Code:
/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / fx / src / Xml / System / Xml / schema / XmlSchemaDatatype.cs / 1 / XmlSchemaDatatype.cs
//------------------------------------------------------------------------------ //// Copyright (c) Microsoft Corporation. All rights reserved. // //[....] //----------------------------------------------------------------------------- using System.Collections; using System.Diagnostics; using System.ComponentModel; using System.Xml; using System.IO; using System.Globalization; using System.Text; namespace System.Xml.Schema { ////// /// public abstract class XmlSchemaDatatype { ///[To be supplied.] ////// /// public abstract Type ValueType { get; } ///[To be supplied.] ////// /// public abstract XmlTokenizedType TokenizedType { get; } ///[To be supplied.] ////// /// public abstract object ParseValue(string s, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr); ///[To be supplied.] ////// /// public virtual XmlSchemaDatatypeVariety Variety { get { return XmlSchemaDatatypeVariety.Atomic; } } ///[To be supplied.] ////// /// public virtual object ChangeType(object value, Type targetType) { if (value == null) { throw new ArgumentNullException("value"); } if (targetType == null) { throw new ArgumentNullException("targetType"); } return ValueConverter.ChangeType(value, targetType); } ///[To be supplied.] ////// /// public virtual object ChangeType(object value, Type targetType, IXmlNamespaceResolver namespaceResolver) { if (value == null) { throw new ArgumentNullException("value"); } if (targetType == null) { throw new ArgumentNullException("targetType"); } if (namespaceResolver == null) { throw new ArgumentNullException("namespaceResolver"); } return ValueConverter.ChangeType(value, targetType, namespaceResolver); } ///[To be supplied.] ////// /// public virtual XmlTypeCode TypeCode { get { return XmlTypeCode.None; } } ///[To be supplied.] ////// /// public virtual bool IsDerivedFrom(XmlSchemaDatatype datatype) { return false; } internal abstract bool HasLexicalFacets { get; } internal abstract bool HasValueFacets { get; } internal abstract XmlValueConverter ValueConverter { get; } internal abstract RestrictionFacets Restriction { get; set; } internal abstract int Compare(object value1, object value2); internal abstract object ParseValue(string s, Type typDest, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr); internal abstract object ParseValue(string s, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr, bool createAtomicValue); internal abstract Exception TryParseValue(string s, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr, out object typedValue); internal abstract Exception TryParseValue(object value, XmlNameTable nameTable, IXmlNamespaceResolver namespaceResolver, out object typedValue); internal abstract FacetsChecker FacetsChecker { get; } internal abstract XmlSchemaWhiteSpace BuiltInWhitespaceFacet { get; } internal abstract XmlSchemaDatatype DeriveByRestriction(XmlSchemaObjectCollection facets, XmlNameTable nameTable, XmlSchemaType schemaType) ; internal abstract XmlSchemaDatatype DeriveByList(XmlSchemaType schemaType) ; internal abstract void VerifySchemaValid(XmlSchemaObjectTable notations, XmlSchemaObject caller) ; internal abstract bool IsEqual(object o1, object o2) ; internal abstract bool IsComparable(XmlSchemaDatatype dtype) ; //Error message helper internal string TypeCodeString { get { string typeCodeString = string.Empty; XmlTypeCode typeCode = this.TypeCode; switch(this.Variety) { case XmlSchemaDatatypeVariety.List: if (typeCode == XmlTypeCode.AnyAtomicType) { //List of union typeCodeString = "List of Union"; } else { typeCodeString = "List of " + TypeCodeToString(typeCode); } break; case XmlSchemaDatatypeVariety.Union: typeCodeString = "Union"; break; case XmlSchemaDatatypeVariety.Atomic: if (typeCode == XmlTypeCode.AnyAtomicType) { typeCodeString = "anySimpleType"; } else { typeCodeString = TypeCodeToString(typeCode); } break; } return typeCodeString; } } internal string TypeCodeToString(XmlTypeCode typeCode) { switch (typeCode) { case XmlTypeCode.None: return "None"; case XmlTypeCode.Item: return "AnyType"; case XmlTypeCode.AnyAtomicType: return "AnyAtomicType"; case XmlTypeCode.String: return "String"; case XmlTypeCode.Boolean: return "Boolean"; case XmlTypeCode.Decimal: return "Decimal"; case XmlTypeCode.Float: return "Float"; case XmlTypeCode.Double: return "Double"; case XmlTypeCode.Duration: return "Duration"; case XmlTypeCode.DateTime: return "DateTime"; case XmlTypeCode.Time: return "Time"; case XmlTypeCode.Date: return "Date"; case XmlTypeCode.GYearMonth: return "GYearMonth"; case XmlTypeCode.GYear: return "GYear"; case XmlTypeCode.GMonthDay: return "GMonthDay"; case XmlTypeCode.GDay: return "GDay"; case XmlTypeCode.GMonth: return "GMonth"; case XmlTypeCode.HexBinary: return "HexBinary"; case XmlTypeCode.Base64Binary: return "Base64Binary"; case XmlTypeCode.AnyUri: return "AnyUri"; case XmlTypeCode.QName: return "QName"; case XmlTypeCode.Notation: return "Notation"; case XmlTypeCode.NormalizedString: return "NormalizedString"; case XmlTypeCode.Token: return "Token"; case XmlTypeCode.Language: return "Language"; case XmlTypeCode.NmToken: return "NmToken"; case XmlTypeCode.Name: return "Name"; case XmlTypeCode.NCName: return "NCName"; case XmlTypeCode.Id: return "Id"; case XmlTypeCode.Idref: return "Idref"; case XmlTypeCode.Entity: return "Entity"; case XmlTypeCode.Integer: return "Integer"; case XmlTypeCode.NonPositiveInteger: return "NonPositiveInteger"; case XmlTypeCode.NegativeInteger: return "NegativeInteger"; case XmlTypeCode.Long: return "Long"; case XmlTypeCode.Int: return "Int"; case XmlTypeCode.Short: return "Short"; case XmlTypeCode.Byte: return "Byte"; case XmlTypeCode.NonNegativeInteger: return "NonNegativeInteger"; case XmlTypeCode.UnsignedLong: return "UnsignedLong"; case XmlTypeCode.UnsignedInt: return "UnsignedInt"; case XmlTypeCode.UnsignedShort: return "UnsignedShort"; case XmlTypeCode.UnsignedByte: return "UnsignedByte"; case XmlTypeCode.PositiveInteger: return "PositiveInteger"; default: return typeCode.ToString(); } } internal static string ConcatenatedToString(object value) { Type t = value.GetType(); string stringValue = string.Empty; if (t == typeof(IEnumerable) && t != typeof(System.String)) { StringBuilder bldr = new StringBuilder(); IEnumerator enumerator = (value as IEnumerable).GetEnumerator(); if (enumerator.MoveNext()) { bldr.Append("{"); Object cur = enumerator.Current; if (cur is IFormattable) { bldr.Append( ((IFormattable)cur).ToString("", CultureInfo.InvariantCulture) ); } else { bldr.Append(cur.ToString()); } while(enumerator.MoveNext()) { bldr.Append(" , "); cur = enumerator.Current; if (cur is IFormattable) { bldr.Append( ((IFormattable)cur).ToString("", CultureInfo.InvariantCulture) ); } else { bldr.Append(cur.ToString()); } } bldr.Append("}"); stringValue = bldr.ToString(); } } else if (value is IFormattable) { stringValue = ((IFormattable)value).ToString("", CultureInfo.InvariantCulture); } else { stringValue = value.ToString(); } return stringValue; } internal static XmlSchemaDatatype FromXmlTokenizedType(XmlTokenizedType token) { return DatatypeImplementation.FromXmlTokenizedType(token); } internal static XmlSchemaDatatype FromXmlTokenizedTypeXsd(XmlTokenizedType token) { return DatatypeImplementation.FromXmlTokenizedTypeXsd(token); } internal static XmlSchemaDatatype FromXdrName(string name) { return DatatypeImplementation.FromXdrName(name); } internal static XmlSchemaDatatype DeriveByUnion(XmlSchemaSimpleType[] types, XmlSchemaType schemaType) { return DatatypeImplementation.DeriveByUnion(types, schemaType); } internal static string XdrCanonizeUri(string uri, XmlNameTable nameTable, SchemaNames schemaNames) { string canonicalUri; int offset = 5; bool convert = false; if (uri.Length > 5 && uri.StartsWith("uuid:", StringComparison.Ordinal)) { convert = true; } else if (uri.Length > 9 && uri.StartsWith("urn:uuid:", StringComparison.Ordinal)) { convert = true; offset = 9; } if (convert) { canonicalUri = nameTable.Add(uri.Substring(0, offset) + uri.Substring(offset, uri.Length - offset).ToUpper(CultureInfo.InvariantCulture)); } else { canonicalUri = uri; } if ( Ref.Equal(schemaNames.NsDataTypeAlias, canonicalUri) || Ref.Equal(schemaNames.NsDataTypeOld , canonicalUri) ) { canonicalUri = schemaNames.NsDataType; } else if (Ref.Equal(schemaNames.NsXdrAlias, canonicalUri)) { canonicalUri = schemaNames.NsXdr; } return canonicalUri; } #if [....] private bool CanConvert(object value, System.Type inputType, System.Type defaultType, out string resId) { resId = null; decimal decimalValue; //TypeCode defaultTypeCode = Type.GetTypeCode(defaultType); if (IsIntegralType(this.TypeCode)){ switch (Type.GetTypeCode(inputType)) { case System.TypeCode.Single: case System.TypeCode.Double: decimalValue = new Decimal((double)value); goto case System.TypeCode.Decimal; case System.TypeCode.Decimal: decimalValue = (decimal)value; if (decimal.Truncate(decimalValue) != decimalValue) { //HasFractionDigits resId = Res.Sch_XmlTypeHasFraction; return false; } break; default: return true; } } else if (this.TypeCode == XmlTypeCode.Boolean) { if (IsNumericType(inputType)) { decimalValue = (decimal)value; if (decimalValue == 0 || decimalValue == 1) { return true; } resId = Res.Sch_InvalidBoolean; return false; } } return true; } private bool IsIntegralType(XmlTypeCode defaultTypeCode) { switch (defaultTypeCode) { case XmlTypeCode.Integer: case XmlTypeCode.NegativeInteger: case XmlTypeCode.NonNegativeInteger: case XmlTypeCode.NonPositiveInteger: case XmlTypeCode.PositiveInteger: case XmlTypeCode.Long: case XmlTypeCode.Int: case XmlTypeCode.Short: case XmlTypeCode.Byte: case XmlTypeCode.UnsignedLong: case XmlTypeCode.UnsignedInt: case XmlTypeCode.UnsignedShort: case XmlTypeCode.UnsignedByte: return true; default: return false; } } private bool IsNumericType(System.Type inputType) { switch (Type.GetTypeCode(inputType)) { case System.TypeCode.Decimal: case System.TypeCode.Double: case System.TypeCode.Single: case System.TypeCode.SByte: case System.TypeCode.Byte: case System.TypeCode.Int16: case System.TypeCode.Int32: case System.TypeCode.Int64: case System.TypeCode.UInt16: case System.TypeCode.UInt32: case System.TypeCode.UInt64: return true; default: return false; } } #endif } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007. //------------------------------------------------------------------------------ //[To be supplied.] ///// Copyright (c) Microsoft Corporation. All rights reserved. // //[....] //----------------------------------------------------------------------------- using System.Collections; using System.Diagnostics; using System.ComponentModel; using System.Xml; using System.IO; using System.Globalization; using System.Text; namespace System.Xml.Schema { ////// /// public abstract class XmlSchemaDatatype { ///[To be supplied.] ////// /// public abstract Type ValueType { get; } ///[To be supplied.] ////// /// public abstract XmlTokenizedType TokenizedType { get; } ///[To be supplied.] ////// /// public abstract object ParseValue(string s, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr); ///[To be supplied.] ////// /// public virtual XmlSchemaDatatypeVariety Variety { get { return XmlSchemaDatatypeVariety.Atomic; } } ///[To be supplied.] ////// /// public virtual object ChangeType(object value, Type targetType) { if (value == null) { throw new ArgumentNullException("value"); } if (targetType == null) { throw new ArgumentNullException("targetType"); } return ValueConverter.ChangeType(value, targetType); } ///[To be supplied.] ////// /// public virtual object ChangeType(object value, Type targetType, IXmlNamespaceResolver namespaceResolver) { if (value == null) { throw new ArgumentNullException("value"); } if (targetType == null) { throw new ArgumentNullException("targetType"); } if (namespaceResolver == null) { throw new ArgumentNullException("namespaceResolver"); } return ValueConverter.ChangeType(value, targetType, namespaceResolver); } ///[To be supplied.] ////// /// public virtual XmlTypeCode TypeCode { get { return XmlTypeCode.None; } } ///[To be supplied.] ////// /// public virtual bool IsDerivedFrom(XmlSchemaDatatype datatype) { return false; } internal abstract bool HasLexicalFacets { get; } internal abstract bool HasValueFacets { get; } internal abstract XmlValueConverter ValueConverter { get; } internal abstract