public void ReadDataArray <T>(ref DEBUG_PROPERTY_INFO propertyInfo, string typeAsString)
{
byte[] xData;
// Get handle
xData = mProcess.mDbgConnector.GetStackData(OFFSET, 4);
// Get actual pointer
xData = mProcess.mDbgConnector.GetMemoryData(BitConverter.ToUInt32(xData, 0), 4);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Stack data received was null!");
}
else
{
uint xPointer = BitConverter.ToUInt32(xData, 0);
if (xPointer == 0)
{
propertyInfo.bstrValue = NULL;
}
else
{
xData = mProcess.mDbgConnector.GetMemoryData(xPointer + mArrayLengthOffset, 4, 4);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Memory data received was null!");
}
else
{
uint xDataLength = BitConverter.ToUInt32(xData, 0);
bool xIsTooLong = xDataLength > 512;
if (xIsTooLong)
{
xDataLength = 512;
}
if (xDataLength > 0)
{
if (this.m_variableInformation.Children.Count == 0)
{
for (int i = 0; i < xDataLength; i++)
{
DebugLocalInfo inf = new DebugLocalInfo();
inf.IsReference = true;
inf.Type = typeof(T).AssemblyQualifiedName;
inf.Offset = (int)(mArrayFirstElementOffset + (System.Runtime.InteropServices.Marshal.SizeOf(typeof(T)) * i));
inf.Pointer = (uint)(xPointer + mArrayFirstElementOffset + (System.Runtime.InteropServices.Marshal.SizeOf(typeof(T)) * i));
inf.Name = "[" + i.ToString() + "]";
this.m_variableInformation.Children.Add(new AD7Property(inf, this.mProcess, this.mStackFrame));
}
}
}
propertyInfo.bstrValue = String.Format(typeAsString + "[{0}] at 0x{1} ", xDataLength, xPointer.ToString("X"));
}
}
}
}
public AD7Property(DebugLocalInfo localInfo, AD7Process process, AD7StackFrame stackFrame)
{
m_variableInformation = localInfo;
mProcess = process;
mStackFrame = stackFrame;
if (localInfo.IsLocal)
{
mDebugInfo = mStackFrame.mLocalInfos[m_variableInformation.Index];
}
else if (localInfo.IsReference)
{
mDebugInfo = new LOCAL_ARGUMENT_INFO()
{
TYPENAME = localInfo.Type,
NAME = localInfo.Name,
OFFSET = localInfo.Offset
};
}
else
{
mDebugInfo = mStackFrame.mArgumentInfos[m_variableInformation.Index];
}
}
public AD7Expression(DebugLocalInfo pVar, AD7Process pProcess, AD7StackFrame pStackFrame)
{
this.m_var = pVar;
this.Process = pProcess;
this.StackFrame = pStackFrame;
}
public AD7StackFrame(AD7Engine aEngine, AD7Thread aThread, AD7Process aProcess)
{
mEngine = aEngine;
mThread = aThread;
mProcess = aProcess;
var xProcess = mEngine.mProcess;
if (mHasSource = xProcess.mCurrentAddress.HasValue)
{
UInt32 xAddress = xProcess.mCurrentAddress.Value;
var xSourceInfos = xProcess.mDebugInfoDb.GetSourceInfos(xAddress);
if (!xSourceInfos.ContainsKey(xAddress))
{
//Attempt to find the ASM address of the first ASM line of the C# line that contains
//the current ASM address line
// Because of Asm breakpoints the address we have might be in the middle of a C# line.
// So we find the closest address to ours that is less or equal to ours.
var xQry = from x in xSourceInfos
where x.Key <= xAddress
orderby x.Key descending
select x.Key;
if(xQry.Count() > 0)
{
xAddress = xQry.First();
}
}
if (mHasSource = xSourceInfos.ContainsKey(xAddress))
{
var xSourceInfo = xSourceInfos[xAddress];
mDocName = xSourceInfo.SourceFile;
mFunctionName = xSourceInfo.MethodName;
mLineNum = (uint)xSourceInfo.Line;
// Multiple labels that point to a single address can happen because of exception handling exits etc.
