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android / platform / external / jetbrains / jdk8u_jaxp / ad06f386190d159fe7bc8202b3abae2f1b218ecd / . / src / com / sun / org / apache / xerces / internal / impl / xs / traversers / XSAttributeChecker.java
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/*
* Copyright (c) 2015, 2016, 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.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.sun.org.apache.xerces.internal.impl.xs.traversers;
import com.sun.org.apache.xerces.internal.impl.dv.InvalidDatatypeValueException;
import com.sun.org.apache.xerces.internal.impl.dv.XSSimpleType;
import com.sun.org.apache.xerces.internal.impl.xs.SchemaGrammar;
import com.sun.org.apache.xerces.internal.impl.xs.SchemaNamespaceSupport;
import com.sun.org.apache.xerces.internal.impl.xs.SchemaSymbols;
import com.sun.org.apache.xerces.internal.impl.xs.XSAttributeDecl;
import com.sun.org.apache.xerces.internal.impl.xs.XSGrammarBucket;
import com.sun.org.apache.xerces.internal.impl.xs.XSWildcardDecl;
import com.sun.org.apache.xerces.internal.impl.xs.util.XInt;
import com.sun.org.apache.xerces.internal.impl.xs.util.XIntPool;
import com.sun.org.apache.xerces.internal.util.DOMUtil;
import com.sun.org.apache.xerces.internal.util.SymbolTable;
import com.sun.org.apache.xerces.internal.util.XMLChar;
import com.sun.org.apache.xerces.internal.util.XMLSymbols;
import com.sun.org.apache.xerces.internal.utils.XMLSecurityManager;
import com.sun.org.apache.xerces.internal.xni.QName;
import com.sun.org.apache.xerces.internal.xs.XSConstants;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.StringTokenizer;
import java.util.Vector;
import org.w3c.dom.Attr;
import org.w3c.dom.Element;
/**
* Class <code>XSAttributeCheck</code> is used to check the validity of attributes
* appearing in the schema document. It
* - reports an error for invalid element (invalid namespace, invalid name)
* - reports an error for invalid attribute (invalid namespace, invalid name)
* - reports an error for invalid attribute value
* - return compiled values for attriute values
* - provide default value for missing optional attributes
* - provide default value for incorrect attribute values
*
* But it's the caller's responsibility to check whether a required attribute
* is present.
*
* Things need revisiting:
* - Whether to return non-schema attributes/values
* - Do we need to update NamespaceScope and ErrorReporter when reset()?
* - Should have the datatype validators return compiled value
* - use symbol table instead of many maps
*
* @xerces.internal
*
* @author Sandy Gao, IBM
* @version $Id: XSAttributeChecker.java,v 1.12 2010-11-01 04:40:02 joehw Exp $
*/
public class XSAttributeChecker {
// REVISIT: only local element and attribute are different from others.
// it's possible to have either name or ref. all the others
// are only allowed to have one of name or ref, or neither of them.
// we'd better move such checking to the traverser.
private static final String ELEMENT_N = "element_n";
private static final String ELEMENT_R = "element_r";
private static final String ATTRIBUTE_N = "attribute_n";
private static final String ATTRIBUTE_R = "attribute_r";
private static int ATTIDX_COUNT = 0;
public static final int ATTIDX_ABSTRACT = ATTIDX_COUNT++;
public static final int ATTIDX_AFORMDEFAULT = ATTIDX_COUNT++;
public static final int ATTIDX_BASE = ATTIDX_COUNT++;
public static final int ATTIDX_BLOCK = ATTIDX_COUNT++;
public static final int ATTIDX_BLOCKDEFAULT = ATTIDX_COUNT++;
public static final int ATTIDX_DEFAULT = ATTIDX_COUNT++;
public static final int ATTIDX_EFORMDEFAULT = ATTIDX_COUNT++;
public static final int ATTIDX_FINAL = ATTIDX_COUNT++;
public static final int ATTIDX_FINALDEFAULT = ATTIDX_COUNT++;
public static final int ATTIDX_FIXED = ATTIDX_COUNT++;
public static final int ATTIDX_FORM = ATTIDX_COUNT++;
public static final int ATTIDX_ID = ATTIDX_COUNT++;
public static final int ATTIDX_ITEMTYPE = ATTIDX_COUNT++;
public static final int ATTIDX_MAXOCCURS = ATTIDX_COUNT++;
public static final int ATTIDX_MEMBERTYPES = ATTIDX_COUNT++;
public static final int ATTIDX_MINOCCURS = ATTIDX_COUNT++;
public static final int ATTIDX_MIXED = ATTIDX_COUNT++;
public static final int ATTIDX_NAME = ATTIDX_COUNT++;
public static final int ATTIDX_NAMESPACE = ATTIDX_COUNT++;
public static final int ATTIDX_NAMESPACE_LIST = ATTIDX_COUNT++;
public static final int ATTIDX_NILLABLE = ATTIDX_COUNT++;
public static final int ATTIDX_NONSCHEMA = ATTIDX_COUNT++;
public static final int ATTIDX_PROCESSCONTENTS = ATTIDX_COUNT++;
public static final int ATTIDX_PUBLIC = ATTIDX_COUNT++;
public static final int ATTIDX_REF = ATTIDX_COUNT++;
public static final int ATTIDX_REFER = ATTIDX_COUNT++;
public static final int ATTIDX_SCHEMALOCATION = ATTIDX_COUNT++;
public static final int ATTIDX_SOURCE = ATTIDX_COUNT++;
public static final int ATTIDX_SUBSGROUP = ATTIDX_COUNT++;
public static final int ATTIDX_SYSTEM = ATTIDX_COUNT++;
public static final int ATTIDX_TARGETNAMESPACE = ATTIDX_COUNT++;
public static final int ATTIDX_TYPE = ATTIDX_COUNT++;
public static final int ATTIDX_USE = ATTIDX_COUNT++;
public static final int ATTIDX_VALUE = ATTIDX_COUNT++;
public static final int ATTIDX_ENUMNSDECLS = ATTIDX_COUNT++;
public static final int ATTIDX_VERSION = ATTIDX_COUNT++;
public static final int ATTIDX_XML_LANG = ATTIDX_COUNT++;
public static final int ATTIDX_XPATH = ATTIDX_COUNT++;
public static final int ATTIDX_FROMDEFAULT = ATTIDX_COUNT++;
//public static final int ATTIDX_OTHERVALUES = ATTIDX_COUNT++;
public static final int ATTIDX_ISRETURNED = ATTIDX_COUNT++;
private static final XIntPool fXIntPool = new XIntPool();
// constants to return
private static final XInt INT_QUALIFIED = fXIntPool.getXInt(SchemaSymbols.FORM_QUALIFIED);
private static final XInt INT_UNQUALIFIED = fXIntPool.getXInt(SchemaSymbols.FORM_UNQUALIFIED);
private static final XInt INT_EMPTY_SET = fXIntPool.getXInt(XSConstants.DERIVATION_NONE);
private static final XInt INT_ANY_STRICT = fXIntPool.getXInt(XSWildcardDecl.PC_STRICT);
private static final XInt INT_ANY_LAX = fXIntPool.getXInt(XSWildcardDecl.PC_LAX);
private static final XInt INT_ANY_SKIP = fXIntPool.getXInt(XSWildcardDecl.PC_SKIP);
private static final XInt INT_ANY_ANY = fXIntPool.getXInt(XSWildcardDecl.NSCONSTRAINT_ANY);
private static final XInt INT_ANY_LIST = fXIntPool.getXInt(XSWildcardDecl.NSCONSTRAINT_LIST);
private static final XInt INT_ANY_NOT = fXIntPool.getXInt(XSWildcardDecl.NSCONSTRAINT_NOT);
private static final XInt INT_USE_OPTIONAL = fXIntPool.getXInt(SchemaSymbols.USE_OPTIONAL);
private static final XInt INT_USE_REQUIRED = fXIntPool.getXInt(SchemaSymbols.USE_REQUIRED);
private static final XInt INT_USE_PROHIBITED = fXIntPool.getXInt(SchemaSymbols.USE_PROHIBITED);
private static final XInt INT_WS_PRESERVE = fXIntPool.getXInt(XSSimpleType.WS_PRESERVE);
private static final XInt INT_WS_REPLACE = fXIntPool.getXInt(XSSimpleType.WS_REPLACE);
private static final XInt INT_WS_COLLAPSE = fXIntPool.getXInt(XSSimpleType.WS_COLLAPSE);
private static final XInt INT_UNBOUNDED = fXIntPool.getXInt(SchemaSymbols.OCCURRENCE_UNBOUNDED);
// used to store the map from element name to attribute list
// for 14 global elements
private static final Map fEleAttrsMapG = new HashMap(29);
// for 39 local elememnts
private static final Map fEleAttrsMapL = new HashMap(79);
// used to initialize fEleAttrsMap
// step 1: all possible data types
// DT_??? >= 0 : validate using a validator, which is initialized staticly
// DT_??? < 0 : validate directly, which is done in "validate()"
