Code:
/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / clr / src / BCL / System / Attribute.cs / 1 / Attribute.cs
// ==++== // // Copyright (c) Microsoft Corporation. All rights reserved. // // ==--== namespace System { using System; using System.Reflection; using System.Collections; using System.Runtime.InteropServices; using System.Globalization; [Serializable, AttributeUsageAttribute(AttributeTargets.All, Inherited = true, AllowMultiple=false)] [ClassInterface(ClassInterfaceType.None)] [ComDefaultInterface(typeof(_Attribute))] [System.Runtime.InteropServices.ComVisible(true)] public abstract class Attribute : _Attribute { #region Private Statics #region PropertyInfo private static Attribute[] InternalGetCustomAttributes(PropertyInfo element, Type type, bool inherit) { // walk up the hierarchy chain Attribute[] attributes = (Attribute[])element.GetCustomAttributes(type, inherit); if (!inherit) return attributes; // create the hashtable that keeps track of inherited types Hashtable types = new Hashtable(11); // create an array list to collect all the requested attibutes ArrayList attributeList = new ArrayList(); CopyToArrayList(attributeList, attributes, types); PropertyInfo baseProp = GetParentDefinition(element); while (baseProp != null) { attributes = GetCustomAttributes(baseProp, type, false); AddAttributesToList(attributeList, attributes, types); baseProp = GetParentDefinition(baseProp); } return (Attribute[])attributeList.ToArray(type); } private static bool InternalIsDefined(PropertyInfo element, Type attributeType, bool inherit) { // walk up the hierarchy chain if (element.IsDefined(attributeType, inherit)) return true; if (inherit) { AttributeUsageAttribute usage = InternalGetAttributeUsage(attributeType); if (!usage.Inherited) return false; PropertyInfo baseProp = GetParentDefinition(element); while (baseProp != null) { if (baseProp.IsDefined(attributeType, false)) return true; baseProp = GetParentDefinition(baseProp); } } return false; } private static PropertyInfo GetParentDefinition(PropertyInfo property) { // for the current property get the base class of the getter and the setter, they might be different MethodInfo propAccessor = property.GetGetMethod(true); if (propAccessor == null) propAccessor = property.GetSetMethod(true); if (propAccessor != null) { propAccessor = propAccessor.GetParentDefinition(); if (propAccessor != null) return propAccessor.DeclaringType.GetProperty(property.Name, property.PropertyType); } return null; } #endregion #region EventInfo private static Attribute[] InternalGetCustomAttributes(EventInfo element, Type type, bool inherit) { // walk up the hierarchy chain Attribute[] attributes = (Attribute[])element.GetCustomAttributes(type, inherit); if (inherit) { // create the hashtable that keeps track of inherited types Hashtable types = new Hashtable(11); // create an array list to collect all the requested attibutes ArrayList attributeList = new ArrayList(); CopyToArrayList(attributeList, attributes, types); EventInfo baseEvent = GetParentDefinition(element); while (baseEvent != null) { attributes = GetCustomAttributes(baseEvent, type, false); AddAttributesToList(attributeList, attributes, types); baseEvent = GetParentDefinition(baseEvent); } return (Attribute[])attributeList.ToArray(type); } else return attributes; } private static EventInfo GetParentDefinition(EventInfo ev) { MethodInfo add = ev.GetAddMethod(true); if (add != null) { add = add.GetParentDefinition(); if (add != null) return add.DeclaringType.GetEvent(ev.Name); } return null; } private static bool InternalIsDefined (EventInfo element, Type attributeType, bool inherit) { // walk up the hierarchy chain if (element.IsDefined(attributeType, inherit)) return true; if (inherit) { AttributeUsageAttribute usage = InternalGetAttributeUsage(attributeType); if (!usage.Inherited) return false; EventInfo baseEvent = GetParentDefinition(element); while (baseEvent != null) { if (baseEvent.IsDefined(attributeType, false)) return true; baseEvent = GetParentDefinition(baseEvent); } } return false; } #endregion #region ParameterInfo private static Attribute[] InternalParamGetCustomAttributes(MethodInfo method, ParameterInfo param, Type type, bool inherit) { // For ParameterInfo's we need to make sure that we chain through all the MethodInfo's in the inheritance chain that // have this ParameterInfo defined. .We pick up all the CustomAttributes for the starting ParameterInfo. We need to pick up only attributes // that are marked inherited from the remainder of the MethodInfo's in the inheritance chain. // For MethodInfo's on an interface we do not do an inheritance walk so the default ParameterInfo attributes are returned. // For MethodInfo's on a class we walk up the inheritance chain but do not look at the MethodInfo's on the interfaces that the // class inherits from and return the respective