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Woodstox is a high-performance XML processor that implements Stax (JSR-173) and SAX2 APIs

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/* Woodstox XML processor
 *
 * Copyright (c) 2005 Tatu Saloranta, [email protected]
 *
 * Licensed under the License specified in file LICENSE, included with
 * the source code.
 * You may not use this file except in compliance with the License.
 *
 * 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.ctc.wstx.sw;

import java.util.*;

import javax.xml.XMLConstants;
import javax.xml.namespace.NamespaceContext;
import javax.xml.stream.XMLStreamException;

import org.codehaus.stax2.ri.EmptyIterator;

import com.ctc.wstx.util.BijectiveNsMap;

/**
 * Class that encapsulates information about a specific element in virtual
 * output stack for namespace-aware writers.
 * It provides support for URI-to-prefix mappings as well as namespace
 * mapping generation.
 *

* One noteworthy feature of the class is that it is designed to allow * "short-term recycling", ie. instances can be reused within context * of a simple document output. While reuse/recycling of such lightweight * object is often useless or even counter productive, here it may * be worth using, due to simplicity of the scheme (basically using * a very simple free-elements linked list). */ public abstract class OutputElementBase implements NamespaceContext { public final static int PREFIX_UNBOUND = 0; public final static int PREFIX_OK = 1; public final static int PREFIX_MISBOUND = 2; final static String sXmlNsPrefix = XMLConstants.XML_NS_PREFIX; final static String sXmlNsURI = XMLConstants.XML_NS_URI; /* //////////////////////////////////////////// // Namespace binding/mapping information //////////////////////////////////////////// */ /** * Namespace context end application may have supplied, and that * (if given) should be used to augment explicitly defined bindings. */ protected NamespaceContext mRootNsContext; protected String mDefaultNsURI; /** * Mapping of namespace prefixes to URIs and back. */ protected BijectiveNsMap mNsMapping; /** * True, if {@link #mNsMapping} is a shared copy from the parent; * false if a local copy was created (which happens when namespaces * get bound etc). */ protected boolean mNsMapShared; /* //////////////////////////////////////////// // Life-cycle //////////////////////////////////////////// */ /** * Constructor for the virtual root element */ protected OutputElementBase() { mNsMapping = null; mNsMapShared = false; mDefaultNsURI = ""; mRootNsContext = null; } protected OutputElementBase(OutputElementBase parent, BijectiveNsMap ns) { mNsMapping = ns; mNsMapShared = (ns != null); mDefaultNsURI = parent.mDefaultNsURI; mRootNsContext = parent.mRootNsContext; } /** * Method called to reuse a pooled instance. */ protected void relink(OutputElementBase parent) { mNsMapping = parent.mNsMapping; mNsMapShared = (mNsMapping != null); mDefaultNsURI = parent.mDefaultNsURI; mRootNsContext = parent.mRootNsContext; } protected abstract void setRootNsContext(NamespaceContext ctxt); /* //////////////////////////////////////////// // Public API, accessors //////////////////////////////////////////// */ public abstract boolean isRoot(); /** * @return String presentation of the fully-qualified name, in * "prefix:localName" format (no URI). Useful for error and * debugging messages. */ public abstract String getNameDesc(); public final String getDefaultNsUri() { return mDefaultNsURI; } /* //////////////////////////////////////////// // Public API, ns binding, checking //////////////////////////////////////////// */ /** * Method similar to {@link #getPrefix}, but one that will not accept * the default namespace, only an explicit one. Usually used when * trying to find a prefix for attributes. */ public final String getExplicitPrefix(String uri) { if (mNsMapping != null) { String prefix = mNsMapping.findPrefixByUri(uri); if (prefix != null) { return prefix; } } if (mRootNsContext != null) { String prefix = mRootNsContext.getPrefix(uri); if (prefix != null) { // Hmmh... still can't use the default NS: if (prefix.length() > 0) { return prefix; } // ... should we try to find an explicit one? } } return null; } /** * Method that verifies that passed-in prefix indeed maps to the specified * namespace URI; and depending on how it goes returns a status for * caller. * * @param isElement If true, rules for the default NS are those of elements * (ie. empty prefix can map to non-default namespace); if false, * rules are those of attributes (only non-default prefix can map to * a non-default namespace). * * @return PREFIX_OK, if passed-in prefix matches matched-in namespace URI * in current scope; PREFIX_UNBOUND if it's not bound