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 * Copyright (c) 2005, 2015, Oracle and/or its affiliates. All rights reserved.
 */
/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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.
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package jdk8u.jaxp.org.apache.xerces.external.util;

import jdk8u.jaxp.org.apache.xerces.external.xni.Augmentations;
import jdk8u.jaxp.org.apache.xerces.external.xni.QName;
import jdk8u.jaxp.org.apache.xerces.external.xni.XMLAttributes;
import jdk8u.jaxp.org.apache.xerces.external.xni.XMLString;
import jdk8u.jaxp.xml.external.stream.XMLBufferListener;
/**
 * The XMLAttributesImpl class is an implementation of the XMLAttributes
 * interface which defines a collection of attributes for an element.
 * In the parser, the document source would scan the entire start element
 * and collect the attributes. The attributes are communicated to the
 * document handler in the startElement method.
 * 

* The attributes are read-write so that subsequent stages in the document * pipeline can modify the values or change the attributes that are * propogated to the next stage. * * @see jdk8u.jaxp.org.apache.xerces.external.xni.XMLDocumentHandler#startElement * * @author Andy Clark, IBM * @author Elena Litani, IBM * @author Michael Glavassevich, IBM * * @version $Id: XMLAttributesImpl.java,v 1.7 2010/05/07 20:13:09 joehw Exp $ */ public class XMLAttributesImpl implements XMLAttributes, XMLBufferListener { // // Constants // /** Default table size. */ protected static final int TABLE_SIZE = 101; /** Maximum hash collisions per bucket. */ protected static final int MAX_HASH_COLLISIONS = 40; protected static final int MULTIPLIERS_SIZE = 1 << 5; protected static final int MULTIPLIERS_MASK = MULTIPLIERS_SIZE - 1; /** * Threshold at which an instance is treated * as a large attribute list. */ protected static final int SIZE_LIMIT = 20; // // Data // // features /** Namespaces. */ protected boolean fNamespaces = true; // data /** * Usage count for the attribute table view. * Incremented each time all attributes are removed * when the attribute table view is in use. */ protected int fLargeCount = 1; /** Attribute count. */ protected int fLength; /** Attribute information. */ protected Attribute[] fAttributes = new Attribute[4]; /** * Provides an alternate view of the attribute specification. */ protected Attribute[] fAttributeTableView; /** * Tracks whether each chain in the hash table is stale * with respect to the current state of this object. * A chain is stale if its state is not the same as the number * of times the attribute table view has been used. */ protected int[] fAttributeTableViewChainState; /** * Actual number of buckets in the table view. */ protected int fTableViewBuckets; /** * Indicates whether the table view contains consistent data. */ protected boolean fIsTableViewConsistent; /** * Array of randomly selected hash function multipliers or null * if the default String.hashCode() function should be used. */ protected int[] fHashMultipliers; // // Constructors // /** Default constructor. */ public XMLAttributesImpl() { this(TABLE_SIZE); } /** * @param tableSize initial size of table view */ public XMLAttributesImpl(int tableSize) { fTableViewBuckets = tableSize; for (int i = 0; i < fAttributes.length; i++) { fAttributes[i] = new Attribute(); } } // () // // Public methods // /** * Sets whether namespace processing is being performed. This state * is needed to return the correct value from the getLocalName method. * * @param namespaces True if namespace processing is turned on. * * @see #getLocalName */ public void setNamespaces(boolean namespaces) { fNamespaces = namespaces; } // setNamespaces(boolean) // // XMLAttributes methods // /** * Adds an attribute. The attribute's non-normalized value of the * attribute will have the same value as the attribute value until * set using the setNonNormalizedValue method. Also, * the added attribute will be marked as specified in the XML instance * document unless set otherwise using the setSpecified * method. *