ParameterInfo attributes ArrayList disAllowMultiple = new ArrayList(); Object [] objAttr; if (type == null) type = typeof(Attribute); objAttr = param.GetCustomAttributes(type, false); for (int i =0;i < objAttr.Length;i++) { Type objType = objAttr[i].GetType(); AttributeUsageAttribute attribUsage = InternalGetAttributeUsage(objType); if (attribUsage.AllowMultiple == false) disAllowMultiple.Add(objType); } // Get all the attributes that have Attribute as the base class Attribute [] ret = null; if (objAttr.Length == 0) ret = (Attribute[])Array.CreateInstance(type,0); else ret = (Attribute[])objAttr; if (method.DeclaringType == null) // This is an interface so we are done. return ret; if (!inherit) return ret; int paramPosition = param.Position; method = method.GetParentDefinition(); while (method != null) { // Find the ParameterInfo on this method ParameterInfo [] parameters = method.GetParameters(); param = parameters[paramPosition]; // Point to the correct ParameterInfo of the method objAttr = param.GetCustomAttributes(type, false); int count = 0; for (int i =0;i < objAttr.Length;i++) { Type objType = objAttr[i].GetType(); AttributeUsageAttribute attribUsage = InternalGetAttributeUsage(objType); if ((attribUsage.Inherited) && (disAllowMultiple.Contains(objType) == false)) { if (attribUsage.AllowMultiple == false) disAllowMultiple.Add(objType); count++; } else objAttr[i] = null; } // Get all the attributes that have Attribute as the base class Attribute [] attributes = (Attribute[])Array.CreateInstance(type,count); count = 0; for (int i =0;i < objAttr.Length;i++) { if (objAttr[i] != null) { attributes[count] = (Attribute)objAttr[i]; count++; } } Attribute [] temp = ret; ret = (Attribute[])Array.CreateInstance(type,temp.Length + count); Array.Copy(temp,ret,temp.Length); int offset = temp.Length; for (int i =0;i < attributes.Length;i++) ret[offset + i] = attributes[i]; method = method.GetParentDefinition(); } return ret; } private static bool InternalParamIsDefined(MethodInfo method, ParameterInfo param, Type type, bool inherit) { // For ParameterInfo's we need to make sure that we chain through all the MethodInfo's in the inheritance chain. // We pick up all the CustomAttributes for the starting ParameterInfo. We need to pick up only attributes // that are marked inherited from the remainder of the ParameterInfo's in the inheritance chain. // For MethodInfo's on an interface we do not do an inheritance walk. For ParameterInfo's on a // Class we walk up the inheritance chain but do not look at the MethodInfo's on the interfaces that the class inherits from. if (param.IsDefined(type, false)) return true; if (method.DeclaringType == null || !inherit) // This is an interface so we are done. return false; int paramPosition = param.Position; method = method.GetParentDefinition(); while (method != null) { ParameterInfo [] parameters = method.GetParameters(); param = parameters[paramPosition]; Object [] objAttr = param.GetCustomAttributes(type, false); for (int i =0; i < objAttr.Length; i++) { Type objType = objAttr[i].GetType(); AttributeUsageAttribute attribUsage = InternalGetAttributeUsage(objType); if ((objAttr[i] is Attribute) && (attribUsage.Inherited)) return true; } method = method.GetParentDefinition(); } return false; } #endregion #region Utility private static void CopyToArrayList(ArrayList attributeList,Attribute[] attributes,Hashtable types) { for (int i = 0; i < attributes.Length; i++) { attributeList.Add(attributes[i]); Type attrType = attributes[i].GetType(); if (!types.Contains(attrType)) types[attrType] = InternalGetAttributeUsage(attrType); } } private static void AddAttributesToList(ArrayList attributeList, Attribute[] attributes, Hashtable types) { for (int i = 0; i < attributes.Length; i++) { Type attrType = attributes[i].GetType(); AttributeUsageAttribute usage = (AttributeUsageAttribute)types[attrType]; if (usage == null) { // the type has never been seen before if it's inheritable add it to the list usage = InternalGetAttributeUsage(attrType); types[attrType] = usage; if (usage.Inherited) attributeList.Add(attributes[i]); } else if (usage.Inherited && usage.AllowMultiple) { // we saw this type already add it only if it is inheritable and it does allow multiple attributeList.Add(attributes[i]); } } } private static AttributeUsageAttribute InternalGetAttributeUsage(Type type) { // Check if the custom attributes is Inheritable Object [] obj = type.GetCustomAttributes(typeof(AttributeUsageAttribute), false); if (obj.Length == 1) return (AttributeUsageAttribute)obj[0]; if (obj.Length == 0) return AttributeUsageAttribute.Default; throw new FormatException(String.Format(CultureInfo.CurrentCulture, Environment.GetResourceString("Format_AttributeUsage"), type)); } #endregion #endregion #region Public Statics #region MemberInfo public static Attribute[] GetCustomAttributes(MemberInfo element, Type type) { return GetCustomAttributes(element, type, true); } public static Attribute[] GetCustomAttributes(MemberInfo element, Type type, bool inherit) { if (element == null) throw new ArgumentNullException("element"); if (type == null) throw new ArgumentNullException("type"); if (!type.IsSubclassOf(typeof(Attribute)) && type != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); switch (element.MemberType) { case MemberTypes.Property: return InternalGetCustomAttributes((PropertyInfo)element, type, inherit); case MemberTypes.Event: return InternalGetCustomAttributes((EventInfo)element, type, inherit); default: return element.GetCustomAttributes(type, inherit) as Attribute[]; } } public static Attribute[] GetCustomAttributes(MemberInfo element) { return GetCustomAttributes(element, true); } public static Attribute[] GetCustomAttributes(MemberInfo element, bool inherit) { if (element == null) throw new ArgumentNullException("element"); switch (element.MemberType) { case MemberTypes.Property: return InternalGetCustomAttributes((PropertyInfo)element, typeof(Attribute), inherit); case MemberTypes.Event: return InternalGetCustomAttributes((EventInfo)element, typeof(Attribute), inherit); default: return element.GetCustomAttributes(typeof(Attribute), inherit) as Attribute[]; } } public static bool IsDefined(MemberInfo element, Type attributeType) { return IsDefined(element, attributeType, true); } public static bool IsDefined(MemberInfo element, Type attributeType, bool inherit) { // Returns true if a custom attribute subclass of attributeType class/interface with inheritance walk if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); switch(element.MemberType) { case MemberTypes.Property: return InternalIsDefined((PropertyInfo)element, attributeType, inherit); case MemberTypes.Event: return InternalIsDefined((EventInfo)element, attributeType, inherit); default: return element.IsDefined(attributeType, inherit); } } public static Attribute GetCustomAttribute(MemberInfo element, Type attributeType) { return GetCustomAttribute(element, attributeType, true); } public static Attribute GetCustomAttribute(MemberInfo element, Type attributeType, bool inherit) { Attribute[] attrib = GetCustomAttributes(element, attributeType, inherit); if (attrib == null || attrib.Length == 0) return null; if (attrib.Length == 1) return attrib[0]; throw new AmbiguousMatchException(Environment.GetResourceString("RFLCT.AmbigCust")); } #endregion #region ParameterInfo public static Attribute[] GetCustomAttributes(ParameterInfo element) { return GetCustomAttributes(element, true); } public static Attribute[] GetCustomAttributes(ParameterInfo element, Type attributeType) { return (Attribute[])GetCustomAttributes(element, attributeType, true); } public static Attribute[] GetCustomAttributes(ParameterInfo element, Type attributeType, bool inherit) { if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); MemberInfo member = element.Member; if (member.MemberType == MemberTypes.Method && inherit) return InternalParamGetCustomAttributes((MethodInfo)member, element, attributeType, inherit) as Attribute[]; return element.GetCustomAttributes(attributeType, inherit) as Attribute[]; } public static Attribute[] GetCustomAttributes(ParameterInfo element, bool inherit) { if (element == null) throw new ArgumentNullException("element"); MemberInfo member = element.Member; if (member.MemberType == MemberTypes.Method && inherit) return InternalParamGetCustomAttributes((MethodInfo)member, element, null, inherit) as Attribute[]; return element.GetCustomAttributes(typeof(Attribute), inherit) as Attribute[]; } public static bool IsDefined(ParameterInfo element, Type attributeType) { return IsDefined(element, attributeType, true); } public static bool IsDefined(ParameterInfo element, Type attributeType, bool inherit) { // Returns true is a custom attribute subclass of attributeType class/interface with inheritance walk if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); MemberInfo member = element.Member; switch(member.MemberType) { case MemberTypes.Method: // We need to climb up the member hierarchy return InternalParamIsDefined((MethodInfo)member, element, attributeType, inherit); case MemberTypes.Constructor: return element.IsDefined(attributeType, false); case MemberTypes.Property: return element.IsDefined(attributeType, false); default: BCLDebug.Assert(false, "Invalid type for ParameterInfo member in Attribute class"); throw new ArgumentException(Environment.GetResourceString("Argument_InvalidParamInfo")); } } public static Attribute GetCustomAttribute(ParameterInfo element, Type attributeType) { return GetCustomAttribute(element, attributeType, true); } public static Attribute GetCustomAttribute(ParameterInfo element, Type attributeType, bool inherit) { // Returns an Attribute of base class/inteface attributeType