RestrictionFacets Restriction { get; set; } internal abstract int Compare(object value1, object value2); internal abstract object ParseValue(string s, Type typDest, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr); internal abstract object ParseValue(string s, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr, bool createAtomicValue); internal abstract Exception TryParseValue(string s, XmlNameTable nameTable, IXmlNamespaceResolver nsmgr, out object typedValue); internal abstract Exception TryParseValue(object value, XmlNameTable nameTable, IXmlNamespaceResolver namespaceResolver, out object typedValue); internal abstract FacetsChecker FacetsChecker { get; } internal abstract XmlSchemaWhiteSpace BuiltInWhitespaceFacet { get; } internal abstract XmlSchemaDatatype DeriveByRestriction(XmlSchemaObjectCollection facets, XmlNameTable nameTable, XmlSchemaType schemaType) ; internal abstract XmlSchemaDatatype DeriveByList(XmlSchemaType schemaType) ; internal abstract void VerifySchemaValid(XmlSchemaObjectTable notations, XmlSchemaObject caller) ; internal abstract bool IsEqual(object o1, object o2) ; internal abstract bool IsComparable(XmlSchemaDatatype dtype) ; //Error message helper internal string TypeCodeString { get { string typeCodeString = string.Empty; XmlTypeCode typeCode = this.TypeCode; switch(this.Variety) { case XmlSchemaDatatypeVariety.List: if (typeCode == XmlTypeCode.AnyAtomicType) { //List of union typeCodeString = "List of Union"; } else { typeCodeString = "List of " + TypeCodeToString(typeCode); } break; case XmlSchemaDatatypeVariety.Union: typeCodeString = "Union"; break; case XmlSchemaDatatypeVariety.Atomic: if (typeCode == XmlTypeCode.AnyAtomicType) { typeCodeString = "anySimpleType"; } else { typeCodeString = TypeCodeToString(typeCode); } break; } return typeCodeString; } } internal string TypeCodeToString(XmlTypeCode typeCode) { switch (typeCode) { case XmlTypeCode.None: return "None"; case XmlTypeCode.Item: return "AnyType"; case XmlTypeCode.AnyAtomicType: return "AnyAtomicType"; case XmlTypeCode.String: return "String"; case XmlTypeCode.Boolean: return "Boolean"; case XmlTypeCode.Decimal: return "Decimal"; case XmlTypeCode.Float: return "Float"; case XmlTypeCode.Double: return "Double"; case XmlTypeCode.Duration: return "Duration"; case XmlTypeCode.DateTime: return "DateTime"; case XmlTypeCode.Time: return "Time"; case XmlTypeCode.Date: return "Date"; case XmlTypeCode.GYearMonth: return "GYearMonth"; case XmlTypeCode.GYear: return "GYear"; case XmlTypeCode.GMonthDay: return "GMonthDay"; case XmlTypeCode.GDay: return "GDay"; case XmlTypeCode.GMonth: return "GMonth"; case XmlTypeCode.HexBinary: return "HexBinary"; case XmlTypeCode.Base64Binary: return "Base64Binary"; case XmlTypeCode.AnyUri: return "AnyUri"; case XmlTypeCode.QName: return "QName"; case XmlTypeCode.Notation: return "Notation"; case XmlTypeCode.NormalizedString: return "NormalizedString"; case XmlTypeCode.Token: return "Token"; case XmlTypeCode.Language: return "Language"; case XmlTypeCode.NmToken: return "NmToken"; case XmlTypeCode.Name: return "Name"; case XmlTypeCode.NCName: return "NCName"; case XmlTypeCode.Id: return "Id"; case XmlTypeCode.Idref: return "Idref"; case XmlTypeCode.Entity: return "Entity"; case XmlTypeCode.Integer: return "Integer"; case XmlTypeCode.NonPositiveInteger: return "NonPositiveInteger"; case XmlTypeCode.NegativeInteger: return "NegativeInteger"; case XmlTypeCode.Long: return "Long"; case XmlTypeCode.Int: return "Int"; case XmlTypeCode.Short: return "Short"; case XmlTypeCode.Byte: return "Byte"; case XmlTypeCode.NonNegativeInteger: return "NonNegativeInteger"; case XmlTypeCode.UnsignedLong: return "UnsignedLong"; case XmlTypeCode.UnsignedInt: return "UnsignedInt"; case XmlTypeCode.UnsignedShort: return "UnsignedShort"; case XmlTypeCode.UnsignedByte: return "UnsignedByte"; case XmlTypeCode.PositiveInteger: return "PositiveInteger"; default: return typeCode.ToString(); } } internal static string ConcatenatedToString(object value) { Type t = value.GetType(); string stringValue = string.Empty; if (t == typeof(IEnumerable) && t != typeof(System.String)) { StringBuilder