// Because of this given an address, we might find more than one label that matches the address.
// Currently, the label we are looking for will always be the first one so we choose that one.
// In the future this might "break", so be careful about this. In the future we may need to classify
// labels in the output and mark them somehow.
var xLabelsForAddr = xProcess.mDebugInfoDb.GetLabels(xAddress);
if (xLabelsForAddr.Length > 0)
{
MethodIlOp xSymbolInfo;
string xLabel = xLabelsForAddr[0]; // Necessary for LINQ
xSymbolInfo = aProcess.mDebugInfoDb.Connection.Query<MethodIlOp>(new SQLinq<MethodIlOp>().Where(q => q.LabelName == xLabel)).FirstOrDefault();
if (xSymbolInfo != null)
{
var xMethod = mProcess.mDebugInfoDb.Connection.Get<Method>(xSymbolInfo.MethodID);
var xAllInfos = aProcess.mDebugInfoDb.Connection.Query<LOCAL_ARGUMENT_INFO>(new SQLinq<LOCAL_ARGUMENT_INFO>().Where(q => q.METHODLABELNAME == xMethod.LabelCall));
mLocalInfos = xAllInfos.Where(q => !q.IsArgument).ToArray();
mArgumentInfos = xAllInfos.Where(q => q.IsArgument).ToArray();
if (mArgumentInfos.Length > 0)
{
mParams = new DebugLocalInfo[mArgumentInfos.Length];
for (int i = 0; i < mArgumentInfos.Length; i++)
{
mParams[i] = new DebugLocalInfo
{
Name = mArgumentInfos[i].NAME,
Index = i,
IsLocal = false
};
}
mParams = mParams.OrderBy(i => i.Name, StringComparer.OrdinalIgnoreCase).ToArray();
}
if (mLocalInfos.Length > 0)
{
mLocals = new DebugLocalInfo[mLocalInfos.Length];
for (int i = 0; i < mLocalInfos.Length; i++)
{
mLocals[i] = new DebugLocalInfo
{
Name = mLocalInfos[i].NAME,
Index = i,
IsLocal = true
};
}
mLocals = mLocals.OrderBy(i => i.Name, StringComparer.OrdinalIgnoreCase).ToArray();
}
}
}
else
{
MessageBox.Show("No Symbol found for address 0x" + xAddress.ToString("X8").ToUpper());
}
xProcess.DebugMsg(String.Format("StackFrame: Returning: {0}#{1}[{2}]", mDocName, mFunctionName, mLineNum));
}
}
if (!mHasSource)
{
xProcess.DebugMsg("StackFrame: No Source available");
}
// If source information is available, create the collections of locals and parameters and populate them with
// values from the debuggee.
//if (m_hasSource) {
//if (mArgumentInfos.Length > 0) {
//m_parameters = new VariableInformation[m_numParameters];
//m_engine.DebuggedProcess.GetFunctionArgumentsByIP(m_threadContext.eip, m_threadContext.ebp, m_parameters);
//}
//if (mLocalInfos.Length > 0) {
//m_locals = new VariableInformation[m_numLocals];
//m_engine.DebuggedProcess.GetFunctionLocalsByIP(m_threadContext.eip, m_threadContext.ebp, m_locals);
//}
//}
}
// Construct a DEBUG_PROPERTY_INFO representing this local or parameter.
