曾几何时,网络上曾经大传 PredicateBuilder 用于拼接两个 Lambda 表达式树。在对内存数据的筛选上面,其简洁方便的操作大放异彩,但是对数据库操作的不支持,一直是其硬伤。PredicateBuilder 拼接表达式的过程中,产生的 Invoke 表达式无法翻译成 SQL 语句,这是其根本原因。另外,Invoke 表达式编译后,形成的委托调用委托的方式,也是对性能的一种损耗。
当然,也有很多人对其做过改造,不过给人的感觉,总不是那么完美。以前,因为种种原因,我们不得不忍受这种问题。前几天,由于工作中用到了 Entity Framework 和动态拼接 Lambda 表达式树,为了避免全表查询的尴尬,硬着头皮研究改造 PredicateBuilder —— 各种纠结。还好,了解透彻原理后就很简单了。期间,用到了下面这个测试类:
public class Person { public int ID { get; set; } public string Name { get; set; } }
这里先说一下要达到的目的:
两个表达式:
Expression<Func<Person, bool>> a = p => p.ID == 3; Expression<Func<Person, bool>> b = c => c.Name == "张三";
拼接之后,想要达成如下形式:
Expression<Func<Person, bool>> x = y => y.ID == 3 && y.Name == "张三";
原始 PredicateBuilder 用的是 Invoke 表达式,也就是说没有解析待拼接的表达式。我们可以解析一下,看看能否达到效果。
首先来看相同点:
表达式 a :根是一个相等判断的二元表达式,其左子树是属性的调用的表达式,右子树是一个数字常量表达式。
表达式 b :根是一个相等判断的二元表达式,其左子树是属性的调用的表达式,右子树是一个数字常量表达式。
下面看不同:
表达式 a 参数名字是 p ,表达式 b 参数名字是 c —— 两者参数的名称不同,但是类型是相同的。
对于目标表达式,这里我第一印象是把右边表达式的参数,改成左边的,然后把左右两边表达式的 Body 拼接,加上左边的参数,这就是目标表达式树。经过分析,这种做法是可行的,下面上代码,代码不解释:
/// <summary> /// 谓词表达式构建器 /// </summary> public static class PredicateBuilder { #region Expression Joiner /// <summary> /// 创建一个值恒为 <c>true</c> 的表达式。 /// </summary> /// <typeparam name="T">表达式方法类型</typeparam> /// <returns>一个值恒为 <c>true</c> 的表达式。</returns> public static Expression<Func<T, bool>> True<T>() { return p => true; } /// <summary> /// 创建一个值恒为 <c>false</c> 的表达式。 /// </summary> /// <typeparam name="T">表达式方法类型</typeparam> /// <returns>一个值恒为 <c>false</c> 的表达式。</returns> public static Expression<Func<T, bool>> False<T>() { return f => false; } /// <summary> /// 使用 Expression.OrElse 的方式拼接两个 System.Linq.Expression。 /// </summary> /// <typeparam name="T">表达式方法类型</typeparam> /// <param name="left">左边的 System.Linq.Expression 。</param> /// <param name="right">右边的 System.Linq.Expression。</param> /// <returns>拼接完成的 System.Linq.Expression。</returns> public static Expression<T> Or<T>(this Expression<T> left, Expression<T> right) { return MakeBinary(left, right, Expression.OrElse); } /// <summary> /// 使用 Expression.AndAlso 的方式拼接两个 System.Linq.Expression。 /// </summary> /// <typeparam name="T">表达式方法类型</typeparam> /// <param name="left">左边的 System.Linq.Expression 。</param> /// <param name="right">右边的 System.Linq.Expression。</param> /// <returns>拼接完成的 System.Linq.Expression。</returns> public static Expression<T> And<T>(this Expression<T> left, Expression<T> right) { return MakeBinary(left, right, Expression.AndAlso); } /// <summary> /// 使用自定义的方式拼接两个 System.Linq.Expression。 /// </summary> /// <typeparam name="T">表达式方法类型</typeparam> /// <param name="left">左边的 System.Linq.Expression 。</param> /// <param name="right">右边的 System.Linq.Expression。</param> /// <returns>拼接完成的 System.Linq.Expression。</returns> public static Expression<T> MakeBinary<T>(this Expression<T> left, Expression<T> right, Func<Expression, Expression, Expression> func) { return MakeBinary((LambdaExpression)left, right, func) as Expression<T>; } /// <summary> /// 拼接两个 <paramref name="System.Linq.Expression"/> ,两个 <paramref name="System.Linq.Expression"/> 的参数必须完全相同。 /// </summary> /// <typeparam name="T">表达式中的元素类型</typeparam> /// <param name="left">左边的 <paramref name="System.Linq.Expression"/></param> /// <param name="right">右边的 <paramref name="System.Linq.Expression"/></param> /// <param name="func">表达式拼接的具体逻辑</param> /// <returns>拼接完成的 <paramref name="System.Linq.Expression"/></returns> public static LambdaExpression MakeBinary(this LambdaExpression left, LambdaExpression right, Func<Expression, Expression, Expression> func) { var data = Combinate(right.Parameters, left.Parameters).ToArray(); right = ParameterReplace.Replace(right, data) as