protected static final int DT_ANYURI = 0;
protected static final int DT_ID = 1;
protected static final int DT_QNAME = 2;
protected static final int DT_STRING = 3;
protected static final int DT_TOKEN = 4;
protected static final int DT_NCNAME = 5;
protected static final int DT_XPATH = 6;
protected static final int DT_XPATH1 = 7;
protected static final int DT_LANGUAGE = 8;
// used to store extra datatype validators
protected static final int DT_COUNT = DT_LANGUAGE + 1;
private static final XSSimpleType[] fExtraDVs = new XSSimpleType[DT_COUNT];
static {
// step 5: register all datatype validators for new types
SchemaGrammar grammar = SchemaGrammar.SG_SchemaNS;
// anyURI
fExtraDVs[DT_ANYURI] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_ANYURI);
// ID
fExtraDVs[DT_ID] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_ID);
// QName
fExtraDVs[DT_QNAME] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_QNAME);
// string
fExtraDVs[DT_STRING] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_STRING);
// token
fExtraDVs[DT_TOKEN] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_TOKEN);
// NCName
fExtraDVs[DT_NCNAME] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_NCNAME);
// xpath = a subset of XPath expression
fExtraDVs[DT_XPATH] = fExtraDVs[DT_STRING];
// xpath = a subset of XPath expression
fExtraDVs[DT_XPATH] = fExtraDVs[DT_STRING];
// language
fExtraDVs[DT_LANGUAGE] = (XSSimpleType)grammar.getGlobalTypeDecl(SchemaSymbols.ATTVAL_LANGUAGE);
}
protected static final int DT_BLOCK = -1;
protected static final int DT_BLOCK1 = -2;
protected static final int DT_FINAL = -3;
protected static final int DT_FINAL1 = -4;
protected static final int DT_FINAL2 = -5;
protected static final int DT_FORM = -6;
protected static final int DT_MAXOCCURS = -7;
protected static final int DT_MAXOCCURS1 = -8;
protected static final int DT_MEMBERTYPES = -9;
protected static final int DT_MINOCCURS1 = -10;
protected static final int DT_NAMESPACE = -11;
protected static final int DT_PROCESSCONTENTS = -12;
protected static final int DT_USE = -13;
protected static final int DT_WHITESPACE = -14;
protected static final int DT_BOOLEAN = -15;
protected static final int DT_NONNEGINT = -16;
protected static final int DT_POSINT = -17;
static {
// step 2: all possible attributes for all elements
int attCount = 0;
int ATT_ABSTRACT_D = attCount++;
int ATT_ATTRIBUTE_FD_D = attCount++;
int ATT_BASE_R = attCount++;
int ATT_BASE_N = attCount++;
int ATT_BLOCK_N = attCount++;
int ATT_BLOCK1_N = attCount++;
int ATT_BLOCK_D_D = attCount++;
int ATT_DEFAULT_N = attCount++;
int ATT_ELEMENT_FD_D = attCount++;
int ATT_FINAL_N = attCount++;
int ATT_FINAL1_N = attCount++;
int ATT_FINAL_D_D = attCount++;
int ATT_FIXED_N = attCount++;
int ATT_FIXED_D = attCount++;
int ATT_FORM_N = attCount++;
int ATT_ID_N = attCount++;
int ATT_ITEMTYPE_N = attCount++;
int ATT_MAXOCCURS_D = attCount++;
int ATT_MAXOCCURS1_D = attCount++;
int ATT_MEMBER_T_N = attCount++;
int ATT_MINOCCURS_D = attCount++;
int ATT_MINOCCURS1_D = attCount++;
int ATT_MIXED_D = attCount++;
int ATT_MIXED_N = attCount++;
int ATT_NAME_R = attCount++;
int ATT_NAMESPACE_D = attCount++;
int ATT_NAMESPACE_N = attCount++;
int ATT_NILLABLE_D = attCount++;
int ATT_PROCESS_C_D = attCount++;
int ATT_PUBLIC_R = attCount++;
int ATT_REF_R = attCount++;
int ATT_REFER_R = attCount++;
int ATT_SCHEMA_L_R = attCount++;
int ATT_SCHEMA_L_N = attCount++;
int ATT_SOURCE_N = attCount++;
int ATT_SUBSTITUTION_G_N = attCount++;
int ATT_SYSTEM_N = attCount++;
int ATT_TARGET_N_N = attCount++;
int ATT_TYPE_N = attCount++;
int ATT_USE_D = attCount++;
int ATT_VALUE_NNI_N = attCount++;
int ATT_VALUE_PI_N = attCount++;
int ATT_VALUE_STR_N = attCount++;
int ATT_VALUE_WS_N = attCount++;
int ATT_VERSION_N = attCount++;
int ATT_XML_LANG = attCount++;
int ATT_XPATH_R = attCount++;
int ATT_XPATH1_R = attCount++;
// step 3: store all these attributes in an array
OneAttr[] allAttrs = new OneAttr[attCount];
allAttrs[ATT_ABSTRACT_D] = new OneAttr(SchemaSymbols.ATT_ABSTRACT,
DT_BOOLEAN,
ATTIDX_ABSTRACT,
Boolean.FALSE);
allAttrs[ATT_ATTRIBUTE_FD_D] = new OneAttr(SchemaSymbols.ATT_ATTRIBUTEFORMDEFAULT,
DT_FORM,
ATTIDX_AFORMDEFAULT,
INT_UNQUALIFIED);
allAttrs[ATT_BASE_R] = new OneAttr(SchemaSymbols.ATT_BASE,
DT_QNAME,
ATTIDX_BASE,
null);
allAttrs[ATT_BASE_N] = new OneAttr(SchemaSymbols.ATT_BASE,
DT_QNAME,
ATTIDX_BASE,
null);
allAttrs[ATT_BLOCK_N] = new OneAttr(SchemaSymbols.ATT_BLOCK,
DT_BLOCK,
ATTIDX_BLOCK,
null);
allAttrs[ATT_BLOCK1_N] = new OneAttr(SchemaSymbols.ATT_BLOCK,
DT_BLOCK1,
ATTIDX_BLOCK,
null);
allAttrs[ATT_BLOCK_D_D] = new OneAttr(SchemaSymbols.ATT_BLOCKDEFAULT,
DT_BLOCK,
ATTIDX_BLOCKDEFAULT,
INT_EMPTY_SET);
allAttrs[ATT_DEFAULT_N] = new OneAttr(SchemaSymbols.ATT_DEFAULT,
DT_STRING,
ATTIDX_DEFAULT,
null);
allAttrs[ATT_ELEMENT_FD_D] = new OneAttr(SchemaSymbols.ATT_ELEMENTFORMDEFAULT,
DT_FORM,
ATTIDX_EFORMDEFAULT,
INT_UNQUALIFIED);
allAttrs[ATT_FINAL_N] = new OneAttr(SchemaSymbols.ATT_FINAL,
DT_FINAL,
ATTIDX_FINAL,
null);
allAttrs[ATT_FINAL1_N] = new OneAttr(SchemaSymbols.ATT_FINAL,
DT_FINAL1,
ATTIDX_FINAL,
null);
allAttrs[ATT_FINAL_D_D] = new OneAttr(SchemaSymbols.ATT_FINALDEFAULT,
DT_FINAL2,
ATTIDX_FINALDEFAULT,
INT_EMPTY_SET);
allAttrs[ATT_FIXED_N] = new OneAttr(SchemaSymbols.ATT_FIXED,
DT_STRING,
ATTIDX_FIXED,
null);
allAttrs[ATT_FIXED_D] = new OneAttr(SchemaSymbols.ATT_FIXED,
DT_BOOLEAN,
ATTIDX_FIXED,
Boolean.FALSE);
allAttrs[ATT_FORM_N] = new OneAttr(SchemaSymbols.ATT_FORM,
DT_FORM,
ATTIDX_FORM,
null);
allAttrs[ATT_ID_N] = new OneAttr(SchemaSymbols.ATT_ID,
DT_ID,
ATTIDX_ID,
null);
allAttrs[ATT_ITEMTYPE_N] = new OneAttr(SchemaSymbols.ATT_ITEMTYPE,
DT_QNAME,
ATTIDX_ITEMTYPE,
null);
allAttrs[ATT_MAXOCCURS_D] = new OneAttr(SchemaSymbols.ATT_MAXOCCURS,
DT_MAXOCCURS,
ATTIDX_MAXOCCURS,
fXIntPool.getXInt(1));
allAttrs[ATT_MAXOCCURS1_D] = new OneAttr(SchemaSymbols.ATT_MAXOCCURS,
DT_MAXOCCURS1,
ATTIDX_MAXOCCURS,
fXIntPool.getXInt(1));
allAttrs[ATT_MEMBER_T_N] = new OneAttr(SchemaSymbols.ATT_MEMBERTYPES,
DT_MEMBERTYPES,
ATTIDX_MEMBERTYPES,
null);
allAttrs[ATT_MINOCCURS_D] = new OneAttr(SchemaSymbols.ATT_MINOCCURS,
DT_NONNEGINT,
ATTIDX_MINOCCURS,
fXIntPool.getXInt(1));
allAttrs[ATT_MINOCCURS1_D] = new OneAttr(SchemaSymbols.ATT_MINOCCURS,
DT_MINOCCURS1,
ATTIDX_MINOCCURS,
fXIntPool.getXInt(1));
allAttrs[ATT_MIXED_D] = new OneAttr(SchemaSymbols.ATT_MIXED,
DT_BOOLEAN,
ATTIDX_MIXED,
Boolean.FALSE);
allAttrs[ATT_MIXED_N] = new OneAttr(SchemaSymbols.ATT_MIXED,
DT_BOOLEAN,
ATTIDX_MIXED,
null);
allAttrs[ATT_NAME_R] = new OneAttr(SchemaSymbols.ATT_NAME,
DT_NCNAME,
ATTIDX_NAME,
null);
allAttrs[ATT_NAMESPACE_D] = new OneAttr(SchemaSymbols.ATT_NAMESPACE,
DT_NAMESPACE,
ATTIDX_NAMESPACE,
INT_ANY_ANY);
allAttrs[ATT_NAMESPACE_N] = new OneAttr(SchemaSymbols.ATT_NAMESPACE,
DT_ANYURI,
ATTIDX_NAMESPACE,
null);
allAttrs[ATT_NILLABLE_D] = new OneAttr(SchemaSymbols.ATT_NILLABLE,
DT_BOOLEAN,
ATTIDX_NILLABLE,
Boolean.FALSE);
allAttrs[ATT_PROCESS_C_D] = new OneAttr(SchemaSymbols.ATT_PROCESSCONTENTS,
DT_PROCESSCONTENTS,
ATTIDX_PROCESSCONTENTS,
INT_ANY_STRICT);
allAttrs[ATT_PUBLIC_R] = new OneAttr(SchemaSymbols.ATT_PUBLIC,
DT_TOKEN,
ATTIDX_PUBLIC,
null);
allAttrs[ATT_REF_R] = new OneAttr(SchemaSymbols.ATT_REF,
DT_QNAME,
ATTIDX_REF,
null);
allAttrs[ATT_REFER_R] = new OneAttr(SchemaSymbols.ATT_REFER,
DT_QNAME,
ATTIDX_REFER,
null);
allAttrs[ATT_SCHEMA_L_R] = new OneAttr(SchemaSymbols.ATT_SCHEMALOCATION,
DT_ANYURI,
ATTIDX_SCHEMALOCATION,
null);
allAttrs[ATT_SCHEMA_L_N] = new OneAttr(SchemaSymbols.ATT_SCHEMALOCATION,
DT_ANYURI,
ATTIDX_SCHEMALOCATION,
null);
allAttrs[ATT_SOURCE_N] = new OneAttr(SchemaSymbols.ATT_SOURCE,
