/// <remarks> /// An Attribute group can only be defined as a child of XmlSchema or in XmlSchemaRedefine. /// The other attributeGroup has type XmlSchemaAttributeGroupRef. /// 1. Name must be present /// </remarks> internal override int Compile(ValidationEventHandler h, XmlSchema schema) { // If this is already compiled this time, simply skip. if (CompilationId == schema.CompilationId) { return(errorCount); } errorCount = 0; if (redefinedObject != null) { errorCount += redefined.Compile(h, schema); if (errorCount == 0) { redefined = (XmlSchemaAttributeGroup)redefinedObject; } } XmlSchemaUtil.CompileID(Id, this, schema.IDCollection, h); if (this.Name == null || this.Name == String.Empty) //1 { error(h, "Name is required in top level simpletype"); } else if (!XmlSchemaUtil.CheckNCName(this.Name)) // b.1.2 { error(h, "name attribute of a simpleType must be NCName"); } else { this.qualifiedName = new XmlQualifiedName(this.Name, AncestorSchema.TargetNamespace); } if (this.AnyAttribute != null) { errorCount += this.AnyAttribute.Compile(h, schema); } foreach (XmlSchemaObject obj in Attributes) { if (obj is XmlSchemaAttribute) { XmlSchemaAttribute attr = (XmlSchemaAttribute)obj; errorCount += attr.Compile(h, schema); } else if (obj is XmlSchemaAttributeGroupRef) { XmlSchemaAttributeGroupRef gref = (XmlSchemaAttributeGroupRef)obj; errorCount += gref.Compile(h, schema); } else { error(h, "invalid type of object in Attributes property"); } } this.CompilationId = schema.CompilationId; return(errorCount); }
//<attributeGroup // id = ID // name = NCName // ref = QName // Not present in this class. // {any attributes with non-schema namespace . . .}> // Content: (annotation?, ((attribute | attributeGroup)*, anyAttribute?)) //</attributeGroup> internal static XmlSchemaAttributeGroup Read(XmlSchemaReader reader, ValidationEventHandler h) { XmlSchemaAttributeGroup attrgrp = new XmlSchemaAttributeGroup(); reader.MoveToElement(); if (reader.NamespaceURI != XmlSchema.Namespace || reader.LocalName != xmlname) { error(h, "Should not happen :1: XmlSchemaAttributeGroup.Read, name=" + reader.Name, null); reader.SkipToEnd(); return(null); } attrgrp.LineNumber = reader.LineNumber; attrgrp.LinePosition = reader.LinePosition; attrgrp.SourceUri = reader.BaseURI; while (reader.MoveToNextAttribute()) { if (reader.Name == "id") { attrgrp.Id = reader.Value; } else if (reader.Name == "name") { attrgrp.name = reader.Value; } else if ((reader.NamespaceURI == "" && reader.Name != "xmlns") || reader.NamespaceURI == XmlSchema.Namespace) { error(h, reader.Name + " is not a valid attribute for attributeGroup in this context", null); } else { XmlSchemaUtil.ReadUnhandledAttribute(reader, attrgrp); } } reader.MoveToElement(); if (reader.IsEmptyElement) { return(attrgrp); } //Content: 1.annotation?, 2.(attribute | attributeGroup)*, 3.anyAttribute? int level = 1; while (reader.ReadNextElement()) { if (reader.NodeType == XmlNodeType.EndElement) { if (reader.LocalName != xmlname) { error(h, "Should not happen :2: XmlSchemaAttributeGroup.Read, name=" + reader.Name, null); } break; } if (level <= 1 && reader.LocalName == "annotation") { level = 2; //Only one annotation XmlSchemaAnnotation annotation = XmlSchemaAnnotation.Read(reader, h); if (annotation != null) { attrgrp.Annotation = annotation; } continue; } if (level <= 2) { if (reader.LocalName == "attribute") { level = 2; XmlSchemaAttribute attr = XmlSchemaAttribute.Read(reader, h); if (attr != null) { attrgrp.Attributes.Add(attr); } continue; } if (reader.LocalName == "attributeGroup") { level = 2; XmlSchemaAttributeGroupRef attr = XmlSchemaAttributeGroupRef.Read(reader, h); if (attr != null) { attrgrp.attributes.Add(attr); } continue; } } if (level <= 3 && reader.LocalName == "anyAttribute") { level = 4; XmlSchemaAnyAttribute anyattr = XmlSchemaAnyAttribute.Read(reader, h); if (anyattr != null) { attrgrp.AnyAttribute = anyattr; } continue; } reader.RaiseInvalidElementError(); } return(attrgrp); }