LambdaExpression; return Expression.Lambda(func(left.Body, right.Body), left.Parameters.ToArray()); } #endregion #region Private Methods private static IEnumerable<KeyValuePair<T, T>> Combinate<T>(IEnumerable<T> left, IEnumerable<T> right) { var a = left.GetEnumerator(); var b = right.GetEnumerator(); while (a.MoveNext() && b.MoveNext()) yield return new KeyValuePair<T, T>(a.Current, b.Current); } #endregion } #region class: ParameterReplace internal sealed class ParameterReplace : ExpressionVisitor { public static Expression Replace(Expression e, IEnumerable<KeyValuePair<ParameterExpression, ParameterExpression>> paramList) { var item = new ParameterReplace(paramList); return item.Visit(e); } private Dictionary<ParameterExpression, ParameterExpression> parameters = null; public ParameterReplace(IEnumerable<KeyValuePair<ParameterExpression, ParameterExpression>> paramList) { parameters = paramList.ToDictionary(p => p.Key, p => p.Value, new ParameterEquality()); } protected override Expression VisitParameter(ParameterExpression p) { ParameterExpression result; if (parameters.TryGetValue(p, out result)) return result; else return base.VisitParameter(p); } #region class: ParameterEquality private class ParameterEquality : IEqualityComparer<ParameterExpression> { public bool Equals(ParameterExpression x, ParameterExpression y) { if (x == null || y == null) return false; return x.Type == y.Type; } public int GetHashCode(ParameterExpression obj) { if (obj == null) return 0; return obj.Type.GetHashCode(); } } #endregion } #endregion
如果是在 .Net 3.5 下运行的话,还少一个 ExpressionVisitor 类,在 .Net 4.0 就不需要了,顺便把代码贴上来,需要的就拿走吧:
View Code
#region class: ExpressionVisitor [DebuggerStepThrough] public abstract class ExpressionVisitor { protected ExpressionVisitor() { } protected virtual Expression Visit(Expression exp) { if (exp == null) return exp; switch (exp.NodeType) { case ExpressionType.Negate: case ExpressionType.NegateChecked: case ExpressionType.Not: case ExpressionType.Convert: case ExpressionType.ConvertChecked: case ExpressionType.ArrayLength: case ExpressionType.Quote: case ExpressionType.TypeAs: return this.VisitUnary((UnaryExpression)exp); case ExpressionType.Add: case ExpressionType.AddChecked: case ExpressionType.Subtract: case ExpressionType.SubtractChecked: case ExpressionType.Multiply: case ExpressionType.MultiplyChecked: case ExpressionType.Divide: case ExpressionType.Modulo: case ExpressionType.And: case ExpressionType.AndAlso: case ExpressionType.Or: case ExpressionType.OrElse: case ExpressionType.LessThan: case ExpressionType.LessThanOrEqual: case ExpressionType.GreaterThan: case ExpressionType.GreaterThanOrEqual: case ExpressionType.Equal: case ExpressionType.NotEqual: case ExpressionType.Coalesce: case ExpressionType.ArrayIndex: case ExpressionType.RightShift: case ExpressionType.LeftShift: case ExpressionType.ExclusiveOr: return this.VisitBinary((BinaryExpression)exp); case ExpressionType.TypeIs: return this.VisitTypeIs((TypeBinaryExpression)exp); case ExpressionType.Conditional: return this.VisitConditional((ConditionalExpression)exp); case ExpressionType.Constant: return this.VisitConstant((ConstantExpression)exp); case ExpressionType.Parameter: return this.VisitParameter((ParameterExpression)exp); case ExpressionType.MemberAccess: return this.VisitMemberAccess((MemberExpression)exp); case ExpressionType.Call: return this.VisitMethodCall((MethodCallExpression)exp); case ExpressionType.Lambda: return this.VisitLambda((LambdaExpression)exp); case ExpressionType.New: return this.VisitNew((NewExpression)exp); case ExpressionType.NewArrayInit: case ExpressionType.NewArrayBounds: return this.VisitNewArray((NewArrayExpression)exp); case ExpressionType.Invoke: return this.VisitInvocation((InvocationExpression)exp); case ExpressionType.MemberInit: return this.VisitMemberInit((MemberInitExpression)exp); case ExpressionType.ListInit: return this.VisitListInit((ListInitExpression)exp); default: throw new Exception(string.Format("Unhandled expression type: '{0}'", exp.NodeType)); } } protected virtual MemberBinding VisitBinding(MemberBinding binding) { switch (binding.BindingType) { case MemberBindingType.Assignment: return this.VisitMemberAssignment((MemberAssignment)binding); case MemberBindingType.MemberBinding: return this.VisitMemberMemberBinding((MemberMemberBinding)binding); case MemberBindingType.ListBinding: return this.VisitMemberListBinding((MemberListBinding)binding); default: throw new Exception(string.Format("Unhandled binding type '{0}'", binding.BindingType)); } } protected virtual ElementInit VisitElementInitializer(ElementInit initializer) { ReadOnlyCollection<Expression> arguments = this.VisitExpressionList(initializer.Arguments); if (arguments != initializer.Arguments) { return Expression.ElementInit(initializer.AddMethod, arguments); } return initializer; } protected virtual Expression VisitUnary(UnaryExpression u) { Expression operand = this.Visit(u.Operand); if (operand != u.Operand) { return Expression.MakeUnary(u.NodeType, operand, u.Type, u.Method); } return u; } protected virtual Expression VisitBinary(BinaryExpression b) { Expression left = this.Visit(b.Left); Expression right = this.Visit(b.Right); Expression conversion = this.Visit(b.Conversion); if (left != b.Left || right != b.Right || conversion != b.Conversion) { if (b.NodeType == ExpressionType.Coalesce && b.Conversion != null) return Expression.Coalesce(left, right, conversion as LambdaExpression); else return Expression.MakeBinary(b.NodeType, left, right, b.IsLiftedToNull, b.Method); } return b; } protected virtual Expression VisitTypeIs(TypeBinaryExpression b) { Expression expr = this.Visit(b.Expression); if (expr != b.Expression) { return Expression.TypeIs(expr, b.TypeOperand); } return b; } protected virtual Expression VisitConstant(ConstantExpression c) { return c; } protected virtual Expression VisitConditional(ConditionalExpression c) { Expression test = this.Visit(c.Test); Expression ifTrue = this.Visit(c.IfTrue); Expression ifFalse = this.Visit(c.IfFalse); if (test != c.Test || ifTrue != c.IfTrue || ifFalse != c.IfFalse) { return Expression.Condition(test, ifTrue, ifFalse); } return c; } protected virtual Expression VisitParameter(ParameterExpression p) { return p; } protected virtual Expression VisitMemberAccess(MemberExpression m) { Expression exp = this.Visit(m.Expression); if (exp != m.Expression) { return Expression.MakeMemberAccess(exp, m.Member); } return m; } protected virtual Expression VisitMethodCall(MethodCallExpression m) { Expression obj = this.Visit(m.Object); IEnumerable<Expression> args = this.VisitExpressionList(m.Arguments); if (obj != m.Object || args != m.Arguments) { return Expression.Call(obj, m.Method, args); } return m; } protected virtual ReadOnlyCollection<Expression> VisitExpressionList(ReadOnlyCollection<Expression> original) { List<Expression> list = null; for (int i = 0, n = original.Count; i < n; i++) { Expression p = this.Visit(original[i]); if (list != null) { list.Add(p); } else if (p != original[i]) { list = new List<Expression>(n); for (int j = 0; j < i; j++) { list.Add(original[j]); } list.Add(p); } } if (list != null) { return list.AsReadOnly(); } return original; } protected virtual MemberAssignment VisitMemberAssignment(MemberAssignment