DT_ANYURI,
ATTIDX_SOURCE,
null);
allAttrs[ATT_SUBSTITUTION_G_N] = new OneAttr(SchemaSymbols.ATT_SUBSTITUTIONGROUP,
DT_QNAME,
ATTIDX_SUBSGROUP,
null);
allAttrs[ATT_SYSTEM_N] = new OneAttr(SchemaSymbols.ATT_SYSTEM,
DT_ANYURI,
ATTIDX_SYSTEM,
null);
allAttrs[ATT_TARGET_N_N] = new OneAttr(SchemaSymbols.ATT_TARGETNAMESPACE,
DT_ANYURI,
ATTIDX_TARGETNAMESPACE,
null);
allAttrs[ATT_TYPE_N] = new OneAttr(SchemaSymbols.ATT_TYPE,
DT_QNAME,
ATTIDX_TYPE,
null);
allAttrs[ATT_USE_D] = new OneAttr(SchemaSymbols.ATT_USE,
DT_USE,
ATTIDX_USE,
INT_USE_OPTIONAL);
allAttrs[ATT_VALUE_NNI_N] = new OneAttr(SchemaSymbols.ATT_VALUE,
DT_NONNEGINT,
ATTIDX_VALUE,
null);
allAttrs[ATT_VALUE_PI_N] = new OneAttr(SchemaSymbols.ATT_VALUE,
DT_POSINT,
ATTIDX_VALUE,
null);
allAttrs[ATT_VALUE_STR_N] = new OneAttr(SchemaSymbols.ATT_VALUE,
DT_STRING,
ATTIDX_VALUE,
null);
allAttrs[ATT_VALUE_WS_N] = new OneAttr(SchemaSymbols.ATT_VALUE,
DT_WHITESPACE,
ATTIDX_VALUE,
null);
allAttrs[ATT_VERSION_N] = new OneAttr(SchemaSymbols.ATT_VERSION,
DT_TOKEN,
ATTIDX_VERSION,
null);
allAttrs[ATT_XML_LANG] = new OneAttr(SchemaSymbols.ATT_XML_LANG,
DT_LANGUAGE,
ATTIDX_XML_LANG,
null);
allAttrs[ATT_XPATH_R] = new OneAttr(SchemaSymbols.ATT_XPATH,
DT_XPATH,
ATTIDX_XPATH,
null);
allAttrs[ATT_XPATH1_R] = new OneAttr(SchemaSymbols.ATT_XPATH,
DT_XPATH1,
ATTIDX_XPATH,
null);
// step 4: for each element, make a list of possible attributes
Container attrList;
// for element "attribute" - global
attrList = Container.getContainer(5);
// default = string
attrList.put(SchemaSymbols.ATT_DEFAULT, allAttrs[ATT_DEFAULT_N]);
// fixed = string
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
// type = QName
attrList.put(SchemaSymbols.ATT_TYPE, allAttrs[ATT_TYPE_N]);
fEleAttrsMapG.put(SchemaSymbols.ELT_ATTRIBUTE, attrList);
// for element "attribute" - local name
attrList = Container.getContainer(7);
// default = string
attrList.put(SchemaSymbols.ATT_DEFAULT, allAttrs[ATT_DEFAULT_N]);
// fixed = string
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_N]);
// form = (qualified | unqualified)
attrList.put(SchemaSymbols.ATT_FORM, allAttrs[ATT_FORM_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
// type = QName
attrList.put(SchemaSymbols.ATT_TYPE, allAttrs[ATT_TYPE_N]);
// use = (optional | prohibited | required) : optional
attrList.put(SchemaSymbols.ATT_USE, allAttrs[ATT_USE_D]);
fEleAttrsMapL.put(ATTRIBUTE_N, attrList);
// for element "attribute" - local ref
attrList = Container.getContainer(5);
// default = string
attrList.put(SchemaSymbols.ATT_DEFAULT, allAttrs[ATT_DEFAULT_N]);
// fixed = string
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// ref = QName
attrList.put(SchemaSymbols.ATT_REF, allAttrs[ATT_REF_R]);
// use = (optional | prohibited | required) : optional
attrList.put(SchemaSymbols.ATT_USE, allAttrs[ATT_USE_D]);
fEleAttrsMapL.put(ATTRIBUTE_R, attrList);
// for element "element" - global
attrList = Container.getContainer(10);
// abstract = boolean : false
attrList.put(SchemaSymbols.ATT_ABSTRACT, allAttrs[ATT_ABSTRACT_D]);
// block = (#all | List of (extension | restriction | substitution))
attrList.put(SchemaSymbols.ATT_BLOCK, allAttrs[ATT_BLOCK_N]);
// default = string
attrList.put(SchemaSymbols.ATT_DEFAULT, allAttrs[ATT_DEFAULT_N]);
// final = (#all | List of (extension | restriction))
attrList.put(SchemaSymbols.ATT_FINAL, allAttrs[ATT_FINAL_N]);
// fixed = string
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
// nillable = boolean : false
attrList.put(SchemaSymbols.ATT_NILLABLE, allAttrs[ATT_NILLABLE_D]);
// substitutionGroup = QName
attrList.put(SchemaSymbols.ATT_SUBSTITUTIONGROUP, allAttrs[ATT_SUBSTITUTION_G_N]);
// type = QName
attrList.put(SchemaSymbols.ATT_TYPE, allAttrs[ATT_TYPE_N]);
fEleAttrsMapG.put(SchemaSymbols.ELT_ELEMENT, attrList);
// for element "element" - local name
attrList = Container.getContainer(10);
// block = (#all | List of (extension | restriction | substitution))
attrList.put(SchemaSymbols.ATT_BLOCK, allAttrs[ATT_BLOCK_N]);
// default = string
attrList.put(SchemaSymbols.ATT_DEFAULT, allAttrs[ATT_DEFAULT_N]);
// fixed = string
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_N]);
// form = (qualified | unqualified)
attrList.put(SchemaSymbols.ATT_FORM, allAttrs[ATT_FORM_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// maxOccurs = (nonNegativeInteger | unbounded) : 1
attrList.put(SchemaSymbols.ATT_MAXOCCURS, allAttrs[ATT_MAXOCCURS_D]);
// minOccurs = nonNegativeInteger : 1
attrList.put(SchemaSymbols.ATT_MINOCCURS, allAttrs[ATT_MINOCCURS_D]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
// nillable = boolean : false
attrList.put(SchemaSymbols.ATT_NILLABLE, allAttrs[ATT_NILLABLE_D]);
// type = QName
attrList.put(SchemaSymbols.ATT_TYPE, allAttrs[ATT_TYPE_N]);
fEleAttrsMapL.put(ELEMENT_N, attrList);
// for element "element" - local ref
attrList = Container.getContainer(4);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// maxOccurs = (nonNegativeInteger | unbounded) : 1
attrList.put(SchemaSymbols.ATT_MAXOCCURS, allAttrs[ATT_MAXOCCURS_D]);
// minOccurs = nonNegativeInteger : 1
attrList.put(SchemaSymbols.ATT_MINOCCURS, allAttrs[ATT_MINOCCURS_D]);
// ref = QName
attrList.put(SchemaSymbols.ATT_REF, allAttrs[ATT_REF_R]);
fEleAttrsMapL.put(ELEMENT_R, attrList);
// for element "complexType" - global
attrList = Container.getContainer(6);
// abstract = boolean : false
attrList.put(SchemaSymbols.ATT_ABSTRACT, allAttrs[ATT_ABSTRACT_D]);
// block = (#all | List of (extension | restriction))
attrList.put(SchemaSymbols.ATT_BLOCK, allAttrs[ATT_BLOCK1_N]);
// final = (#all | List of (extension | restriction))
attrList.put(SchemaSymbols.ATT_FINAL, allAttrs[ATT_FINAL_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// mixed = boolean : false
attrList.put(SchemaSymbols.ATT_MIXED, allAttrs[ATT_MIXED_D]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
fEleAttrsMapG.put(SchemaSymbols.ELT_COMPLEXTYPE, attrList);
// for element "notation" - global
attrList = Container.getContainer(4);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
// public = A public identifier, per ISO 8879
attrList.put(SchemaSymbols.ATT_PUBLIC, allAttrs[ATT_PUBLIC_R]);
// system = anyURI
attrList.put(SchemaSymbols.ATT_SYSTEM, allAttrs[ATT_SYSTEM_N]);
fEleAttrsMapG.put(SchemaSymbols.ELT_NOTATION, attrList);
// for element "complexType" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// mixed = boolean : false
attrList.put(SchemaSymbols.ATT_MIXED, allAttrs[ATT_MIXED_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_COMPLEXTYPE, attrList);
// for element "simpleContent" - local
attrList = Container.getContainer(1);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_SIMPLECONTENT, attrList);
// for element "restriction" - local
attrList = Container.getContainer(2);
// base = QName
attrList.put(SchemaSymbols.ATT_BASE, allAttrs[ATT_BASE_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_RESTRICTION, attrList);
// for element "extension" - local
attrList = Container.getContainer(2);
// base = QName
attrList.put(SchemaSymbols.ATT_BASE, allAttrs[ATT_BASE_R]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_EXTENSION, attrList);
// for element "attributeGroup" - local ref
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// ref = QName
attrList.put(SchemaSymbols.ATT_REF, allAttrs[ATT_REF_R]);
fEleAttrsMapL.put(SchemaSymbols.ELT_ATTRIBUTEGROUP, attrList);
// for element "anyAttribute" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) ) : ##any
attrList.put(SchemaSymbols.ATT_NAMESPACE, allAttrs[ATT_NAMESPACE_D]);
// processContents = (lax | skip | strict) : strict