public DEBUG_PROPERTY_INFO ConstructDebugPropertyInfo(enum_DEBUGPROP_INFO_FLAGS dwFields)
{
DEBUG_PROPERTY_INFO propertyInfo = new DEBUG_PROPERTY_INFO();
try
{
if (dwFields.HasFlag(enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_FULLNAME))
{
propertyInfo.bstrFullName = m_variableInformation.Name;
propertyInfo.dwFields |= enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_FULLNAME;
}
if (dwFields.HasFlag(enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_NAME))
{
propertyInfo.bstrName = m_variableInformation.Name;
propertyInfo.dwFields |= enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_NAME;
}
if (dwFields.HasFlag(enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_TYPE))
{
propertyInfo.bstrType = mDebugInfo.TYPENAME;
propertyInfo.dwFields |= enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_TYPE;
}
if (dwFields.HasFlag(enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_VALUE))
{
byte[] xData;
#region string
if (mDebugInfo.TYPENAME == typeof(string).AssemblyQualifiedName)
{
const uint xStringLengthOffset = 12;
const uint xStringFirstCharOffset = 16;
xData = mProcess.mDbgConnector.GetStackData(OFFSET, 4);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Stack data received was null!");
}
else
{
uint xStrPointer = BitConverter.ToUInt32(xData, 0);
if (xStrPointer == 0)
{
propertyInfo.bstrValue = NULL;
}
else
{
xData = mProcess.mDbgConnector.GetMemoryData(xStrPointer + xStringLengthOffset, 4, 4);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Memory data received was null!");
}
else
{
uint xStringLength = BitConverter.ToUInt32(xData, 0);
propertyInfo.bstrValue = "String of length: " + xStringLength;
if (xStringLength > 100)
{
propertyInfo.bstrValue = "For now, strings larger than 100 chars are not supported..";
}
else if (xStringLength == 0)
{
propertyInfo.bstrValue = "\"\"";
}
else
{
xData = mProcess.mDbgConnector.GetMemoryData(xStrPointer + xStringFirstCharOffset, xStringLength * 2, 2);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Memory data received was null!");
}
else
{
propertyInfo.bstrValue = "\"" + Encoding.Unicode.GetString(xData) + "\"";
}
}
}
}
}
}
#endregion
#warning TODO: String[]
#region byte
// Byte
else if (mDebugInfo.TYPENAME == typeof(byte).AssemblyQualifiedName)
{
ReadData <byte>(ref propertyInfo, new Func <byte[], int, byte>(delegate(byte[] barr, int ind) { return(barr[ind]); }));
}
else if (mDebugInfo.TYPENAME == typeof(byte[]).AssemblyQualifiedName)
{
ReadDataArray <byte>(ref propertyInfo, "byte");
}
#endregion
#region sbyte
// SByte
else if (mDebugInfo.TYPENAME == typeof(sbyte).AssemblyQualifiedName)
{
ReadData <sbyte>(ref propertyInfo, new Func <byte[], int, sbyte>(delegate(byte[] barr, int ind) { return(unchecked ((sbyte)barr[ind])); }));
}
else if (mDebugInfo.TYPENAME == typeof(sbyte[]).AssemblyQualifiedName)
{
ReadDataArray <sbyte>(ref propertyInfo, "sbyte");
}
#endregion
#region char
else if (mDebugInfo.TYPENAME == typeof(char).AssemblyQualifiedName)
{
xData = mProcess.mDbgConnector.GetStackData(OFFSET, 2);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Stack data received was null!");
}
else
{
var xTypedCharValue = BitConverter.ToChar(xData, 0);
propertyInfo.bstrValue = String.Format("{0} '{1}'", (ushort)xTypedCharValue, xTypedCharValue);
}
}
else if (mDebugInfo.TYPENAME == typeof(char[]).AssemblyQualifiedName)
{
xData = mProcess.mDbgConnector.GetStackData(OFFSET, 4);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Stack data received was null!");
}
else
{
uint xArrayPointer = BitConverter.ToUInt32(xData, 0);
