Code:
/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / clr / src / ManagedLibraries / SoapSerializer / SoapCommonClasses.cs / 1 / SoapCommonClasses.cs
// ==++== // // Copyright (c) Microsoft Corporation. All rights reserved. // // ==--== //============================================================ // // Class: SoapCommonClasses //// Author: Peter de Jong ([....]) // // Purpose: utility classes // // Date: June 10, 1999 // //=========================================================== namespace System.Runtime.Serialization.Formatters.Soap { using System; using System.Collections; using System.Reflection; using System.Text; using System.Globalization; using System.Runtime.Serialization.Formatters; using System.Runtime.Remoting; using System.Runtime.Remoting.Metadata; using System.Runtime.Remoting.Messaging; using System.Runtime.InteropServices; using System.Runtime.Serialization; using System.Resources; using System.Diagnostics; // AttributeList class is used to transmit attributes from XMLObjectWriter to XMLWriter internal sealed class AttributeList { private SerStack nameA = new SerStack("AttributeName"); private SerStack valueA = new SerStack("AttributeValue"); internal int Count { get {return nameA.Count();} } internal void Clear() { nameA.Clear(); valueA.Clear(); } internal void Put(String name, String value) { nameA.Push(name); valueA.Push(value); } internal void Get(int index, out String name, out String value) { name = (String)nameA.Next(); value = (String)valueA.Next(); } [Conditional("SER_LOGGING")] internal void Dump() { nameA.Dump(); valueA.Dump(); } } // Implements a stack used for parsing internal sealed class SerStack { //internal ArrayList stack = new ArrayList(10); internal Object[] objects = new Object[10]; internal String stackId; internal int top = -1; internal int next = 0; internal SerStack(String stackId) { this.stackId = stackId; } internal Object GetItem(int index) { return objects[index]; } internal void Clear() { top = -1; next = 0; } // Push the object onto the stack internal void Push(Object obj) { InternalST.Soap(this, "Push ",stackId," ",((obj is ITrace)?((ITrace)obj).Trace():"")); if (top == (objects.Length -1)) { IncreaseCapacity(); } objects[++top] = obj; } // Pop the object from the stack internal Object Pop() { if (top < 0) return null; Object obj = objects[top]; objects[top--] = null; InternalST.Soap(this, "Pop ",stackId," ",((obj is ITrace)?((ITrace)obj).Trace():"")); return obj; } internal Object Next() { if (next > top) throw new SerializationException(String.Format(CultureInfo.CurrentCulture, SoapUtil.GetResourceString("Serialization_StackRange"),stackId)); return objects[next++]; } internal void IncreaseCapacity() { int size = objects.Length * 2; Object[] newItems = new Object[size]; Array.Copy(objects, 0, newItems, 0, objects.Length); objects = newItems; } // Gets the object on the top of the stack internal Object Peek() { if (top < 0) return null; InternalST.Soap(this, "Peek ",stackId," ",((objects[top] is ITrace)?((ITrace)objects[top]).Trace():"")); return objects[top]; } // Gets the second entry in the stack. internal Object PeekPeek() { if (top < 1) return null; InternalST.Soap(this, "PeekPeek ",stackId," ",((objects[top - 1] is ITrace)?((ITrace)objects[top - 1]).Trace():"")); return objects[top - 1]; } // The number of entries in the stack internal int Count() { return top + 1; } // The number of entries in the stack internal bool IsEmpty() { if (top > 0) return false; else return true; } // Reverse the stack internal void Reverse() { Array.Reverse(objects, 0, Count()); } [Conditional("SER_LOGGING")] internal void Dump() { for (int i=0; i0) return true; else return false; } internal bool IsXmlElement() { if ((m_attributeType & SoapAttributeType.XmlElement) > 0) return true; else return false; } internal bool IsXmlAttribute() { if ((m_attributeType & SoapAttributeType.XmlAttribute) > 0) return true; else return false; } internal bool IsXmlType() { if ((m_attributeType & SoapAttributeType.XmlType) > 0) return true; else return false; } [Conditional("SER_LOGGING")] internal void Dump(String id) { InternalST.Soap("Dump SoapAttributeInfo ", id); if (IsXmlType()) InternalST.Soap(" SchemaType"); if (IsEmbedded()) InternalST.Soap(" Embedded"); if (IsXmlElement()) InternalST.Soap(" XmlElement"); if (IsXmlAttribute()) InternalST.Soap(" XmlAttribute"); Util.NVTrace("_nameSpace", m_nameSpace); Util.NVTrace("_elementName", m_elementName); Util.NVTrace("_type", m_typeName); } } internal