to anything, * and PREFIX_MISBOUND if it's bound to another URI. * * @throws XMLStreamException True if default (no) prefix is allowed to * match a non-default URI (elements); false if not (attributes) */ public final int isPrefixValid(String prefix, String nsURI, boolean isElement) throws XMLStreamException { // Hmmm.... caller shouldn't really pass null. if (nsURI == null) { nsURI = ""; } /* First thing is to see if specified prefix is bound to a namespace; * and if so, verify it matches with data passed in: */ // Checking default namespace? if (prefix == null || prefix.length() == 0) { if (isElement) { // It's fine for elements only if the URI actually matches: if (nsURI == mDefaultNsURI || nsURI.equals(mDefaultNsURI)) { return PREFIX_OK; } } else { /* Attributes never use the default namespace: "no prefix" * can only mean "no namespace" */ if (nsURI.length() == 0) { return PREFIX_OK; } } return PREFIX_MISBOUND; } /* Need to handle 'xml' prefix and its associated * URI; they are always declared by default */ if (prefix.equals(sXmlNsPrefix)) { // Should we thoroughly verify its namespace matches...? // 01-Apr-2005, TSa: Yes, let's always check this if (!nsURI.equals(sXmlNsURI)) { throwOutputError("Namespace prefix '"+sXmlNsPrefix +"' can not be bound to non-default namespace ('"+nsURI+"'); has to be the default '" +sXmlNsURI+"'"); } return PREFIX_OK; } // Nope checking some other namespace String act; if (mNsMapping != null) { act = mNsMapping.findUriByPrefix(prefix); } else { act = null; } if (act == null && mRootNsContext != null) { act = mRootNsContext.getNamespaceURI(prefix); } // Not (yet) bound... if (act == null) { return PREFIX_UNBOUND; } return (act == nsURI || act.equals(nsURI)) ? PREFIX_OK : PREFIX_MISBOUND; } /* //////////////////////////////////////////// // Public API, mutators //////////////////////////////////////////// */ public abstract void setDefaultNsUri(String uri); public final String generateMapping(String prefixBase, String uri, int[] seqArr) { // This is mostly cut'n pasted from addPrefix()... if (mNsMapping == null) { // Didn't have a mapping yet? Need to create one... mNsMapping = BijectiveNsMap.createEmpty(); } else if (mNsMapShared) { /* Was shared with parent(s)? Need to create a derivative, to * allow for nesting/scoping of new prefix */ mNsMapping = mNsMapping.createChild(); mNsMapShared = false; } return mNsMapping.addGeneratedMapping(prefixBase, mRootNsContext, uri, seqArr); } public final void addPrefix(String prefix, String uri) { if (mNsMapping == null) { // Didn't have a mapping yet? Need to create one... mNsMapping = BijectiveNsMap.createEmpty(); } else if (mNsMapShared) { /* Was shared with parent(s)? Need to create a derivative, to * allow for nesting/scoping of new prefix */ mNsMapping = mNsMapping.createChild(); mNsMapShared = false; } mNsMapping.addMapping(prefix, uri); } /* ////////////////////////////////////////////////// // NamespaceContext implementation ////////////////////////////////////////////////// */ public final String getNamespaceURI(String prefix) { if (prefix.length() == 0) { //default NS return mDefaultNsURI; } if (mNsMapping != null) { String uri = mNsMapping.findUriByPrefix(prefix); if (uri != null) { return uri; } } return (mRootNsContext != null) ? mRootNsContext.getNamespaceURI(prefix) : null; } public final String getPrefix(String uri) { if (mDefaultNsURI.equals(uri)) { return ""; } if (mNsMapping != null) { String prefix = mNsMapping.findPrefixByUri(uri); if (prefix != null) { return prefix; } } return (mRootNsContext != null) ? mRootNsContext.getPrefix(uri) : null; } public final Iterator getPrefixes(String uri) { List l = null; if (mDefaultNsURI.equals(uri)) { l = new ArrayList(); l.add(""); } if (mNsMapping != null) { l = mNsMapping.getPrefixesBoundToUri(uri, l); } // How about the root namespace context? (if any) /* Note: it's quite difficult to properly resolve masking, when * combining these things (not impossible, just tricky); for now * let's do best effort without worrying about masking: */ if (mRootNsContext != null) { Iterator it = mRootNsContext.getPrefixes(uri); while (it.hasNext()) { String prefix = (String) it.next(); if (prefix.length() == 0) { // default NS already checked continue; } // slow check... but what the heck if (l == null) { l = new ArrayList(); } else if (l.contains(prefix)) { // double-defined... continue; } l.add(prefix); } } return (l == null) ? EmptyIterator.getInstance() : l.iterator(); } /* //////////////////////////////////////////// // Internal methods //////////////////////////////////////////// */ protected final void throwOutputError(String msg) throws XMLStreamException { throw new XMLStreamException(msg); } }





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