System.Data.SQLite
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Overview
Comment:Merge fix for ticket [8a426d12eb] along with logging and DateTime handling enhancements to trunk.
Downloads: Tarball | ZIP archive | SQL archive
Timelines: family | ancestors | descendants | both | trunk
Files: files | file ages | folders
SHA1: c3bb6c2582144f1685e852738386b0847f834ff6
User & Date: mistachkin 2012-02-19 13:31:40
Context
2012-02-19
13:42
More doc updates for release 1.0.80.0. check-in: 9a01e7715d user: mistachkin tags: trunk
13:31
Merge fix for ticket [8a426d12eb] along with logging and DateTime handling enhancements to trunk. check-in: c3bb6c2582 user: mistachkin tags: trunk
13:22
When converting a DateTime instance of an 'Unspecified' kind to a string, use the same kind as the connection, if available. Also, cleanup handling of the default formats for UTC and local time. Closed-Leaf check-in: dbdf2561a4 user: mistachkin tags: logBind
2012-02-15
07:51
Version and doc updates in preparation for release 1.0.80.0. check-in: 50276145d8 user: mistachkin tags: trunk
Changes
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Changes to System.Data.SQLite/SQLite3.cs.

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namespace System.Data.SQLite
{
  using System;
#if DEBUG
  using System.Diagnostics;
#endif
  using System.Runtime.InteropServices;


#if !PLATFORM_COMPACTFRAMEWORK
  [UnmanagedFunctionPointer(CallingConvention.Cdecl)]
#endif
  internal delegate void SQLiteLogCallback(IntPtr puser, int err_code, IntPtr message);

  /// <summary>
................................................................................
    }

    internal override bool IsOpen()
    {
        return (_sql != null);
    }

    internal override void Open(string strFilename, SQLiteOpenFlagsEnum flags, int maxPoolSize, bool usePool)
    {
      if (_sql != null) return;

      _usePool = usePool;
      if (usePool)
      {
        _fileName = strFilename;
................................................................................
      }

      if (_sql == null)
      {
        IntPtr db;

#if !SQLITE_STANDARD
        int n = UnsafeNativeMethods.sqlite3_open_interop(ToUTF8(strFilename), (int)flags, out db);
#else
        int n = UnsafeNativeMethods.sqlite3_open_v2(ToUTF8(strFilename), out db, (int)flags, IntPtr.Zero);
#endif

#if DEBUG
        Trace.WriteLine(String.Format("Open: {0}", db));
#endif

        if (n > 0) throw new SQLiteException(n, null);

        _sql = db;
      }
      // Bind functions to this connection.  If any previous functions of the same name
      // were already bound, then the new bindings replace the old.
      _functionsArray = SQLiteFunction.BindFunctions(this);
      SetTimeout(0);
    }

    internal override void ClearPool()
    {
      SQLiteConnectionPool.ClearPool(_fileName);
    }
................................................................................
              String.Format("[{0}].", baseSchemaName), String.Empty);

          strSql = strSql.Replace(
              String.Format("{0}.", baseSchemaName), String.Empty);
        }
      }

      if ((cnn != null) &&



          ((cnn.Flags & SQLiteConnectionFlags.LogPrepare) == SQLiteConnectionFlags.LogPrepare))
      {
          if ((strSql == null) || (strSql.Length == 0) || (strSql.Trim().Length == 0))
              SQLiteLog.LogMessage(0, "Preparing {<nothing>}...");
          else
              SQLiteLog.LogMessage(0, String.Format("Preparing {{{0}}}...", strSql));
      }


      IntPtr stmt = IntPtr.Zero;
      IntPtr ptr = IntPtr.Zero;
      int len = 0;
      int n = 17;
      int retries = 0;
      byte[] b = ToUTF8(strSql);
................................................................................
          }
        }

        if (n > 0) throw new SQLiteException(n, SQLiteLastError());

        strRemain = UTF8ToString(ptr, len);

        if (stmt != IntPtr.Zero) cmd = new SQLiteStatement(this, stmt, strSql.Substring(0, strSql.Length - strRemain.Length), previous);

        return cmd;
      }
      finally
      {
        handle.Free();
      }
    }














































































    internal override void Bind_Double(SQLiteStatement stmt, int index, double value)
    {


#if !PLATFORM_COMPACTFRAMEWORK





      int n = UnsafeNativeMethods.sqlite3_bind_double(stmt._sqlite_stmt, index, value);
#else
      int n = UnsafeNativeMethods.sqlite3_bind_double_interop(stmt._sqlite_stmt, index, ref value);
#endif
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Int32(SQLiteStatement stmt, int index, int value)
    {









      int n = UnsafeNativeMethods.sqlite3_bind_int(stmt._sqlite_stmt, index, value);
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_UInt32(SQLiteStatement stmt, int index, uint value)
    {









      int n = UnsafeNativeMethods.sqlite3_bind_uint(stmt._sqlite_stmt, index, value);
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Int64(SQLiteStatement stmt, int index, long value)
    {