assignment) { Expression e = this.Visit(assignment.Expression); if (e != assignment.Expression) { return Expression.Bind(assignment.Member, e); } return assignment; } protected virtual MemberMemberBinding VisitMemberMemberBinding(MemberMemberBinding binding) { IEnumerable<MemberBinding> bindings = this.VisitBindingList(binding.Bindings); if (bindings != binding.Bindings) { return Expression.MemberBind(binding.Member, bindings); } return binding; } protected virtual MemberListBinding VisitMemberListBinding(MemberListBinding binding) { IEnumerable<ElementInit> initializers = this.VisitElementInitializerList(binding.Initializers); if (initializers != binding.Initializers) { return Expression.ListBind(binding.Member, initializers); } return binding; } protected virtual IEnumerable<MemberBinding> VisitBindingList(ReadOnlyCollection<MemberBinding> original) { List<MemberBinding> list = null; for (int i = 0, n = original.Count; i < n; i++) { MemberBinding b = this.VisitBinding(original[i]); if (list != null) { list.Add(b); } else if (b != original[i]) { list = new List<MemberBinding>(n); for (int j = 0; j < i; j++) { list.Add(original[j]); } list.Add(b); } } if (list != null) return list; return original; } protected virtual IEnumerable<ElementInit> VisitElementInitializerList(ReadOnlyCollection<ElementInit> original) { List<ElementInit> list = null; for (int i = 0, n = original.Count; i < n; i++) { ElementInit init = this.VisitElementInitializer(original[i]); if (list != null) { list.Add(init); } else if (init != original[i]) { list = new List<ElementInit>(n); for (int j = 0; j < i; j++) { list.Add(original[j]); } list.Add(init); } } if (list != null) return list; return original; } protected virtual Expression VisitLambda(LambdaExpression lambda) { Expression body = this.Visit(lambda.Body); if (body != lambda.Body) { return Expression.Lambda(lambda.Type, body, lambda.Parameters); } return lambda; } protected virtual NewExpression VisitNew(NewExpression nex) { IEnumerable<Expression> args = this.VisitExpressionList(nex.Arguments); if (args != nex.Arguments) { if (nex.Members != null) return Expression.New(nex.Constructor, args, nex.Members); else return Expression.New(nex.Constructor, args); } return nex; } protected virtual Expression VisitMemberInit(MemberInitExpression init) { NewExpression n = this.VisitNew(init.NewExpression); IEnumerable<MemberBinding> bindings = this.VisitBindingList(init.Bindings); if (n != init.NewExpression || bindings != init.Bindings) { return Expression.MemberInit(n, bindings); } return init; } protected virtual Expression VisitListInit(ListInitExpression init) { NewExpression n = this.VisitNew(init.NewExpression); IEnumerable<ElementInit> initializers = this.VisitElementInitializerList(init.Initializers); if (n != init.NewExpression || initializers != init.Initializers) { return Expression.ListInit(n, initializers); } return init; } protected virtual Expression VisitNewArray(NewArrayExpression na) { IEnumerable<Expression> exprs = this.VisitExpressionList(na.Expressions); if (exprs != na.Expressions) { if (na.NodeType == ExpressionType.NewArrayInit) { return Expression.NewArrayInit(na.Type.GetElementType(), exprs); } else { return Expression.NewArrayBounds(na.Type.GetElementType(), exprs); } } return na; } protected virtual Expression VisitInvocation(InvocationExpression iv) { IEnumerable<Expression> args = this.VisitExpressionList(iv.Arguments); Expression expr = this.Visit(iv.Expression); if (args != iv.Arguments || expr != iv.Expression) { return Expression.Invoke(expr, args); } return iv; } } #endregion
如果您觉得不错,就帮忙点下推荐,谢谢。当然,路过打酱油也是欢迎的,呵呵。