if (xArrayPointer == 0)
{
propertyInfo.bstrValue = NULL;
}
else
{
xData = mProcess.mDbgConnector.GetMemoryData(xArrayPointer + mArrayLengthOffset, 4, 4);
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Memory data received was null!");
}
else
{
uint xDataLength = BitConverter.ToUInt32(xData, 0);
bool xIsTooLong = xDataLength > 512;
var xSB = new StringBuilder();
xSB.AppendFormat("Char[{0}] at 0x{1} {{ ", xDataLength, xArrayPointer.ToString("X"));
if (xIsTooLong)
{
xDataLength = 512;
}
if (xDataLength > 0)
{
xData = mProcess.mDbgConnector.GetMemoryData(xArrayPointer + mArrayFirstElementOffset, xDataLength * 2);
if (xData == null)
{
xSB.Append(String.Format("Error! Memory data received was null!"));
}
else
{
bool first = true;
for (int i = 0; (i / 2) < xDataLength; i += 2)
{
if (!first)
{
xSB.Append(", ");
}
char c = BitConverter.ToChar(xData, i);
xSB.Append('\'');
if (c == '\0')
{
xSB.Append("\\0");
}
else
{
xSB.Append(c);
}
xSB.Append('\'');
first = false;
}
}
}
if (xIsTooLong)
{
xSB.Append(", ..");
}
xSB.Append(" }");
propertyInfo.bstrValue = xSB.ToString();
}
}
}
}
#endregion
#region short
// Short
else if (mDebugInfo.TYPENAME == typeof(short).AssemblyQualifiedName)
{
ReadData <short>(ref propertyInfo, new Func <byte[], int, short>(BitConverter.ToInt16));
}
else if (mDebugInfo.TYPENAME == typeof(short[]).AssemblyQualifiedName)
{
ReadDataArray <short>(ref propertyInfo, "short");
}
#endregion
#region ushort
// UShort
else if (mDebugInfo.TYPENAME == typeof(ushort).AssemblyQualifiedName)
{
ReadData <ushort>(ref propertyInfo, new Func <byte[], int, ushort>(BitConverter.ToUInt16));
}
else if (mDebugInfo.TYPENAME == typeof(ushort[]).AssemblyQualifiedName)
{
ReadDataArray <ushort>(ref propertyInfo, "ushort");
}
#endregion
#region int
// Int32
else if (mDebugInfo.TYPENAME == typeof(int).AssemblyQualifiedName)
{
ReadData <int>(ref propertyInfo, new Func <byte[], int, int>(BitConverter.ToInt32));
}
else if (mDebugInfo.TYPENAME == typeof(int[]).AssemblyQualifiedName)
{
ReadDataArray <int>(ref propertyInfo, "int");
}
#endregion
#region uint
// UInt32
else if (mDebugInfo.TYPENAME == typeof(uint).AssemblyQualifiedName)
{
ReadData <uint>(ref propertyInfo, new Func <byte[], int, uint>(BitConverter.ToUInt32));
}
else if (mDebugInfo.TYPENAME == typeof(uint[]).AssemblyQualifiedName)
{
ReadDataArray <uint>(ref propertyInfo, "uint");
}
#endregion
#region long
// Long
else if (mDebugInfo.TYPENAME == typeof(long).AssemblyQualifiedName)
{
ReadData <long>(ref propertyInfo, new Func <byte[], int, long>(BitConverter.ToInt64));
}
else if (mDebugInfo.TYPENAME == typeof(long[]).AssemblyQualifiedName)
{
ReadDataArray <long>(ref propertyInfo, "long");
}
#endregion
#region ulong
// ULong
else if (mDebugInfo.TYPENAME == typeof(ulong).AssemblyQualifiedName)
{
ReadData <ulong>(ref propertyInfo, new Func <byte[], int, ulong>(BitConverter.ToUInt64));
}
else if (mDebugInfo.TYPENAME == typeof(ulong[]).AssemblyQualifiedName)
{
ReadDataArray <ulong>(ref propertyInfo, "ulong");
}
#endregion
#region float
// Float
else if (mDebugInfo.TYPENAME == typeof(float).AssemblyQualifiedName)
{
ReadData <float>(ref propertyInfo, new Func <byte[], int, float>(BitConverter.ToSingle));
}
else if (mDebugInfo.TYPENAME == typeof(float[]).AssemblyQualifiedName)
{
ReadDataArray <float>(ref propertyInfo, "float");
}
#endregion
#region double
// Double
else if (mDebugInfo.TYPENAME == typeof(double).AssemblyQualifiedName)
{
ReadData <double>(ref propertyInfo, new Func <byte[], int, double>(BitConverter.ToDouble));
}
