to determine interleaved element order or manipulate * annotations, comments, or mixed content. You can get an element name with * a cursor by calling {@link XmlCursor#getName() cursor.getName()} when the * cursor is positioned at an element's START token. See {@link XmlCursor}. *
  • Use {@link #selectPath} to find other XmlObjects in the subtree underneath * this XmlObject using relative XPaths. (In selectPath, "." indicates * the current element or attribute.) *
*

* Type inference. When using {@link XmlObjectFactory} to parse XML documents, * the actual document type is not {@link XmlObject#type} itself, but a subtype * based on the contents of the parsed document. If the parsed document * contains a recognized root document element, then the actual type of the * loaded instance will be the matching Document type. For example: *

 * XmlObject xobj = XmlObject.Factory.parse(myDocument);
 * if (xobj instanceof MyOrderDocument) // starts w/ <my-order>
 * {
 *     MyOrderDocument mydoc = (MyOrderDocument)xobj;
 *     if (!xobj.validate())
 *         System.out.println("Not a valid my-order document");
 * }
 * else
 * {
 *     System.out.println("Not a my-order document");
 * }
 * 
* Every XML Bean class has its own inner Factory class, * so if you actually know exactly which XML Bean document type * you want to load as in the example above, you should use the * the specific XML Bean Factory class instead. For example: *
 * MyOrderDocument mydoc = MyOrderDocument.Factory.parse(myDocument);
 * 
* The code above will throw an exception if the parsed document * does not begin with the proper (my-order) element. *

* Inner versus outer. An XmlObject represents the * contents of an element or attribute, not the element * or attribute itself. So when you validate or save an XmlObject, you * are validating or saving its contents, not its container. For example, * if the XmlObject represents the contents of an element which happens * to itself be in the wrong order relative to its siblings, validate will * not complain about the misplacement of the element itself. On the other hand, if * elements within the XmlObject are in the wrong order, validate * will complain. Similarly, when saving the contents of an interior * XmlObject, it is the contents of an element, not the element itself, * which is saved by default. *

* Reading and writing fragments. When reading or writing the contents of a * whole XML document, the standard XML representation for a document is used. * However, there is no standard concrete XML representation for "just the * contents" of an interior element or attribute. So when one is needed, * the tag <xml-fragment> is used to wrap the contents. This tag is used * can also be used to load just the contents for an XmlObject document fragment * of arbitrary type. If you wish to save out the XmlObject's container element * along with its contents, use {@link XmlOptions#setSaveOuter}. *

* Implementing XmlObject. The XMLBeans library does not support arbitrary * implementations of XmlObject - in almost all cases, you should only use * the implementations of XmlObject provided by the XMLBeans compiler itself. * If you need to implement XmlObject yourself, you should subclass * FilterXmlObject in order to delegate to another underlying XmlObject * implementation. This technique will allow you to use your code unchanged * with future versions of XMLBeans that add additional methods on XmlObject. */ public interface XmlObject extends XmlTokenSource { XmlObjectFactory Factory = new XmlObjectFactory<>("_BI_anyType"); /** * The constant {@link SchemaType} object representing this schema type. */ SchemaType type = Factory.getType(); /** * @return The schema type for this instance. This is a permanent, * unchanging property of the instance. */ SchemaType schemaType(); /** * Does a deep validation of the entire subtree under the * object, but does not validate the parents or siblings * of the object if the object is in the interior of an xml * tree. * * @return true if the contents of this object are valid * according to schemaType(). */ boolean validate(); /** *

Just like validate(), but with options.

*

If you wish to collect error messages and locations while validating, * use the {@link XmlOptions#setErrorListener} method. With that method, * you can specify an object in which to store messages related to validation. * The following is a simple example.