attrList.put(SchemaSymbols.ATT_PROCESSCONTENTS, allAttrs[ATT_PROCESS_C_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_ANYATTRIBUTE, attrList);
// for element "complexContent" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// mixed = boolean
attrList.put(SchemaSymbols.ATT_MIXED, allAttrs[ATT_MIXED_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_COMPLEXCONTENT, attrList);
// for element "attributeGroup" - global
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
fEleAttrsMapG.put(SchemaSymbols.ELT_ATTRIBUTEGROUP, attrList);
// for element "group" - global
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
fEleAttrsMapG.put(SchemaSymbols.ELT_GROUP, attrList);
// for element "group" - local ref
attrList = Container.getContainer(4);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// maxOccurs = (nonNegativeInteger | unbounded) : 1
attrList.put(SchemaSymbols.ATT_MAXOCCURS, allAttrs[ATT_MAXOCCURS_D]);
// minOccurs = nonNegativeInteger : 1
attrList.put(SchemaSymbols.ATT_MINOCCURS, allAttrs[ATT_MINOCCURS_D]);
// ref = QName
attrList.put(SchemaSymbols.ATT_REF, allAttrs[ATT_REF_R]);
fEleAttrsMapL.put(SchemaSymbols.ELT_GROUP, attrList);
// for element "all" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// maxOccurs = 1 : 1
attrList.put(SchemaSymbols.ATT_MAXOCCURS, allAttrs[ATT_MAXOCCURS1_D]);
// minOccurs = (0 | 1) : 1
attrList.put(SchemaSymbols.ATT_MINOCCURS, allAttrs[ATT_MINOCCURS1_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_ALL, attrList);
// for element "choice" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// maxOccurs = (nonNegativeInteger | unbounded) : 1
attrList.put(SchemaSymbols.ATT_MAXOCCURS, allAttrs[ATT_MAXOCCURS_D]);
// minOccurs = nonNegativeInteger : 1
attrList.put(SchemaSymbols.ATT_MINOCCURS, allAttrs[ATT_MINOCCURS_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_CHOICE, attrList);
// for element "sequence" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_SEQUENCE, attrList);
// for element "any" - local
attrList = Container.getContainer(5);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// maxOccurs = (nonNegativeInteger | unbounded) : 1
attrList.put(SchemaSymbols.ATT_MAXOCCURS, allAttrs[ATT_MAXOCCURS_D]);
// minOccurs = nonNegativeInteger : 1
attrList.put(SchemaSymbols.ATT_MINOCCURS, allAttrs[ATT_MINOCCURS_D]);
// namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) ) : ##any
attrList.put(SchemaSymbols.ATT_NAMESPACE, allAttrs[ATT_NAMESPACE_D]);
// processContents = (lax | skip | strict) : strict
attrList.put(SchemaSymbols.ATT_PROCESSCONTENTS, allAttrs[ATT_PROCESS_C_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_ANY, attrList);
// for element "unique" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
fEleAttrsMapL.put(SchemaSymbols.ELT_UNIQUE, attrList);
// for element "key" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_KEY, attrList);
// for element "keyref" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
// refer = QName
attrList.put(SchemaSymbols.ATT_REFER, allAttrs[ATT_REFER_R]);
fEleAttrsMapL.put(SchemaSymbols.ELT_KEYREF, attrList);
// for element "selector" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// xpath = a subset of XPath expression
attrList.put(SchemaSymbols.ATT_XPATH, allAttrs[ATT_XPATH_R]);
fEleAttrsMapL.put(SchemaSymbols.ELT_SELECTOR, attrList);
// for element "field" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// xpath = a subset of XPath expression
attrList.put(SchemaSymbols.ATT_XPATH, allAttrs[ATT_XPATH1_R]);
fEleAttrsMapL.put(SchemaSymbols.ELT_FIELD, attrList);
// for element "annotation" - global
attrList = Container.getContainer(1);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
fEleAttrsMapG.put(SchemaSymbols.ELT_ANNOTATION, attrList);
// for element "annotation" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_ANNOTATION, attrList);
// for element "appinfo" - local
attrList = Container.getContainer(1);
// source = anyURI
attrList.put(SchemaSymbols.ATT_SOURCE, allAttrs[ATT_SOURCE_N]);
fEleAttrsMapG.put(SchemaSymbols.ELT_APPINFO, attrList);
fEleAttrsMapL.put(SchemaSymbols.ELT_APPINFO, attrList);
// for element "documentation" - local
attrList = Container.getContainer(2);
// source = anyURI
attrList.put(SchemaSymbols.ATT_SOURCE, allAttrs[ATT_SOURCE_N]);
// xml:lang = language
attrList.put(SchemaSymbols.ATT_XML_LANG, allAttrs[ATT_XML_LANG]);
fEleAttrsMapG.put(SchemaSymbols.ELT_DOCUMENTATION, attrList);
fEleAttrsMapL.put(SchemaSymbols.ELT_DOCUMENTATION, attrList);
// for element "simpleType" - global
attrList = Container.getContainer(3);
// final = (#all | List of (list | union | restriction))
attrList.put(SchemaSymbols.ATT_FINAL, allAttrs[ATT_FINAL1_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// name = NCName
attrList.put(SchemaSymbols.ATT_NAME, allAttrs[ATT_NAME_R]);
fEleAttrsMapG.put(SchemaSymbols.ELT_SIMPLETYPE, attrList);
// for element "simpleType" - local
attrList = Container.getContainer(2);
// final = (#all | List of (list | union | restriction))
attrList.put(SchemaSymbols.ATT_FINAL, allAttrs[ATT_FINAL1_N]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_SIMPLETYPE, attrList);
// for element "restriction" - local
// already registered for complexType
// for element "list" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// itemType = QName
attrList.put(SchemaSymbols.ATT_ITEMTYPE, allAttrs[ATT_ITEMTYPE_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_LIST, attrList);
// for element "union" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// memberTypes = List of QName
attrList.put(SchemaSymbols.ATT_MEMBERTYPES, allAttrs[ATT_MEMBER_T_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_UNION, attrList);
// for element "schema" - global
attrList = Container.getContainer(8);
// attributeFormDefault = (qualified | unqualified) : unqualified
attrList.put(SchemaSymbols.ATT_ATTRIBUTEFORMDEFAULT, allAttrs[ATT_ATTRIBUTE_FD_D]);
// blockDefault = (#all | List of (extension | restriction | substitution)) : ''
attrList.put(SchemaSymbols.ATT_BLOCKDEFAULT, allAttrs[ATT_BLOCK_D_D]);
// elementFormDefault = (qualified | unqualified) : unqualified
attrList.put(SchemaSymbols.ATT_ELEMENTFORMDEFAULT, allAttrs[ATT_ELEMENT_FD_D]);
// finalDefault = (#all | List of (extension | restriction | list | union)) : ''
attrList.put(SchemaSymbols.ATT_FINALDEFAULT, allAttrs[ATT_FINAL_D_D]);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// targetNamespace = anyURI
attrList.put(SchemaSymbols.ATT_TARGETNAMESPACE, allAttrs[ATT_TARGET_N_N]);
// version = token
attrList.put(SchemaSymbols.ATT_VERSION, allAttrs[ATT_VERSION_N]);
// xml:lang = language
attrList.put(SchemaSymbols.ATT_XML_LANG, allAttrs[ATT_XML_LANG]);
fEleAttrsMapG.put(SchemaSymbols.ELT_SCHEMA, attrList);
// for element "include" - global
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// schemaLocation = anyURI
attrList.put(SchemaSymbols.ATT_SCHEMALOCATION, allAttrs[ATT_SCHEMA_L_R]);
fEleAttrsMapG.put(SchemaSymbols.ELT_INCLUDE, attrList);
// for element "redefine" - global
fEleAttrsMapG.put(SchemaSymbols.ELT_REDEFINE, attrList);
// for element "import" - global
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// namespace = anyURI
attrList.put(SchemaSymbols.ATT_NAMESPACE, allAttrs[ATT_NAMESPACE_N]);
// schemaLocation = anyURI
attrList.put(SchemaSymbols.ATT_SCHEMALOCATION, allAttrs[ATT_SCHEMA_L_N]);
fEleAttrsMapG.put(SchemaSymbols.ELT_IMPORT, attrList);
// for element "length" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// value = nonNegativeInteger
attrList.put(SchemaSymbols.ATT_VALUE, allAttrs[ATT_VALUE_NNI_N]);
// fixed = boolean : false
