FormatterServices.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / clr / src / BCL / System / Runtime / Serialization / FormatterServices.cs / 1305376 / FormatterServices.cs

                            // ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 
/*============================================================
** 
** Class: FormatterServices 
**
** 
** Purpose: Provides some static methods to aid with the implementation
**          of a Formatter for Serialization.
**
** 
============================================================*/
namespace System.Runtime.Serialization { 
 
    using System;
    using System.Reflection; 
    using System.Reflection.Cache;
    using System.Collections;
    using System.Collections.Generic;
    using System.Security; 
    using System.Security.Permissions;
    using System.Runtime.Serialization.Formatters; 
    using System.Runtime.Remoting; 
    using System.Runtime.CompilerServices;
    using System.Runtime.Versioning; 
    using System.Threading;
    using System.IO;
    using System.Text;
    using System.Globalization; 
    using System.Diagnostics.Contracts;
 
[System.Runtime.InteropServices.ComVisible(true)] 
    public sealed class FormatterServices {
        internal static Dictionary m_MemberInfoTable = new Dictionary(32); 

        private static Object s_FormatterServicesSyncObject = null;

        private static Object formatterServicesSyncObject 
        {
            get 
            { 
                if (s_FormatterServicesSyncObject == null)
                { 
                    Object o = new Object();
                    Interlocked.CompareExchange(ref s_FormatterServicesSyncObject, o, null);
                }
                return s_FormatterServicesSyncObject; 
            }
        } 
 
#if FEATURE_REMOTING
        [SecuritySafeCritical] 
        static FormatterServices()
        {
            // Static initialization touches security critical types, so we need an
            // explicit static constructor to allow us to mark it safe critical. 
        }
#endif // FEATURE_REMOTING 
 
        private FormatterServices() {
            throw new NotSupportedException(); 
        }

        private static MemberInfo[] GetSerializableMembers(RuntimeType type) {
            // get the list of all fields 
            FieldInfo[] fields = type.GetFields(BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Instance);
            int countProper = 0; 
            for (int i = 0;  i < fields.Length; i++) { 
                if ((fields[i].Attributes & FieldAttributes.NotSerialized) == FieldAttributes.NotSerialized)
                    continue; 
                countProper++;
            }
            if (countProper != fields.Length) {
                FieldInfo[] properFields = new FieldInfo[countProper]; 
                countProper = 0;
                for (int i = 0;  i < fields.Length; i++) { 
                    if ((fields[i].Attributes & FieldAttributes.NotSerialized) == FieldAttributes.NotSerialized) 
                        continue;
                    properFields[countProper] = fields[i]; 
                    countProper++;
                }
                return properFields;
            } 
            else
                return fields; 
        } 

        private static bool CheckSerializable(RuntimeType type) { 
            if (type.IsSerializable) {
                return true;
            }
            return false; 
        }
 
        private static MemberInfo[] InternalGetSerializableMembers(RuntimeType type) { 
            List allMembers = null;
            MemberInfo[] typeMembers; 
            FieldInfo [] typeFields;
            RuntimeType parentType;

            Contract.Assert((object)type != null, "[GetAllSerializableMembers]type!=null"); 

            //< 
 
            if (type.IsInterface) {
                return new MemberInfo[0]; 
            }

            if (!(CheckSerializable(type))) {
                    throw new SerializationException(Environment.GetResourceString("Serialization_NonSerType", type.FullName, type.Module.Assembly.FullName)); 
            }
 
            //Get all of the serializable members in the class to be serialized. 
            typeMembers = GetSerializableMembers(type);
 
            //If this class doesn't extend directly from object, walk its hierarchy and
            //get all of the private and assembly-access fields (e.g. all fields that aren't
            //virtual) and include them in the list of things to be serialized.
            parentType = (RuntimeType)(type.BaseType); 
            if (parentType != null && parentType != (RuntimeType)typeof(Object)) {
                RuntimeType[] parentTypes = null; 
                int parentTypeCount = 0; 
                bool classNamesUnique = GetParentTypes(parentType, out parentTypes, out parentTypeCount);
                if (parentTypeCount > 0){ 
                    allMembers = new List();
                    for (int i = 0; i < parentTypeCount;i++){
                        parentType = parentTypes[i];
                        if (!CheckSerializable(parentType)) { 
                                throw new SerializationException(Environment.GetResourceString("Serialization_NonSerType", parentType.FullName, parentType.Module.Assembly.FullName));
                        } 
 
