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- using System;
- using System.Collections.Generic;
- using System.Linq;
- using System.Text;
- using System.Linq.Expressions;
- using System.Reflection;
-
- namespace Net3_Proxy
- {
- public static class ExpressionEx
- {
- internal static ExpressionType ExprT(this ExpressionTypeEx ex)
- => (ExpressionType)ex;
- internal static ExpressionTypeEx ExprTEx(this ExpressionType ex)
- => (ExpressionTypeEx)ex;
-
- private static void Validate(Type type, bool allowByRef)
- {
- if (type == null)
- throw new ArgumentNullException(nameof(type));
- TypeUtils.ValidateType(type, nameof(type), allowByRef, false);
- if (type == typeof(void))
- throw new ArgumentException("Argument cannot be of type void", nameof(type));
- }
-
- private static void RequiresCanWrite(Expression expression, string paramName)
- {
- if (expression == null)
- {
- throw new ArgumentNullException(paramName);
- }
- ExpressionType nodeType = expression.NodeType;
- if (nodeType != ExpressionType.MemberAccess)
- {
- if (nodeType == ExpressionType.Parameter)
- return;
- }
- else
- {
- MemberInfo member = ((MemberExpression)expression).Member;
- if (member is PropertyInfo propertyInfo)
- {
- if (propertyInfo.CanWrite)
- {
- return;
- }
- }
- else
- {
- FieldInfo fieldInfo = (FieldInfo)member;
- if (!fieldInfo.IsInitOnly && !fieldInfo.IsLiteral)
- {
- return;
- }
- }
- }
- throw new ArgumentException("Expression must be writeable", paramName);
- }
-
- public static void RequiresCanRead(Expression expression, string paramName, int idx = -1)
- {
- if (expression == null)
- throw new ArgumentNullException(TypeUtils.GetParamName(paramName, idx));
- ExpressionType nodeType = expression.NodeType;
- if (nodeType == ExpressionType.MemberAccess)
- {
- if (((MemberExpression)expression).Member is PropertyInfo propertyInfo && !propertyInfo.CanRead)
- {
- throw new ArgumentException("Expression must be readable", TypeUtils.GetParamName(paramName, idx));
- }
- }
- }
-
- public static VariableExpression Variable(Type type, string name = null)
- {
- Validate(type, false);
- return new VariableExpression(type, name);
- }
-
- public static AssignExpression Assign(Expression left, Expression right)
- {
- RequiresCanWrite(left, nameof(left));
- RequiresCanRead(right, nameof(right));
- TypeUtils.ValidateType(left.Type, nameof(left), true, true);
- TypeUtils.ValidateType(right.Type, nameof(right), true, true);
- if (!TypeUtils.AreReferenceAssignable(left.Type, right.Type))
- throw new ArgumentException($"Expression of type '{left.Type}' cannot be used for assignment to type '{right.Type}'");
- if (left.NodeType.ExprTEx() != ExpressionTypeEx.Variable)
- throw new NotSupportedException("Non-variable left hand operands to assignment is currently not supported");
- return new AssignExpression(left, right);
- }
-
- public static Expression Block(IEnumerable<VariableExpression> vars, params Expression[] body) => Block(vars, body);
- public static Expression Block(IEnumerable<VariableExpression> vars, IEnumerable<Expression> body)
- { // this is probably terrible performance-wise when executing, but i'm not giving up BlockExpression damnit!
- var varSet = new HashSet<VariableExpression>(vars);
- var bodyArr = body.ToArray();
- var finalExprList = new Stack<(List<Expression> list, BlockParseStackInfo info)>();
- var remaining = bodyArr.Length;
-
- var varParams = new Dictionary<VariableExpression, ParameterExpression>(varSet.Count);
-
- finalExprList.Push((new List<Expression>(remaining), default(BlockParseStackInfo)));
-
- while (remaining > 0)
- {
- var (list, info) = finalExprList.Pop();
- var targetExpr = bodyArr[bodyArr.Length - remaining--];
-
- if (targetExpr.NodeType.ExprTEx() == ExpressionTypeEx.Assign)
- {
- var assign = (AssignExpression)targetExpr;
- var left = (VariableExpression)assign.Left;
- var right = assign.Right;
-
- var param = Expression.Parameter(left.Type, left.Name);
-
- finalExprList.Push((list, info));
- finalExprList.Push((new List<Expression>(remaining), new BlockParseStackInfo
- {
- ValueExpr = BlockVisitReplaceVariables(right, varParams), Param = param
- }));
-
- varParams.Add(left, param);
- continue;
- }
-
- list.Add(BlockVisitReplaceVariables(targetExpr, varParams));
- finalExprList.Push((list, info));
- }
-
- var funcType = typeof(Func<>);
- Expression topExpr = null;
-
- while (finalExprList.Count > 0)
- {
- var (list, info) = finalExprList.Pop();
- // there is an optimization opportunity for consecutive assignments, but it needs to make sure they don't depend on each other
- if (topExpr != null) list.Add(topExpr);
-
-
- Expression last = null;
- Type lastType = null;
- var rest = new List<Expression<Action>>(list.Count);
-
- if (list.Count == 0)
- list.Add(info.Param);
-
- for (int i = 0; i < list.Count; i++)
- {