* *
     * // Create an XmlOptions instance and set the error listener.
     * XmlOptions validateOptions = new XmlOptions();
     * ArrayList errorList = new ArrayList();
     * validateOptions.setErrorListener(errorList);
     *
     * // Validate the XML.
     * boolean isValid = newEmp.validate(validateOptions);
     *
     * // If the XML isn't valid, loop through the listener's contents,
     * // printing contained messages.
     * if (!isValid)
     * {
     *      for (int i = 0; i < errorList.size(); i++)
     *      {
     *          XmlError error = (XmlError)errorList.get(i);
     *
     *          System.out.println("\n");
     *          System.out.println("Message: " + error.getMessage() + "\n");
     *          System.out.println("Location of invalid XML: " +
     *              error.getCursorLocation().xmlText() + "\n");
     *      }
     * }
     * 
* * @param options An object that implements the {@link java.util.Collection * Collection} interface. * @return true if the contents of this object are valid * according to schemaType(). */ boolean validate(XmlOptions options); /** * Selects a path. Path can be a string or precompiled path String. *

*

* The path must be a relative path, where "." represents the * element or attribute containing this XmlObject, and it must select * only other elements or attributes. If a non-element or non-attribute * is selected, an unchecked exception is thrown. *

*

* The array that is returned contains all the selected * XmlObjects, within the same document, listed in document * order. The actual array type of the result is inferred * from the closest common base type of selected results. *

*

* Here is an example of usage. Suppose we have a global * element definition for "owner" whose type is "person": * *

     *   <schema targetNamespace="http://openuri.org/sample">
     *      <element name="owner" type="person"/>
     *      <complexType name="person">
     *         [...]
     *      </complexType>
     *   </schema>
     * 
*

* and suppose "owner" tags can be scattered throughout the * document. Then we can write the following code to find * them all: * *

     * import org.openuri.sample.Person;
     * import org.apache.xmlbeans.*;
     * [...]
     *   XmlObject xobj = XmlObject.Factory.parse(myFile);
     *   Person[] results;
     *   results = (Person[])xobj.selectPath(
     *      "declare namespace s='http://www.openuri.org/sample' " +
     *      ".//s:owner");
     * 
*

* Notice the way in which namespace declarations are done in XPath 2.0. * Since XPath can only navigate within an XML document - it cannot * construct new XML - the resulting XmlObjects all reside in * the same XML document as this XmlObject itself. * * @param path the xpath * @return an array of all selected XmlObjects */ XmlObject[] selectPath(String path); /** * Selects a path, applying options. * * @param path the xpath * @param options the options used to execute the xpath * @return an array of all selected XmlObjects * @see #selectPath(String) */ XmlObject[] selectPath(String path, XmlOptions options); /** * Executes a query. Query can be a string or precompiled query String. *

* An XQuery is very similar to an XPath, except that it also permits * construction of new XML. As a result, the XmlObjects that are * returned from execQuery are in newly created documents, separate * from the XmlObject on which the query is executed. *

* Syntax and usage is otherwise similar to selectPath. *

* * @param query The XQuery expression * @return an array of all selected XmlObjects * @see #selectPath(String) */ XmlObject[] execQuery(String query); /** * Executes a query with options. *

* Use the options parameter to specify the following:

* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
To specify thisUse this method
The document type for the root element.{@link XmlOptions#setDocumentType}
To replace the document element with the specified QName when constructing the * resulting document.{@link XmlOptions#setLoadReplaceDocumentElement}
To strip all insignificant whitespace when constructing a document.{@link XmlOptions#setLoadStripWhitespace}
To strip all comments when constructing a document.{@link XmlOptions#setLoadStripComments}
To strip all processing instructions when constructing a document.{@link XmlOptions#setLoadStripProcinsts}
A map of namespace URI substitutions to use when constructing a document.{@link XmlOptions#setLoadSubstituteNamespaces}
Additional namespace mappings to be added when constructing a document.{@link XmlOptions#setLoadAdditionalNamespaces}
To trim the underlying XML text buffer immediately after constructing * a document, resulting in a smaller memory footprint.{@link XmlOptions#setLoadTrimTextBuffer}
Whether value facets should be checked as they are set.{@link XmlOptions#setValidateOnSet}
* * @param query The XQuery expression. * @param options Options as described. * @return an array of all selected XmlObjects * @see #execQuery(String) */ XmlObject[] execQuery(String query, XmlOptions options); /** * Changes the schema type associated with this data and * returns a new XmlObject instance whose schemaType is the * new type. *

* Returns the new XmlObject if the type change was successful, * the old XmlObject if no changes could be made.