* Note: If an attribute of the same name already * exists, the old values for the attribute are replaced by the new * values. * * @param name The attribute name. * @param type The attribute type. The type name is determined by * the type specified for this attribute in the DTD. * For example: "CDATA", "ID", "NMTOKEN", etc. However, * attributes of type enumeration will have the type * value specified as the pipe ('|') separated list of * the enumeration values prefixed by an open * parenthesis and suffixed by a close parenthesis. * For example: "(true|false)". * @param value The attribute value. * * @return Returns the attribute index. * * @see #setNonNormalizedValue * @see #setSpecified */ public int addAttribute(QName name, String type, String value) { return addAttribute(name,type,value,null); } public int addAttribute(QName name, String type, String value,XMLString valueCache) { int index; if (fLength < SIZE_LIMIT) { index = name.uri != null && !name.uri.equals("") ? getIndexFast(name.uri, name.localpart) : getIndexFast(name.rawname); if (index == -1) { index = fLength; if (fLength++ == fAttributes.length) { Attribute[] attributes = new Attribute[fAttributes.length + 4]; System.arraycopy(fAttributes, 0, attributes, 0, fAttributes.length); for (int i = fAttributes.length; i < attributes.length; i++) { attributes[i] = new Attribute(); } fAttributes = attributes; } } } else if (name.uri == null || name.uri.length() == 0 || (index = getIndexFast(name.uri, name.localpart)) == -1) { /** * If attributes were removed from the list after the table * becomes in use this isn't reflected in the table view. It's * assumed that once a user starts removing attributes they're * not likely to add more. We only make the view consistent if * the user of this class adds attributes, removes them, and * then adds more. */ if (!fIsTableViewConsistent || fLength == SIZE_LIMIT || (fLength > SIZE_LIMIT && fLength > fTableViewBuckets)) { prepareAndPopulateTableView(); fIsTableViewConsistent = true; } int bucket = getTableViewBucket(name.rawname); // The chain is stale. // This must be a unique attribute. if (fAttributeTableViewChainState[bucket] != fLargeCount) { index = fLength; if (fLength++ == fAttributes.length) { Attribute[] attributes = new Attribute[fAttributes.length << 1]; System.arraycopy(fAttributes, 0, attributes, 0, fAttributes.length); for (int i = fAttributes.length; i < attributes.length; i++) { attributes[i] = new Attribute(); } fAttributes = attributes; } // Update table view. fAttributeTableViewChainState[bucket] = fLargeCount; fAttributes[index].next = null; fAttributeTableView[bucket] = fAttributes[index]; } // This chain is active. // We need to check if any of the attributes has the same rawname. else { // Search the table. int collisionCount = 0; Attribute found = fAttributeTableView[bucket]; while (found != null) { if (found.name.rawname == name.rawname) { break; } found = found.next; ++collisionCount; } // This attribute is unique. if (found == null) { index = fLength; if (fLength++ == fAttributes.length) { Attribute[] attributes = new Attribute[fAttributes.length << 1]; System.arraycopy(fAttributes, 0, attributes, 0, fAttributes.length); for (int i = fAttributes.length; i < attributes.length; i++) { attributes[i] = new Attribute(); } fAttributes = attributes; } // Select a new hash function and rehash the table view // if the collision threshold is exceeded. if (collisionCount >= MAX_HASH_COLLISIONS) { // The current attribute will be processed in the rehash. // Need to set its name first. fAttributes[index].name.setValues(name); rebalanceTableView(fLength); } else { // Update table view fAttributes[index].next = fAttributeTableView[bucket]; fAttributeTableView[bucket] = fAttributes[index]; } } // Duplicate. We still need to find the index. else { index = getIndexFast(name.rawname); } } } // set values Attribute attribute = fAttributes[index]; attribute.name.setValues(name); attribute.type = type; attribute.value = value; attribute.xmlValue = valueCache; attribute.nonNormalizedValue = value; attribute.specified = false; // clear augmentations if(attribute.augs != null) attribute.augs.removeAllItems(); return index; } // addAttribute(QName,String,XMLString) /** * Removes all of the attributes. This method will also remove all * entities associated to the attributes. */ public void removeAllAttributes() { fLength = 0; } // removeAllAttributes() /** * Removes the attribute at the specified index. *