#if !PLATFORM_COMPACTFRAMEWORK





      int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, value);
#else
      int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(stmt._sqlite_stmt, index, ref value);
#endif
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_UInt64(SQLiteStatement stmt, int index, ulong value)
    {


#if !PLATFORM_COMPACTFRAMEWORK





      int n = UnsafeNativeMethods.sqlite3_bind_uint64(stmt._sqlite_stmt, index, value);
#else
      int n = UnsafeNativeMethods.sqlite3_bind_uint64_interop(stmt._sqlite_stmt, index, ref value);
#endif
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Text(SQLiteStatement stmt, int index, string value)
    {









      byte[] b = ToUTF8(value);








      int n = UnsafeNativeMethods.sqlite3_bind_text(stmt._sqlite_stmt, index, b, b.Length - 1, (IntPtr)(-1));
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_DateTime(SQLiteStatement stmt, int index, DateTime dt)
    {









        switch (_datetimeFormat)
        {
            case SQLiteDateFormats.Ticks:
                {
                    long value = dt.Ticks;

#if !PLATFORM_COMPACTFRAMEWORK





                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(stmt._sqlite_stmt, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.JulianDay:
                {
                    double value = ToJulianDay(dt);

#if !PLATFORM_COMPACTFRAMEWORK





                    int n = UnsafeNativeMethods.sqlite3_bind_double(stmt._sqlite_stmt, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_double_interop(stmt._sqlite_stmt, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.UnixEpoch:
                {
                    long value = Convert.ToInt64(dt.Subtract(UnixEpoch).TotalSeconds);

#if !PLATFORM_COMPACTFRAMEWORK





                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(stmt._sqlite_stmt, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            default:
                {
                    byte[] b = ToUTF8(dt);








                    int n = UnsafeNativeMethods.sqlite3_bind_text(stmt._sqlite_stmt, index, b, b.Length - 1, (IntPtr)(-1));
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
        }
    }

    internal override void Bind_Blob(SQLiteStatement stmt, int index, byte[] blobData)
    {









      int n = UnsafeNativeMethods.sqlite3_bind_blob(stmt._sqlite_stmt, index, blobData, blobData.Length, (IntPtr)(-1));
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Null(SQLiteStatement stmt, int index)
    {









      int n = UnsafeNativeMethods.sqlite3_bind_null(stmt._sqlite_stmt, index);
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override int Bind_ParamCount(SQLiteStatement stmt)
    {

      return UnsafeNativeMethods.sqlite3_bind_parameter_count(stmt._sqlite_stmt);
    }














    internal override string Bind_ParamName(SQLiteStatement stmt, int index)
    {



#if !SQLITE_STANDARD
      int len;
      return UTF8ToString(UnsafeNativeMethods.sqlite3_bind_parameter_name_interop(stmt._sqlite_stmt, index, out len), len);
#else
      return UTF8ToString(UnsafeNativeMethods.sqlite3_bind_parameter_name(stmt._sqlite_stmt, index), -1);
#endif
    }














    internal override int Bind_ParamIndex(SQLiteStatement stmt, string paramName)
    {

      return UnsafeNativeMethods.sqlite3_bind_parameter_index(stmt._sqlite_stmt, ToUTF8(paramName));













    }

    internal override int ColumnCount(SQLiteStatement stmt)
    {
      return UnsafeNativeMethods.sqlite3_column_count(stmt._sqlite_stmt);
    }








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namespace System.Data.SQLite
{
  using System;
#if DEBUG
  using System.Diagnostics;
#endif
  using System.Runtime.InteropServices;
  using System.Text;

#if !PLATFORM_COMPACTFRAMEWORK
  [UnmanagedFunctionPointer(CallingConvention.Cdecl)]
#endif
  internal delegate void SQLiteLogCallback(IntPtr puser, int err_code, IntPtr message);

  /// <summary>
................................................................................
    }

    internal override bool IsOpen()
    {
        return (_sql != null);
    }

    internal override void Open(string strFilename, SQLiteConnectionFlags connectionFlags, SQLiteOpenFlagsEnum openFlags, int maxPoolSize, bool usePool)
    {
      if (_sql != null) return;

      _usePool = usePool;
      if (usePool)
      {
        _fileName = strFilename;
................................................................................
      }

      if (_sql == null)
      {
        IntPtr db;

#if !SQLITE_STANDARD
        int n = UnsafeNativeMethods.sqlite3_open_interop(ToUTF8(strFilename), (int)openFlags, out db);
#else
        int n = UnsafeNativeMethods.sqlite3_open_v2(ToUTF8(strFilename), out db, (int)openFlags, IntPtr.Zero);
#endif