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_LENGTH, attrList);
// for element "minLength" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_MINLENGTH, attrList);
// for element "maxLength" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_MAXLENGTH, attrList);
// for element "fractionDigits" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_FRACTIONDIGITS, attrList);
// for element "totalDigits" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// value = positiveInteger
attrList.put(SchemaSymbols.ATT_VALUE, allAttrs[ATT_VALUE_PI_N]);
// fixed = boolean : false
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_TOTALDIGITS, attrList);
// for element "pattern" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// value = string
attrList.put(SchemaSymbols.ATT_VALUE, allAttrs[ATT_VALUE_STR_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_PATTERN, attrList);
// for element "enumeration" - local
attrList = Container.getContainer(2);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// value = anySimpleType
attrList.put(SchemaSymbols.ATT_VALUE, allAttrs[ATT_VALUE_STR_N]);
fEleAttrsMapL.put(SchemaSymbols.ELT_ENUMERATION, attrList);
// for element "whiteSpace" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// value = preserve | replace | collapse
attrList.put(SchemaSymbols.ATT_VALUE, allAttrs[ATT_VALUE_WS_N]);
// fixed = boolean : false
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_WHITESPACE, attrList);
// for element "maxInclusive" - local
attrList = Container.getContainer(3);
// id = ID
attrList.put(SchemaSymbols.ATT_ID, allAttrs[ATT_ID_N]);
// value = anySimpleType
attrList.put(SchemaSymbols.ATT_VALUE, allAttrs[ATT_VALUE_STR_N]);
// fixed = boolean : false
attrList.put(SchemaSymbols.ATT_FIXED, allAttrs[ATT_FIXED_D]);
fEleAttrsMapL.put(SchemaSymbols.ELT_MAXINCLUSIVE, attrList);
// for element "maxExclusive" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_MAXEXCLUSIVE, attrList);
// for element "minInclusive" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_MININCLUSIVE, attrList);
// for element "minExclusive" - local
fEleAttrsMapL.put(SchemaSymbols.ELT_MINEXCLUSIVE, attrList);
}
// used to resolver namespace prefixes
protected XSDHandler fSchemaHandler = null;
// used to store symbols.
protected SymbolTable fSymbolTable = null;
// used to store the mapping from processed element to attributes
protected Map fNonSchemaAttrs = new HashMap();
// temprory vector, used to hold the namespace list
protected Vector fNamespaceList = new Vector();
// whether this attribute appeared in the current element
protected boolean[] fSeen = new boolean[ATTIDX_COUNT];
private static boolean[] fSeenTemp = new boolean[ATTIDX_COUNT];
// constructor. Sets fErrorReproter and get datatype validators
public XSAttributeChecker(XSDHandler schemaHandler) {
fSchemaHandler = schemaHandler;
}
public void reset(SymbolTable symbolTable) {
fSymbolTable = symbolTable;
fNonSchemaAttrs.clear();
}
/**
* Check whether the specified element conforms to the attributes restriction
* an array of attribute values is returned. the caller must call
* <code>returnAttrArray</code> to return that array.
*
* @param element which element to check
* @param isGlobal whether a child of &lt;schema&gt; or &lt;redefine&gt;
* @param schemaDoc the document where the element lives in
* @return an array containing attribute values
*/
public Object[] checkAttributes(Element element, boolean isGlobal,
XSDocumentInfo schemaDoc) {
return checkAttributes(element, isGlobal, schemaDoc, false);
}
/**
* Check whether the specified element conforms to the attributes restriction
* an array of attribute values is returned. the caller must call
* <code>returnAttrArray</code> to return that array. This method also takes
* an extra parameter: if the element is "enumeration", whether to make a
* copy of the namespace context, so that the value can be resolved as a
* QName later.
*
* @param element which element to check
* @param isGlobal whether a child of &lt;schema&gt; or &lt;redefine&gt;
* @param schemaDoc the document where the element lives in
* @param enumAsQName whether to tread enumeration value as QName
* @return an array containing attribute values
*/
public Object[] checkAttributes(Element element, boolean isGlobal,
XSDocumentInfo schemaDoc, boolean enumAsQName) {
if (element == null)
return null;
// get all attributes
Attr[] attrs = DOMUtil.getAttrs(element);
// update NamespaceSupport
resolveNamespace(element, attrs, schemaDoc.fNamespaceSupport);
String uri = DOMUtil.getNamespaceURI(element);
String elName = DOMUtil.getLocalName(element);
if (!SchemaSymbols.URI_SCHEMAFORSCHEMA.equals(uri)) {
reportSchemaError("s4s-elt-schema-ns", new Object[] {elName}, element);
}
Map eleAttrsMap = fEleAttrsMapG;
String lookupName = elName;
// REVISIT: only local element and attribute are different from others.
// it's possible to have either name or ref. all the others
// are only allowed to have one of name or ref, or neither of them.
// we'd better move such checking to the traverser.
if (!isGlobal) {
eleAttrsMap = fEleAttrsMapL;
if (elName.equals(SchemaSymbols.ELT_ELEMENT)) {
if (DOMUtil.getAttr(element, SchemaSymbols.ATT_REF) != null)
lookupName = ELEMENT_R;
else
lookupName = ELEMENT_N;
} else if (elName.equals(SchemaSymbols.ELT_ATTRIBUTE)) {
if (DOMUtil.getAttr(element, SchemaSymbols.ATT_REF) != null)
lookupName = ATTRIBUTE_R;
else
lookupName = ATTRIBUTE_N;
}
}
// get desired attribute list of this element
Container attrList = (Container)eleAttrsMap.get(lookupName);
if (attrList == null) {
// should never gets here.
// when this method is called, the call already knows that
// the element can appear.
reportSchemaError ("s4s-elt-invalid", new Object[] {elName}, element);
return null;
}
Object[] attrValues = getAvailableArray();
long fromDefault = 0;
// clear the "seen" flag.
System.arraycopy(fSeenTemp, 0, fSeen, 0, ATTIDX_COUNT);
// traverse all attributes
int length = attrs.length;
Attr sattr = null;
for (int i = 0; i < length; i++) {
sattr = attrs[i];
// get the attribute name/value
//String attrName = DOMUtil.getLocalName(sattr);
String attrName = sattr.getName();
String attrURI = DOMUtil.getNamespaceURI(sattr);
String attrVal = DOMUtil.getValue(sattr);
if (attrName.startsWith("xml")) {
String attrPrefix = DOMUtil.getPrefix(sattr);
// we don't want to add namespace declarations to the non-schema attributes
if ("xmlns".equals(attrPrefix) || "xmlns".equals(attrName)) {
continue;
}
// Both <schema> and <documentation> may have an xml:lang attribute.
// Set the URI for this attribute to null so that we process it
// like any other schema attribute.
else if (SchemaSymbols.ATT_XML_LANG.equals(attrName) &&
(SchemaSymbols.ELT_SCHEMA.equals(elName) ||
SchemaSymbols.ELT_DOCUMENTATION.equals(elName))) {
attrURI = null;
}
}
// for attributes with namespace prefix
//
if (attrURI != null && attrURI.length() != 0) {
// attributes with schema namespace are not allowed
// and not allowed on "document" and "appInfo"
if (attrURI.equals(SchemaSymbols.URI_SCHEMAFORSCHEMA)) {
reportSchemaError ("s4s-att-not-allowed", new Object[] {elName, attrName}, element);
}
else {
if(attrValues[ATTIDX_NONSCHEMA] == null) {
// these are usually small
attrValues[ATTIDX_NONSCHEMA] = new Vector(4,2);
}
((Vector)attrValues[ATTIDX_NONSCHEMA]).addElement(attrName);
((Vector)attrValues[ATTIDX_NONSCHEMA]).addElement(attrVal);
// for attributes from other namespace
// store them in a list, and TRY to validate them after
// schema traversal (because it's "lax")
//otherValues.put(attrName, attrVal);
// REVISIT: actually use this some day...