else if (mDebugInfo.TYPENAME == typeof(double[]).AssemblyQualifiedName)
{
ReadDataArray <double>(ref propertyInfo, "double");
}
#endregion
#region bool
// Bool
else if (mDebugInfo.TYPENAME == typeof(bool).AssemblyQualifiedName)
{
ReadData <bool>(ref propertyInfo, new Func <byte[], int, bool>(BitConverter.ToBoolean));
}
else if (mDebugInfo.TYPENAME == typeof(bool[]).AssemblyQualifiedName)
{
ReadDataArray <bool>(ref propertyInfo, "bool");
}
#endregion
else
{
if (m_variableInformation.IsReference)
{
xData = mProcess.mDbgConnector.GetMemoryData(m_variableInformation.Pointer, 4, 4);
}
else
{
xData = mProcess.mDbgConnector.GetStackData(OFFSET, 4);
}
if (xData == null)
{
propertyInfo.bstrValue = String.Format("Error! Stack data received was null!");
}
else
{
var xPointer = BitConverter.ToUInt32(xData, 0);
if (xPointer == 0)
{
propertyInfo.bstrValue = NULL;
}
else
{
try
{
var mp = mProcess.mDebugInfoDb.GetFieldMap(mDebugInfo.TYPENAME);
foreach (string str in mp.FieldNames)
{
Cosmos.Debug.Common.FIELD_INFO xFieldInfo;
xFieldInfo = mProcess.mDebugInfoDb.Connection.Query(new SQLinq <Cosmos.Debug.Common.FIELD_INFO>().Where(q => q.NAME == str)).First();
var inf = new DebugLocalInfo();
inf.IsReference = true;
inf.Type = xFieldInfo.TYPE;
inf.Offset = xFieldInfo.OFFSET;
inf.Pointer = (uint)(xPointer + xFieldInfo.OFFSET + 12);
inf.Name = GetFieldName(xFieldInfo);
this.m_variableInformation.Children.Add(new AD7Property(inf, this.mProcess, this.mStackFrame));
}
propertyInfo.bstrValue = String.Format("{0} (0x{1})", xPointer, xPointer.ToString("X").ToUpper());
}
catch (Exception ex)
{
if (ex.GetType().Name == "SQLiteException")
{
//Ignore but warn user
propertyInfo.bstrValue = "SQLiteException. Could not get type information for " + mDebugInfo.TYPENAME;
}
else
{
throw new Exception("Unexpected error in AD7Property.cs:459", ex);
}
}
}
}
}
propertyInfo.dwFields |= enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_VALUE;
}
if (dwFields.HasFlag(enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_ATTRIB))
{
// The sample does not support writing of values displayed in the debugger, so mark them all as read-only.
propertyInfo.dwAttrib = enum_DBG_ATTRIB_FLAGS.DBG_ATTRIB_VALUE_READONLY;
if (this.m_variableInformation.Children.Count > 0)
{
propertyInfo.dwAttrib |= enum_DBG_ATTRIB_FLAGS.DBG_ATTRIB_OBJ_IS_EXPANDABLE;
}
}
propertyInfo.pProperty = (IDebugProperty2)this;
propertyInfo.dwFields |= (enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_PROP);
// If the debugger has asked for the property, or the property has children (meaning it is a pointer in the sample)
// then set the pProperty field so the debugger can call back when the children are enumerated.
//if (((dwFields & (uint)enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_PROP) != 0)
//|| (this.m_variableInformation.child != null))
//{
// propertyInfo.pProperty = (IDebugProperty2)this;
// propertyInfo.dwFields |= (enum_DEBUGPROP_INFO_FLAGS.DEBUGPROP_INFO_PROP);
//}
}
catch
{
}
return(propertyInfo);
}
public AD7StackFrame(AD7Engine aEngine, AD7Thread aThread, AD7Process aProcess)
{
mEngine = aEngine;
mThread = aThread;
mProcess = aProcess;
var xProcess = mEngine.mProcess;
if (mHasSource = xProcess.mCurrentAddress.HasValue)
{
UInt32 xAddress = xProcess.mCurrentAddress.Value;
var xSourceInfos = xProcess.mDebugInfoDb.GetSourceInfos(xAddress);
if (!xSourceInfos.ContainsKey(xAddress))
{
//Attempt to find the ASM address of the first ASM line of the C# line that contains
//the current ASM address line
// Because of Asm breakpoints the address we have might be in the middle of a C# line.