#if DEBUG
        Trace.WriteLine(String.Format("Open: {0}", db));
#endif

        if (n > 0) throw new SQLiteException(n, null);

        _sql = db;
      }
      // Bind functions to this connection.  If any previous functions of the same name
      // were already bound, then the new bindings replace the old.
      _functionsArray = SQLiteFunction.BindFunctions(this, connectionFlags);
      SetTimeout(0);
    }

    internal override void ClearPool()
    {
      SQLiteConnectionPool.ClearPool(_fileName);
    }
................................................................................
              String.Format("[{0}].", baseSchemaName), String.Empty);

          strSql = strSql.Replace(
              String.Format("{0}.", baseSchemaName), String.Empty);
        }
      }

      SQLiteConnectionFlags flags =
          (cnn != null) ? cnn.Flags : SQLiteConnectionFlags.Default;

#if !PLATFORM_COMPACTFRAMEWORK
      if ((flags & SQLiteConnectionFlags.LogPrepare) == SQLiteConnectionFlags.LogPrepare)
      {
          if ((strSql == null) || (strSql.Length == 0) || (strSql.Trim().Length == 0))
              SQLiteLog.LogMessage(0, "Preparing {<nothing>}...");
          else
              SQLiteLog.LogMessage(0, String.Format("Preparing {{{0}}}...", strSql));
      }
#endif

      IntPtr stmt = IntPtr.Zero;
      IntPtr ptr = IntPtr.Zero;
      int len = 0;
      int n = 17;
      int retries = 0;
      byte[] b = ToUTF8(strSql);
................................................................................
          }
        }

        if (n > 0) throw new SQLiteException(n, SQLiteLastError());

        strRemain = UTF8ToString(ptr, len);

        if (stmt != IntPtr.Zero) cmd = new SQLiteStatement(this, flags, stmt, strSql.Substring(0, strSql.Length - strRemain.Length), previous);

        return cmd;
      }
      finally
      {
        handle.Free();
      }
    }

#if !PLATFORM_COMPACTFRAMEWORK
    protected static void LogBind(SQLiteStatementHandle handle, int index)
    {
        IntPtr handleIntPtr = handle;

        SQLiteLog.LogMessage(0, String.Format(
            "Binding statement {0} paramter #{1} as NULL...",
            handleIntPtr, index));
    }

    protected static void LogBind(SQLiteStatementHandle handle, int index, ValueType value)
    {
        IntPtr handleIntPtr = handle;

        SQLiteLog.LogMessage(0, String.Format(
            "Binding statement {0} paramter #{1} as type {2} with value {{{3}}}...",
            handleIntPtr, index, value.GetType(), value));
    }

    private static string FormatDateTime(DateTime value)
    {
        StringBuilder result = new StringBuilder();

        result.Append(value.ToString("yyyy-MM-ddTHH:mm:ss.FFFFFFFK"));
        result.Append(' ');
        result.Append(value.Kind);
        result.Append(' ');
        result.Append(value.Ticks);

        return result.ToString();
    }

    protected static void LogBind(SQLiteStatementHandle handle, int index, DateTime value)
    {
        IntPtr handleIntPtr = handle;

        SQLiteLog.LogMessage(0, String.Format(
            "Binding statement {0} paramter #{1} as type {2} with value {{{3}}}...",
            handleIntPtr, index, typeof(DateTime), FormatDateTime(value)));
    }

    protected static void LogBind(SQLiteStatementHandle handle, int index, string value)
    {
        IntPtr handleIntPtr = handle;

        SQLiteLog.LogMessage(0, String.Format(
            "Binding statement {0} paramter #{1} as type {2} with value {{{3}}}...",
            handleIntPtr, index, typeof(String), (value != null) ? value : "<null>"));
    }

    private static string ToHexadecimalString(
        byte[] array
        )
    {
        if (array == null)
            return null;

        StringBuilder result = new StringBuilder(array.Length * 2);

        int length = array.Length;

        for (int index = 0; index < length; index++)
            result.Append(array[index].ToString("x2"));

        return result.ToString();
    }

    protected static void LogBind(SQLiteStatementHandle handle, int index, byte[] value)
    {
        IntPtr handleIntPtr = handle;

        SQLiteLog.LogMessage(0, String.Format(
            "Binding statement {0} paramter #{1} as type {2} with value {{{3}}}...",
            handleIntPtr, index, typeof(Byte[]), (value != null) ? ToHexadecimalString(value) : "<null>"));
    }
#endif

    internal override void Bind_Double(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, double value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }

        int n = UnsafeNativeMethods.sqlite3_bind_double(handle, index, value);
#else
        int n = UnsafeNativeMethods.sqlite3_bind_double_interop(handle, index, ref value);
#endif
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Int32(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, int value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }
#endif

        int n = UnsafeNativeMethods.sqlite3_bind_int(handle, index, value);
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_UInt32(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, uint value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }
#endif

        int n = UnsafeNativeMethods.sqlite3_bind_uint(handle, index, value);
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Int64(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, long value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }

        int n = UnsafeNativeMethods.sqlite3_bind_int64(handle, index, value);
#else
        int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(handle, index, ref value);
#endif
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_UInt64(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, ulong value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }

        int n = UnsafeNativeMethods.sqlite3_bind_uint64(handle, index, value);
#else
        int n = UnsafeNativeMethods.sqlite3_bind_uint64_interop(handle, index, ref value);
#endif
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Text(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, string value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }
#endif

        byte[] b = ToUTF8(value);

