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|
/*
* Copyright (c) Contributors, http://opensimulator.org/
* See CONTRIBUTORS.TXT for a full list of copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the OpenSim Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/* Original code: Tedd Hansen */
using System;
using System.Collections;
using System.Collections.Generic;
using System.IO;
using System.Reflection;
using System.Reflection.Emit;
using System.Text;
namespace OpenSim.Grid.ScriptEngine.DotNetEngine.Compiler.LSO
{
internal partial class LSO_Parser
{
private string FileName;
private FileStream fs;
private BinaryReader br;
internal LSO_Struct.Header myHeader;
internal Dictionary<long, LSO_Struct.StaticBlock> StaticBlocks = new Dictionary<long, LSO_Struct.StaticBlock>();
//private System.Collections.Hashtable StaticBlocks = new System.Collections.Hashtable();
private TypeBuilder typeBuilder;
private List<string> EventList = new List<string>();
public LSO_Parser(string _FileName, TypeBuilder _typeBuilder)
{
FileName = _FileName;
typeBuilder = _typeBuilder;
}
internal void OpenFile()
{
// Open
Common.SendToDebug("Opening filename: " + FileName);
fs = File.Open(FileName, FileMode.Open, FileAccess.Read, FileShare.Read);
br = new BinaryReader(fs, Encoding.BigEndianUnicode);
}
internal void CloseFile()
{
// Close
br.Close();
fs.Close();
}
/// <summary>
/// Parse LSO file.
/// </summary>
public void Parse()
{
// The LSO Format consist of 6 major blocks: header, statics, functions, states, heap, and stack.
// HEADER BLOCK
Common.SendToDebug("Reading HEADER BLOCK at: 0");
fs.Seek(0, SeekOrigin.Begin);
myHeader = new LSO_Struct.Header();
myHeader.TM = BitConverter.ToUInt32(br_read(4), 0);
myHeader.IP = BitConverter.ToUInt32(br_read(4), 0);
myHeader.VN = BitConverter.ToUInt32(br_read(4), 0);
myHeader.BP = BitConverter.ToUInt32(br_read(4), 0);
myHeader.SP = BitConverter.ToUInt32(br_read(4), 0);
myHeader.HR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.HP = BitConverter.ToUInt32(br_read(4), 0);
myHeader.CS = BitConverter.ToUInt32(br_read(4), 0);
myHeader.NS = BitConverter.ToUInt32(br_read(4), 0);
myHeader.CE = BitConverter.ToUInt32(br_read(4), 0);
myHeader.IE = BitConverter.ToUInt32(br_read(4), 0);
myHeader.ER = BitConverter.ToUInt32(br_read(4), 0);
myHeader.FR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.SLR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.GVR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.GFR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.PR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.ESR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.SR = BitConverter.ToUInt32(br_read(4), 0);
myHeader.NCE = BitConverter.ToUInt64(br_read(8), 0);
myHeader.NIE = BitConverter.ToUInt64(br_read(8), 0);
myHeader.NER = BitConverter.ToUInt64(br_read(8), 0);
// Print Header Block to debug
Common.SendToDebug("TM - Top of memory (size): " + myHeader.TM);
Common.SendToDebug("IP - Instruction Pointer (0=not running): " + myHeader.IP);
Common.SendToDebug("VN - Version number: " + myHeader.VN);
Common.SendToDebug("BP - Local Frame Pointer: " + myHeader.BP);