                        typeFields = parentType.GetFields(BindingFlags.NonPublic | BindingFlags.Instance);
                        String typeName = classNamesUnique ? parentType.Name : parentType.FullName; 
                        foreach (FieldInfo field in typeFields) {
                            // Family and Assembly fields will be gathered by the type itself.
                            if (!field.IsNotSerialized) {
                                allMembers.Add(new SerializationFieldInfo((RuntimeFieldInfo)field, typeName)); 
                            }
                        } 
                    } 
                    //If we actually found any new MemberInfo's, we need to create a new MemberInfo array and
                    //copy all of the members which we've found so far into that. 
                    if (allMembers!=null && allMembers.Count>0) {
                        MemberInfo[] membersTemp = new MemberInfo[allMembers.Count + typeMembers.Length];
                        Array.Copy(typeMembers, membersTemp, typeMembers.Length);
                        ((ICollection)allMembers).CopyTo(membersTemp, typeMembers.Length); 
                        typeMembers = membersTemp;
                    } 
                } 
            }
            return typeMembers; 
        }

        private static bool GetParentTypes(RuntimeType parentType, out RuntimeType[] parentTypes, out int parentTypeCount){
            //Check if there are any dup class names. Then we need to include as part of 
            //typeName to prefix the Field names in SerializationFieldInfo
            /*out*/ parentTypes = null; 
            /*out*/ parentTypeCount = 0; 
            bool unique = true;
            RuntimeType objectType = (RuntimeType)typeof(object); 
            for (RuntimeType t1 = parentType; t1 != objectType; t1 = (RuntimeType)t1.BaseType)
            {
                if (t1.IsInterface) continue;
                string t1Name = t1.Name; 
                for(int i=0;unique && i 0) {
                TypeForwardedFromAttribute typeForwardedFromAttribute = (TypeForwardedFromAttribute)typeAttributes[0]; 
                return typeForwardedFromAttribute.AssemblyFullName;
            } 
            else { 
                return type.Assembly.FullName;
            } 
        }

        internal static string GetClrTypeFullName(Type type) {
            if (type.IsArray) { 
                return GetClrTypeFullNameForArray(type);
            } 
            else { 
                return GetClrTypeFullNameForNonArrayTypes(type);
            } 
        }

        static string GetClrTypeFullNameForArray(Type type) {
            int rank = type.GetArrayRank(); 
            if (rank == 1)
            { 
                return String.Format(CultureInfo.InvariantCulture, "{0}{1}", GetClrTypeFullName(type.GetElementType()), "[]"); 
            }
            else 
            {
                StringBuilder builder = new StringBuilder(GetClrTypeFullName(type.GetElementType())).Append("[");
                for (int commaIndex = 1; commaIndex < rank; commaIndex++)
                { 
                    builder.Append(",");
                } 
                builder.Append("]"); 
                return builder.ToString();
            } 
        }

        static string GetClrTypeFullNameForNonArrayTypes(Type type) {
            if (!type.IsGenericType) { 
                return type.FullName;
            } 
 
            Type[] genericArguments = type.GetGenericArguments();
            StringBuilder builder = new StringBuilder(type.GetGenericTypeDefinition().FullName).Append("["); 

            foreach (Type genericArgument in genericArguments) {
                builder.Append("[").Append(GetClrTypeFullName(genericArgument)).Append(", ");
                builder.Append(GetClrAssemblyName(genericArgument)).Append("],"); 
            }
 
            //remove the last comma and close typename for generic with a close bracket 
            return builder.Remove(builder.Length - 1, 1).Append("]").ToString();
        } 
    }

    internal sealed class SurrogateForCyclicalReference : ISerializationSurrogate
    { 
        ISerializationSurrogate innerSurrogate;
        internal SurrogateForCyclicalReference(ISerializationSurrogate innerSurrogate) 
        { 
            if (innerSurrogate == null)
                throw new ArgumentNullException("innerSurrogate"); 
            this.innerSurrogate = innerSurrogate;
        }

        [System.Security.SecurityCritical]  // auto-generated 
        public void GetObjectData(Object obj, SerializationInfo info, StreamingContext context)
        { 
            innerSurrogate.GetObjectData(obj, info, context); 
        }
 
        [System.Security.SecurityCritical]  // auto-generated
        public Object SetObjectData(Object obj, SerializationInfo info, StreamingContext context, ISurrogateSelector selector)
        {
            return innerSurrogate.SetObjectData(obj, info, context, selector); 
        }
    } 
} 