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, b);
        }
#endif

        int n = UnsafeNativeMethods.sqlite3_bind_text(handle, index, b, b.Length - 1, (IntPtr)(-1));
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_DateTime(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, DateTime dt)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, dt);
        }
#endif

        switch (_datetimeFormat)
        {
            case SQLiteDateFormats.Ticks:
                {
                    long value = dt.Ticks;

#if !PLATFORM_COMPACTFRAMEWORK
                    if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
                    {
                        LogBind(handle, index, value);
                    }

                    int n = UnsafeNativeMethods.sqlite3_bind_int64(handle, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(handle, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.JulianDay:
                {
                    double value = ToJulianDay(dt);

#if !PLATFORM_COMPACTFRAMEWORK
                    if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
                    {
                        LogBind(handle, index, value);
                    }

                    int n = UnsafeNativeMethods.sqlite3_bind_double(handle, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_double_interop(handle, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.UnixEpoch:
                {
                    long value = Convert.ToInt64(dt.Subtract(UnixEpoch).TotalSeconds);

#if !PLATFORM_COMPACTFRAMEWORK
                    if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
                    {
                        LogBind(handle, index, value);
                    }

                    int n = UnsafeNativeMethods.sqlite3_bind_int64(handle, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(handle, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            default:
                {
                    byte[] b = ToUTF8(dt);

#if !PLATFORM_COMPACTFRAMEWORK
                    if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
                    {
                        LogBind(handle, index, b);
                    }
#endif

                    int n = UnsafeNativeMethods.sqlite3_bind_text(handle, index, b, b.Length - 1, (IntPtr)(-1));
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
        }
    }

    internal override void Bind_Blob(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, byte[] blobData)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, blobData);
        }
#endif

        int n = UnsafeNativeMethods.sqlite3_bind_blob(handle, index, blobData, blobData.Length, (IntPtr)(-1));
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override void Bind_Null(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index);
        }
#endif

        int n = UnsafeNativeMethods.sqlite3_bind_null(handle, index);
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override int Bind_ParamCount(SQLiteStatement stmt, SQLiteConnectionFlags flags)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;
        int value = UnsafeNativeMethods.sqlite3_bind_parameter_count(handle);

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            IntPtr handleIntPtr = handle;

            SQLiteLog.LogMessage(0, String.Format(
                "Statement {0} paramter count is {1}.",
                handleIntPtr, value));
        }
#endif

        return value;
    }

    internal override string Bind_ParamName(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;
        string name;

#if !SQLITE_STANDARD
        int len;
        name = UTF8ToString(UnsafeNativeMethods.sqlite3_bind_parameter_name_interop(handle, index, out len), len);
#else
        name = UTF8ToString(UnsafeNativeMethods.sqlite3_bind_parameter_name(handle, index), -1);
#endif

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            IntPtr handleIntPtr = handle;

            SQLiteLog.LogMessage(0, String.Format(
                "Statement {0} paramter #{1} name is {{{2}}}.",
                handleIntPtr, index, name));
        }
#endif

        return name;
    }

    internal override int Bind_ParamIndex(SQLiteStatement stmt, SQLiteConnectionFlags flags, string paramName)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;
        int index = UnsafeNativeMethods.sqlite3_bind_parameter_index(handle, ToUTF8(paramName));

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            IntPtr handleIntPtr = handle;

            SQLiteLog.LogMessage(0, String.Format(
                "Statement {0} paramter index of name {{{1}}} is #{2}.",
                handleIntPtr, paramName, index));
        }
#endif

        return index;
    }

    internal override int ColumnCount(SQLiteStatement stmt)
    {
      return UnsafeNativeMethods.sqlite3_column_count(stmt._sqlite_stmt);
    }

Changes to System.Data.SQLite/SQLite3_UTF16.cs.