* Note: This operation changes the indexes of all * attributes following the attribute at the specified index. * * @param attrIndex The attribute index. */ public void removeAttributeAt(int attrIndex) { fIsTableViewConsistent = false; if (attrIndex < fLength - 1) { Attribute removedAttr = fAttributes[attrIndex]; System.arraycopy(fAttributes, attrIndex + 1, fAttributes, attrIndex, fLength - attrIndex - 1); // Make the discarded Attribute object available for re-use // by tucking it after the Attributes that are still in use fAttributes[fLength-1] = removedAttr; } fLength--; } // removeAttributeAt(int) /** * Sets the name of the attribute at the specified index. * * @param attrIndex The attribute index. * @param attrName The new attribute name. */ public void setName(int attrIndex, QName attrName) { fAttributes[attrIndex].name.setValues(attrName); } // setName(int,QName) /** * Sets the fields in the given QName structure with the values * of the attribute name at the specified index. * * @param attrIndex The attribute index. * @param attrName The attribute name structure to fill in. */ public void getName(int attrIndex, QName attrName) { attrName.setValues(fAttributes[attrIndex].name); } // getName(int,QName) /** * Sets the type of the attribute at the specified index. * * @param attrIndex The attribute index. * @param attrType The attribute type. The type name is determined by * the type specified for this attribute in the DTD. * For example: "CDATA", "ID", "NMTOKEN", etc. However, * attributes of type enumeration will have the type * value specified as the pipe ('|') separated list of * the enumeration values prefixed by an open * parenthesis and suffixed by a close parenthesis. * For example: "(true|false)". */ public void setType(int attrIndex, String attrType) { fAttributes[attrIndex].type = attrType; } // setType(int,String) /** * Sets the value of the attribute at the specified index. This * method will overwrite the non-normalized value of the attribute. * * @param attrIndex The attribute index. * @param attrValue The new attribute value. * * @see #setNonNormalizedValue */ public void setValue(int attrIndex, String attrValue) { setValue(attrIndex,attrValue,null); } public void setValue(int attrIndex, String attrValue,XMLString value) { Attribute attribute = fAttributes[attrIndex]; attribute.value = attrValue; attribute.nonNormalizedValue = attrValue; attribute.xmlValue = value; } // setValue(int,String) /** * Sets the non-normalized value of the attribute at the specified * index. * * @param attrIndex The attribute index. * @param attrValue The new non-normalized attribute value. */ public void setNonNormalizedValue(int attrIndex, String attrValue) { if (attrValue == null) { attrValue = fAttributes[attrIndex].value; } fAttributes[attrIndex].nonNormalizedValue = attrValue; } // setNonNormalizedValue(int,String) /** * Returns the non-normalized value of the attribute at the specified * index. If no non-normalized value is set, this method will return * the same value as the getValue(int) method. * * @param attrIndex The attribute index. */ public String getNonNormalizedValue(int attrIndex) { String value = fAttributes[attrIndex].nonNormalizedValue; return value; } // getNonNormalizedValue(int):String /** * Sets whether an attribute is specified in the instance document * or not. * * @param attrIndex The attribute index. * @param specified True if the attribute is specified in the instance * document. */ public void setSpecified(int attrIndex, boolean specified) { fAttributes[attrIndex].specified = specified; } // setSpecified(int,boolean) /** * Returns true if the attribute is specified in the instance document. * * @param attrIndex The attribute index. */ public boolean isSpecified(int attrIndex) { return fAttributes[attrIndex].specified; } // isSpecified(int):boolean // // AttributeList and Attributes methods // /** * Return the number of attributes in the list. * *

Once you know the number of attributes, you can iterate * through the list.

* * @return The number of attributes in the list. */ public int getLength() { return fLength; } // getLength():int /** * Look up an attribute's type by index. * *

The attribute type is one of the strings "CDATA", "ID", * "IDREF", "IDREFS", "NMTOKEN", "NMTOKENS", "ENTITY", "ENTITIES", * or "NOTATION" (always in upper case).