 




// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 
/*============================================================
** 
** Class: FormatterServices 
**
** 
** Purpose: Provides some static methods to aid with the implementation
**          of a Formatter for Serialization.
**
** 
============================================================*/
namespace System.Runtime.Serialization { 
 
    using System;
    using System.Reflection; 
    using System.Reflection.Cache;
    using System.Collections;
    using System.Collections.Generic;
    using System.Security; 
    using System.Security.Permissions;
    using System.Runtime.Serialization.Formatters; 
    using System.Runtime.Remoting; 
    using System.Runtime.CompilerServices;
    using System.Runtime.Versioning; 
    using System.Threading;
    using System.IO;
    using System.Text;
    using System.Globalization; 
    using System.Diagnostics.Contracts;
 
[System.Runtime.InteropServices.ComVisible(true)] 
    public sealed class FormatterServices {
        internal static Dictionary m_MemberInfoTable = new Dictionary(32); 

        private static Object s_FormatterServicesSyncObject = null;

        private static Object formatterServicesSyncObject 
        {
            get 
            { 
                if (s_FormatterServicesSyncObject == null)
                { 
                    Object o = new Object();
                    Interlocked.CompareExchange(ref s_FormatterServicesSyncObject, o, null);
                }
                return s_FormatterServicesSyncObject; 
            }
        } 
 
#if FEATURE_REMOTING
        [SecuritySafeCritical] 
        static FormatterServices()
        {
            // Static initialization touches security critical types, so we need an
            // explicit static constructor to allow us to mark it safe critical. 
        }
#endif // FEATURE_REMOTING 
 
        private FormatterServices() {
            throw new NotSupportedException(); 
        }

        private static MemberInfo[] GetSerializableMembers(RuntimeType type) {
            // get the list of all fields 
            FieldInfo[] fields = type.GetFields(BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Instance);
            int countProper = 0; 
            for (int i = 0;  i < fields.Length; i++) { 
                if ((fields[i].Attributes & FieldAttributes.NotSerialized) == FieldAttributes.NotSerialized)
                    continue; 
                countProper++;
            }
            if (countProper != fields.Length) {
                FieldInfo[] properFields = new FieldInfo[countProper]; 
                countProper = 0;
                for (int i = 0;  i < fields.Length; i++) { 
                    if ((fields[i].Attributes & FieldAttributes.NotSerialized) == FieldAttributes.NotSerialized) 
                        continue;
                    properFields[countProper] = fields[i]; 
                    countProper++;
                }
                return properFields;
            } 
            else
                return fields; 
        } 

        private static bool CheckSerializable(RuntimeType type) { 
            if (type.IsSerializable) {
                return true;
            }
            return false; 
        }
 
        private static MemberInfo[] InternalGetSerializableMembers(RuntimeType type) { 
            List allMembers = null;
            MemberInfo[] typeMembers; 
            FieldInfo [] typeFields;
            RuntimeType parentType;

            Contract.Assert((object)type != null, "[GetAllSerializableMembers]type!=null"); 

            //< 
 
            if (type.IsInterface) {
                return new MemberInfo[0]; 
            }

            if (!(CheckSerializable(type))) {
                    throw new SerializationException(Environment.GetResourceString("Serialization_NonSerType", type.FullName, type.Module.Assembly.FullName)); 
            }
 
            //Get all of the serializable members in the class to be serialized. 
            typeMembers = GetSerializableMembers(type);
 
            //If this class doesn't extend directly from object, walk its hierarchy and
            //get all of the private and assembly-access fields (e.g. all fields that aren't
            //virtual) and include them in the list of things to be serialized.
            parentType = (RuntimeType)(type.BaseType); 
            if (parentType != null && parentType != (RuntimeType)typeof(Object)) {
                RuntimeType[] parentTypes = null; 
                int parentTypeCount = 0; 
                bool classNamesUnique = GetParentTypes(parentType, out parentTypes, out parentTypeCount);
                if (parentTypeCount > 0){ 
                    allMembers = new List();
                    for (int i = 0; i < parentTypeCount;i++){
                        parentType = parentTypes[i];
                        if (!CheckSerializable(parentType)) { 
                                throw new SerializationException(Environment.GetResourceString("Serialization_NonSerType", parentType.FullName, parentType.Module.Assembly.FullName));
                        } 
 