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      if (nbytelen == -1)
        return Marshal.PtrToStringUni(b);
      else
        return Marshal.PtrToStringUni(b, nbytelen / 2);
    }

    internal override void Open(string strFilename, SQLiteOpenFlagsEnum flags, int maxPoolSize, bool usePool)
    {
      if (_sql != null) return;

      _usePool = usePool;
      if (usePool)
      {
        _fileName = strFilename;
................................................................................
      }

      if (_sql == null)
      {
        IntPtr db;

#if !SQLITE_STANDARD
        int n = UnsafeNativeMethods.sqlite3_open16_interop(ToUTF8(strFilename), (int)flags, out db);
#else
        if ((flags & SQLiteOpenFlagsEnum.Create) == 0 && System.IO.File.Exists(strFilename) == false)
          throw new SQLiteException((int)SQLiteErrorCode.CantOpen, strFilename);

        int n = UnsafeNativeMethods.sqlite3_open16(strFilename, out db);
#endif

................................................................................
        Trace.WriteLine(String.Format("Open: {0}", db));
#endif

        if (n > 0) throw new SQLiteException(n, null);

        _sql = db;
      }
      _functionsArray = SQLiteFunction.BindFunctions(this);
    }

    internal override void Bind_DateTime(SQLiteStatement stmt, int index, DateTime dt)
    {
        switch (_datetimeFormat)
        {
            case SQLiteDateFormats.Ticks:
                {
                    long value = dt.Ticks;

#if !PLATFORM_COMPACTFRAMEWORK
                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(stmt._sqlite_stmt, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.JulianDay:
                {
                    double value = ToJulianDay(dt);

#if !PLATFORM_COMPACTFRAMEWORK
                    int n = UnsafeNativeMethods.sqlite3_bind_double(stmt._sqlite_stmt, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_double_interop(stmt._sqlite_stmt, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.UnixEpoch:
                {
                    long value = Convert.ToInt64(dt.Subtract(UnixEpoch).TotalSeconds);

#if !PLATFORM_COMPACTFRAMEWORK
                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, value);
#else
                    int n = UnsafeNativeMethods.sqlite3_bind_int64_interop(stmt._sqlite_stmt, index, ref value);
#endif
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());

                    break;
                }
            default:
                {










                    Bind_Text(stmt, index, ToString(dt));
                    break;
                }
        }
    }

    internal override void Bind_Text(SQLiteStatement stmt, int index, string value)
    {









      int n = UnsafeNativeMethods.sqlite3_bind_text16(stmt._sqlite_stmt, index, value, value.Length * 2, (IntPtr)(-1));
      if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override DateTime GetDateTime(SQLiteStatement stmt, int index)
    {
      return ToDateTime(GetText(stmt, index));
    }








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      if (nbytelen == -1)
        return Marshal.PtrToStringUni(b);
      else
        return Marshal.PtrToStringUni(b, nbytelen / 2);
    }

    internal override void Open(string strFilename, SQLiteConnectionFlags connectionFlags, SQLiteOpenFlagsEnum openFlags, int maxPoolSize, bool usePool)
    {
      if (_sql != null) return;

      _usePool = usePool;
      if (usePool)
      {
        _fileName = strFilename;
................................................................................
      }

      if (_sql == null)
      {
        IntPtr db;

#if !SQLITE_STANDARD
        int n = UnsafeNativeMethods.sqlite3_open16_interop(ToUTF8(strFilename), (int)openFlags, out db);
#else
        if ((flags & SQLiteOpenFlagsEnum.Create) == 0 && System.IO.File.Exists(strFilename) == false)
          throw new SQLiteException((int)SQLiteErrorCode.CantOpen, strFilename);

        int n = UnsafeNativeMethods.sqlite3_open16(strFilename, out db);
#endif

................................................................................
        Trace.WriteLine(String.Format("Open: {0}", db));
#endif

        if (n > 0) throw new SQLiteException(n, null);

        _sql = db;
      }
      _functionsArray = SQLiteFunction.BindFunctions(this, connectionFlags);
    }

    internal override void Bind_DateTime(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, DateTime dt)
    {
        switch (_datetimeFormat)
        {
            case SQLiteDateFormats.Ticks:











            case SQLiteDateFormats.JulianDay:











            case SQLiteDateFormats.UnixEpoch:
                {








                    base.Bind_DateTime(stmt, flags, index, dt);
                    break;
                }
            default:
                {
#if !PLATFORM_COMPACTFRAMEWORK
                    if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
                    {
                        SQLiteStatementHandle handle =
                            (stmt != null) ? stmt._sqlite_stmt : null;

                        LogBind(handle, index, dt);
                    }
#endif

                    Bind_Text(stmt, flags, index, ToString(dt));
                    break;
                }
        }
    }

    internal override void Bind_Text(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, string value)
    {
        SQLiteStatementHandle handle = stmt._sqlite_stmt;

#if !PLATFORM_COMPACTFRAMEWORK
        if ((flags & SQLiteConnectionFlags.LogBind) == SQLiteConnectionFlags.LogBind)
        {
            LogBind(handle, index, value);
        }
#endif

        int n = UnsafeNativeMethods.sqlite3_bind_text16(handle, index, value, value.Length * 2, (IntPtr)(-1));
        if (n > 0) throw new SQLiteException(n, SQLiteLastError());
    }

    internal override DateTime GetDateTime(SQLiteStatement stmt, int index)
    {
      return ToDateTime(GetText(stmt, index));
    }

Changes to System.Data.SQLite/SQLiteBase.cs.