* *

If the parser has not read a declaration for the attribute, * or if the parser does not report attribute types, then it must * return the value "CDATA" as stated in the XML 1.0 Recommentation * (clause 3.3.3, "Attribute-Value Normalization").

* *

For an enumerated attribute that is not a notation, the * parser will report the type as "NMTOKEN".

* * @param index The attribute index (zero-based). * @return The attribute's type as a string, or null if the * index is out of range. * @see #getLength */ public String getType(int index) { if (index < 0 || index >= fLength) { return null; } return getReportableType(fAttributes[index].type); } // getType(int):String /** * Look up an attribute's type by XML 1.0 qualified name. * *

See {@link #getType(int) getType(int)} for a description * of the possible types.

* * @param qname The XML 1.0 qualified name. * @return The attribute type as a string, or null if the * attribute is not in the list or if qualified names * are not available. */ public String getType(String qname) { int index = getIndex(qname); return index != -1 ? getReportableType(fAttributes[index].type) : null; } // getType(String):String /** * Look up an attribute's value by index. * *

If the attribute value is a list of tokens (IDREFS, * ENTITIES, or NMTOKENS), the tokens will be concatenated * into a single string with each token separated by a * single space.

* * @param index The attribute index (zero-based). * @return The attribute's value as a string, or null if the * index is out of range. * @see #getLength */ public String getValue(int index) { if (index < 0 || index >= fLength) { return null; } if(fAttributes[index].value == null && fAttributes[index].xmlValue != null) fAttributes[index].value = fAttributes[index].xmlValue.toString(); return fAttributes[index].value; } // getValue(int):String /** * Look up an attribute's value by XML 1.0 qualified name. * *

See {@link #getValue(int) getValue(int)} for a description * of the possible values.

* * @param qname The XML 1.0 qualified name. * @return The attribute value as a string, or null if the * attribute is not in the list or if qualified names * are not available. */ public String getValue(String qname) { int index = getIndex(qname); if(index == -1 ) return null; if(fAttributes[index].value == null) fAttributes[index].value = fAttributes[index].xmlValue.toString(); return fAttributes[index].value; } // getValue(String):String // // AttributeList methods // /** * Return the name of an attribute in this list (by position). * *

The names must be unique: the SAX parser shall not include the * same attribute twice. Attributes without values (those declared * #IMPLIED without a value specified in the start tag) will be * omitted from the list.

* *

If the attribute name has a namespace prefix, the prefix * will still be attached.

* * @param i The index of the attribute in the list (starting at 0). * @return The name of the indexed attribute, or null * if the index is out of range. * @see #getLength */ public String getName(int index) { if (index < 0 || index >= fLength) { return null; } return fAttributes[index].name.rawname; } // getName(int):String // // Attributes methods // /** * Look up the index of an attribute by XML 1.0 qualified name. * * @param qName The qualified (prefixed) name. * @return The index of the attribute, or -1 if it does not * appear in the list. */ public int getIndex(String qName) { for (int i = 0; i < fLength; i++) { Attribute attribute = fAttributes[i]; if (attribute.name.rawname != null && attribute.name.rawname.equals(qName)) { return i; } } return -1; } // getIndex(String):int /** * Look up the index of an attribute by Namespace name. * * @param uri The Namespace URI, or null if * the name has no Namespace URI. * @param localName The attribute's local name. * @return The index of the attribute, or -1 if it does not * appear in the list. */ public int getIndex(String uri, String localPart) { for (int i = 0; i < fLength; i++) { Attribute attribute = fAttributes[i]; if (attribute.name.localpart != null && attribute.name.localpart.equals(localPart) && ((uri==attribute.name.uri) || (uri!=null && attribute.name.uri!=null && attribute.name.uri.equals(uri)))) { return i; } } return -1; } // getIndex(String,String):int /** * Look up the index of an attribute by local name only, * ignoring its namespace. * * @param localName The attribute's local name. * @return The index of the attribute, or -1 if it does not * appear in the list. */ public int getIndexByLocalName(String localPart) { for (int i = 0; i < fLength; i++) { Attribute attribute = fAttributes[i]; if (attribute.name.localpart != null && attribute.name.localpart.equals(localPart)) { return i; } } return -1; } // getIndex(String):int /** * Look up an attribute's local name by index. * * @param index The attribute index (zero-based). * @return The local name, or the empty string if Namespace * processing is not being performed, or null * if the index is out of range. * @see #getLength */ public String getLocalName(int index) { if (!fNamespaces) { return ""; } if (index < 0 || index >= fLength) { return null; } return fAttributes[index].name.localpart; } // getLocalName(int):String /** * Look up an attribute's XML 1.0 qualified name by index. * * @param index The attribute index (zero-based). * @return The XML 1.0 qualified name, or the empty string * if none is available, or null if the index * is out of range. * @see #getLength */ public String getQName(int index) { if (index < 0 || index >= fLength) { return null; } String rawname = fAttributes[index].name.rawname; return rawname != null ? rawname : ""; } // getQName(int):String public QName getQualifiedName(int index){ if (index < 0 || index >= fLength) { return null; } return fAttributes[index].name; } /** * Look up an attribute's type by Namespace name. * *