Common.SendToDebug("SP - Stack Pointer: " + myHeader.SP);
Common.SendToDebug("HR - Heap Register: " + myHeader.HR);
Common.SendToDebug("HP - Heap Pointer: " + myHeader.HP);
Common.SendToDebug("CS - Current State: " + myHeader.CS);
Common.SendToDebug("NS - Next State: " + myHeader.NS);
Common.SendToDebug("CE - Current Events: " + myHeader.CE);
Common.SendToDebug("IE - In Event: " + myHeader.IE);
Common.SendToDebug("ER - Event Register: " + myHeader.ER);
Common.SendToDebug("FR - Fault Register: " + myHeader.FR);
Common.SendToDebug("SLR - Sleep Register: " + myHeader.SLR);
Common.SendToDebug("GVR - Global Variable Register: " + myHeader.GVR);
Common.SendToDebug("GFR - Global Function Register: " + myHeader.GFR);
Common.SendToDebug("PR - Parameter Register: " + myHeader.PR);
Common.SendToDebug("ESR - Energy Supply Register: " + myHeader.ESR);
Common.SendToDebug("SR - State Register: " + myHeader.SR);
Common.SendToDebug("NCE - 64-bit Current Events: " + myHeader.NCE);
Common.SendToDebug("NIE - 64-bit In Events: " + myHeader.NIE);
Common.SendToDebug("NER - 64-bit Event Register: " + myHeader.NER);
Common.SendToDebug("Read position when exiting HEADER BLOCK: " + fs.Position);
// STATIC BLOCK
Common.SendToDebug("Reading STATIC BLOCK at: " + myHeader.GVR);
fs.Seek(myHeader.GVR, SeekOrigin.Begin);
int StaticBlockCount = 0;
// Read function blocks until we hit GFR
while (fs.Position < myHeader.GFR)
{
StaticBlockCount++;
long startReadPos = fs.Position;
Common.SendToDebug("Reading Static Block " + StaticBlockCount + " at: " + startReadPos);
//fs.Seek(myHeader.GVR, SeekOrigin.Begin);
LSO_Struct.StaticBlock myStaticBlock = new LSO_Struct.StaticBlock();
myStaticBlock.Static_Chunk_Header_Size = BitConverter.ToUInt32(br_read(4), 0);
myStaticBlock.ObjectType = br_read(1)[0];
Common.SendToDebug("Static Block ObjectType: " +
((LSO_Enums.Variable_Type_Codes) myStaticBlock.ObjectType).ToString());
myStaticBlock.Unknown = br_read(1)[0];
// Size of datatype varies -- what about strings?
if (myStaticBlock.ObjectType != 0)
myStaticBlock.BlockVariable = br_read(getObjectSize(myStaticBlock.ObjectType));
StaticBlocks.Add((UInt32) startReadPos, myStaticBlock);
}
Common.SendToDebug("Number of Static Blocks read: " + StaticBlockCount);
// FUNCTION BLOCK
// Always right after STATIC BLOCK
LSO_Struct.FunctionBlock myFunctionBlock = new LSO_Struct.FunctionBlock();
if (myHeader.GFR == myHeader.SR)
{
// If GFR and SR are at same position then there is no fuction block
Common.SendToDebug("No FUNCTION BLOCK found");
}
else
{
Common.SendToDebug("Reading FUNCTION BLOCK at: " + myHeader.GFR);
fs.Seek(myHeader.GFR, SeekOrigin.Begin);
myFunctionBlock.FunctionCount = BitConverter.ToUInt32(br_read(4), 0);
Common.SendToDebug("Number of functions in Fuction Block: " + myFunctionBlock.FunctionCount);
if (myFunctionBlock.FunctionCount > 0)
{
myFunctionBlock.CodeChunkPointer = new UInt32[myFunctionBlock.FunctionCount];
for (int i = 0; i < myFunctionBlock.FunctionCount; i++)
{
Common.SendToDebug("Reading function " + i + " at: " + fs.Position);
// TODO: ADD TO FUNCTION LIST (How do we identify it later?)