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    /// Opens a database.
    /// </summary>
    /// <remarks>
    /// Implementers should call SQLiteFunction.BindFunctions() and save the array after opening a connection
    /// to bind all attributed user-defined functions and collating sequences to the new connection.
    /// </remarks>
    /// <param name="strFilename">The filename of the database to open.  SQLite automatically creates it if it doesn't exist.</param>

    /// <param name="flags">The open flags to use when creating the connection</param>
    /// <param name="maxPoolSize">The maximum size of the pool for the given filename</param>
    /// <param name="usePool">If true, the connection can be pulled from the connection pool</param>
    internal abstract void Open(string strFilename, SQLiteOpenFlagsEnum flags, int maxPoolSize, bool usePool);
    /// <summary>
    /// Closes the currently-open database.
    /// </summary>
    /// <remarks>
    /// After the database has been closed implemeters should call SQLiteFunction.UnbindFunctions() to deallocate all interop allocated
    /// memory associated with the user-defined functions and collating sequences tied to the closed connection.
    /// </remarks>
................................................................................
    /// transparently attempt to rebuild the SQL statement and throw an error if that was not possible.
    /// </summary>
    /// <param name="stmt">The statement to reset</param>
    /// <returns>Returns -1 if the schema changed while resetting, 0 if the reset was sucessful or 6 (SQLITE_LOCKED) if the reset failed due to a lock</returns>
    internal abstract int Reset(SQLiteStatement stmt);
    internal abstract void Cancel();

    internal abstract void Bind_Double(SQLiteStatement stmt, int index, double value);
    internal abstract void Bind_Int32(SQLiteStatement stmt, int index, Int32 value);
    internal abstract void Bind_UInt32(SQLiteStatement stmt, int index, UInt32 value);
    internal abstract void Bind_Int64(SQLiteStatement stmt, int index, Int64 value);
    internal abstract void Bind_UInt64(SQLiteStatement stmt, int index, UInt64 value);
    internal abstract void Bind_Text(SQLiteStatement stmt, int index, string value);
    internal abstract void Bind_Blob(SQLiteStatement stmt, int index, byte[] blobData);
    internal abstract void Bind_DateTime(SQLiteStatement stmt, int index, DateTime dt);
    internal abstract void Bind_Null(SQLiteStatement stmt, int index);

    internal abstract int Bind_ParamCount(SQLiteStatement stmt);
    internal abstract string Bind_ParamName(SQLiteStatement stmt, int index);
    internal abstract int Bind_ParamIndex(SQLiteStatement stmt, string paramName);

    internal abstract int ColumnCount(SQLiteStatement stmt);
    internal abstract string ColumnName(SQLiteStatement stmt, int index);
    internal abstract TypeAffinity ColumnAffinity(SQLiteStatement stmt, int index);
    internal abstract string ColumnType(SQLiteStatement stmt, int index, out TypeAffinity nAffinity);
    internal abstract int ColumnIndex(SQLiteStatement stmt, string columnName);
    internal abstract string ColumnOriginalName(SQLiteStatement stmt, int index);
................................................................................
      None = 0x0,

      /// <summary>
      /// Enable logging of all SQL statements to be prepared.
      /// </summary>
      LogPrepare = 0x1,






















      /// <summary>
      /// The default extra flags for new connections.
      /// </summary>
      Default = None
  }

  // These are the options to the internal sqlite3_config call.







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    /// Opens a database.
    /// </summary>
    /// <remarks>
    /// Implementers should call SQLiteFunction.BindFunctions() and save the array after opening a connection
    /// to bind all attributed user-defined functions and collating sequences to the new connection.
    /// </remarks>
    /// <param name="strFilename">The filename of the database to open.  SQLite automatically creates it if it doesn't exist.</param>
    /// <param name="connectionFlags">The flags associated with the parent connection object</param>
    /// <param name="openFlags">The open flags to use when creating the connection</param>
    /// <param name="maxPoolSize">The maximum size of the pool for the given filename</param>
    /// <param name="usePool">If true, the connection can be pulled from the connection pool</param>
    internal abstract void Open(string strFilename, SQLiteConnectionFlags connectionFlags, SQLiteOpenFlagsEnum openFlags, int maxPoolSize, bool usePool);
    /// <summary>
    /// Closes the currently-open database.
    /// </summary>
    /// <remarks>
    /// After the database has been closed implemeters should call SQLiteFunction.UnbindFunctions() to deallocate all interop allocated
    /// memory associated with the user-defined functions and collating sequences tied to the closed connection.
    /// </remarks>
................................................................................
    /// transparently attempt to rebuild the SQL statement and throw an error if that was not possible.
    /// </summary>
    /// <param name="stmt">The statement to reset</param>
    /// <returns>Returns -1 if the schema changed while resetting, 0 if the reset was sucessful or 6 (SQLITE_LOCKED) if the reset failed due to a lock</returns>
    internal abstract int Reset(SQLiteStatement stmt);
    internal abstract void Cancel();