See {@link #getType(int) getType(int)} for a description * of the possible types.

* * @param uri The Namespace URI, or null if the * name has no Namespace URI. * @param localName The local name of the attribute. * @return The attribute type as a string, or null if the * attribute is not in the list or if Namespace * processing is not being performed. */ public String getType(String uri, String localName) { if (!fNamespaces) { return null; } int index = getIndex(uri, localName); return index != -1 ? getType(index) : null; } // getType(String,String):String /** * Look up the index of an attribute by XML 1.0 qualified name. *

* Note: * This method uses reference comparison, and thus should * only be used internally. We cannot use this method in any * code exposed to users as they may not pass in unique strings. * * @param qName The qualified (prefixed) name. * @return The index of the attribute, or -1 if it does not * appear in the list. */ public int getIndexFast(String qName) { for (int i = 0; i < fLength; ++i) { Attribute attribute = fAttributes[i]; if (attribute.name.rawname == qName) { return i; } } return -1; } // getIndexFast(String):int /** * Adds an attribute. The attribute's non-normalized value of the * attribute will have the same value as the attribute value until * set using the setNonNormalizedValue method. Also, * the added attribute will be marked as specified in the XML instance * document unless set otherwise using the setSpecified * method. *

* This method differs from addAttribute in that it * does not check if an attribute of the same name already exists * in the list before adding it. In order to improve performance * of namespace processing, this method allows uniqueness checks * to be deferred until all the namespace information is available * after the entire attribute specification has been read. *

* Caution: If this method is called it should * not be mixed with calls to addAttribute unless * it has been determined that all the attribute names are unique. * * @param name the attribute name * @param type the attribute type * @param value the attribute value * * @see #setNonNormalizedValue * @see #setSpecified * @see #checkDuplicatesNS */ public void addAttributeNS(QName name, String type, String value) { int index = fLength; if (fLength++ == fAttributes.length) { Attribute[] attributes; if (fLength < SIZE_LIMIT) { attributes = new Attribute[fAttributes.length + 4]; } else { attributes = new Attribute[fAttributes.length << 1]; } System.arraycopy(fAttributes, 0, attributes, 0, fAttributes.length); for (int i = fAttributes.length; i < attributes.length; i++) { attributes[i] = new Attribute(); } fAttributes = attributes; } // set values Attribute attribute = fAttributes[index]; attribute.name.setValues(name); attribute.type = type; attribute.value = value; attribute.nonNormalizedValue = value; attribute.specified = false; // clear augmentations attribute.augs.removeAllItems(); } /** * Checks for duplicate expanded names (local part and namespace name * pairs) in the attribute specification. If a duplicate is found its * name is returned. *

