//------------------------------------------------------------------------------ // // Copyright (c) Microsoft Corporation. All rights reserved. // //------------------------------------------------------------------------------ namespace System.Web.UI { using System; using System.Collections; using System.Collections.Concurrent; using System.ComponentModel; using System.Globalization; using System.Reflection; using System.Web.UI.WebControls; using System.Web.Util; /// /// Provides design-time support for RAD designers to /// generate and parse . This class cannot be inherited. /// public sealed class DataBinder { private static readonly char[] expressionPartSeparator = new char[] { '.' }; private static readonly char[] indexExprStartChars = new char[] { '[', '(' }; private static readonly char[] indexExprEndChars = new char[] { ']', ')' }; private static readonly ConcurrentDictionary propertyCache = new ConcurrentDictionary(); // By default the new caching behavior will be on. private static bool enableCaching = true; // Global overrride switch to enable old behavior. public static bool EnableCaching { get { return enableCaching; } set { enableCaching = value; if (!value) { // Clear the cache when caching is turned off. propertyCache.Clear(); } } } /// // public DataBinder() { } /// /// Evaluates data binding expressions at runtime. While /// this method is automatically called when you create data bindings in a RAD /// designer, you can also use it declaratively if you want to simplify the casting /// to a text string to be displayed on a browser. To do so, you must place the /// <%# and %> tags, which are also used in standard ASP.NET data binding, around the data binding expression. /// This method is particularly useful when data binding against controls that /// are in a templated list. /// /// Since this method is called at runtime, it can cause performance /// to noticeably slow compared to standard ASP.NET databinding syntax. /// Use this method judiciously. /// /// public static object Eval(object container, string expression) { if (expression == null) { throw new ArgumentNullException("expression"); } expression = expression.Trim(); if (expression.Length == 0) { throw new ArgumentNullException("expression"); } if (container == null) { return null; } string[] expressionParts = expression.Split(expressionPartSeparator); return DataBinder.Eval(container, expressionParts); } /// /// private static object Eval(object container, string[] expressionParts) { Debug.Assert((expressionParts != null) && (expressionParts.Length != 0), "invalid expressionParts parameter"); object prop; int i; for (prop = container, i = 0; (i < expressionParts.Length) && (prop != null); i++) { string expr = expressionParts[i]; bool indexedExpr = expr.IndexOfAny(indexExprStartChars) >= 0; if (indexedExpr == false) { prop = DataBinder.GetPropertyValue(prop, expr); } else { prop = DataBinder.GetIndexedPropertyValue(prop, expr); } } return prop; } /// /// Evaluates data binding expressions at runtime and /// formats the output as text to be displayed in the requesting browser. While this /// method is automatically called when you create data bindings in a RAD designer, /// you can also use it declaratively if you want to simplify the casting to a text /// string to be displayed on a browser. To do so, you must place the <%# and %> tags, which are also used in standard ASP.NET data binding, around /// the data binding expression. /// This method is particularly useful when data binding against controls that /// are in a templated list. /// /// Since this method is called at /// runtime, it can cause performance to noticeably slow compared to standard ASP.NET /// databinding syntax. Use this method judiciously, particularly when string /// formatting is not required. /// /// public static string Eval(object container, string expression, string format) { object value = DataBinder.Eval(container, expression); if ((value == null) || (value == System.DBNull.Value)) { return String.Empty; } else { if (String.IsNullOrEmpty(format)) { return value.ToString(); } else { return String.Format(format, value); } } } internal static PropertyDescriptorCollection GetPropertiesFromCache(object container) { // We don't cache if the object implements ICustomTypeDescriptor. if (EnableCaching && !