///<remarks> /// 1. Base must be present and a QName ///</remarks> internal override int Compile(ValidationEventHandler h, XmlSchema schema) { // If this is already compiled this time, simply skip. if (CompilationId == schema.CompilationId) { return(0); } if (this.isRedefinedComponent) { if (Annotation != null) { Annotation.isRedefinedComponent = true; } if (AnyAttribute != null) { AnyAttribute.isRedefinedComponent = true; } foreach (XmlSchemaObject obj in Attributes) { obj.isRedefinedComponent = true; } } if (BaseTypeName == null || BaseTypeName.IsEmpty) { error(h, "base must be present, as a QName"); } else if (!XmlSchemaUtil.CheckQName(BaseTypeName)) { error(h, "BaseTypeName must be a QName"); } if (this.AnyAttribute != null) { errorCount += AnyAttribute.Compile(h, schema); } foreach (XmlSchemaObject obj in Attributes) { if (obj is XmlSchemaAttribute) { XmlSchemaAttribute attr = (XmlSchemaAttribute)obj; errorCount += attr.Compile(h, schema); } else if (obj is XmlSchemaAttributeGroupRef) { XmlSchemaAttributeGroupRef atgrp = (XmlSchemaAttributeGroupRef)obj; errorCount += atgrp.Compile(h, schema); } else { error(h, obj.GetType() + " is not valid in this place::SimpleConentExtension"); } } XmlSchemaUtil.CompileID(Id, this, schema.IDCollection, h); this.CompilationId = schema.CompilationId; return(errorCount); }
public static int ValidateAttributesResolved( XmlSchemaObjectTable attributesResolved, ValidationEventHandler h, XmlSchema schema, XmlSchemaObjectCollection attributes, XmlSchemaAnyAttribute anyAttribute, ref XmlSchemaAnyAttribute anyAttributeUse, XmlSchemaAttributeGroup redefined, bool skipEquivalent) { int errorCount = 0; if (anyAttribute != null && anyAttributeUse == null) { anyAttributeUse = anyAttribute; } ArrayList newAttrNames = new ArrayList(); foreach (XmlSchemaObject xsobj in attributes) { XmlSchemaAttributeGroupRef grpRef = xsobj as XmlSchemaAttributeGroupRef; if (grpRef != null) { // Resolve attributeGroup redefinition. XmlSchemaAttributeGroup grp = null; if (redefined != null && grpRef.RefName == redefined.QualifiedName) { grp = redefined; } else { grp = schema.FindAttributeGroup(grpRef.RefName); } // otherwise, it might be missing sub components. if (grp == null) { if (!schema.missedSubComponents) // && schema.Schemas [grpRef.RefName.Namespace] != null) { grpRef.error(h, "Referenced attribute group " + grpRef.RefName + " was not found in the corresponding schema."); } continue; } if (grp.AttributeGroupRecursionCheck) { grp.error(h, "Attribute group recursion was found: " + grpRef.RefName); continue; } try { grp.AttributeGroupRecursionCheck = true; errorCount += grp.Validate(h, schema); } finally { grp.AttributeGroupRecursionCheck = false; } if (grp.AnyAttributeUse != null) { if (anyAttribute == null) { anyAttributeUse = grp.AnyAttributeUse; } } foreach (DictionaryEntry entry in grp.AttributeUses) { XmlSchemaAttribute attr = (XmlSchemaAttribute)entry.Value; if (StrictMsCompliant && attr.Use == XmlSchemaUse.Prohibited) { continue; } if (attr.RefName != null && attr.RefName != XmlQualifiedName.Empty && (!skipEquivalent || !AreAttributesEqual(attr, attributesResolved [attr.RefName] as XmlSchemaAttribute))) { AddToTable(attributesResolved, attr, attr.RefName, h); } else if (!skipEquivalent || !AreAttributesEqual(attr, attributesResolved [attr.QualifiedName] as XmlSchemaAttribute)) { AddToTable(attributesResolved, attr, attr.QualifiedName, h); } } } else { XmlSchemaAttribute attr = xsobj as XmlSchemaAttribute; if (attr != null) { errorCount += attr.Validate(h, schema); if (newAttrNames.Contains(attr.QualifiedName)) { attr.error(h, String.Format("Duplicate attributes was found for '{0}'", attr.QualifiedName)); } newAttrNames.Add(attr.QualifiedName); if (StrictMsCompliant && attr.Use == XmlSchemaUse.Prohibited) { continue; } if (attr.RefName != null && attr.RefName != XmlQualifiedName.Empty && (!skipEquivalent || !AreAttributesEqual(attr, attributesResolved [attr.RefName] as XmlSchemaAttribute))) { AddToTable(attributesResolved, attr, attr.RefName, h); } else if (!skipEquivalent || !AreAttributesEqual(attr, attributesResolved [attr.QualifiedName] as XmlSchemaAttribute)) { AddToTable(attributesResolved, attr, attr.QualifiedName, h); } } else { if (anyAttribute != null) { anyAttributeUse = (XmlSchemaAnyAttribute)xsobj; anyAttribute.Validate(h, schema); } } } } return(errorCount); }
//<attributeGroup // id = ID // ref = QName // {any attributes with non-schema namespace . . .}> // Content: (annotation?) //</attributeGroup> internal static XmlSchemaAttributeGroupRef Read(XmlSchemaReader reader, ValidationEventHandler h) { XmlSchemaAttributeGroupRef attrgrp = new XmlSchemaAttributeGroupRef(); reader.MoveToElement(); if (reader.NamespaceURI != XmlSchema.Namespace || reader.LocalName != xmlname) { error(h, "Should not happen :1: XmlSchemaAttributeGroupRef.Read, name=" + reader.Name, null); reader.SkipToEnd(); return(null); } attrgrp.LineNumber = reader.LineNumber; attrgrp.LinePosition = reader.LinePosition; attrgrp.SourceUri = reader.BaseURI; while (reader.MoveToNextAttribute()) { if (reader.Name == "id") { attrgrp.Id = reader.Value; } else if (reader.Name == "ref") { Exception innerex; attrgrp.refName = XmlSchemaUtil.ReadQNameAttribute(reader, out innerex); if (innerex != null) { error(h, reader.Value + " is not a valid value for ref attribute", innerex); } } else if ((reader.NamespaceURI == "" && reader.Name != "xmlns") || reader.NamespaceURI == XmlSchema.Namespace) { error(h, reader.Name + " is not a valid attribute for attributeGroup in this context", null); } else { XmlSchemaUtil.ReadUnhandledAttribute(reader, attrgrp); } } reader.MoveToElement(); if (reader.IsEmptyElement) { return(attrgrp); } int level = 1; while (reader.ReadNextElement()) { if (reader.NodeType == XmlNodeType.EndElement) { if (reader.LocalName != xmlname) { error(h, "Should not happen :2: XmlSchemaAttributeGroupRef.Read, name=" + reader.Name, null); } break; } if (level <= 1 && reader.LocalName == "annotation") { level = 2; //Only one annotation XmlSchemaAnnotation annotation = XmlSchemaAnnotation.Read(reader, h); if (annotation != null) { attrgrp.Annotation = annotation; } continue; } reader.RaiseInvalidElementError(); } return(attrgrp); }