// Note! Absolute position
myFunctionBlock.CodeChunkPointer[i] = BitConverter.ToUInt32(br_read(4), 0) + myHeader.GFR;
Common.SendToDebug("Fuction " + i + " code chunk position: " +
myFunctionBlock.CodeChunkPointer[i]);
}
}
}
// STATE FRAME BLOCK
// Always right after FUNCTION BLOCK
Common.SendToDebug("Reading STATE BLOCK at: " + myHeader.SR);
fs.Seek(myHeader.SR, SeekOrigin.Begin);
LSO_Struct.StateFrameBlock myStateFrameBlock = new LSO_Struct.StateFrameBlock();
myStateFrameBlock.StateCount = BitConverter.ToUInt32(br_read(4), 0);
if (myStateFrameBlock.StateCount > 0)
{
// Initialize array
myStateFrameBlock.StatePointer = new LSO_Struct.StatePointerBlock[myStateFrameBlock.StateCount];
for (int i = 0; i < myStateFrameBlock.StateCount; i++)
{
Common.SendToDebug("Reading STATE POINTER BLOCK " + (i + 1) + " at: " + fs.Position);
// Position is relative to state frame
myStateFrameBlock.StatePointer[i].Location = myHeader.SR + BitConverter.ToUInt32(br_read(4), 0);
myStateFrameBlock.StatePointer[i].EventMask = new BitArray(br_read(8));
Common.SendToDebug("Pointer: " + myStateFrameBlock.StatePointer[i].Location);
Common.SendToDebug("Total potential EventMask bits: " +
myStateFrameBlock.StatePointer[i].EventMask.Count);
//// Read STATE BLOCK
//long CurPos = fs.Position;
//fs.Seek(CurPos, SeekOrigin.Begin);
}
}
// STATE BLOCK
// For each StateFrameBlock there is one StateBlock with multiple event handlers
if (myStateFrameBlock.StateCount > 0)
{
// Go through all State Frame Pointers found
for (int i = 0; i < myStateFrameBlock.StateCount; i++)
{
fs.Seek(myStateFrameBlock.StatePointer[i].Location, SeekOrigin.Begin);
Common.SendToDebug("Reading STATE BLOCK " + (i + 1) + " at: " + fs.Position);
// READ: STATE BLOCK HEADER
myStateFrameBlock.StatePointer[i].StateBlock = new LSO_Struct.StateBlock();
myStateFrameBlock.StatePointer[i].StateBlock.StartPos = (UInt32) fs.Position; // Note
myStateFrameBlock.StatePointer[i].StateBlock.HeaderSize = BitConverter.ToUInt32(br_read(4), 0);
myStateFrameBlock.StatePointer[i].StateBlock.Unknown = br_read(1)[0];
myStateFrameBlock.StatePointer[i].StateBlock.EndPos = (UInt32) fs.Position; // Note
Common.SendToDebug("State block Start Pos: " + myStateFrameBlock.StatePointer[i].StateBlock.StartPos);
Common.SendToDebug("State block Header Size: " +
myStateFrameBlock.StatePointer[i].StateBlock.HeaderSize);
Common.SendToDebug("State block Header End Pos: " +
myStateFrameBlock.StatePointer[i].StateBlock.EndPos);
// We need to count number of bits flagged in EventMask?
// for each bit in myStateFrameBlock.StatePointer[i].EventMask
// ADDING TO ALL RIGHT NOW, SHOULD LIMIT TO ONLY THE ONES IN USE
//TODO: Create event hooks
myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers =
new LSO_Struct.StateBlockHandler[myStateFrameBlock.StatePointer[i].EventMask.Count - 1];
for (int ii = 0; ii < myStateFrameBlock.StatePointer[i].EventMask.Count - 1; ii++)
{
if (myStateFrameBlock.StatePointer[i].EventMask.Get(ii) == true)
{
// We got an event
// READ: STATE BLOCK HANDLER
Common.SendToDebug("Reading STATE BLOCK " + (i + 1) + " HANDLER matching EVENT MASK " + ii +
" (" + ((LSO_Enums.Event_Mask_Values) ii).ToString() + ") at: " +
fs.Position);
myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers[ii].CodeChunkPointer =
myStateFrameBlock.StatePointer[i].StateBlock.EndPos +
BitConverter.ToUInt32(br_read(4), 0);
myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers[ii].CallFrameSize =
BitConverter.ToUInt32(br_read(4), 0);
Common.SendToDebug("Reading STATE BLOCK " + (i + 1) + " HANDLER EVENT MASK " + ii + " (" +
((LSO_Enums.Event_Mask_Values) ii).ToString() + ") Code Chunk Pointer: " +
myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers[ii].
CodeChunkPointer);
Common.SendToDebug("Reading STATE BLOCK " + (i + 1) + " HANDLER EVENT MASK " + ii + " (" +
((LSO_Enums.Event_Mask_Values) ii).ToString() + ") Call Frame Size: " +
myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers[ii].