* Certain type changes may be prohibited in the interior of an xml * tree due to schema type system constraints (that is, due * to a parent container within which the newly specified * type is not permissible), but there are no constraints * at the roottype changes are never * prohibited at the root of an xml tree. *

* If the type change is allowed, then the new XmlObject should * be used rather than the old one. The old XmlObject instance and * any other XmlObject instances in the subtree are permanently * invalidated and should not be used. (They will return * XmlValueDisconnectedException if you try to use them.) *

* If a type change is done on the interior of an Xml * tree, then xsi:type attributes are updated as needed. * * @return a new XmlObject instance whose schemaType is the new type */ XmlObject changeType(SchemaType newType); /** * Changes the schema type associated with this data using substitution * groups and returns an XmlObject instance whose schemaType is the * new type and container name is the new name. *

* Returns the new XmlObject if the substitution was successful, * the old XmlObject if no changes could be made.

* In order for the operation to succeed, several conditions must hold: *

  • the container of this type must be an element
  • *
  • a global element with the name newName must exist * and must be in the substitution group of the containing element
  • *
  • the newType type must be consistent with the declared * type of the new element
*

* If the type change is allowed, then the new XmlObject should * be used rather than the old one. The old XmlObject instance and * any other XmlObject instances in the subtree are permanently * invalidated and should not be used. (They will return * XmlValueDisconnectedException if you try to use them.) * If necessary, xsi:type attributes are updated. * * @param newName the new name * @param newType the new type * @return an XmlObject instance whose schemaType is the * new type and container name is the new name */ XmlObject substitute(QName newName, SchemaType newType); /** * Note that in order to be nil, * the value must be in an element, and the element containing * the value must be marked as nillable in the schema. * * @return true if the value is nil. */ boolean isNil(); /** * Sets the value to nil. The element containing the value must * be marked as nillable in the schema. */ void setNil(); /** * The string is pretty-printed. If you want a non-pretty-printed * string, or if you want to control options precisely, use the * xmlText() methods. *

* Note that when producing XML any object other than very root of the * document, then you are guaranteed to be looking at only a fragment * of XML, i.e., just the contents of an element or attribute, and * and we will produce a string that starts with an <xml-fragment> tag. * The XmlOptions.setSaveOuter() option on xmlText can be used to produce * the actual element name above the object if you wish. * * @return a XML string for this XML object. */ String toString(); /** * Immutable values do not have a position in a tree; rather, they are * stand-alone simple type values. If the object is immutable, the equals() * methods tests for value equality, and the object can be used as the key for a hash. * * @return true if the value is an immutable value. */ boolean isImmutable(); /** * Set the value/type of this XmlObject to be a copy of the source * XmlObject. Because the type of the source may be different than this * target, this XmlObject may become defunct. In this case the new * XmlObject is returned. If no type change happens, the same this will be * returned. */ XmlObject set(XmlObject srcObj); /** * Returns a deep copy of this XmlObject. The returned object has the * same type as the current object, and has all the content of * the XML document underneath the current object. Note that * any parts of the XML document above or outside this XmlObject are * not copied. *

* Note: The result object will be in the same synchronization domain as the source, * and additional synchronization is required for concurrent access. * To use a different synchronization domain use setCopyUseNewSynchronizationDomain * option with copy(XmlOptions) method. * * @see #copy(XmlOptions) * @see org.apache.xmlbeans.XmlOptions#setCopyUseNewSynchronizationDomain(boolean) */ XmlObject copy(); /** * Returns a deep copy of this XmlObject. The returned object has the * same type as the current object, and has all the content of * the XML document underneath the current object. Note that * any parts of the XML document above or outside this XmlObject are * not copied. *