* This should be called once all the in-scope namespaces for the element * enclosing these attributes is known, and after all the attributes * have gone through namespace binding. * * @return the name of a duplicate attribute found in the search, * otherwise null. */ public QName checkDuplicatesNS() { // If the list is small check for duplicates using pairwise comparison. final int length = fLength; if (length <= SIZE_LIMIT) { final Attribute[] attributes = fAttributes; for (int i = 0; i < length - 1; ++i) { Attribute att1 = attributes[i]; for (int j = i + 1; j < length; ++j) { Attribute att2 = attributes[j]; if (att1.name.localpart == att2.name.localpart && att1.name.uri == att2.name.uri) { return att2.name; } } } return null; } // If the list is large check duplicates using a hash table. else { return checkManyDuplicatesNS(); } } private QName checkManyDuplicatesNS() { // We don't want this table view to be read if someone calls // addAttribute so we invalidate it up front. fIsTableViewConsistent = false; prepareTableView(); Attribute attr; int bucket; final int length = fLength; final Attribute[] attributes = fAttributes; final Attribute[] attributeTableView = fAttributeTableView; final int[] attributeTableViewChainState = fAttributeTableViewChainState; int largeCount = fLargeCount; for (int i = 0; i < length; ++i) { attr = attributes[i]; bucket = getTableViewBucket(attr.name.localpart, attr.name.uri); // The chain is stale. // This must be a unique attribute. if (attributeTableViewChainState[bucket] != largeCount) { attributeTableViewChainState[bucket] = largeCount; attr.next = null; attributeTableView[bucket] = attr; } // This chain is active. // We need to check if any of the attributes has the same name. else { // Search the table. int collisionCount = 0; Attribute found = attributeTableView[bucket]; while (found != null) { if (found.name.localpart == attr.name.localpart && found.name.uri == attr.name.uri) { return attr.name; } found = found.next; ++collisionCount; } // Select a new hash function and rehash the table view // if the collision threshold is exceeded. if (collisionCount >= MAX_HASH_COLLISIONS) { // The current attribute will be processed in the rehash. rebalanceTableViewNS(i+1); largeCount = fLargeCount; } else { // Update table view attr.next = attributeTableView[bucket]; attributeTableView[bucket] = attr; } } } return null; } /** * Look up the index of an attribute by Namespace name. *

