|
public static LeftShiftAssign ( |
||
| left | An |
|
| right | An |
|
| return | ||
// Pseudocode:
//string input =>
//{
// R result = 0;
// for (int i = input.Length - 1; i >= 0; i--)
// {
// result <<= 6;
// var m = _invMap[input[i]];
// if (m == 0xff)
// return default(ConversionResult<R>);
// result += m;
// }
// return new ConversionResult<R>(result);
//}
private LambdaExpression fromLambda(Type to)
{
var stringthis = typeof(string).GetTypeInfo().DeclaredProperties.First(p => p.GetIndexParameters().Length == 1 && p.GetIndexParameters()[0].ParameterType == typeof(int));
var input = Ex.Parameter(typeof(string), "input");
var result = Ex.Parameter(to, "result");
var i = Ex.Parameter(typeof(int), "i");
var m = Ex.Parameter(typeof(byte), "m");
var loopstart = Ex.Label("loopstart");
var end = Ex.Label(typeof(ConversionResult <>).MakeGenericType(to), "end");
var loop = Ex.Block(
Ex.Label(loopstart),
Ex.IfThen(Ex.MakeBinary(ExpressionType.LessThan, i, Ex.Constant(0)),
Ex.Goto(end, Result(to, result))),
Ex.LeftShiftAssign(result, Ex.Constant(6)),
Ex.Assign(m, Ex.ArrayIndex(Ex.Constant(_invMap), Ex.Convert(Ex.MakeIndex(input, stringthis, new[] { i }), typeof(int)))),
Ex.IfThen(Ex.MakeBinary(ExpressionType.Equal, m, Ex.Constant((byte)0xff)),
Ex.Goto(end, NoResult(to))),
Ex.AddAssign(result, Ex.Convert(m, result.Type)),
Ex.PostDecrementAssign(i),
Ex.Goto(loopstart));
var block = Ex.Block(new[] { result, i, m },
Ex.Assign(result, Ex.Convert(Ex.Constant(0), to)),
Ex.Assign(i, Ex.MakeBinary(ExpressionType.Subtract, Ex.Property(input, nameof(string.Length)), Ex.Constant(1))),
loop,
Ex.Label(end, NoResult(to)));
return(Ex.Lambda(block, input));
}
private BinaryExpression BinaryExpression(
ExpressionType nodeType, System.Type type, JObject obj)
{
var left = this.Prop(obj, "left", this.Expression);
var right = this.Prop(obj, "right", this.Expression);
var method = this.Prop(obj, "method", this.Method);
var conversion = this.Prop(obj, "conversion", this.LambdaExpression);
var liftToNull = this.Prop(obj, "liftToNull").Value <bool>();
switch (nodeType)
{
case ExpressionType.Add: return(Expr.Add(left, right, method));
case ExpressionType.AddAssign: return(Expr.AddAssign(left, right, method, conversion));
case ExpressionType.AddAssignChecked: return(Expr.AddAssignChecked(left, right, method, conversion));
case ExpressionType.AddChecked: return(Expr.AddChecked(left, right, method));
case ExpressionType.And: return(Expr.And(left, right, method));
case ExpressionType.AndAlso: return(Expr.AndAlso(left, right, method));
case ExpressionType.AndAssign: return(Expr.AndAssign(left, right, method, conversion));
case ExpressionType.ArrayIndex: return(Expr.ArrayIndex(left, right));
case ExpressionType.Assign: return(Expr.Assign(left, right));
case ExpressionType.Coalesce: return(Expr.Coalesce(left, right, conversion));
case ExpressionType.Divide: return(Expr.Divide(left, right, method));
case ExpressionType.DivideAssign: return(Expr.DivideAssign(left, right, method, conversion));
case ExpressionType.Equal: return(Expr.Equal(left, right, liftToNull, method));
case ExpressionType.ExclusiveOr: return(Expr.ExclusiveOr(left, right, method));
case ExpressionType.ExclusiveOrAssign: return(Expr.ExclusiveOrAssign(left, right, method, conversion));
case ExpressionType.GreaterThan: return(Expr.GreaterThan(left, right, liftToNull, method));
case ExpressionType.GreaterThanOrEqual: return(Expr.GreaterThanOrEqual(left, right, liftToNull, method));
case ExpressionType.LeftShift: return(Expr.LeftShift(left, right, method));
case ExpressionType.LeftShiftAssign: return(Expr.LeftShiftAssign(left, right, method, conversion));
case ExpressionType.LessThan: return(Expr.LessThan(left, right, liftToNull, method));
case ExpressionType.LessThanOrEqual: return(Expr.LessThanOrEqual(left, right, liftToNull, method));
case ExpressionType.Modulo: return(Expr.Modulo(left, right, method));
case ExpressionType.ModuloAssign: return(Expr.ModuloAssign(left, right, method, conversion));
case ExpressionType.Multiply: return(Expr.Multiply(left, right, method));
case ExpressionType.MultiplyAssign: return(Expr.MultiplyAssign(left, right, method, conversion));
case ExpressionType.MultiplyAssignChecked: return(Expr.MultiplyAssignChecked(left, right, method, conversion));
case ExpressionType.MultiplyChecked: return(Expr.MultiplyChecked(left, right, method));
case ExpressionType.NotEqual: return(Expr.NotEqual(left, right, liftToNull, method));
case ExpressionType.Or: return(Expr.Or(left, right, method));
case ExpressionType.OrAssign: return(Expr.OrAssign(left, right, method, conversion));
case ExpressionType.OrElse: return(Expr.OrElse(left, right, method));
case ExpressionType.Power: return(Expr.Power(left, right, method));
case ExpressionType.PowerAssign: return(Expr.PowerAssign(left, right, method, conversion));
case ExpressionType.RightShift: return(Expr.RightShift(left, right, method));
case ExpressionType.RightShiftAssign: return(Expr.RightShiftAssign(left, right, method, conversion));
case ExpressionType.Subtract: return(Expr.Subtract(left, right, method));
case ExpressionType.SubtractAssign: return(Expr.SubtractAssign(left, right, method, conversion));
case ExpressionType.SubtractAssignChecked: return(Expr.SubtractAssignChecked(left, right, method, conversion));
case ExpressionType.SubtractChecked: return(Expr.SubtractChecked(left, right, method));
default: throw new NotSupportedException();
}
}
public void BinaryExpression_LeftShiftAssign() => UnsupportedBinaryExpr(Property.Id, id => Expr.LeftShiftAssign(id, Expr.Constant(3)), ExpressionType.LeftShiftAssign);