- var expr = list[i];
- if (i + 1 == list.Count)
- {
- var ty = expr.Type;
- if (ty == typeof(void))
- rest.Add(Expression.Lambda<Action>(expr));
- else
- {
- lastType = ty;
- var func = funcType.MakeGenericType(ty);
- last = Expression.Lambda(func, expr);
- }
- }
- else
- rest.Add(Expression.Lambda<Action>(expr));
- }
-
- Expression topBody;
- if (lastType != null)
- {
- var execSeq = ExecuteSequenceTyped.MakeGenericMethod(lastType);
- topBody = Expression.Call(null, execSeq, last, Expression.NewArrayInit(typeof(Action), rest.Cast<Expression>()));
- }
- else
- topBody = Expression.Call(null, ExecuteSequenceVoid, Expression.NewArrayInit(typeof(Action), rest.Cast<Expression>()));
-
- if (info.Param != null && info.ValueExpr != null)
- topExpr = Expression.Invoke(Expression.Lambda(topBody, info.Param), info.ValueExpr);
- else
- topExpr = topBody;
- }
-
- return topExpr;
- }
-
- /*
- * {
- * Console.WriteLine("ho");
- * int i = 3;
- * Console.WriteLine(i);
- * i // return last
- * }
- *
- * ExecuteSequence<int>(
- * () => (i =>
- * ExecuteSequence<int>(
- * () => i,
- * () => Console.WriteLine(i)
- * )
- * )(3),
- * () => Console.WriteLine("ho")
- * )
- */
-
- private struct BlockParseStackInfo
- {
- public Expression ValueExpr;
- public ParameterExpression Param;
- }
-
- private static Expression BlockVisitReplaceVariables(Expression expr, Dictionary<VariableExpression, ParameterExpression> mapping)
- {
- var binary = expr as BinaryExpression;
- var unary = expr as UnaryExpression;
- switch (expr.NodeType)
- {
- case ExpressionType.Add:
- return Expression.Add(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.AddChecked:
- return Expression.AddChecked(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.And:
- return Expression.And(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.AndAlso:
- return Expression.AndAlso(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.ArrayIndex:
- return Expression.ArrayIndex(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Coalesce:
- return Expression.Coalesce(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Divide:
- return Expression.Divide(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Equal:
- return Expression.Equal(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.ExclusiveOr:
- return Expression.ExclusiveOr(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.GreaterThan:
- return Expression.GreaterThan(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.GreaterThanOrEqual:
- return Expression.GreaterThanOrEqual(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.LeftShift:
- return Expression.LeftShift(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.LessThan:
- return Expression.LessThan(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.LessThanOrEqual:
- return Expression.LessThanOrEqual(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Modulo:
- return Expression.Modulo(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Multiply:
- return Expression.Multiply(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.MultiplyChecked:
- return Expression.MultiplyChecked(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.NotEqual:
- return Expression.NotEqual(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Or:
- return Expression.Or(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.OrElse:
- return Expression.OrElse(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Power:
- return Expression.Power(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.RightShift:
- return Expression.RightShift(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.Subtract:
- return Expression.Subtract(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.SubtractChecked:
- return Expression.SubtractChecked(BlockVisitReplaceVariables(binary.Left, mapping), BlockVisitReplaceVariables(binary.Right, mapping));
- case ExpressionType.ArrayLength:
- return Expression.ArrayLength(BlockVisitReplaceVariables(unary.Operand, mapping));
- case ExpressionType.Negate:
- return Expression.Negate(BlockVisitReplaceVariables(unary.Operand, mapping));
- case ExpressionType.UnaryPlus:
- return Expression.UnaryPlus(BlockVisitReplaceVariables(unary.Operand, mapping));
- case ExpressionType.NegateChecked:
- return Expression.NegateChecked(BlockVisitReplaceVariables(unary.Operand, mapping));
- case ExpressionType.Not:
- return Expression.Not(BlockVisitReplaceVariables(unary.Operand, mapping));
- case ExpressionType.TypeAs:
- return Expression.TypeAs(BlockVisitReplaceVariables(unary.Operand, mapping), unary.Type);
- case ExpressionType.Call:
- var callExpr = expr as MethodCallExpression;
- return Expression.Call(BlockVisitReplaceVariables(callExpr.Object, mapping),
- callExpr.Method, callExpr.Arguments.Select(a => BlockVisitReplaceVariables(a, mapping)));
- case ExpressionType.Conditional:
- var condExpr = expr as ConditionalExpression;
- return Expression.Condition(BlockVisitReplaceVariables(condExpr.Test, mapping),
- BlockVisitReplaceVariables(condExpr.IfTrue, mapping), BlockVisitReplaceVariables(condExpr.IfFalse, mapping));
- case ExpressionType.Constant: return expr; // constants should be unchanged
- case ExpressionType.Convert:
- return Expression.Convert(BlockVisitReplaceVariables(unary.Operand, mapping), unary.Type, unary.Method);
- case ExpressionType.ConvertChecked:
- return Expression.ConvertChecked(BlockVisitReplaceVariables(unary.Operand, mapping), unary.Type, unary.Method);
- case ExpressionType.Invoke:
- var invokeExpr = expr as InvocationExpression;
- return Expression.Invoke(BlockVisitReplaceVariables(invokeExpr.Expression, mapping),
- invokeExpr.Arguments.Select(e => BlockVisitReplaceVariables(e, mapping)));
- case ExpressionType.Lambda:
- var lambdaExpr = expr as LambdaExpression;
- return Expression.Lambda(lambdaExpr.Type, BlockVisitReplaceVariables(lambdaExpr.Body, mapping), lambdaExpr.Parameters);
- case ExpressionType.ListInit:
- var listInitExpr = expr as ListInitExpression;
- return Expression.ListInit((NewExpression)BlockVisitReplaceVariables(listInitExpr.NewExpression, mapping),
- listInitExpr.Initializers.Select(i => i.AddMethod).First(),
- listInitExpr.Initializers.SelectMany(i => i.Arguments)
- .Select(e => BlockVisitReplaceVariables(e, mapping)));
- case ExpressionType.MemberAccess:
- var memberExpr = expr as MemberExpression;
- return Expression.MakeMemberAccess(BlockVisitReplaceVariables(memberExpr.Expression, mapping), memberExpr.Member);
- case ExpressionType.MemberInit:
- var memberInitExpr = expr as MemberInitExpression;
- return Expression.MemberInit((NewExpression)BlockVisitReplaceVariables(memberInitExpr.NewExpression, mapping),
- memberInitExpr.Bindings);
- case ExpressionType.New:
- var newExpr = expr as NewExpression;
- return Expression.New(newExpr.Constructor,
- newExpr.Arguments.Select(e => BlockVisitReplaceVariables(e, mapping)),
- newExpr.Members);
- case ExpressionType.NewArrayInit:
- var newArrayInitExpr = expr as NewArrayExpression;
- return Expression.NewArrayInit(newArrayInitExpr.Type,
- newArrayInitExpr.Expressions.Select(e => BlockVisitReplaceVariables(e, mapping)));
- case ExpressionType.NewArrayBounds:
- var newArrayBoundsExpr = expr as NewArrayExpression;
- return Expression.NewArrayBounds(newArrayBoundsExpr.Type,
- newArrayBoundsExpr.Expressions.Select(e => BlockVisitReplaceVariables(e, mapping)));
- case ExpressionType.Parameter: return expr; // like constant
- case ExpressionType.Quote:
- return Expression.Quote(BlockVisitReplaceVariables(unary.Operand, mapping));
- case ExpressionType.TypeIs:
- var typeIsExpr = expr as TypeBinaryExpression;
- return Expression.TypeIs(BlockVisitReplaceVariables(typeIsExpr.Expression, mapping), typeIsExpr.TypeOperand);
- default:
- switch (expr.NodeType.ExprTEx())
- {
- case ExpressionTypeEx.Variable:
- var varExpr = expr as VariableExpression;
- if (mapping.TryGetValue(varExpr, out var paramExpr))
- return paramExpr;
- else
- return varExpr; // not in scope in the current context, might be later
- case ExpressionTypeEx.Assign:
- throw new InvalidOperationException("Assign expression must appear directly inside a block expression");
- default:
- throw new ArgumentException($"Unhandled expression type '{expr.NodeType}'");
- }
- }
- }
-
- private static readonly MethodInfo ExecuteSequenceVoid = typeof(ExpressionEx).GetMethod(nameof(ExecuteSequence),
- BindingFlags.Static | BindingFlags.NonPublic, null, new[] { typeof(Action[]) }, null);
- private static void ExecuteSequence(params Action[] exec)
- {
- foreach (var act in exec) act();
- }
- private static readonly MethodInfo ExecuteSequenceTyped = typeof(ExpressionEx).GetMethod(nameof(ExecuteSequence),
- BindingFlags.Static | BindingFlags.NonPublic, null, new[] { typeof(Func<>), typeof(Action[]) }, null);
- private static T ExecuteSequence<T>(Func<T> last, params Action[] first)
- {
- ExecuteSequence(first);
- return last();
- }
- }
-
- internal enum ExpressionTypeEx
- {
- Variable = 46,
- Assign = 47
- }
-
- public class VariableExpression : Expression, IEquatable<VariableExpression>
- {
- public string Name { get; }
-
- internal VariableExpression(Type varType, string name) : base(ExpressionTypeEx.Variable.ExprT(), varType)
- => Name = name;
-
- public bool Equals(VariableExpression other)
- => Name == other.Name && Type == other.Type;
- }
-
- public class AssignExpression : Expression
- {
- public Expression Left { get; }
- public Expression Right { get; }
-
- internal AssignExpression(Expression left, Expression right) : base(ExpressionTypeEx.Assign.ExprT(), left.Type)
- {
- Left = left;
- Right = right;
- }
- }
- }
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