原文 http://www.11011.net/wpf-binding-expressions
Back in April I posted an idea for building an expression converter for use with MultiBindings. This is a question I often see asked, but the answer is usually "go and write a once off converter" (for an example see the Negate converter in my Transition sample - how useful is that really?). More recently I noticed this sample on LearnWPF which provides single value simple arithmetic conversions. Unfortunately no one ever took the bait and implemented the multi-value converter, so I had to go and do it myself.
The result is the JScriptConverter, which for simplicity of use is both an IMultiValueConverter and an IValueConverter. There are numerous benefits to using JScript here:
The code for the conveter is once again quite trivial. Because it's quite difficult to set up a JScript environment for evaluation I instead compile a tiny JScript assembly to wrap the evaluations. This is done once statically and then reused by all instances of the class. Note the TrapExceptions property, if this is set to true any exceptions raised during the conversion will result in null.
Using it is easy. Just instantitate the converter as a resource:
<utils:JScriptConverterx:Key="JScript"TrapExceptions="False" />
And wire it up as a single Binding:
<TextBlockText="{Binding ElementName=tb1, Path=Text, Converter={StaticResource JScript}, ConverterParameter=Int32.Parse(values[0])/100.0"/>
Or as a MultiBinding:
<MultiBindingConverter="{StaticResource JScript}"ConverterParameter= "new System.Windows.Thickness(values[0]*0.1/2,values[1]*0.1/2,0,0)"> <BindingRelativeSource="{RelativeSource TemplatedParent}"Path="ActualWidth" /> <BindingRelativeSource="{RelativeSource TemplatedParent}"Path="ActualHeight" /> </MultiBinding>
I'm not so happy with the code that enumerates and adds references to all the Assemblies in the current AppDomain, but for the time being it serves its purpose.
Anyway, without further ado (of course this requires a reference to Microsoft.JScript). Cut and paste as you please:
using System; using System.Windows.Data; using System.CodeDom.Compiler; using System.Reflection; namespace Utils.Avalon { public sealed class JScriptConverter : IMultiValueConverter, IValueConverter { private delegate object Evaluator(string code, object[] values); private static Evaluator evaluator; static JScriptConverter() { string source = @"import System; class Eval { public function Evaluate(code : String, values : Object[]) : Object { return eval(code); } }"; CompilerParameters cp = new CompilerParameters(); cp.GenerateInMemory = true; foreach (Assembly assembly in AppDomain.CurrentDomain.GetAssemblies()) if (System.IO.File.Exists(assembly.Location)) cp.ReferencedAssemblies.Add(assembly.Location); CompilerResults results = (new Microsoft.JScript.JScriptCodeProvider()) .CompileAssemblyFromSource(cp, source); Assembly result = results.CompiledAssembly; Type eval = result.GetType("Eval"); evaluator = (Delegate.CreateDelegate( typeof(Evaluator), Activator.CreateInstance(eval), "Evaluate") as Evaluator); } private bool trap = false; public bool TrapExceptions { get { return this.trap; } set { this.trap = true; } } public object Convert(object[] values, System.Type targetType, object parameter, System.Globalization.CultureInfo culture) { try { return evaluator(parameter.ToString(), values); } catch { if (trap) return null; else throw; } } public object Convert(object value, Type targetType, object parameter, System.Globalization.CultureInfo culture) { return Convert(new object[] { value }, targetType, parameter, culture); } public object[] ConvertBack(object value, System.Type[] targetTypes, object parameter, System.Globalization.CultureInfo culture) { throw new System.NotSupportedException(); } public object ConvertBack(object value, Type targetType, object parameter, System.Globalization.CultureInfo culture) { throw new System.NotSupportedException(); } } }