// String attrRName = attrURI + "," + attrName;
// Vector values = (Vector)fNonSchemaAttrs.get(attrRName);
// if (values == null) {
// values = new Vector();
// values.addElement(attrName);
// values.addElement(elName);
// values.addElement(attrVal);
// fNonSchemaAttrs.put(attrRName, values);
// }
// else {
// values.addElement(elName);
// values.addElement(attrVal);
// }
}
continue;
}
// check whether this attribute is allowed
OneAttr oneAttr = attrList.get(attrName);
if (oneAttr == null) {
reportSchemaError ("s4s-att-not-allowed",
new Object[] {elName, attrName},
element);
continue;
}
// we've seen this attribute
fSeen[oneAttr.valueIndex] = true;
// check the value against the datatype
try {
// no checking on string needs to be done here.
// no checking on xpath needs to be done here.
// xpath values are validated in xpath parser
if (oneAttr.dvIndex >= 0) {
if (oneAttr.dvIndex != DT_STRING &&
oneAttr.dvIndex != DT_XPATH &&
oneAttr.dvIndex != DT_XPATH1) {
XSSimpleType dv = fExtraDVs[oneAttr.dvIndex];
Object avalue = dv.validate(attrVal, schemaDoc.fValidationContext, null);
// kludge to handle chameleon includes/redefines...
if (oneAttr.dvIndex == DT_QNAME) {
QName qname = (QName)avalue;
if(qname.prefix == XMLSymbols.EMPTY_STRING && qname.uri == null && schemaDoc.fIsChameleonSchema)
qname.uri = schemaDoc.fTargetNamespace;
}
attrValues[oneAttr.valueIndex] = avalue;
} else {
attrValues[oneAttr.valueIndex] = attrVal;
}
}
else {
attrValues[oneAttr.valueIndex] = validate(attrValues, attrName, attrVal, oneAttr.dvIndex, schemaDoc);
}
} catch (InvalidDatatypeValueException ide) {
reportSchemaError ("s4s-att-invalid-value",
new Object[] {elName, attrName, ide.getMessage()},
element);
if (oneAttr.dfltValue != null)
//attrValues.put(attrName, oneAttr.dfltValue);
attrValues[oneAttr.valueIndex] = oneAttr.dfltValue;
}
// For "enumeration", and type is possible to be a QName, we need
// to return namespace context for later QName resolution.
if (elName.equals(SchemaSymbols.ELT_ENUMERATION) && enumAsQName) {
attrValues[ATTIDX_ENUMNSDECLS] = new SchemaNamespaceSupport(schemaDoc.fNamespaceSupport);
}
}
// apply default values
OneAttr[] reqAttrs = attrList.values;
for (int i = 0; i < reqAttrs.length; i++) {
OneAttr oneAttr = reqAttrs[i];
// if the attribute didn't apprear, and
// if the attribute is optional with default value, apply it
if (oneAttr.dfltValue != null && !fSeen[oneAttr.valueIndex]) {
//attrValues.put(oneAttr.name, oneAttr.dfltValue);
attrValues[oneAttr.valueIndex] = oneAttr.dfltValue;
fromDefault |= (1<<oneAttr.valueIndex);
}
}
attrValues[ATTIDX_FROMDEFAULT] = new Long(fromDefault);
//attrValues[ATTIDX_OTHERVALUES] = otherValues;
// Check that minOccurs isn't greater than maxOccurs.
// p-props-correct 2.1
if (attrValues[ATTIDX_MAXOCCURS] != null) {
int min = ((XInt)attrValues[ATTIDX_MINOCCURS]).intValue();
int max = ((XInt)attrValues[ATTIDX_MAXOCCURS]).intValue();
if (max != SchemaSymbols.OCCURRENCE_UNBOUNDED) {
// maxOccurLimit is only check in secure mode
if (fSchemaHandler.fSecurityManager != null) {
String localName = element.getLocalName();
// The maxOccurs restriction no longer applies to elements
// and wildcards in a sequence in which they are the only
// particle. These are now validated using a constant
// space algorithm. The restriction still applies to all
// other cases.
// Determine if constant-space algorithm can be applied
final boolean optimize =
(localName.equals("element") || localName.equals("any")) &&
(element.getNextSibling() == null) &&
(element.getPreviousSibling() == null) &&
(element.getParentNode().getLocalName().equals("sequence"));
if (!optimize) {
//Revisit :: IMO this is not right place to check
// maxOccurNodeLimit.
int maxOccurNodeLimit = fSchemaHandler.fSecurityManager.getLimit(XMLSecurityManager.Limit.MAX_OCCUR_NODE_LIMIT);
if (max > maxOccurNodeLimit && !fSchemaHandler.fSecurityManager.isNoLimit(maxOccurNodeLimit)) {
reportSchemaFatalError("MaxOccurLimit", new Object[] {new Integer(maxOccurNodeLimit)}, element);
// reset max values in case processing continues on error
attrValues[ATTIDX_MAXOCCURS] = fXIntPool.getXInt(maxOccurNodeLimit);
//new Integer(maxOccurNodeLimit);
max = maxOccurNodeLimit;
}
}
}
if (min > max) {
reportSchemaError ("p-props-correct.2.1",
new Object[] {elName, attrValues[ATTIDX_MINOCCURS], attrValues[ATTIDX_MAXOCCURS]},
element);
attrValues[ATTIDX_MINOCCURS] = attrValues[ATTIDX_MAXOCCURS];
}
}
}
return attrValues;
}
private Object validate(Object[] attrValues, String attr, String ivalue, int dvIndex,
XSDocumentInfo schemaDoc) throws InvalidDatatypeValueException {
if (ivalue == null)
return null;
// To validate these types, we don't actually need to normalize the
// strings. We only need to remove the whitespace from both ends.
// In some special cases (list types), StringTokenizer can correctly
// process the un-normalized whitespace.
String value = XMLChar.trim(ivalue);
Object retValue = null;
Vector memberType;
int choice;
switch (dvIndex) {
case DT_BOOLEAN:
if (value.equals(SchemaSymbols.ATTVAL_FALSE) ||
value.equals(SchemaSymbols.ATTVAL_FALSE_0)) {
retValue = Boolean.FALSE;
} else if (value.equals(SchemaSymbols.ATTVAL_TRUE) ||
value.equals(SchemaSymbols.ATTVAL_TRUE_1)) {
retValue = Boolean.TRUE;
} else {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.1", new Object[]{value, "boolean"});
}
break;
case DT_NONNEGINT:
try {
if (value.length() > 0 && value.charAt(0) == '+')
value = value.substring(1);
retValue = fXIntPool.getXInt(Integer.parseInt(value));
} catch (NumberFormatException e) {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.1", new Object[]{value, "nonNegativeInteger"});
}
if (((XInt)retValue).intValue() < 0)
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.1", new Object[]{value, "nonNegativeInteger"});
break;
case DT_POSINT:
try {
if (value.length() > 0 && value.charAt(0) == '+')
value = value.substring(1);
retValue = fXIntPool.getXInt(Integer.parseInt(value));
} catch (NumberFormatException e) {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.1", new Object[]{value, "positiveInteger"});
}
if (((XInt)retValue).intValue() <= 0)
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.1", new Object[]{value, "positiveInteger"});
break;
case DT_BLOCK:
// block = (#all | List of (extension | restriction | substitution))
choice = 0;
if (value.equals (SchemaSymbols.ATTVAL_POUNDALL)) {
choice = XSConstants.DERIVATION_SUBSTITUTION|XSConstants.DERIVATION_EXTENSION|
XSConstants.DERIVATION_RESTRICTION;
}
else {
StringTokenizer t = new StringTokenizer(value, " \n\t\r");
while (t.hasMoreTokens()) {
String token = t.nextToken ();
if (token.equals (SchemaSymbols.ATTVAL_EXTENSION)) {
choice |= XSConstants.DERIVATION_EXTENSION;
}
else if (token.equals (SchemaSymbols.ATTVAL_RESTRICTION)) {
choice |= XSConstants.DERIVATION_RESTRICTION;
}
else if (token.equals (SchemaSymbols.ATTVAL_SUBSTITUTION)) {
choice |= XSConstants.DERIVATION_SUBSTITUTION;
}
else {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.3", new Object[]{value, "(#all | List of (extension | restriction | substitution))"});
}
}
}
retValue = fXIntPool.getXInt(choice);
break;
case DT_BLOCK1:
case DT_FINAL:
// block = (#all | List of (extension | restriction))
// final = (#all | List of (extension | restriction))
choice = 0;
if (value.equals (SchemaSymbols.ATTVAL_POUNDALL)) {
//choice = SchemaSymbols.EXTENSION|SchemaSymbols.RESTRICTION;
// REVISIT: if #all, then make the result the combination of
// everything: substitution/externsion/restriction/list/union.
// would this be a problem?