CallFrameSize);
}
}
}
}
//// READ FUNCTION CODE CHUNKS
//// Functions + Function start pos (GFR)
//// TODO: Somehow be able to identify and reference this
//LSO_Struct.CodeChunk[] myFunctionCodeChunk;
//if (myFunctionBlock.FunctionCount > 0)
//{
// myFunctionCodeChunk = new LSO_Struct.CodeChunk[myFunctionBlock.FunctionCount];
// for (int i = 0; i < myFunctionBlock.FunctionCount; i++)
// {
// Common.SendToDebug("Reading Function Code Chunk " + i);
// myFunctionCodeChunk[i] = GetCodeChunk((UInt32)myFunctionBlock.CodeChunkPointer[i]);
// }
//}
// READ EVENT CODE CHUNKS
LSO_Struct.CodeChunk[] myEventCodeChunk;
if (myStateFrameBlock.StateCount > 0)
{
myEventCodeChunk = new LSO_Struct.CodeChunk[myStateFrameBlock.StateCount];
for (int i = 0; i < myStateFrameBlock.StateCount; i++)
{
// TODO: Somehow organize events and functions so they can be found again,
// two level search ain't no good
for (int ii = 0; ii < myStateFrameBlock.StatePointer[i].EventMask.Count - 1; ii++)
{
if (myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers[ii].CodeChunkPointer > 0)
{
Common.SendToDebug("Reading Event Code Chunk state " + i + ", event " +
(LSO_Enums.Event_Mask_Values) ii);
// Override a Method / Function
string eventname = i + "_event_" + (LSO_Enums.Event_Mask_Values) ii;
Common.SendToDebug("Event Name: " + eventname);
if (Common.IL_ProcessCodeChunks)
{
EventList.Add(eventname);
// JUMP TO CODE PROCESSOR
ProcessCodeChunk(
myStateFrameBlock.StatePointer[i].StateBlock.StateBlockHandlers[ii].CodeChunkPointer,
typeBuilder, eventname);
}
}
}
}
}
if (Common.IL_CreateFunctionList)
IL_INSERT_FUNCTIONLIST();
}
internal LSO_Struct.HeapBlock GetHeap(UInt32 pos)
{
// HEAP BLOCK
// TODO:? Special read for strings/keys (null terminated) and lists (pointers to other HEAP entries)
Common.SendToDebug("Reading HEAP BLOCK at: " + pos);
fs.Seek(pos, SeekOrigin.Begin);
LSO_Struct.HeapBlock myHeapBlock = new LSO_Struct.HeapBlock();
myHeapBlock.DataBlockSize = BitConverter.ToInt32(br_read(4), 0);
myHeapBlock.ObjectType = br_read(1)[0];
myHeapBlock.ReferenceCount = BitConverter.ToUInt16(br_read(2), 0);
//myHeapBlock.Data = br_read(getObjectSize(myHeapBlock.ObjectType));
// Don't read it reversed
myHeapBlock.Data = new byte[myHeapBlock.DataBlockSize - 1];
br.Read(myHeapBlock.Data, 0, myHeapBlock.DataBlockSize - 1);
Common.SendToDebug("Heap Block Data Block Size: " + myHeapBlock.DataBlockSize);
Common.SendToDebug("Heap Block ObjectType: " +
((LSO_Enums.Variable_Type_Codes) myHeapBlock.ObjectType).ToString());
Common.SendToDebug("Heap Block Reference Count: " + myHeapBlock.ReferenceCount);
return myHeapBlock;
}
private byte[] br_read(int len)
{
if (len <= 0)
return null;
try
{
byte[] bytes = new byte[len];
for (int i = len - 1; i > -1; i--)
bytes[i] = br.ReadByte();
return bytes;
}
catch (Exception e)
{
Common.SendToDebug("Exception: " + e.ToString());
throw (e);
}
}
//private byte[] br_read_smallendian(int len)
//{
// byte[] bytes = new byte[len];
// br.Read(bytes,0, len);
// return bytes;
//}
private Type getLLObjectType(byte objectCode)
{
switch ((LSO_Enums.Variable_Type_Codes) objectCode)
{
case LSO_Enums.Variable_Type_Codes.Void:
return typeof (void);
case LSO_Enums.Variable_Type_Codes.Integer:
return typeof (UInt32);
case LSO_Enums.Variable_Type_Codes.Float:
return typeof (float);
case LSO_Enums.Variable_Type_Codes.String:
return typeof (string);
case LSO_Enums.Variable_Type_Codes.Key:
return typeof (string);
case LSO_Enums.Variable_Type_Codes.Vector:
return typeof (LSO_Enums.Vector);