* Note: * This method uses reference comparison, and thus should * only be used internally. We cannot use this method in any * code exposed to users as they may not pass in unique strings. * * @param uri The Namespace URI, or null if * the name has no Namespace URI. * @param localName The attribute's local name. * @return The index of the attribute, or -1 if it does not * appear in the list. */ public int getIndexFast(String uri, String localPart) { for (int i = 0; i < fLength; ++i) { Attribute attribute = fAttributes[i]; if (attribute.name.localpart == localPart && attribute.name.uri == uri) { return i; } } return -1; } // getIndexFast(String,String):int /** * Returns the value passed in or NMTOKEN if it's an enumerated type. * * @param type attribute type * @return the value passed in or NMTOKEN if it's an enumerated type. */ private String getReportableType(String type) { if (type.charAt(0) == '(') { return "NMTOKEN"; } return type; } /** * Returns the position in the table view * where the given attribute name would be hashed. * * @param qname the attribute name * @return the position in the table view where the given attribute * would be hashed */ protected int getTableViewBucket(String qname) { return (hash(qname) & 0x7FFFFFFF) % fTableViewBuckets; } /** * Returns the position in the table view * where the given attribute name would be hashed. * * @param localpart the local part of the attribute * @param uri the namespace name of the attribute * @return the position in the table view where the given attribute * would be hashed */ protected int getTableViewBucket(String localpart, String uri) { if (uri == null) { return (hash(localpart) & 0x7FFFFFFF) % fTableViewBuckets; } else { return (hash(localpart, uri) & 0x7FFFFFFF) % fTableViewBuckets; } } private int hash(String localpart) { if (fHashMultipliers == null) { return localpart.hashCode(); } return hash0(localpart); } // hash(String):int private int hash(String localpart, String uri) { if (fHashMultipliers == null) { return localpart.hashCode() + uri.hashCode() * 31; } return hash0(localpart) + hash0(uri) * fHashMultipliers[MULTIPLIERS_SIZE]; } // hash(String,String):int private int hash0(String symbol) { int code = 0; final int length = symbol.length(); final int[] multipliers = fHashMultipliers; for (int i = 0; i < length; ++i) { code = code * multipliers[i & MULTIPLIERS_MASK] + symbol.charAt(i); } return code; } // hash0(String):int /** * Purges all elements from the table view. */ protected void cleanTableView() { if (++fLargeCount < 0) { // Overflow. We actually need to visit the chain state array. if (fAttributeTableViewChainState != null) { for (int i = fTableViewBuckets - 1; i >= 0; --i) { fAttributeTableViewChainState[i] = 0; } } fLargeCount = 1; } } /** * Increases the capacity of the table view. */ private void growTableView() { final int length = fLength; int tableViewBuckets = fTableViewBuckets; do { tableViewBuckets = (tableViewBuckets << 1) + 1; if (tableViewBuckets < 0) { tableViewBuckets = Integer.MAX_VALUE; break; } } while (length > tableViewBuckets); fTableViewBuckets = tableViewBuckets; fAttributeTableView = null; fLargeCount = 1; } /** * Prepares the table view of the attributes list for use. */ protected void prepareTableView() { if (fLength > fTableViewBuckets) { growTableView(); } if (fAttributeTableView == null) { fAttributeTableView = new Attribute[fTableViewBuckets]; fAttributeTableViewChainState = new int[fTableViewBuckets]; } else { cleanTableView(); } } /** * Prepares the table view of the attributes list for use, * and populates it with the attributes which have been * previously read. */ protected void prepareAndPopulateTableView() { prepareAndPopulateTableView(fLength); } private void prepareAndPopulateTableView(final int count) { prepareTableView(); // Need to populate the hash table with the attributes we've processed so far. Attribute attr; int bucket; for (int i = 0; i < count; ++i) { attr = fAttributes[i]; bucket = getTableViewBucket(attr.name.rawname); if (fAttributeTableViewChainState[bucket] != fLargeCount) { fAttributeTableViewChainState[bucket] = fLargeCount; attr.next = null; fAttributeTableView[bucket] = attr; } else { // Update table view attr.next = fAttributeTableView[bucket]; fAttributeTableView[bucket] = attr; } } } /** * Returns the prefix of the attribute at the specified index. * * @param index The index of the attribute. */ public String getPrefix(int index) { if (index < 0 || index >= fLength) { return null; } String prefix = fAttributes[index].name.prefix; // REVISIT: The empty string is not entered in the symbol table! return prefix != null ? prefix : ""; } // getPrefix(int):String /** * Look up an attribute's Namespace URI by index. * * @param index The attribute index (zero-based). * @return The Namespace URI * @see #getLength */ public String getURI(int index) { if (index < 0 || index >= fLength) { return null; } String uri = fAttributes[index].name.uri; return uri; } // getURI(int):String /** * Look up an attribute's value by Namespace name and * Local name. If Namespace is null, ignore namespace * comparison. If Namespace is "", treat the name as * having no Namespace URI. * *

See {@link #getValue(int) getValue(int)} for a description * of the possible values.

* * @param uri The Namespace URI, or null namespaces are ignored. * @param localName The local name of the attribute. * @return The attribute value as a string, or null if the * attribute is not in the list. */ public String getValue(String uri, String localName) { int index = getIndex(uri, localName); return index != -1 ? getValue(index) : null; } // getValue(String,String):String /** * Look up an augmentations by Namespace name. * * @param uri The Namespace URI, or null if the * @param localName The local name of the attribute. * @return Augmentations */ public Augmentations getAugmentations (String uri, String localName) { int index = getIndex(uri, localName); return index != -1 ? fAttributes[index].augs : null; } /** * Look up an augmentation by XML 1.0 qualified name. *