bldr = new StringBuilder(); IEnumerator enumerator = (value as IEnumerable).GetEnumerator(); if (enumerator.MoveNext()) { bldr.Append("{"); Object cur = enumerator.Current; if (cur is IFormattable) { bldr.Append( ((IFormattable)cur).ToString("", CultureInfo.InvariantCulture) ); } else { bldr.Append(cur.ToString()); } while(enumerator.MoveNext()) { bldr.Append(" , "); cur = enumerator.Current; if (cur is IFormattable) { bldr.Append( ((IFormattable)cur).ToString("", CultureInfo.InvariantCulture) ); } else { bldr.Append(cur.ToString()); } } bldr.Append("}"); stringValue = bldr.ToString(); } } else if (value is IFormattable) { stringValue = ((IFormattable)value).ToString("", CultureInfo.InvariantCulture); } else { stringValue = value.ToString(); } return stringValue; } internal static XmlSchemaDatatype FromXmlTokenizedType(XmlTokenizedType token) { return DatatypeImplementation.FromXmlTokenizedType(token); } internal static XmlSchemaDatatype FromXmlTokenizedTypeXsd(XmlTokenizedType token) { return DatatypeImplementation.FromXmlTokenizedTypeXsd(token); } internal static XmlSchemaDatatype FromXdrName(string name) { return DatatypeImplementation.FromXdrName(name); } internal static XmlSchemaDatatype DeriveByUnion(XmlSchemaSimpleType[] types, XmlSchemaType schemaType) { return DatatypeImplementation.DeriveByUnion(types, schemaType); } internal static string XdrCanonizeUri(string uri, XmlNameTable nameTable, SchemaNames schemaNames) { string canonicalUri; int offset = 5; bool convert = false; if (uri.Length > 5 && uri.StartsWith("uuid:", StringComparison.Ordinal)) { convert = true; } else if (uri.Length > 9 && uri.StartsWith("urn:uuid:", StringComparison.Ordinal)) { convert = true; offset = 9; } if (convert) { canonicalUri = nameTable.Add(uri.Substring(0, offset) + uri.Substring(offset, uri.Length - offset).ToUpper(CultureInfo.InvariantCulture)); } else { canonicalUri = uri; } if ( Ref.Equal(schemaNames.NsDataTypeAlias, canonicalUri) || Ref.Equal(schemaNames.NsDataTypeOld , canonicalUri) ) { canonicalUri = schemaNames.NsDataType; } else if (Ref.Equal(schemaNames.NsXdrAlias, canonicalUri)) { canonicalUri = schemaNames.NsXdr; } return canonicalUri; } #if [....] private bool CanConvert(object value, System.Type inputType, System.Type defaultType, out string resId) { resId = null; decimal decimalValue; //TypeCode defaultTypeCode = Type.GetTypeCode(defaultType); if (IsIntegralType(this.TypeCode)){ switch (Type.GetTypeCode(inputType)) { case System.TypeCode.Single: case System.TypeCode.Double: decimalValue = new Decimal((double)value); goto case System.TypeCode.Decimal; case System.TypeCode.Decimal: decimalValue = (decimal)value; if (decimal.Truncate(decimalValue) != decimalValue) { //HasFractionDigits resId = Res.Sch_XmlTypeHasFraction; return false; } break; default: return true; } } else if (this.TypeCode == XmlTypeCode.Boolean) { if (IsNumericType(inputType)) { decimalValue = (decimal)value; if (decimalValue == 0 || decimalValue == 1) { return true; } resId = Res.Sch_InvalidBoolean; return false; } } return true; } private bool IsIntegralType(XmlTypeCode defaultTypeCode) { switch (defaultTypeCode) { case XmlTypeCode.Integer: case XmlTypeCode.NegativeInteger: case XmlTypeCode.NonNegativeInteger: case XmlTypeCode.NonPositiveInteger: case XmlTypeCode.PositiveInteger: case XmlTypeCode.Long: case XmlTypeCode.Int: case XmlTypeCode.Short: case XmlTypeCode.Byte: case XmlTypeCode.UnsignedLong: case XmlTypeCode.UnsignedInt: case XmlTypeCode.UnsignedShort: case XmlTypeCode.UnsignedByte: return true; default: return false; } } private bool IsNumericType(System.Type inputType) { switch (Type.GetTypeCode(inputType)) { case System.TypeCode.Decimal: case System.TypeCode.Double: case System.TypeCode.Single: case System.TypeCode.SByte: case System.TypeCode.Byte: case System.TypeCode.Int16: case System.TypeCode.Int32: case System.TypeCode.Int64: case System.TypeCode.UInt16: case System.TypeCode.UInt32: case System.TypeCode.UInt64: return true; default: return false; } } #endif } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007.[To be supplied.] ///
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