case LSO_Enums.Variable_Type_Codes.Rotation:
return typeof (LSO_Enums.Rotation);
case LSO_Enums.Variable_Type_Codes.List:
Common.SendToDebug("TODO: List datatype not implemented yet!");
return typeof (ArrayList);
case LSO_Enums.Variable_Type_Codes.Null:
Common.SendToDebug("TODO: Datatype null is not implemented, using string instead.!");
return typeof (string);
default:
Common.SendToDebug("Lookup of LSL datatype " + objectCode +
" to .Net datatype failed: Unknown LSL datatype. Defaulting to object.");
return typeof (object);
}
}
private int getObjectSize(byte ObjectType)
{
switch ((LSO_Enums.Variable_Type_Codes) ObjectType)
{
case LSO_Enums.Variable_Type_Codes.Integer:
case LSO_Enums.Variable_Type_Codes.Float:
case LSO_Enums.Variable_Type_Codes.String:
case LSO_Enums.Variable_Type_Codes.Key:
case LSO_Enums.Variable_Type_Codes.List:
return 4;
case LSO_Enums.Variable_Type_Codes.Vector:
return 12;
case LSO_Enums.Variable_Type_Codes.Rotation:
return 16;
default:
return 0;
}
}
private string Read_String()
{
string ret = "";
byte reader = br_read(1)[0];
while (reader != 0x000)
{
ret += (char) reader;
reader = br_read(1)[0];
}
return ret;
}
/// <summary>
/// Reads a code chunk and creates IL
/// </summary>
/// <param name="pos">Absolute position in file. REMEMBER TO ADD myHeader.GFR!</param>
/// <param name="typeBuilder">TypeBuilder for assembly</param>
/// <param name="eventname">Name of event (function) to generate</param>
private void ProcessCodeChunk(UInt32 pos, TypeBuilder typeBuilder, string eventname)
{
LSO_Struct.CodeChunk myCodeChunk = new LSO_Struct.CodeChunk();
Common.SendToDebug("Reading Function Code Chunk at: " + pos);
fs.Seek(pos, SeekOrigin.Begin);
myCodeChunk.CodeChunkHeaderSize = BitConverter.ToUInt32(br_read(4), 0);
Common.SendToDebug("CodeChunk Header Size: " + myCodeChunk.CodeChunkHeaderSize);
// Read until null
myCodeChunk.Comment = Read_String();
Common.SendToDebug("Function comment: " + myCodeChunk.Comment);
myCodeChunk.ReturnTypePos = br_read(1)[0];
myCodeChunk.ReturnType = GetStaticBlock((long) myCodeChunk.ReturnTypePos + (long) myHeader.GVR);
Common.SendToDebug("Return type #" + myCodeChunk.ReturnType.ObjectType + ": " +
((LSO_Enums.Variable_Type_Codes) myCodeChunk.ReturnType.ObjectType).ToString());
// TODO: How to determine number of codechunks -- does this method work?
myCodeChunk.CodeChunkArguments = new List<LSO_Struct.CodeChunkArgument>();
byte reader = br_read(1)[0];
reader = br_read(1)[0];
// NOTE ON CODE CHUNK ARGUMENTS
// This determins type definition
int ccount = 0;
while (reader != 0x000)
{
ccount++;
Common.SendToDebug("Reading Code Chunk Argument " + ccount);
LSO_Struct.CodeChunkArgument CCA = new LSO_Struct.CodeChunkArgument();
CCA.FunctionReturnTypePos = reader;
reader = br_read(1)[0];
CCA.NullString = reader;
CCA.FunctionReturnType = GetStaticBlock(CCA.FunctionReturnTypePos + myHeader.GVR);
myCodeChunk.CodeChunkArguments.Add(CCA);
Common.SendToDebug("Code Chunk Argument " + ccount + " type #" + CCA.FunctionReturnType.ObjectType +
": " + (LSO_Enums.Variable_Type_Codes) CCA.FunctionReturnType.ObjectType);
}
// Create string array
Type[] MethodArgs = new Type[myCodeChunk.CodeChunkArguments.Count];
for (int _ic = 0; _ic < myCodeChunk.CodeChunkArguments.Count; _ic++)
{
MethodArgs[_ic] = getLLObjectType(myCodeChunk.CodeChunkArguments[_ic].FunctionReturnType.ObjectType);
Common.SendToDebug("Method argument " + _ic + ": " +
getLLObjectType(myCodeChunk.CodeChunkArguments[_ic].FunctionReturnType.ObjectType).