* * @param qName The XML 1.0 qualified name. * * @return Augmentations * */ public Augmentations getAugmentations(String qName){ int index = getIndex(qName); return index != -1 ? fAttributes[index].augs : null; } /** * Look up an augmentations by attributes index. * * @param attributeIndex The attribute index. * @return Augmentations */ public Augmentations getAugmentations (int attributeIndex){ if (attributeIndex < 0 || attributeIndex >= fLength) { return null; } return fAttributes[attributeIndex].augs; } /** * Sets the augmentations of the attribute at the specified index. * * @param attrIndex The attribute index. * @param augs The augmentations. */ public void setAugmentations(int attrIndex, Augmentations augs) { fAttributes[attrIndex].augs = augs; } /** * Sets the uri of the attribute at the specified index. * * @param attrIndex The attribute index. * @param uri Namespace uri */ public void setURI(int attrIndex, String uri) { fAttributes[attrIndex].name.uri = uri; } // getURI(int,QName) // Implementation methods public void setSchemaId(int attrIndex, boolean schemaId) { fAttributes[attrIndex].schemaId = schemaId; } public boolean getSchemaId(int index) { if (index < 0 || index >= fLength) { return false; } return fAttributes[index].schemaId; } public boolean getSchemaId(String qname) { int index = getIndex(qname); return index != -1 ? fAttributes[index].schemaId : false; } // getType(String):String public boolean getSchemaId(String uri, String localName) { if (!fNamespaces) { return false; } int index = getIndex(uri, localName); return index != -1 ? fAttributes[index].schemaId : false; } // getType(String,String):String //XMLBufferListener methods /** * This method will be invoked by XMLEntityReader before ScannedEntities buffer * is reloaded. */ public void refresh() { if(fLength > 0){ for(int i = 0 ; i < fLength ; i++){ getValue(i); } } } public void refresh(int pos) { } private void prepareAndPopulateTableViewNS(final int count) { prepareTableView(); // Need to populate the hash table with the attributes we've processed so far. Attribute attr; int bucket; for (int i = 0; i < count; ++i) { attr = fAttributes[i]; bucket = getTableViewBucket(attr.name.localpart, attr.name.uri); if (fAttributeTableViewChainState[bucket] != fLargeCount) { fAttributeTableViewChainState[bucket] = fLargeCount; attr.next = null; fAttributeTableView[bucket] = attr; } else { // Update table view attr.next = fAttributeTableView[bucket]; fAttributeTableView[bucket] = attr; } } } /** * Randomly selects a new hash function and reorganizes the table view * in order to more evenly distribute its entries. This method is called * automatically when the number of attributes in one bucket exceeds * MAX_HASH_COLLISIONS. */ private void rebalanceTableView(final int count) { if (fHashMultipliers == null) { fHashMultipliers = new int[MULTIPLIERS_SIZE + 1]; } PrimeNumberSequenceGenerator.generateSequence(fHashMultipliers); prepareAndPopulateTableView(count); } /** * Randomly selects a new hash function and reorganizes the table view * in order to more evenly distribute its entries. This method is called * automatically when the number of attributes in one bucket exceeds * MAX_HASH_COLLISIONS. */ private void rebalanceTableViewNS(final int count) { if (fHashMultipliers == null) { fHashMultipliers = new int[MULTIPLIERS_SIZE + 1]; } PrimeNumberSequenceGenerator.generateSequence(fHashMultipliers); prepareAndPopulateTableViewNS(count); } // // Classes // /** * Attribute information. * * @author Andy Clark, IBM */ static class Attribute { // // Data // // basic info /** Name. */ public QName name = new QName(); /** Type. */ public String type; /** Value. */ public String value; /** This will point to the ScannedEntities buffer.*/ public XMLString xmlValue; /** Non-normalized value. */ public String nonNormalizedValue; /** Specified. */ public boolean specified; /** Schema ID type. */ public boolean schemaId; /** * Augmentations information for this attribute. * XMLAttributes has no knowledge if any augmentations * were attached to Augmentations. */ public Augmentations augs = new AugmentationsImpl(); // Additional data for attribute table view /** Pointer to the next attribute in the chain. **/ public Attribute next; } // class Attribute } // class XMLAttributesImpl





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