| /* |
| * Copyright (c) 2016, 2017, 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 java.util.Iterator; |
| import java.util.Map; |
| import java.util.StringTokenizer; |
| import java.util.Vector; |
| |
| 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 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 |
| */ |
| |
| 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 <schema> or <redefine> |
| * @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 <schema> or <redefine> |
| * @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] = 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[] {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; |
| } |
| } |