sealed class NameInfo { internal InternalNameSpaceE NInameSpaceEnum = InternalNameSpaceE.None; internal String NIname; // Name from SerObjectInfo.GetType //internal String elementName; // Name from SerObjectInfo.GetElementName, will be the same as GetType except for interopTypes //internal String interopType; internal long NIobjectId; internal long NIassemId; internal InternalPrimitiveTypeE NIprimitiveTypeEnum = InternalPrimitiveTypeE.Invalid; internal Type NItype; internal bool NIisSealed; internal bool NIisMustUnderstand; internal String NInamespace; internal String NIheaderPrefix; internal String NIitemName; internal bool NIisArray; internal bool NIisArrayItem; internal bool NIisTopLevelObject; internal bool NIisNestedObject; internal bool NItransmitTypeOnObject; internal bool NItransmitTypeOnMember; internal bool NIisParentTypeOnObject; internal bool NIisHeader; internal bool NIisRemoteRecord; internal SoapAttributeInfo NIattributeInfo; internal void Init() { NInameSpaceEnum = InternalNameSpaceE.None; NIname = null; NIobjectId = 0; NIassemId = 0; NIprimitiveTypeEnum = InternalPrimitiveTypeE.Invalid; NItype = null; NIisSealed = false; NItransmitTypeOnObject = false; NItransmitTypeOnMember = false; NIisParentTypeOnObject = false; NIisMustUnderstand = false; NInamespace = null; NIheaderPrefix = null; NIitemName = null; NIisArray = false; NIisArrayItem = false; NIisTopLevelObject = false; NIisNestedObject = false; NIisHeader = false; NIisRemoteRecord = false; NIattributeInfo = null; } [Conditional("SER_LOGGING")] internal void Dump(String value) { Util.NVTrace("nameSpaceEnum", ((Enum)NInameSpaceEnum).ToString()); Util.NVTrace("name", NIname); Util.NVTrace("objectId", NIobjectId); Util.NVTrace("assemId", NIassemId); Util.NVTrace("primitiveTypeEnum", ((Enum)NIprimitiveTypeEnum).ToString()); Util.NVTrace("type", NItype); Util.NVTrace("isSealed", NIisSealed); Util.NVTrace("transmitTypeOnObject", NItransmitTypeOnObject); Util.NVTrace("transmitTypeOnMember", NItransmitTypeOnMember); Util.NVTrace("isParentTypeOnObject", NIisParentTypeOnObject); Util.NVTrace("isMustUnderstand", NIisMustUnderstand); Util.NVTrace("namespace", NInamespace); Util.NVTrace("headerPrefix", NIheaderPrefix); Util.NVTrace("itemName", NIitemName); Util.NVTrace("isArray", NIisArray); Util.NVTrace("isArrayItem", NIisArrayItem); Util.NVTrace("isTopLevelObject", NIisTopLevelObject); Util.NVTrace("isNestedObject", NIisNestedObject); Util.NVTrace("isHeader", NIisHeader); Util.NVTrace("isRemoteRecord", NIisRemoteRecord); if (NIattributeInfo != null) NIattributeInfo.Dump(NIname); } } internal sealed class PrimitiveArray { InternalPrimitiveTypeE code; Boolean[] booleanA = null; Char[] charA = null; Double[] doubleA = null; Int16[] int16A = null; Int32[] int32A = null; Int64[] int64A = null; SByte[] sbyteA = null; Single[] singleA = null; UInt16[] uint16A = null; UInt32[] uint32A = null; UInt64[] uint64A = null; internal PrimitiveArray(InternalPrimitiveTypeE code, Array array) { Init(code, array); } internal void Init(InternalPrimitiveTypeE code, Array array) { this.code = code; switch(code) { case InternalPrimitiveTypeE.Boolean: booleanA = (Boolean[])array; break; case InternalPrimitiveTypeE.Char: charA = (Char[])array; break; case InternalPrimitiveTypeE.Double: doubleA = (Double[])array; break; case InternalPrimitiveTypeE.Int16: int16A = (Int16[])array; break; case InternalPrimitiveTypeE.Int32: int32A = (Int32[])array; break; case InternalPrimitiveTypeE.Int64: int64A = (Int64[])array; break; case InternalPrimitiveTypeE.SByte: sbyteA = (SByte[])array; break; case InternalPrimitiveTypeE.Single: singleA = (Single[])array; break; case InternalPrimitiveTypeE.UInt16: uint16A = (UInt16[])array; break; case InternalPrimitiveTypeE.UInt32: uint32A = (UInt32[])array; break; case InternalPrimitiveTypeE.UInt64: uint64A = (UInt64[])array; break; } } internal String GetValue(int index) { String value = null; switch(code) { case InternalPrimitiveTypeE.Boolean: value = (booleanA[index]).ToString(); break; case InternalPrimitiveTypeE.Char: if (charA[index] == Char.MinValue) value = "_0x00_"; else value = Char.ToString(charA[index]); break; case InternalPrimitiveTypeE.Double: if (Double.IsPositiveInfinity(doubleA[index])) value = "INF"; else if (Double.IsNegativeInfinity(doubleA[index])) value = "-INF"; else value = (doubleA[index]).ToString("R", CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int16: value = (int16A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int32: value = (int32A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int64: value = (int64A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.SByte: value = (sbyteA[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Single: if (Single.IsPositiveInfinity(singleA[index])) value = "INF"; else if (Single.IsNegativeInfinity(singleA[index])) value = "-INF"; else value = (singleA[index]).ToString("R", CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt16: value = (uint16A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt32: value = (uint32A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt64: value = (uint64A[index]).ToString(CultureInfo.InvariantCulture); break; } return value; } internal void SetValue(String value, int index) { InternalST.Soap("PrimitiveArray value ", value," index ", index, " code ",((Enum)code).ToString()); switch(code) { case InternalPrimitiveTypeE.Boolean: booleanA[index] = Boolean.Parse(value); break; case InternalPrimitiveTypeE.Char: if ((value[0] == '_') && (value.Equals("_0x00_"))) charA[index] = Char.MinValue; else charA[index] = Char.Parse(value); break; case InternalPrimitiveTypeE.Double: if (value == "INF") doubleA[index] = Double.PositiveInfinity; else if (value == "-INF") doubleA[index] = Double.NegativeInfinity; else doubleA[index] = Double.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int16: int16A[index] = Int16.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int32: int32A[index] = Int32.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int64: int64A[index] = Int64.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.SByte: sbyteA[index] = SByte.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Single: if (value == "INF") singleA[index] = Single.PositiveInfinity; else if (value == "-INF") singleA[index] = Single.NegativeInfinity; else singleA[index] = Single.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt16: uint16A[index] = UInt16.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt32: uint32A[index] = UInt32.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt64: uint64A[index] = UInt64.Parse(value, CultureInfo.InvariantCulture); break; } } } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007. // ==++== // // Copyright (c) Microsoft Corporation. All rights reserved. // // ==--== //============================================================ // // Class: SoapCommonClasses // // Author: Peter de Jong ([....]) // // Purpose: utility classes // // Date: June 10, 1999 // //=========================================================== namespace System.Runtime.Serialization.Formatters.Soap { using System; using System.Collections; using System.Reflection; using System.Text; using System.Globalization; using System.Runtime.Serialization.Formatters; using System.Runtime.Remoting; using System.Runtime.Remoting.Metadata; using System.Runtime.Remoting.Messaging; using System.Runtime.InteropServices; using System.Runtime.Serialization; using System.Resources; using System.Diagnostics; // AttributeList class is used to transmit attributes from XMLObjectWriter to XMLWriter internal sealed class AttributeList { private SerStack nameA = new SerStack("AttributeName"); private SerStack valueA = new SerStack("AttributeValue"); internal int Count { get {return nameA.Count();} } internal void Clear() { nameA.Clear(); valueA.Clear(); } internal void Put(String name, String value) { nameA.Push(name); valueA.Push(value); } internal void Get(int index, out String name, out String value) { name = (String)nameA.Next(); value = (String)valueA.Next(); } [Conditional("SER_LOGGING")] internal void Dump() { nameA.Dump(); valueA.Dump(); } } // Implements a stack used for parsing internal sealed class SerStack { //internal ArrayList stack = new ArrayList(10); internal Object[] objects = new Object[10]; internal String stackId; internal int top = -1; internal int next = 0; internal SerStack(String stackId) { this.stackId = stackId; } internal Object GetItem(int index) { return objects[index]; } internal void Clear() { top = -1; next = 0; } // Push the object onto the stack internal void Push(Object obj) { InternalST.Soap(this, "Push ",stackId," ",((obj is ITrace)?((ITrace)obj).Trace():"")); if (top == (objects.Length -1)) { IncreaseCapacity(); } objects[++top] = obj; } // Pop the object from the stack internal Object Pop() { if (top < 0) return null; Object obj = objects[top]; objects[top--] = null; InternalST.Soap(this, "Pop ",stackId," ",((obj is ITrace)?