on the ParameterInfo or null if none exists. // throws an AmbiguousMatchException if there are more than one defined. Attribute[] attrib = GetCustomAttributes(element, attributeType, inherit); if (attrib == null || attrib.Length == 0) return null; if (attrib.Length == 0) return null; if (attrib.Length == 1) return attrib[0]; throw new AmbiguousMatchException(Environment.GetResourceString("RFLCT.AmbigCust")); } #endregion #region Module public static Attribute[] GetCustomAttributes(Module element, Type attributeType) { return GetCustomAttributes (element, attributeType, true); } public static Attribute[] GetCustomAttributes(Module element) { return GetCustomAttributes(element, true); } public static Attribute[] GetCustomAttributes(Module element, bool inherit) { if (element == null) throw new ArgumentNullException("element"); return (Attribute[])element.GetCustomAttributes(typeof(Attribute), inherit); } public static Attribute[] GetCustomAttributes(Module element, Type attributeType, bool inherit) { if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); return (Attribute[])element.GetCustomAttributes(attributeType, inherit); } public static bool IsDefined(Module element, Type attributeType) { return IsDefined(element, attributeType, false); } public static bool IsDefined(Module element, Type attributeType, bool inherit) { // Returns true is a custom attribute subclass of attributeType class/interface with no inheritance walk if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); return element.IsDefined(attributeType,false); } public static Attribute GetCustomAttribute(Module element, Type attributeType) { return GetCustomAttribute(element, attributeType, true); } public static Attribute GetCustomAttribute(Module element, Type attributeType, bool inherit) { // Returns an Attribute of base class/inteface attributeType on the Module or null if none exists. // throws an AmbiguousMatchException if there are more than one defined. Attribute[] attrib = GetCustomAttributes(element,attributeType,inherit); if (attrib == null || attrib.Length == 0) return null; if (attrib.Length == 1) return attrib[0]; throw new AmbiguousMatchException(Environment.GetResourceString("RFLCT.AmbigCust")); } #endregion #region Assembly public static Attribute[] GetCustomAttributes(Assembly element, Type attributeType) { return GetCustomAttributes(element, attributeType, true); } public static Attribute[] GetCustomAttributes(Assembly element, Type attributeType, bool inherit) { if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); return (Attribute[])element.GetCustomAttributes(attributeType, inherit); } public static Attribute[] GetCustomAttributes(Assembly element) { return GetCustomAttributes(element, true); } public static Attribute[] GetCustomAttributes(Assembly element, bool inherit) { if (element == null) throw new ArgumentNullException("element"); return (Attribute[])element.GetCustomAttributes(typeof(Attribute), inherit); } public static bool IsDefined (Assembly element, Type attributeType) { return IsDefined (element, attributeType, true); } public static bool IsDefined (Assembly element, Type attributeType, bool inherit) { // Returns true is a custom attribute subclass of attributeType class/interface with no inheritance walk if (element == null) throw new ArgumentNullException("element"); if (attributeType == null) throw new ArgumentNullException("attributeType"); if (!attributeType.IsSubclassOf(typeof(Attribute)) && attributeType != typeof(Attribute)) throw new ArgumentException(Environment.GetResourceString("Argument_MustHaveAttributeBaseClass")); return element.IsDefined(attributeType, false); } public static Attribute GetCustomAttribute(Assembly element, Type attributeType) { return GetCustomAttribute (element, attributeType, true); } public static Attribute GetCustomAttribute(Assembly element, Type attributeType, bool inherit) { // Returns an Attribute of base class/inteface attributeType on the Assembly or null if none exists. // throws an AmbiguousMatchException if there are more than one defined. Attribute[] attrib = GetCustomAttributes(element,attributeType,inherit); if (attrib == null || attrib.Length == 0) return null; if (attrib.Length == 1) return attrib[0]; throw new AmbiguousMatchException(Environment.GetResourceString("RFLCT.AmbigCust")); } #endregion #endregion #region Constructor protected Attribute() { } #endregion #region Object Overrides public override bool Equals(Object obj) { if (obj == null) return false; RuntimeType thisType = (RuntimeType)this.GetType(); RuntimeType thatType = (RuntimeType)obj.GetType(); if (thatType != thisType) return false; Object thisObj = this; Object thisResult, thatResult; FieldInfo[] thisFields = thisType.GetFields(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic); for (int i=0; i
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