//<restriction //base = QName //id = ID //{any attributes with non-schema namespace . . .}> //Content: (annotation?, (simpleType?, (minExclusive | minInclusive | maxExclusive | maxInclusive | totalDigits | fractionDigits | length | minLength | maxLength | enumeration | whiteSpace | pattern)*)?, ((attribute | attributeGroup)*, anyAttribute?)) //</restriction> internal static XmlSchemaSimpleContentRestriction Read(XmlSchemaReader reader, ValidationEventHandler h) { XmlSchemaSimpleContentRestriction restriction = new XmlSchemaSimpleContentRestriction(); reader.MoveToElement(); if (reader.NamespaceURI != XmlSchema.Namespace || reader.LocalName != xmlname) { error(h, "Should not happen :1: XmlSchemaComplexContentRestriction.Read, name=" + reader.Name, null); reader.SkipToEnd(); return(null); } restriction.LineNumber = reader.LineNumber; restriction.LinePosition = reader.LinePosition; restriction.SourceUri = reader.BaseURI; while (reader.MoveToNextAttribute()) { if (reader.Name == "base") { Exception innerex; restriction.baseTypeName = XmlSchemaUtil.ReadQNameAttribute(reader, out innerex); if (innerex != null) { error(h, reader.Value + " is not a valid value for base attribute", innerex); } } else if (reader.Name == "id") { restriction.Id = reader.Value; } else if ((reader.NamespaceURI == "" && reader.Name != "xmlns") || reader.NamespaceURI == XmlSchema.Namespace) { error(h, reader.Name + " is not a valid attribute for restriction", null); } else { XmlSchemaUtil.ReadUnhandledAttribute(reader, restriction); } } reader.MoveToElement(); if (reader.IsEmptyElement) { return(restriction); } //Content: 1.annotation?, // 2.simpleType?, // 3.(minExclusive |...| enumeration | whiteSpace | pattern)*, // 4.(attribute | attributeGroup)*, // 5.anyAttribute? int level = 1; while (reader.ReadNextElement()) { if (reader.NodeType == XmlNodeType.EndElement) { if (reader.LocalName != xmlname) { error(h, "Should not happen :2: XmlSchemaSimpleContentRestriction.Read, name=" + reader.Name, null); } break; } if (level <= 1 && reader.LocalName == "annotation") { level = 2; //Only one annotation XmlSchemaAnnotation annotation = XmlSchemaAnnotation.Read(reader, h); if (annotation != null) { restriction.Annotation = annotation; } continue; } if (level <= 2 && reader.LocalName == "simpleType") { level = 3; XmlSchemaSimpleType stype = XmlSchemaSimpleType.Read(reader, h); if (stype != null) { restriction.baseType = stype; } continue; } if (level <= 3) { if (reader.LocalName == "minExclusive") { level = 3; XmlSchemaMinExclusiveFacet minex = XmlSchemaMinExclusiveFacet.Read(reader, h); if (minex != null) { restriction.facets.Add(minex); } continue; } else if (reader.LocalName == "minInclusive") { level = 3; XmlSchemaMinInclusiveFacet mini = XmlSchemaMinInclusiveFacet.Read(reader, h); if (mini != null) { restriction.facets.Add(mini); } continue; } else if (reader.LocalName == "maxExclusive") { level = 3; XmlSchemaMaxExclusiveFacet maxex = XmlSchemaMaxExclusiveFacet.Read(reader, h); if (maxex != null) { restriction.facets.Add(maxex); } continue; } else if (reader.LocalName == "maxInclusive") { level = 3; XmlSchemaMaxInclusiveFacet maxi = XmlSchemaMaxInclusiveFacet.Read(reader, h); if (maxi != null) { restriction.facets.Add(maxi); } continue; } else if (reader.LocalName == "totalDigits") { level = 3; XmlSchemaTotalDigitsFacet total = XmlSchemaTotalDigitsFacet.Read(reader, h); if (total != null) { restriction.facets.Add(total); } continue; } else if (reader.LocalName == "fractionDigits") { level = 3; XmlSchemaFractionDigitsFacet fraction = XmlSchemaFractionDigitsFacet.Read(reader, h); if (fraction != null) { restriction.facets.Add(fraction); } continue; } else if (reader.LocalName == "length") { level = 3; XmlSchemaLengthFacet length = XmlSchemaLengthFacet.Read(reader, h); if (length != null) { restriction.facets.Add(length); } continue; } else if (reader.LocalName == "minLength") { level = 3; XmlSchemaMinLengthFacet minlen = XmlSchemaMinLengthFacet.Read(reader, h); if (minlen != null) { restriction.facets.Add(minlen); } continue; } else if (reader.LocalName == "maxLength") { level = 3; XmlSchemaMaxLengthFacet maxlen = XmlSchemaMaxLengthFacet.Read(reader, h); if (maxlen != null) { restriction.facets.Add(maxlen); } continue; } else if (reader.LocalName == "enumeration") { level = 3; XmlSchemaEnumerationFacet enumeration = XmlSchemaEnumerationFacet.Read(reader, h); if (enumeration != null) { restriction.facets.Add(enumeration); } continue; } else if (reader.LocalName == "whiteSpace") { level = 3; XmlSchemaWhiteSpaceFacet ws = XmlSchemaWhiteSpaceFacet.Read(reader, h); if (ws != null) { restriction.facets.Add(ws); } continue; } else if (reader.LocalName == "pattern") { level = 3; XmlSchemaPatternFacet pattern = XmlSchemaPatternFacet.Read(reader, h); if (pattern != null) { restriction.facets.Add(pattern); } continue; } } if (level <= 4) { if (reader.LocalName == "attribute") { level = 4; XmlSchemaAttribute attr = XmlSchemaAttribute.Read(reader, h); if (attr != null) { restriction.Attributes.Add(attr); } continue; } if (reader.LocalName == "attributeGroup") { level = 4; XmlSchemaAttributeGroupRef attr = XmlSchemaAttributeGroupRef.Read(reader, h); if (attr != null) { restriction.attributes.Add(attr); } continue; } } if (level <= 5 && reader.LocalName == "anyAttribute") { level = 6; XmlSchemaAnyAttribute anyattr = XmlSchemaAnyAttribute.Read(reader, h); if (anyattr != null) { restriction.AnyAttribute = anyattr; } continue; } reader.RaiseInvalidElementError(); } return(restriction); }
//<extension // base = QName // id = ID // {any attributes with non-schema namespace . . .}> // Content: (annotation?, ((group | all | choice | sequence)?, ((attribute | attributeGroup)*, anyAttribute?))) //</extension> internal static XmlSchemaComplexContentExtension Read(XmlSchemaReader reader, ValidationEventHandler h) { XmlSchemaComplexContentExtension extension = new XmlSchemaComplexContentExtension(); reader.MoveToElement(); if (reader.NamespaceURI != XmlSchema.Namespace || reader.LocalName != xmlname) { error(h, "Should not happen :1: XmlSchemaComplexContentExtension.Read, name=" + reader.Name, null); reader.Skip(); return(null); } extension.LineNumber = reader.LineNumber; extension.LinePosition = reader.LinePosition; extension.SourceUri = reader.BaseURI; while (reader.MoveToNextAttribute()) { if (reader.Name == "base") { Exception innerex; extension.baseTypeName = XmlSchemaUtil.ReadQNameAttribute(reader, out innerex); if (innerex != null) { error(h, reader.Value + " is not a valid value for base attribute", innerex); } } else if (reader.Name == "id") { extension.Id = reader.Value; } else if ((reader.NamespaceURI == "" && reader.Name != "xmlns") || reader.NamespaceURI == XmlSchema.Namespace) { error(h, reader.Name + " is not a valid attribute for extension", null); } else { XmlSchemaUtil.ReadUnhandledAttribute(reader, extension); } } reader.MoveToElement(); if (reader.IsEmptyElement) { return(extension); } //Content: 1. annotation?, // (2.(group | all | choice | sequence)?, (3.