* Note: The result object will be in the same synchronization domain as the source, * and additional synchronization is required for concurrent access. * To use a different synchronization domain use setCopyUseNewSynchronizationDomain * option when creating the original XmlObject. * * @see org.apache.xmlbeans.XmlOptions#setCopyUseNewSynchronizationDomain(boolean) */ XmlObject copy(XmlOptions options); /** * True if the xml values are equal. Two different objects * (which are distinguished by equals(obj) == false) may of * course have equal values (valueEquals(obj) == true). *

* Usually this method can be treated as an ordinary equivalence * relation, but actually it is not is not transitive. * Here is a precise specification: *

* There are two categories of XML object: objects with a known * instance type, and objects whose only known type is one of the * ur-types (either AnyType or AnySimpleType). The first category * is compared in terms of logical value spaces, and the second * category is compared lexically. *

* Within each of these two categories, valueEquals is a well-behaved * equivalence relation. However, when comparing an object of known * type with an object with ur-type, the comparison is done by attempting * to convert the lexical form of the ur-typed object into the other * type, and then comparing the results. Ur-typed objects are therefore * treated as lexical wildcards and may be equal to objects in different * value spaces, even though the objects in different value spaces are * not equal to each other. *

* For example, the anySimpleType value "1" will compare as an * equalValue to the string "1", the float value "1.0", the double * value "1.0", the decimal "1", and the GYear "1", even though * all these objects will compare unequal to each other since they * lie in different value spaces. * Note: as of XMLBeans 2.2.1 only implemented for simple type values. */ boolean valueEquals(XmlObject obj); int valueHashCode(); /** * Implements the Comparable interface by comparing two simple * xml values based on their standard XML schema ordering. * Throws a ClassCastException if no standard ordering applies, * or if the two values are incomparable within a partial order. */ int compareTo(Object obj); /** * This comparison method is similar to compareTo, but rather * than throwing a ClassCastException when two values are incomparable, * it returns the number 2. The result codes are -1 if this object * is less than obj, 1 if this object is greater than obj, zero if * the objects are equal, and 2 if the objects are incomparable. */ int compareValue(XmlObject obj); /** * LESS_THAN is -1. See {@link #compareValue}. */ int LESS_THAN = -1; /** * EQUAL is 0. See {@link #compareValue}. */ int EQUAL = 0; /** * GREATER_THAN is 1. See {@link #compareValue}. */ int GREATER_THAN = 1; /** * NOT_EQUAL is 2. See {@link #compareValue}. */ int NOT_EQUAL = 2; /** * Selects the contents of the children elements with the given name. * * @param elementName The name of the elements to be selected. * @return Returns the contents of the selected elements. */ XmlObject[] selectChildren(QName elementName); /** * Selects the contents of the children elements with the given name. * * @param elementUri The URI of the elements to be selected. * @param elementLocalName The local name of the elements to be selected. * @return Returns the contents of the selected elements. */ XmlObject[] selectChildren(String elementUri, String elementLocalName); /** * Selects the contents of the children elements that are contained in the elementNameSet. * * @param elementNameSet Set of element names to be selected. * @return Returns the contents of the selected elements. * @see SchemaType#qnameSetForWildcardElements() * @see QNameSetBuilder for creating sets of qnames */ XmlObject[] selectChildren(QNameSet elementNameSet); /** * Selects the content of the attribute with the given name. * * @param attributeName The name of the attribute to be selected. * @return Returns the contents of the selected attribute. */ XmlObject selectAttribute(QName attributeName); /** * Selects the content of the attribute with the given name. * * @param attributeUri The URI of the attribute to be selected. * @param attributeLocalName The local name of the attribute to be selected. * @return Returns the content of the selected attribute. */ XmlObject selectAttribute(String attributeUri, String attributeLocalName); /** * Selects the contents of the attributes that are contained in the elementNameSet. * * @param attributeNameSet Set of attribute names to be selected. * @return Returns the contents of the selected attributes. * @see SchemaType#qnameSetForWildcardAttributes() * @see QNameSetBuilder for creating sets of qnames */ XmlObject[] selectAttributes(QNameSet attributeNameSet); }





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