    internal abstract void Bind_Double(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, double value);
    internal abstract void Bind_Int32(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, Int32 value);
    internal abstract void Bind_UInt32(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, UInt32 value);
    internal abstract void Bind_Int64(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, Int64 value);
    internal abstract void Bind_UInt64(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, UInt64 value);
    internal abstract void Bind_Text(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, string value);
    internal abstract void Bind_Blob(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, byte[] blobData);
    internal abstract void Bind_DateTime(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index, DateTime dt);
    internal abstract void Bind_Null(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index);

    internal abstract int Bind_ParamCount(SQLiteStatement stmt, SQLiteConnectionFlags flags);
    internal abstract string Bind_ParamName(SQLiteStatement stmt, SQLiteConnectionFlags flags, int index);
    internal abstract int Bind_ParamIndex(SQLiteStatement stmt, SQLiteConnectionFlags flags, string paramName);

    internal abstract int ColumnCount(SQLiteStatement stmt);
    internal abstract string ColumnName(SQLiteStatement stmt, int index);
    internal abstract TypeAffinity ColumnAffinity(SQLiteStatement stmt, int index);
    internal abstract string ColumnType(SQLiteStatement stmt, int index, out TypeAffinity nAffinity);
    internal abstract int ColumnIndex(SQLiteStatement stmt, string columnName);
    internal abstract string ColumnOriginalName(SQLiteStatement stmt, int index);
................................................................................
      None = 0x0,

      /// <summary>
      /// Enable logging of all SQL statements to be prepared.
      /// </summary>
      LogPrepare = 0x1,

      /// <summary>
      /// Enable logging of all bound parameter types and raw values.
      /// </summary>
      LogPreBind = 0x2,

      /// <summary>
      /// Enable logging of all bound parameter strongly typed values.
      /// </summary>
      LogBind = 0x4,

      /// <summary>
      /// Enable logging of all exceptions caught from user-provided
      /// managed code called from native code via delegates.
      /// </summary>
      LogCallbackException = 0x8,

      /// <summary>
      /// Enable all logging.
      /// </summary>
      LogAll = LogPrepare | LogPreBind | LogBind | LogCallbackException,

      /// <summary>
      /// The default extra flags for new connections.
      /// </summary>
      Default = None
  }

  // These are the options to the internal sqlite3_config call.

Changes to System.Data.SQLite/SQLiteConnection.cs.

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          flags &= ~SQLiteOpenFlagsEnum.Create;
        }
        else
        {
          flags |= SQLiteOpenFlagsEnum.ReadWrite;
        }

        _sql.Open(fileName, flags, maxPoolSize, usePooling);

        _binaryGuid = (SQLiteConvert.ToBoolean(FindKey(opts, "BinaryGUID", Boolean.TrueString)) == true);

        string password = FindKey(opts, "Password", null);

        if (String.IsNullOrEmpty(password) == false)
          _sql.SetPassword(System.Text.UTF8Encoding.UTF8.GetBytes(password));







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          flags &= ~SQLiteOpenFlagsEnum.Create;
        }
        else
        {
          flags |= SQLiteOpenFlagsEnum.ReadWrite;
        }

        _sql.Open(fileName, _flags, flags, maxPoolSize, usePooling);

        _binaryGuid = (SQLiteConvert.ToBoolean(FindKey(opts, "BinaryGUID", Boolean.TrueString)) == true);

        string password = FindKey(opts, "Password", null);

        if (String.IsNullOrEmpty(password) == false)
          _sql.SetPassword(System.Text.UTF8Encoding.UTF8.GetBytes(password));

Changes to System.Data.SQLite/SQLiteConvert.cs.

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      "yyyyMMddHHmm",
      "yyyyMMddTHHmmssFFFFFFF",
      "yyyy-MM-dd",
      "yyyyMMdd",
      "yy-MM-dd"
    };













    /// <summary>
    /// An UTF-8 Encoding instance, so we can convert strings to and from UTF-8
    /// </summary>
    private static Encoding _utf8 = new UTF8Encoding();
    /// <summary>
    /// The default DateTime format for this instance
    /// </summary>
................................................................................
    /// </summary>
    /// <param name="value">The DateTime to convert</param>
    /// <returns>The JulianDay value the Datetime represents</returns>
    public static double ToJulianDay(DateTime value)
    {
      return value.ToOADate() + OleAutomationEpochAsJulianDay;
    }