// the reason doing so is that when final/blockFinal on <schema>
// is #all, it's not always the same as the conbination of those
// values allowed by final/blockFinal.
// for example, finalDefault="#all" is not always the same as
// finalDefault="extension restriction".
// if finalDefault="#all", final on any simple type would be
// "extension restriction list union".
choice = XSConstants.DERIVATION_SUBSTITUTION|XSConstants.DERIVATION_EXTENSION|
XSConstants.DERIVATION_RESTRICTION|XSConstants.DERIVATION_LIST|
XSConstants.DERIVATION_UNION;
}
else {
StringTokenizer t = new StringTokenizer(value, " \n\t\r");
while (t.hasMoreTokens()) {
String token = t.nextToken ();
if (token.equals (SchemaSymbols.ATTVAL_EXTENSION)) {
choice |= XSConstants.DERIVATION_EXTENSION;
}
else if (token.equals (SchemaSymbols.ATTVAL_RESTRICTION)) {
choice |= XSConstants.DERIVATION_RESTRICTION;
}
else {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.3", new Object[]{value, "(#all | List of (extension | restriction))"});
}
}
}
retValue = fXIntPool.getXInt(choice);
break;
case DT_FINAL1:
// final = (#all | List of (list | union | restriction))
choice = 0;
if (value.equals (SchemaSymbols.ATTVAL_POUNDALL)) {
//choice = SchemaSymbols.RESTRICTION|SchemaSymbols.LIST|
// SchemaSymbols.UNION;
// REVISIT: if #all, then make the result the combination of
// everything: substitution/externsion/restriction/list/union.
// would this be a problem?
// same reason as above DT_BLOCK1/DT_FINAL
choice = XSConstants.DERIVATION_SUBSTITUTION|XSConstants.DERIVATION_EXTENSION|
XSConstants.DERIVATION_RESTRICTION|XSConstants.DERIVATION_LIST|
XSConstants.DERIVATION_UNION;
}
else {
StringTokenizer t = new StringTokenizer(value, " \n\t\r");
while (t.hasMoreTokens()) {
String token = t.nextToken ();
if (token.equals (SchemaSymbols.ATTVAL_LIST)) {
choice |= XSConstants.DERIVATION_LIST;
}
else if (token.equals (SchemaSymbols.ATTVAL_UNION)) {
choice |= XSConstants.DERIVATION_UNION;
}
else if (token.equals (SchemaSymbols.ATTVAL_RESTRICTION)) {
choice |= XSConstants.DERIVATION_RESTRICTION;
}
else {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.3", new Object[]{value, "(#all | List of (list | union | restriction))"});
}
}
}
retValue = fXIntPool.getXInt(choice);
break;
case DT_FINAL2:
// finalDefault = (#all | List of (extension | restriction | list | union))
choice = 0;
if (value.equals (SchemaSymbols.ATTVAL_POUNDALL)) {
//choice = SchemaSymbols.RESTRICTION|SchemaSymbols.LIST|
// SchemaSymbols.UNION;
// REVISIT: if #all, then make the result the combination of
// everything: substitution/externsion/restriction/list/union.
// would this be a problem?
// same reason as above DT_BLOCK1/DT_FINAL
choice = XSConstants.DERIVATION_SUBSTITUTION|XSConstants.DERIVATION_EXTENSION|
XSConstants.DERIVATION_RESTRICTION|XSConstants.DERIVATION_LIST|
XSConstants.DERIVATION_UNION;
}
else {
StringTokenizer t = new StringTokenizer(value, " \n\t\r");
while (t.hasMoreTokens()) {
String token = t.nextToken ();
if (token.equals (SchemaSymbols.ATTVAL_EXTENSION)) {
choice |= XSConstants.DERIVATION_EXTENSION;
}
else if (token.equals (SchemaSymbols.ATTVAL_RESTRICTION)) {
choice |= XSConstants.DERIVATION_RESTRICTION;
}
else if (token.equals (SchemaSymbols.ATTVAL_LIST)) {
choice |= XSConstants.DERIVATION_LIST;
}
else if (token.equals (SchemaSymbols.ATTVAL_UNION)) {
choice |= XSConstants.DERIVATION_UNION;
}
else {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.3", new Object[]{value, "(#all | List of (extension | restriction | list | union))"});
}
}
}
retValue = fXIntPool.getXInt(choice);
break;
case DT_FORM:
// form = (qualified | unqualified)
if (value.equals (SchemaSymbols.ATTVAL_QUALIFIED))
retValue = INT_QUALIFIED;
else if (value.equals (SchemaSymbols.ATTVAL_UNQUALIFIED))
retValue = INT_UNQUALIFIED;
else
throw new InvalidDatatypeValueException("cvc-enumeration-valid",
new Object[]{value, "(qualified | unqualified)"});
break;
case DT_MAXOCCURS:
// maxOccurs = (nonNegativeInteger | unbounded)
if (value.equals(SchemaSymbols.ATTVAL_UNBOUNDED)) {
retValue = INT_UNBOUNDED;
} else {
try {
retValue = validate(attrValues, attr, value, DT_NONNEGINT, schemaDoc);
} catch (NumberFormatException e) {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.3", new Object[]{value, "(nonNegativeInteger | unbounded)"});
}
}
break;
case DT_MAXOCCURS1:
// maxOccurs = 1
if (value.equals("1"))
retValue = fXIntPool.getXInt(1);
else
throw new InvalidDatatypeValueException("cvc-enumeration-valid",
new Object[]{value, "(1)"});
break;
case DT_MEMBERTYPES:
// memberTypes = List of QName
memberType = new Vector();
try {
StringTokenizer t = new StringTokenizer(value, " \n\t\r");
while (t.hasMoreTokens()) {
String token = t.nextToken ();
QName qname = (QName)fExtraDVs[DT_QNAME].validate(token, schemaDoc.fValidationContext, null);
// kludge to handle chameleon includes/redefines...
if(qname.prefix == XMLSymbols.EMPTY_STRING && qname.uri == null && schemaDoc.fIsChameleonSchema)
qname.uri = schemaDoc.fTargetNamespace;
memberType.addElement(qname);
}
retValue = memberType;
}
catch (InvalidDatatypeValueException ide) {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.2", new Object[]{value, "(List of QName)"});
}
break;
case DT_MINOCCURS1:
// minOccurs = (0 | 1)
if (value.equals("0"))
retValue = fXIntPool.getXInt(0);
else if (value.equals("1"))
retValue = fXIntPool.getXInt(1);
else
throw new InvalidDatatypeValueException("cvc-enumeration-valid",
new Object[]{value, "(0 | 1)"});
break;
case DT_NAMESPACE:
// namespace = ((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) )
if (value.equals(SchemaSymbols.ATTVAL_TWOPOUNDANY)) {
// ##any
retValue = INT_ANY_ANY;
} else if (value.equals(SchemaSymbols.ATTVAL_TWOPOUNDOTHER)) {
// ##other
retValue = INT_ANY_NOT;
String[] list = new String[2];
list[0] = schemaDoc.fTargetNamespace;
list[1] = null;
attrValues[ATTIDX_NAMESPACE_LIST] = list;
} else {
// list
retValue = INT_ANY_LIST;
fNamespaceList.removeAllElements();
// tokenize
StringTokenizer tokens = new StringTokenizer(value, " \n\t\r");
String token;
String tempNamespace;
try {
while (tokens.hasMoreTokens()) {
token = tokens.nextToken();
if (token.equals(SchemaSymbols.ATTVAL_TWOPOUNDLOCAL)) {
tempNamespace = null;
} else if (token.equals(SchemaSymbols.ATTVAL_TWOPOUNDTARGETNS)) {
tempNamespace = schemaDoc.fTargetNamespace;
} else {
// we have found namespace URI here
// need to add it to the symbol table
fExtraDVs[DT_ANYURI].validate(token, schemaDoc.fValidationContext, null);
tempNamespace = fSymbolTable.addSymbol(token);
}
//check for duplicate namespaces in the list
if (!fNamespaceList.contains(tempNamespace)) {
fNamespaceList.addElement(tempNamespace);
}
}
} catch (InvalidDatatypeValueException ide) {
throw new InvalidDatatypeValueException("cvc-datatype-valid.1.2.3", new Object[]{value, "((##any | ##other) | List of (anyURI | (##targetNamespace | ##local)) )"});
}
// convert the vector to an array
int num = fNamespaceList.size();
String[] list = new String[num];
fNamespaceList.copyInto(list);
attrValues[ATTIDX_NAMESPACE_LIST] = list;
}
break;
case DT_PROCESSCONTENTS:
// processContents = (lax | skip | strict)
if (value.equals (SchemaSymbols.ATTVAL_STRICT))
retValue = INT_ANY_STRICT;
else if (value.equals (SchemaSymbols.ATTVAL_LAX))
retValue = INT_ANY_LAX;
else if (value.equals (SchemaSymbols.ATTVAL_SKIP))
retValue = INT_ANY_SKIP;
else
throw new InvalidDatatypeValueException("cvc-enumeration-valid",
new Object[]{value, "(lax | skip | strict)"});
break;
case DT_USE:
// use = (optional | prohibited | required)
if (value.equals (SchemaSymbols.ATTVAL_OPTIONAL))
retValue = INT_USE_OPTIONAL;
else if (value.equals (SchemaSymbols.ATTVAL_REQUIRED))
retValue = INT_USE_REQUIRED;
else if (value.equals (SchemaSymbols.ATTVAL_PROHIBITED))
retValue = INT_USE_PROHIBITED;
else
throw new InvalidDatatypeValueException("cvc-enumeration-valid",
new Object[]{value, "(optional | prohibited | required)"});
break;
case DT_WHITESPACE:
// value = preserve | replace | collapse
if (value.equals (SchemaSymbols.ATTVAL_PRESERVE))
retValue = INT_WS_PRESERVE;
else if (value.equals (SchemaSymbols.ATTVAL_REPLACE))
retValue = INT_WS_REPLACE;
else if (value.equals (SchemaSymbols.ATTVAL_COLLAPSE))
retValue = INT_WS_COLLAPSE;
else
throw new InvalidDatatypeValueException("cvc-enumeration-valid",
new Object[]{value, "(preserve | replace | collapse)"});
break;
}
return retValue;
}
void reportSchemaFatalError (String key, Object[] args, Element ele) {
fSchemaHandler.reportSchemaFatalError(key, args, ele);
}
void reportSchemaError (String key, Object[] args, Element ele) {
fSchemaHandler.reportSchemaError(key, args, ele);
}
// validate attriubtes from non-schema namespaces
// REVISIT: why we store the attributes in this way? why not just a list
// of structure {element node, attr name/qname, attr value)?