(attribute | attributeGroup)*, 4.anyAttribute?))) int level = 1; while (reader.ReadNextElement()) { if (reader.NodeType == XmlNodeType.EndElement) { if (reader.LocalName != xmlname) { error(h, "Should not happen :2: XmlSchemaComplexContentExtension.Read, name=" + reader.Name, null); } break; } if (level <= 1 && reader.LocalName == "annotation") { level = 2; //Only one annotation XmlSchemaAnnotation annotation = XmlSchemaAnnotation.Read(reader, h); if (annotation != null) { extension.Annotation = annotation; } continue; } if (level <= 2) { if (reader.LocalName == "group") { level = 3; XmlSchemaGroupRef group = XmlSchemaGroupRef.Read(reader, h); if (group != null) { extension.particle = group; } continue; } if (reader.LocalName == "all") { level = 3; XmlSchemaAll all = XmlSchemaAll.Read(reader, h); if (all != null) { extension.particle = all; } continue; } if (reader.LocalName == "choice") { level = 3; XmlSchemaChoice choice = XmlSchemaChoice.Read(reader, h); if (choice != null) { extension.particle = choice; } continue; } if (reader.LocalName == "sequence") { level = 3; XmlSchemaSequence sequence = XmlSchemaSequence.Read(reader, h); if (sequence != null) { extension.particle = sequence; } continue; } } if (level <= 3) { if (reader.LocalName == "attribute") { level = 3; XmlSchemaAttribute attr = XmlSchemaAttribute.Read(reader, h); if (attr != null) { extension.Attributes.Add(attr); } continue; } if (reader.LocalName == "attributeGroup") { level = 3; XmlSchemaAttributeGroupRef attr = XmlSchemaAttributeGroupRef.Read(reader, h); if (attr != null) { extension.attributes.Add(attr); } continue; } } if (level <= 4 && reader.LocalName == "anyAttribute") { level = 5; XmlSchemaAnyAttribute anyattr = XmlSchemaAnyAttribute.Read(reader, h); if (anyattr != null) { extension.AnyAttribute = anyattr; } continue; } reader.RaiseInvalidElementError(); } return(extension); }
/// <remarks> /// </remarks> internal override int Compile(ValidationEventHandler h, XmlSchema schema) { // If this is already compiled this time, simply skip. if (CompilationId == schema.CompilationId) { return(0); } if (this.isRedefinedComponent) { if (Annotation != null) { Annotation.isRedefinedComponent = true; } if (AnyAttribute != null) { AnyAttribute.isRedefinedComponent = true; } foreach (XmlSchemaObject obj in Attributes) { obj.isRedefinedComponent = true; } if (Particle != null) { Particle.isRedefinedComponent = true; } } if (BaseTypeName == null || BaseTypeName.IsEmpty) { error(h, "base must be present, as a QName"); } else if (!XmlSchemaUtil.CheckQName(BaseTypeName)) { error(h, "BaseTypeName is not a valid XmlQualifiedName"); } if (this.AnyAttribute != null) { errorCount += AnyAttribute.Compile(h, schema); } foreach (XmlSchemaObject obj in Attributes) { if (obj is XmlSchemaAttribute) { XmlSchemaAttribute attr = (XmlSchemaAttribute)obj; errorCount += attr.Compile(h, schema); } else if (obj is XmlSchemaAttributeGroupRef) { XmlSchemaAttributeGroupRef atgrp = (XmlSchemaAttributeGroupRef)obj; errorCount += atgrp.Compile(h, schema); } else { error(h, obj.GetType() + " is not valid in this place::ComplexConetnetExtension"); } } if (Particle != null) { if (Particle is XmlSchemaGroupRef) { errorCount += ((XmlSchemaGroupRef)Particle).Compile(h, schema); } else if (Particle is XmlSchemaAll) { errorCount += ((XmlSchemaAll)Particle).Compile(h, schema); } else if (Particle is XmlSchemaChoice) { errorCount += ((XmlSchemaChoice)Particle).Compile(h, schema); } else if (Particle is XmlSchemaSequence) { errorCount += ((XmlSchemaSequence)Particle).Compile(h, schema); } else { error(h, "Particle of a restriction is limited only to group, sequence, choice and all."); } } XmlSchemaUtil.CompileID(Id, this, schema.IDCollection, h); this.CompilationId = schema.CompilationId; return(errorCount); }