ToString());
}
// End marker is 0x000
myCodeChunk.EndMarker = reader;
//
// Emit: START OF METHOD (FUNCTION)
//
Common.SendToDebug("CLR:" + eventname + ":MethodBuilder methodBuilder = typeBuilder.DefineMethod...");
MethodBuilder methodBuilder = typeBuilder.DefineMethod(eventname,
MethodAttributes.Public,
typeof (void),
new Type[] {typeof (object)});
//MethodArgs);
//typeof(void), //getLLObjectType(myCodeChunk.ReturnType),
// new Type[] { typeof(object) }, //);
//Common.SendToDebug("CLR:" + eventname + ":typeBuilder.DefineMethodOverride(methodBuilder...");
//typeBuilder.DefineMethodOverride(methodBuilder,
// typeof(LSL_CLRInterface.LSLScript).GetMethod(eventname));
// Create the IL generator
Common.SendToDebug("CLR:" + eventname + ":ILGenerator il = methodBuilder.GetILGenerator();");
ILGenerator il = methodBuilder.GetILGenerator();
if (Common.IL_UseTryCatch)
IL_INSERT_TRY(il, eventname);
// Push Console.WriteLine command to stack ... Console.WriteLine("Hello World!");
//Common.SendToDebug("CLR:" + eventname + ":il.Emit(OpCodes.Call...");
//il.Emit(OpCodes.Call, typeof(Console).GetMethod
// ("WriteLine", new Type[] { typeof(string) }));
//Common.SendToDebug("STARTUP: il.Emit(OpCodes.Ldc_I4_S, 0);");
//il.Emit(OpCodes.Ldc_I4_S, 0);
for (int _ic = 0; _ic < myCodeChunk.CodeChunkArguments.Count; _ic++)
{
Common.SendToDebug("PARAMS: il.Emit(OpCodes.Ldarg, " + _ic + ");");
il.Emit(OpCodes.Ldarg, _ic);
}
//
// CALLING OPCODE PROCESSOR, one command at the time TO GENERATE IL
//
bool FoundRet = false;
while (FoundRet == false)
{
FoundRet = LSL_PROCESS_OPCODE(il);
}
if (Common.IL_UseTryCatch)
IL_INSERT_END_TRY(il, eventname);
// Emit: RETURN FROM METHOD
il.Emit(OpCodes.Ret);
return;
}
private void IL_INSERT_FUNCTIONLIST()
{
Common.SendToDebug("Creating function list");
string eventname = "GetFunctions";
Common.SendToDebug("Creating IL " + eventname);
// Define a private String field.
//FieldBuilder myField = myTypeBuilder.DefineField("EventList", typeof(String[]), FieldAttributes.Public);
//FieldBuilder mem = typeBuilder.DefineField("mem", typeof(Array), FieldAttributes.Private);
MethodBuilder methodBuilder = typeBuilder.DefineMethod(eventname,
MethodAttributes.Public,
typeof (string[]),
null);
//typeBuilder.DefineMethodOverride(methodBuilder,
// typeof(LSL_CLRInterface.LSLScript).GetMethod(eventname));
ILGenerator il = methodBuilder.GetILGenerator();
// IL_INSERT_TRY(il, eventname);
// // Push string to stack
// il.Emit(OpCodes.Ldstr, "Inside " + eventname);
//// Push Console.WriteLine command to stack ... Console.WriteLine("Hello World!");
//il.Emit(OpCodes.Call, typeof(Console).GetMethod
// ("WriteLine", new Type[] { typeof(string) }));
//initIL.Emit(OpCodes.Newobj, typeof(string[]));
//string[] MyArray = new string[2] { "TestItem1" , "TestItem2" };
////il.Emit(OpCodes.Ldarg_0);
il.DeclareLocal(typeof (string[]));
////il.Emit(OpCodes.Ldarg_0);
il.Emit(OpCodes.Ldc_I4, EventList.Count); // Specify array length
il.Emit(OpCodes.Newarr, typeof (String)); // create new string array
il.Emit(OpCodes.Stloc_0); // Store array as local variable 0 in stack
////SetFunctionList
for (int lv = 0; lv < EventList.Count; lv++)
{
il.Emit(OpCodes.Ldloc_0); // Load local variable 0 onto stack
il.Emit(OpCodes.Ldc_I4, lv); // Push index position
il.Emit(OpCodes.Ldstr, EventList[lv]); // Push value