// So we find the closest address to ours that is less or equal to ours.
var xQry = from x in xSourceInfos
where x.Key <= xAddress
orderby x.Key descending
select x.Key;
if (xQry.Count() > 0)
{
xAddress = xQry.First();
}
}
if (mHasSource = xSourceInfos.ContainsKey(xAddress))
{
var xSourceInfo = xSourceInfos[xAddress];
mDocName = xSourceInfo.SourceFile;
mFunctionName = xSourceInfo.MethodName;
mLineNum = (uint)xSourceInfo.Line;
// Multiple labels that point to a single address can happen because of exception handling exits etc.
// Because of this given an address, we might find more than one label that matches the address.
// Currently, the label we are looking for will always be the first one so we choose that one.
// In the future this might "break", so be careful about this. In the future we may need to classify
// labels in the output and mark them somehow.
var xLabelsForAddr = xProcess.mDebugInfoDb.GetLabels(xAddress);
if (xLabelsForAddr.Length > 0)
{
MethodIlOp xSymbolInfo;
string xLabel = xLabelsForAddr[0]; // Necessary for LINQ
xSymbolInfo = aProcess.mDebugInfoDb.Connection.Query <MethodIlOp>(new SQLinq <MethodIlOp>().Where(q => q.LabelName == xLabel)).FirstOrDefault();
if (xSymbolInfo != null)
{
var xMethod = mProcess.mDebugInfoDb.Connection.Get <Method>(xSymbolInfo.MethodID);
var xAllInfos = aProcess.mDebugInfoDb.Connection.Query <LOCAL_ARGUMENT_INFO>(new SQLinq <LOCAL_ARGUMENT_INFO>().Where(q => q.METHODLABELNAME == xMethod.LabelCall));
mLocalInfos = xAllInfos.Where(q => !q.IsArgument).ToArray();
mArgumentInfos = xAllInfos.Where(q => q.IsArgument).ToArray();
if (mArgumentInfos.Length > 0)
{
mParams = new DebugLocalInfo[mArgumentInfos.Length];
for (int i = 0; i < mArgumentInfos.Length; i++)
{
mParams[i] = new DebugLocalInfo
{
Name = mArgumentInfos[i].NAME,
Index = i,
IsLocal = false
};
}
mParams = mParams.OrderBy(i => i.Name, StringComparer.OrdinalIgnoreCase).ToArray();
}
if (mLocalInfos.Length > 0)
{
mLocals = new DebugLocalInfo[mLocalInfos.Length];
for (int i = 0; i < mLocalInfos.Length; i++)
{
mLocals[i] = new DebugLocalInfo
{
Name = mLocalInfos[i].NAME,
Index = i,
IsLocal = true
};
}
mLocals = mLocals.OrderBy(i => i.Name, StringComparer.OrdinalIgnoreCase).ToArray();
}
}
}
else
{
MessageBox.Show("No Symbol found for address 0x" + xAddress.ToString("X8").ToUpper());
}
xProcess.DebugMsg(String.Format("StackFrame: Returning: {0}#{1}[{2}]", mDocName, mFunctionName, mLineNum));
}
}
if (!mHasSource)
{
xProcess.DebugMsg("StackFrame: No Source available");
}
// If source information is available, create the collections of locals and parameters and populate them with
// values from the debuggee.
//if (m_hasSource) {
//if (mArgumentInfos.Length > 0) {
//m_parameters = new VariableInformation[m_numParameters];
//m_engine.DebuggedProcess.GetFunctionArgumentsByIP(m_threadContext.eip, m_threadContext.ebp, m_parameters);
//}
//if (mLocalInfos.Length > 0) {
//m_locals = new VariableInformation[m_numLocals];
//m_engine.DebuggedProcess.GetFunctionLocalsByIP(m_threadContext.eip, m_threadContext.ebp, m_locals);
//}
//}
}
public AD7Expression(DebugLocalInfo pVar, AD7Process pProcess, AD7StackFrame pStackFrame)
{
this.m_var = pVar;
this.Process = pProcess;
this.StackFrame = pStackFrame;
}