((ITrace)obj).Trace():"")); return obj; } internal Object Next() { if (next > top) throw new SerializationException(String.Format(CultureInfo.CurrentCulture, SoapUtil.GetResourceString("Serialization_StackRange"),stackId)); return objects[next++]; } internal void IncreaseCapacity() { int size = objects.Length * 2; Object[] newItems = new Object[size]; Array.Copy(objects, 0, newItems, 0, objects.Length); objects = newItems; } // Gets the object on the top of the stack internal Object Peek() { if (top < 0) return null; InternalST.Soap(this, "Peek ",stackId," ",((objects[top] is ITrace)?((ITrace)objects[top]).Trace():"")); return objects[top]; } // Gets the second entry in the stack. internal Object PeekPeek() { if (top < 1) return null; InternalST.Soap(this, "PeekPeek ",stackId," ",((objects[top - 1] is ITrace)?((ITrace)objects[top - 1]).Trace():"")); return objects[top - 1]; } // The number of entries in the stack internal int Count() { return top + 1; } // The number of entries in the stack internal bool IsEmpty() { if (top > 0) return false; else return true; } // Reverse the stack internal void Reverse() { Array.Reverse(objects, 0, Count()); } [Conditional("SER_LOGGING")] internal void Dump() { for (int i=0; i0) return true; else return false; } internal bool IsXmlElement() { if ((m_attributeType & SoapAttributeType.XmlElement) > 0) return true; else return false; } internal bool IsXmlAttribute() { if ((m_attributeType & SoapAttributeType.XmlAttribute) > 0) return true; else return false; } internal bool IsXmlType() { if ((m_attributeType & SoapAttributeType.XmlType) > 0) return true; else return false; } [Conditional("SER_LOGGING")] internal void Dump(String id) { InternalST.Soap("Dump SoapAttributeInfo ", id); if (IsXmlType()) InternalST.Soap(" SchemaType"); if (IsEmbedded()) InternalST.Soap(" Embedded"); if (IsXmlElement()) InternalST.Soap(" XmlElement"); if (IsXmlAttribute()) InternalST.Soap(" XmlAttribute"); Util.NVTrace("_nameSpace", m_nameSpace); Util.NVTrace("_elementName", m_elementName); Util.NVTrace("_type", m_typeName); } } internal sealed class NameInfo { internal InternalNameSpaceE NInameSpaceEnum = InternalNameSpaceE.None; internal String NIname; // Name from SerObjectInfo.GetType //internal String elementName; // Name from SerObjectInfo.GetElementName, will be the same as GetType except for interopTypes //internal String interopType; internal long NIobjectId; internal long NIassemId; internal InternalPrimitiveTypeE NIprimitiveTypeEnum = InternalPrimitiveTypeE.Invalid; internal Type NItype; internal bool NIisSealed; internal bool NIisMustUnderstand; internal String NInamespace; internal String NIheaderPrefix; internal String NIitemName; internal bool NIisArray; internal bool NIisArrayItem; internal bool NIisTopLevelObject; internal bool NIisNestedObject; internal bool NItransmitTypeOnObject; internal bool NItransmitTypeOnMember; internal bool NIisParentTypeOnObject; internal bool NIisHeader; internal bool NIisRemoteRecord; internal SoapAttributeInfo NIattributeInfo; internal void Init() { NInameSpaceEnum = InternalNameSpaceE.None; NIname = null; NIobjectId = 0; NIassemId = 0; NIprimitiveTypeEnum = InternalPrimitiveTypeE.Invalid; NItype = null; NIisSealed = false; NItransmitTypeOnObject = false; NItransmitTypeOnMember = false; NIisParentTypeOnObject = false; NIisMustUnderstand = false; NInamespace = null; NIheaderPrefix = null; NIitemName = null; NIisArray = false; NIisArrayItem = false; NIisTopLevelObject = false; NIisNestedObject = false; NIisHeader = false; NIisRemoteRecord = false; NIattributeInfo = null; } [Conditional("SER_LOGGING")] internal void Dump(String value) { Util.NVTrace("nameSpaceEnum", ((Enum)NInameSpaceEnum).ToString()); Util.NVTrace("name", NIname); Util.NVTrace("objectId", NIobjectId); Util.NVTrace("assemId", NIassemId); Util.NVTrace("primitiveTypeEnum", ((Enum)NIprimitiveTypeEnum).ToString()); Util.NVTrace("type", NItype); Util.NVTrace("isSealed", NIisSealed); Util.NVTrace("transmitTypeOnObject", NItransmitTypeOnObject); Util.NVTrace("transmitTypeOnMember", NItransmitTypeOnMember); Util.NVTrace("isParentTypeOnObject", NIisParentTypeOnObject); Util.NVTrace("isMustUnderstand", NIisMustUnderstand); Util.NVTrace("namespace", NInamespace); Util.NVTrace("headerPrefix", NIheaderPrefix); Util.NVTrace("itemName", NIitemName); Util.NVTrace("isArray", NIisArray); Util.NVTrace("isArrayItem", NIisArrayItem); Util.NVTrace("isTopLevelObject", NIisTopLevelObject); Util.NVTrace("isNestedObject", NIisNestedObject); Util.NVTrace("isHeader", NIisHeader); Util.NVTrace("isRemoteRecord", NIisRemoteRecord); if (NIattributeInfo != null) NIattributeInfo.Dump(NIname); } } internal sealed class PrimitiveArray { InternalPrimitiveTypeE code; Boolean[] booleanA = null; Char[] charA = null; Double[] doubleA = null; Int16[] int16A = null; Int32[] int32A = null; Int64[] int64A = null; SByte[] sbyteA = null; Single[] singleA = null; UInt16[] uint16A = null; UInt32[] uint32A = null; UInt64[] uint64A = null; internal PrimitiveArray(InternalPrimitiveTypeE code, Array array) { Init(code, array); } internal void Init(InternalPrimitiveTypeE code, Array array) { this.code = code; switch(code) { case InternalPrimitiveTypeE.Boolean: booleanA = (Boolean[])array; break; case InternalPrimitiveTypeE.Char: charA = (Char[])array; break; case InternalPrimitiveTypeE.Double: doubleA = (Double[])array; break; case InternalPrimitiveTypeE.Int16: int16A = (Int16[])array; break; case InternalPrimitiveTypeE.Int32: int32A = (Int32[])array; break; case InternalPrimitiveTypeE.Int64: int64A = (Int64[])array; break; case InternalPrimitiveTypeE.SByte: sbyteA = (SByte[])array; break; case InternalPrimitiveTypeE.Single: singleA = (Single[])array; break; case InternalPrimitiveTypeE.UInt16: uint16A = (UInt16[])array; break; case InternalPrimitiveTypeE.UInt32: uint32A = (UInt32[])array; break; case InternalPrimitiveTypeE.UInt64: uint64A = (UInt64[])array; break; } } internal String GetValue(int index) { String value = null; switch(code) { case InternalPrimitiveTypeE.Boolean: value = (booleanA[index]).ToString(); break; case InternalPrimitiveTypeE.Char: if (charA[index] == Char.MinValue) value = "_0x00_"; else value = Char.ToString(charA[index]); break; case InternalPrimitiveTypeE.Double: if (Double.IsPositiveInfinity(doubleA[index])) value = "INF"; else if (Double.IsNegativeInfinity(doubleA[index])) value = "-INF"; else value = (doubleA[index]).ToString("R", CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int16: value = (int16A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int32: value = (int32A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int64: value = (int64A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.SByte: value = (sbyteA[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Single: if (Single.IsPositiveInfinity(singleA[index])) value = "INF"; else if (Single.IsNegativeInfinity(singleA[index])) value = "-INF"; else value = (singleA[index]).ToString("R", CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt16: value = (uint16A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt32: value = (uint32A[index]).ToString(CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt64: value = (uint64A[index]).ToString(CultureInfo.InvariantCulture); break; } return value; } internal void SetValue(String value, int index) { InternalST.Soap("PrimitiveArray value ", value," index ", index, " code ",((Enum)code).ToString()); switch(code) { case InternalPrimitiveTypeE.Boolean: booleanA[index] = Boolean.Parse(value); break; case InternalPrimitiveTypeE.Char: if ((value[0] == '_') && (value.Equals("_0x00_"))) charA[index] = Char.MinValue; else charA[index] = Char.Parse(value); break; case InternalPrimitiveTypeE.Double: if (value == "INF") doubleA[index] = Double.PositiveInfinity; else if (value == "-INF") doubleA[index] = Double.NegativeInfinity; else doubleA[index] = Double.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int16: int16A[index] = Int16.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int32: int32A[index] = Int32.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Int64: int64A[index] = Int64.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.SByte: sbyteA[index] = SByte.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.Single: if (value == "INF") singleA[index] = Single.PositiveInfinity; else if (value == "-INF") singleA[index] = Single.NegativeInfinity; else singleA[index] = Single.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt16: uint16A[index] = UInt16.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt32: uint32A[index] = UInt32.Parse(value, CultureInfo.InvariantCulture); break; case InternalPrimitiveTypeE.UInt64: uint64A[index] = UInt64.Parse(value, CultureInfo.InvariantCulture); break; } } } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007.
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