il.Emit(OpCodes.Stelem_Ref); // Perform array[index] = value
//il.Emit(OpCodes.Ldarg_0);
//il.Emit(OpCodes.Ldstr, EventList[lv]); // Push value
//il.Emit(OpCodes.Call, typeof(LSL_BaseClass).GetMethod("AddFunction", new Type[] { typeof(string) }));
}
// IL_INSERT_END_TRY(il, eventname);
il.Emit(OpCodes.Ldloc_0); // Load local variable 0 onto stack
// il.Emit(OpCodes.Call, typeof(LSL_BaseClass).GetMethod("SetFunctionList", new Type[] { typeof(Array) }));
il.Emit(OpCodes.Ret); // Return
}
private void IL_INSERT_TRY(ILGenerator il, string eventname)
{
/*
* CLR TRY
*/
//Common.SendToDebug("CLR:" + eventname + ":il.BeginExceptionBlock()");
il.BeginExceptionBlock();
// Push "Hello World!" string to stack
//Common.SendToDebug("CLR:" + eventname + ":il.Emit(OpCodes.Ldstr...");
//il.Emit(OpCodes.Ldstr, "Starting CLR dynamic execution of: " + eventname);
}
private void IL_INSERT_END_TRY(ILGenerator il, string eventname)
{
/*
* CATCH
*/
Common.SendToDebug("CLR:" + eventname + ":il.BeginCatchBlock(typeof(Exception));");
il.BeginCatchBlock(typeof (Exception));
// Push "Hello World!" string to stack
Common.SendToDebug("CLR:" + eventname + ":il.Emit(OpCodes.Ldstr...");
il.Emit(OpCodes.Ldstr, "Execption executing dynamic CLR function " + eventname + ": ");
//call void [mscorlib]System.Console::WriteLine(string)
Common.SendToDebug("CLR:" + eventname + ":il.Emit(OpCodes.Call...");
il.Emit(OpCodes.Call, typeof (Console).GetMethod
("Write", new Type[] {typeof (string)}));
//callvirt instance string [mscorlib]System.Exception::get_Message()
Common.SendToDebug("CLR:" + eventname + ":il.Emit(OpCodes.Callvirt...");
il.Emit(OpCodes.Callvirt, typeof (Exception).GetMethod
("get_Message"));
//call void [mscorlib]System.Console::WriteLine(string)
Common.SendToDebug("CLR:" + eventname + ":il.Emit(OpCodes.Call...");
il.Emit(OpCodes.Call, typeof (Console).GetMethod
("WriteLine", new Type[] {typeof (string)}));
/*
* CLR END TRY
*/
//Common.SendToDebug("CLR:" + eventname + ":il.EndExceptionBlock();");
il.EndExceptionBlock();
}
private LSO_Struct.StaticBlock GetStaticBlock(long pos)
{
long FirstPos = fs.Position;
try
{
UInt32 position = (UInt32) pos;
// STATIC BLOCK
Common.SendToDebug("Reading STATIC BLOCK at: " + position);
fs.Seek(position, SeekOrigin.Begin);
if (StaticBlocks.ContainsKey(position) == true)
{
Common.SendToDebug("Found cached STATIC BLOCK");
return StaticBlocks[pos];
}
//int StaticBlockCount = 0;
// Read function blocks until we hit GFR
//while (fs.Position < myHeader.GFR)
//{
//StaticBlockCount++;
//Common.SendToDebug("Reading Static Block at: " + position);
//fs.Seek(myHeader.GVR, SeekOrigin.Begin);
LSO_Struct.StaticBlock myStaticBlock = new LSO_Struct.StaticBlock();
myStaticBlock.Static_Chunk_Header_Size = BitConverter.ToUInt32(br_read(4), 0);
myStaticBlock.ObjectType = br_read(1)[0];
Common.SendToDebug("Static Block ObjectType: " +
((LSO_Enums.Variable_Type_Codes) myStaticBlock.ObjectType).ToString());
myStaticBlock.Unknown = br_read(1)[0];
// Size of datatype varies
if (myStaticBlock.ObjectType != 0)
myStaticBlock.BlockVariable = br_read(getObjectSize(myStaticBlock.ObjectType));
StaticBlocks.Add(position, myStaticBlock);
//}
Common.SendToDebug("Done reading Static Block.");
return myStaticBlock;
}
finally
{
// Go back to original read pos
fs.Seek(FirstPos, SeekOrigin.Begin);
}
}
}
}
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