using System;
using Cosmos.IL2CPU.ILOpCodes;
using CPUx86 = Cosmos.IL2CPU.X86;
using CPU = Cosmos.IL2CPU.X86;
using Cosmos.IL2CPU;
namespace Cosmos.IL2CPU.X86.IL
{
///
/// Tests whether an object reference (type O) is an instance of a particular class.
///
[Cosmos.IL2CPU.OpCode( ILOpCode.Code.Isinst )]
public class Isinst : ILOp
{
public Isinst( Cosmos.IL2CPU.Assembler aAsmblr )
: base( aAsmblr )
{
}
public override void Execute( MethodInfo aMethod, ILOpCode aOpCode )
{
OpType xType = ( OpType )aOpCode;
string xTypeID = GetTypeIDLabel(xType.Value);
string mReturnNullLabel = GetLabel( aMethod, aOpCode ) + "_ReturnNull";
new CPUx86.Move { DestinationReg = CPUx86.Registers.EAX, SourceReg = CPUx86.Registers.ESP, SourceIsIndirect = true };
new CPUx86.Compare { DestinationReg = CPUx86.Registers.EAX, SourceValue = 0 };
new CPUx86.ConditionalJump { Condition = CPUx86.ConditionalTestEnum.Zero, DestinationLabel = mReturnNullLabel };
new CPUx86.Push { DestinationReg = CPUx86.Registers.EAX, DestinationIsIndirect = true };
new CPUx86.Push { DestinationRef = ElementReference.New( xTypeID ), DestinationIsIndirect = true };
Assembler.Stack.Push( new StackContents.Item( 4, typeof( object ) ) );
Assembler.Stack.Push( new StackContents.Item( 4, typeof( object ) ) );
System.Reflection.MethodBase xMethodIsInstance = ReflectionUtilities.GetMethodBase( typeof( VTablesImpl ), "IsInstance", "System.Int32", "System.Int32" );
new Call( Assembler ).Execute( aMethod, new OpMethod( ILOpCode.Code.Call, 0, 0, xMethodIsInstance) );
new Label( GetLabel( aMethod, aOpCode ) + "_After_IsInstance_Call" );
Assembler.Stack.Pop();
new CPUx86.Pop { DestinationReg = CPUx86.Registers.EAX };
new CPUx86.Compare { DestinationReg = CPUx86.Registers.EAX, SourceValue = 0 };
new CPUx86.ConditionalJump { Condition = CPUx86.ConditionalTestEnum.Equal, DestinationLabel = mReturnNullLabel };
new CPUx86.Add { DestinationReg = CPUx86.Registers.ESP, SourceValue = 4 };
new CPUx86.Push { DestinationValue = 1 };
new CPUx86.Jump { DestinationLabel = GetLabel(aMethod, aOpCode.NextPosition) };
new Label( mReturnNullLabel );
new CPUx86.Add { DestinationReg = CPUx86.Registers.ESP, SourceValue = 4 };
new CPUx86.Push { DestinationValue = 0 };
}
// using System;
// using System.Collections.Generic;
// using System.IO;
// using CPU = Cosmos.IL2CPU.X86;
// using CPUx86 = Cosmos.IL2CPU.X86;
// using System.Reflection;
// using Cosmos.IL2CPU.X86;
// using Cosmos.IL2CPU.Compiler;
//
// namespace Cosmos.IL2CPU.IL.X86 {
// [OpCode(OpCodeEnum.Isinst)]
// public class Isinst : Op {
// private string mTypeId;
// private string mThisLabel;
// private string mNextOpLabel;
// private int mCurrentILOffset;
// private bool mDebugMode;
//
// //public static void ScanOp(ILReader aReader,
// // MethodInformation aMethodInfo,
// // SortedList aMethodData) {
// // Type xType = aReader.OperandValueType;
// // if (xType == null) {
// // throw new Exception("Unable to determine Type!");
// // }
// // Engine.RegisterType(xType);
// // Call.ScanOp(Engine.GetMethodBase(typeof(VTablesImpl),
// // "IsInstance",
// // "System.Int32",
// // "System.Int32"));
// // Newobj.ScanOp(typeof(InvalidCastException).GetConstructor(new Type[0]));
// //}
//
// public Isinst(ILReader aReader,
// MethodInformation aMethodInfo)
// : base(aReader,
// aMethodInfo) {
// Type xType = aReader.OperandValueType;
// if (xType == null) {
// throw new Exception("Unable to determine Type!");
// }
// mTypeDef = xType;
// mThisLabel = GetInstructionLabel(aReader.Position);
// mNextOpLabel = GetInstructionLabel(aReader.NextPosition);
// mCurrentILOffset = (int)aReader.Position;
// mDebugMode = aMethodInfo.DebugMode;
// }
// private Type mTypeDef;
// public override void DoAssemble() {
// mTypeId = GetService().GetTypeIdLabel(mTypeDef);
// string mReturnNullLabel = mThisLabel + "_ReturnNull";
// new CPUx86.Move { DestinationReg = CPUx86.Registers.EAX, SourceReg = CPUx86.Registers.ESP, SourceIsIndirect = true };
// new CPUx86.Compare { DestinationReg = CPUx86.Registers.EAX, SourceValue = 0 };
// new CPUx86.ConditionalJump { Condition = CPUx86.ConditionalTestEnum.Zero, DestinationLabel = mReturnNullLabel };
// new CPUx86.Push { DestinationReg = CPUx86.Registers.EAX, DestinationIsIndirect = true };
// new CPUx86.Push { DestinationRef = ElementReference.New(mTypeId), DestinationIsIndirect=true };
// Assembler.Stack.Push(new StackContent(4,
// typeof(object)));
// Assembler.Stack.Push(new StackContent(4,
// typeof(object)));
// MethodBase xMethodIsInstance = ReflectionUtilities.GetMethodBase(typeof(VTablesImpl),
// "IsInstance",
// "System.Int32",
// "System.Int32");
// Op xOp = new Call(xMethodIsInstance,
// (uint)mCurrentILOffset,
// mDebugMode,
// mThisLabel+ "_After_IsInstance_Call");
// xOp.Assembler = Assembler;
// xOp.SetServiceProvider(GetServiceProvider());
// xOp.Assemble();
// new Label(mThisLabel + "_After_IsInstance_Call");
// Assembler.Stack.Pop();
// new CPUx86.Pop { DestinationReg = CPUx86.Registers.EAX };
// new CPUx86.Compare { DestinationReg = CPUx86.Registers.EAX, SourceValue = 0 };
// new CPUx86.ConditionalJump { Condition = CPUx86.ConditionalTestEnum.NotEqual, DestinationLabel = mNextOpLabel };
// new Label(mReturnNullLabel);
// new CPUx86.Add { DestinationReg = CPUx86.Registers.ESP, SourceValue = 4 };
// new CPUx86.Push { DestinationValue = 0 };
// }
// }
// }
}
}