(container is ICustomTypeDescriptor)) { PropertyDescriptorCollection properties = null; Type containerType = container.GetType(); if (!propertyCache.TryGetValue(containerType, out properties)) { properties = TypeDescriptor.GetProperties(containerType); propertyCache.TryAdd(containerType, properties); } return properties; } return TypeDescriptor.GetProperties(container); } /// /// public static object GetPropertyValue(object container, string propName) { if (container == null) { throw new ArgumentNullException("container"); } if (String.IsNullOrEmpty(propName)) { throw new ArgumentNullException("propName"); } object prop = null; // get a PropertyDescriptor using case-insensitive lookup PropertyDescriptor pd = GetPropertiesFromCache(container).Find(propName, true); if (pd != null) { prop = pd.GetValue(container); } else { throw new HttpException(SR.GetString(SR.DataBinder_Prop_Not_Found, container.GetType().FullName, propName)); } return prop; } /// /// public static string GetPropertyValue(object container, string propName, string format) { object value = DataBinder.GetPropertyValue(container, propName); if ((value == null) || (value == System.DBNull.Value)) { return string.Empty; } else { if (String.IsNullOrEmpty(format)) { return value.ToString(); } else { return string.Format(format, value); } } } /// /// public static object GetIndexedPropertyValue(object container, string expr) { if (container == null) { throw new ArgumentNullException("container"); } if (String.IsNullOrEmpty(expr)) { throw new ArgumentNullException("expr"); } object prop = null; bool intIndex = false; int indexExprStart = expr.IndexOfAny(indexExprStartChars); int indexExprEnd = expr.IndexOfAny(indexExprEndChars, indexExprStart + 1); if ((indexExprStart < 0) || (indexExprEnd < 0) || (indexExprEnd == indexExprStart + 1)) { throw new ArgumentException(SR.GetString(SR.DataBinder_Invalid_Indexed_Expr, expr)); } string propName = null; object indexValue = null; string index = expr.Substring(indexExprStart + 1, indexExprEnd - indexExprStart - 1).Trim(); if (indexExprStart != 0) propName = expr.Substring(0, indexExprStart); if (index.Length != 0) { if (((index[0] == '"') && (index[index.Length - 1] == '"')) || ((index[0] == '\'') && (index[index.Length - 1] == '\''))) { indexValue = index.Substring(1, index.Length - 2); } else { if (Char.IsDigit(index[0])) { // treat it as a number int parsedIndex; intIndex = Int32.TryParse(index, NumberStyles.Integer, CultureInfo.InvariantCulture, out parsedIndex); if (intIndex) { indexValue = parsedIndex; } else { indexValue = index; } } else { // treat as a string indexValue = index; } } } if (indexValue == null) { throw new ArgumentException(SR.GetString(SR.DataBinder_Invalid_Indexed_Expr, expr)); } object collectionProp = null; if ((propName != null) && (propName.Length != 0)) { collectionProp = DataBinder.GetPropertyValue(container, propName); } else { collectionProp = container; } if (collectionProp != null) { Array arrayProp = collectionProp as Array; if (arrayProp != null && intIndex) { prop = arrayProp.GetValue((int)indexValue); } else if ((collectionProp is IList) && intIndex) { prop = ((IList)collectionProp)[(int)indexValue]; } else { PropertyInfo propInfo = collectionProp.GetType().GetProperty("Item", BindingFlags.Public | BindingFlags.Instance, null, null, new Type[] { indexValue.GetType() }, null); if (propInfo != null) { prop = propInfo.GetValue(collectionProp, new object[] { indexValue }); } else { throw new ArgumentException(SR.GetString(SR.DataBinder_No_Indexed_Accessor, collectionProp.GetType().FullName)); } } } return prop; } /// /// public static string GetIndexedPropertyValue(object container, string propName, string format) { object value = DataBinder.GetIndexedPropertyValue(container, propName); if ((value == null) || (value == System.DBNull.Value)) { return String.Empty; } else { if (String.IsNullOrEmpty(format)) { return value.ToString(); } else { return string.Format(format, value); } } } /// /// public static object GetDataItem(object container) { bool foundDataItem; return DataBinder.GetDataItem(container, out foundDataItem); } /// /// public static object GetDataItem(object container, out bool foundDataItem) { // if (container == null) { foundDataItem = false; return null; } // If object implements IDataItemContainer, get value directly from interface IDataItemContainer dataItemContainer = container as IDataItemContainer; if (dataItemContainer != null) { foundDataItem = true; return dataItemContainer.DataItem; } // Otherwise, look for a property named "DataItem" string dataItemPropertyName = "DataItem"; // Check whether the property exists PropertyInfo propInfo = container.GetType().GetProperty(dataItemPropertyName, BindingFlags.Public | BindingFlags.Instance | BindingFlags.IgnoreCase); // If not, return null // if (propInfo == null) { foundDataItem = false; return null; } // If so, get the value foundDataItem = true; return propInfo.GetValue(container, null); } // Returns true for types that can be automatically databound in controls such as // GridView and DetailsView. Bindable types are simple types, such as primitives, strings, enums // and nullable primitives. public static bool IsBindableType(Type type) { //Note that for supporting AutoGenerateEnums property, our default Column Generators for GridView / DetailsView //are not calling the DataBinder.IsBindableType but rather calling the below method. //So any new types to be considered as Bindable types should be added in the below method rather than here directly. return DataBoundControlHelper.IsBindableType(type, enableEnums: true); } /// /// Returns true if the value is null, DBNull, or INullableValue.HasValue is false. /// internal static bool IsNull(object value) { if (value == null || Convert.IsDBNull(value)) { return true; } return false; } } }