// REVISIT: pass the proper element node to reportSchemaError
public void checkNonSchemaAttributes(XSGrammarBucket grammarBucket) {
// for all attributes
Iterator entries = fNonSchemaAttrs.entrySet().iterator();
XSAttributeDecl attrDecl;
while (entries.hasNext()) {
Map.Entry entry = (Map.Entry) entries.next();
// get name, uri, localpart
String attrRName = (String) entry.getKey();
String attrURI = attrRName.substring(0,attrRName.indexOf(','));
String attrLocal = attrRName.substring(attrRName.indexOf(',')+1);
// find associated grammar
SchemaGrammar sGrammar = grammarBucket.getGrammar(attrURI);
if (sGrammar == null) {
continue;
}
// and get the datatype validator, if there is one
attrDecl = sGrammar.getGlobalAttributeDecl(attrLocal);
if (attrDecl == null) {
continue;
}
XSSimpleType dv = (XSSimpleType)attrDecl.getTypeDefinition();
if (dv == null) {
continue;
}
// get all values appeared with this attribute name
Vector values = (Vector) entry.getValue();
String elName;
String attrName = (String)values.elementAt(0);
// for each of the values
int count = values.size();
for (int i = 1; i < count; i += 2) {
elName = (String)values.elementAt(i);
try {
// and validate it using the XSSimpleType
// REVISIT: what would be the proper validation context?
// guess we need to save that in the vectors too.
dv.validate((String)values.elementAt(i+1), null, null);
} catch(InvalidDatatypeValueException ide) {
reportSchemaError ("s4s-att-invalid-value",
new Object[] {elName, attrName, ide.getMessage()},
null);
}
}
}
}
// normalize the string according to the whiteSpace facet
public static String normalize(String content, short ws) {
int len = content == null ? 0 : content.length();
if (len == 0 || ws == XSSimpleType.WS_PRESERVE)
return content;
StringBuffer sb = new StringBuffer();
if (ws == XSSimpleType.WS_REPLACE) {
char ch;
// when it's replace, just replace #x9, #xa, #xd by #x20
for (int i = 0; i < len; i++) {
ch = content.charAt(i);
if (ch != 0x9 && ch != 0xa && ch != 0xd)
sb.append(ch);
else
sb.append((char)0x20);
}
} else {
char ch;
int i;
boolean isLeading = true;
// when it's collapse
for (i = 0; i < len; i++) {
ch = content.charAt(i);
// append real characters, so we passed leading ws
if (ch != 0x9 && ch != 0xa && ch != 0xd && ch != 0x20) {
sb.append(ch);
isLeading = false;
}
else {
// for whitespaces, we skip all following ws
for (; i < len-1; i++) {
ch = content.charAt(i+1);
if (ch != 0x9 && ch != 0xa && ch != 0xd && ch != 0x20)
break;
}
// if it's not a leading or tailing ws, then append a space
if (i < len - 1 && !isLeading)
sb.append((char)0x20);
}
}
}
return sb.toString();
}
// the following part implements an attribute-value-array pool.
// when checkAttribute is called, it calls getAvailableArray to get
// an array from the pool; when the caller is done with the array,
// it calls returnAttrArray to return that array to the pool.
// initial size of the array pool. 10 is big enough
static final int INIT_POOL_SIZE = 10;
// the incremental size of the array pool
static final int INC_POOL_SIZE = 10;
// the array pool
Object[][] fArrayPool = new Object[INIT_POOL_SIZE][ATTIDX_COUNT];
// used to clear the returned array
// I think System.arrayCopy is more efficient than setting 35 fields to null
private static Object[] fTempArray = new Object[ATTIDX_COUNT];
// current position of the array pool (# of arrays not returned)
int fPoolPos = 0;
// get the next available array
protected Object[] getAvailableArray() {
// if no array left in the pool, increase the pool size
if (fArrayPool.length == fPoolPos) {
// increase size
fArrayPool = new Object[fPoolPos+INC_POOL_SIZE][];
// initialize each *new* array
for (int i = fPoolPos; i < fArrayPool.length; i++)
fArrayPool[i] = new Object[ATTIDX_COUNT];
}
// get the next available one
Object[] retArray = fArrayPool[fPoolPos];
// clear it from the pool. this is for GC: if a caller forget to
// return the array, we want that array to be GCed.
fArrayPool[fPoolPos++] = null;
// to make sure that one array is not returned twice, we use
// the last entry to indicate whether an array is already returned
// now set it to false.
System.arraycopy(fTempArray, 0, retArray, 0, ATTIDX_COUNT-1);
retArray[ATTIDX_ISRETURNED] = Boolean.FALSE;
return retArray;
}
// return an array back to the pool
public void returnAttrArray(Object[] attrArray, XSDocumentInfo schemaDoc) {
// pop the namespace context
if (schemaDoc != null)
schemaDoc.fNamespaceSupport.popContext();
// if 1. the pool is full; 2. the array is null;
// 3. the array is of wrong size; 4. the array is already returned
// then we can't accept this array to be returned
if (fPoolPos == 0 ||
attrArray == null ||
attrArray.length != ATTIDX_COUNT ||
((Boolean)attrArray[ATTIDX_ISRETURNED]).booleanValue()) {
return;
}
// mark this array as returned
attrArray[ATTIDX_ISRETURNED] = Boolean.TRUE;
// better clear nonschema vector
if(attrArray[ATTIDX_NONSCHEMA] != null)
((Vector)attrArray[ATTIDX_NONSCHEMA]).clear();
// and put it into the pool
fArrayPool[--fPoolPos] = attrArray;
}
public void resolveNamespace(Element element, Attr[] attrs,
SchemaNamespaceSupport nsSupport) {
// push the namespace context
nsSupport.pushContext();
// search for new namespace bindings
int length = attrs.length;
Attr sattr = null;
String rawname, prefix, uri;
for (int i = 0; i < length; i++) {
sattr = attrs[i];
rawname = DOMUtil.getName(sattr);
prefix = null;
if (rawname.equals(XMLSymbols.PREFIX_XMLNS))
prefix = XMLSymbols.EMPTY_STRING;
else if (rawname.startsWith("xmlns:"))
prefix = fSymbolTable.addSymbol(DOMUtil.getLocalName(sattr));
if (prefix != null) {
uri = fSymbolTable.addSymbol(DOMUtil.getValue(sattr));
nsSupport.declarePrefix(prefix, uri.length()!=0 ? uri : null);
}
}
}
}
class OneAttr {
// name of the attribute
public String name;
// index of the datatype validator
public int dvIndex;
// whether it's optional, and has default value
public int valueIndex;
// the default value of this attribute
public Object dfltValue;
public OneAttr(String name, int dvIndex, int valueIndex, Object dfltValue) {
this.name = name;
this.dvIndex = dvIndex;
this.valueIndex = valueIndex;
this.dfltValue = dfltValue;
}
}
abstract class Container {
static final int THRESHOLD = 5;
static Container getContainer(int size) {
if (size > THRESHOLD)
return new LargeContainer(size);
else
return new SmallContainer(size);
}
abstract void put(String key, OneAttr value);
abstract OneAttr get(String key);
OneAttr[] values;
int pos = 0;
}
class SmallContainer extends Container {
String[] keys;
SmallContainer(int size) {
keys = new String[size];
values = new OneAttr[size];
}
void put(String key, OneAttr value) {
keys[pos] = key;
values[pos++] = value;
}
OneAttr get(String key) {
for (int i = 0; i < pos; i++) {
if (keys[i].equals(key)) {
return values[i];
}
}
return null;
}
}
class LargeContainer extends Container {
Map items;
LargeContainer(int size) {
items = new HashMap(size*2+1);
values = new OneAttr[size];
}
void put(String key, OneAttr value) {
items.put(key, value);
values[pos++] = value;
}
OneAttr get(String key) {
OneAttr ret = (OneAttr)items.get(key);
return ret;
}
}