                        typeFields = parentType.GetFields(BindingFlags.NonPublic | BindingFlags.Instance);
                        String typeName = classNamesUnique ? parentType.Name : parentType.FullName; 
                        foreach (FieldInfo field in typeFields) {
                            // Family and Assembly fields will be gathered by the type itself.
                            if (!field.IsNotSerialized) {
                                allMembers.Add(new SerializationFieldInfo((RuntimeFieldInfo)field, typeName)); 
                            }
                        } 
                    } 
                    //If we actually found any new MemberInfo's, we need to create a new MemberInfo array and
                    //copy all of the members which we've found so far into that. 
                    if (allMembers!=null && allMembers.Count>0) {
                        MemberInfo[] membersTemp = new MemberInfo[allMembers.Count + typeMembers.Length];
                        Array.Copy(typeMembers, membersTemp, typeMembers.Length);
                        ((ICollection)allMembers).CopyTo(membersTemp, typeMembers.Length); 
                        typeMembers = membersTemp;
                    } 
                } 
            }
            return typeMembers; 
        }

        private static bool GetParentTypes(RuntimeType parentType, out RuntimeType[] parentTypes, out int parentTypeCount){
            //Check if there are any dup class names. Then we need to include as part of 
            //typeName to prefix the Field names in SerializationFieldInfo
            /*out*/ parentTypes = null; 
            /*out*/ parentTypeCount = 0; 
            bool unique = true;
            RuntimeType objectType = (RuntimeType)typeof(object); 
            for (RuntimeType t1 = parentType; t1 != objectType; t1 = (RuntimeType)t1.BaseType)
            {
                if (t1.IsInterface) continue;
                string t1Name = t1.Name; 
                for(int i=0;unique && i 0) {
                TypeForwardedFromAttribute typeForwardedFromAttribute = (TypeForwardedFromAttribute)typeAttributes[0]; 
                return typeForwardedFromAttribute.AssemblyFullName;
            } 
            else { 
                return type.Assembly.FullName;
            } 
        }

        internal static string GetClrTypeFullName(Type type) {
            if (type.IsArray) { 
                return GetClrTypeFullNameForArray(type);
            } 
            else { 
                return GetClrTypeFullNameForNonArrayTypes(type);
            } 
        }

        static string GetClrTypeFullNameForArray(Type type) {
            int rank = type.GetArrayRank(); 
            if (rank == 1)
            { 
                return String.Format(CultureInfo.InvariantCulture, "{0}{1}", GetClrTypeFullName(type.GetElementType()), "[]"); 
            }
            else 
            {
                StringBuilder builder = new StringBuilder(GetClrTypeFullName(type.GetElementType())).Append("[");
                for (int commaIndex = 1; commaIndex < rank; commaIndex++)
                { 
                    builder.Append(",");
                } 
                builder.Append("]"); 
                return builder.ToString();
            } 
        }

        static string GetClrTypeFullNameForNonArrayTypes(Type type) {
            if (!type.IsGenericType) { 
                return type.FullName;
            } 
 
            Type[] genericArguments = type.GetGenericArguments();
            StringBuilder builder = new StringBuilder(type.GetGenericTypeDefinition().FullName).Append("["); 

            foreach (Type genericArgument in genericArguments) {
                builder.Append("[").Append(GetClrTypeFullName(genericArgument)).Append(", ");
                builder.Append(GetClrAssemblyName(genericArgument)).Append("],"); 
            }
 
            //remove the last comma and close typename for generic with a close bracket 
            return builder.Remove(builder.Length - 1, 1).Append("]").ToString();
        } 
    }

    internal sealed class SurrogateForCyclicalReference : ISerializationSurrogate
    { 
        ISerializationSurrogate innerSurrogate;
        internal SurrogateForCyclicalReference(ISerializationSurrogate innerSurrogate) 
        { 
            if (innerSurrogate == null)
                throw new ArgumentNullException("innerSurrogate"); 
            this.innerSurrogate = innerSurrogate;
        }

        [System.Security.SecurityCritical]  // auto-generated 
        public void GetObjectData(Object obj, SerializationInfo info, StreamingContext context)
        { 
            innerSurrogate.GetObjectData(obj, info, context); 
        }
 
        [System.Security.SecurityCritical]  // auto-generated
        public Object SetObjectData(Object obj, SerializationInfo info, StreamingContext context, ISurrogateSelector selector)
        {
            return innerSurrogate.SetObjectData(obj, info, context, selector); 
        }
    } 
} 

 




// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

                        

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