    /// <summary>
    /// Converts a DateTime to a string value, using the current DateTimeFormat specified for the connection when it was opened.
    /// </summary>
    /// <param name="dateValue">The DateTime value to convert</param>
    /// <returns>Either a string containing the long integer number of 100-nanosecond units since System.DateTime.MinValue, a
    /// Julian day double, an integer number of seconds since the Unix epoch, a culture-independent formatted date and time
    /// string, a formatted date and time string in the current culture, or an ISO8601-format date/time string.</returns>
    public string ToString(DateTime dateValue)
    {
      switch (_datetimeFormat)
      {
        case SQLiteDateFormats.Ticks:
          return dateValue.Ticks.ToString(CultureInfo.InvariantCulture);
        case SQLiteDateFormats.JulianDay:
          return ToJulianDay(dateValue).ToString(CultureInfo.InvariantCulture);
        case SQLiteDateFormats.UnixEpoch:
          return ((long)(dateValue.Subtract(UnixEpoch).Ticks / TimeSpan.TicksPerSecond)).ToString();
        case SQLiteDateFormats.InvariantCulture:
          return dateValue.ToString(FullFormat, CultureInfo.InvariantCulture);
        case SQLiteDateFormats.CurrentCulture:
          return dateValue.ToString(FullFormat, CultureInfo.CurrentCulture);
        default:
          return (dateValue.Kind == DateTimeKind.Utc) ?

              dateValue.ToString(_datetimeFormats[5], CultureInfo.InvariantCulture) : // include "Z"
              dateValue.ToString(_datetimeFormats[19], CultureInfo.InvariantCulture);
      }
    }

    /// <summary>
    /// Internal function to convert a UTF-8 encoded IntPtr of the specified length to a DateTime.
    /// </summary>
    /// <remarks>
    /// This is a convenience function, which first calls ToString() on the IntPtr to convert it to a string, then calls







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      "yyyyMMddHHmm",
      "yyyyMMddTHHmmssFFFFFFF",
      "yyyy-MM-dd",
      "yyyyMMdd",
      "yy-MM-dd"
    };

    /// <summary>
    /// The internal default format for UTC DateTime values when converting
    /// to a string.
    /// </summary>
    private static readonly string _datetimeFormatUtc = _datetimeFormats[5];

    /// <summary>
    /// The internal default format for local DateTime values when converting
    /// to a string.
    /// </summary>
    private static readonly string _datetimeFormatLocal = _datetimeFormats[19];

    /// <summary>
    /// An UTF-8 Encoding instance, so we can convert strings to and from UTF-8
    /// </summary>
    private static Encoding _utf8 = new UTF8Encoding();
    /// <summary>
    /// The default DateTime format for this instance
    /// </summary>
................................................................................
    /// </summary>
    /// <param name="value">The DateTime to convert</param>
    /// <returns>The JulianDay value the Datetime represents</returns>
    public static double ToJulianDay(DateTime value)
    {
      return value.ToOADate() + OleAutomationEpochAsJulianDay;
    }

    /// <summary>
    /// Returns the default DateTime format string to use for the specified
    /// DateTimeKind.
    /// </summary>
    /// <param name="kind">The DateTimeKind to use.</param>
    /// <returns>
    /// The default DateTime format string to use for the specified DateTimeKind.
    /// </returns>
    private static string GetDateTimeKindFormat(DateTimeKind kind)
    {
        return (kind == DateTimeKind.Utc) ? _datetimeFormatUtc : _datetimeFormatLocal;
    }

    /// <summary>
    /// Converts a DateTime to a string value, using the current DateTimeFormat specified for the connection when it was opened.
    /// </summary>
    /// <param name="dateValue">The DateTime value to convert</param>
    /// <returns>Either a string containing the long integer number of 100-nanosecond units since System.DateTime.MinValue, a
    /// Julian day double, an integer number of seconds since the Unix epoch, a culture-independent formatted date and time
    /// string, a formatted date and time string in the current culture, or an ISO8601-format date/time string.</returns>
    public string ToString(DateTime dateValue)
    {
        switch (_datetimeFormat)
        {
            case SQLiteDateFormats.Ticks:
                return dateValue.Ticks.ToString(CultureInfo.InvariantCulture);
            case SQLiteDateFormats.JulianDay:
                return ToJulianDay(dateValue).ToString(CultureInfo.InvariantCulture);
            case SQLiteDateFormats.UnixEpoch:
                return ((long)(dateValue.Subtract(UnixEpoch).Ticks / TimeSpan.TicksPerSecond)).ToString();
            case SQLiteDateFormats.InvariantCulture:
                return dateValue.ToString(FullFormat, CultureInfo.InvariantCulture);
            case SQLiteDateFormats.CurrentCulture:
                return dateValue.ToString(FullFormat, CultureInfo.CurrentCulture);
            default:
                return (dateValue.Kind == DateTimeKind.Unspecified) ?
                    DateTime.SpecifyKind(dateValue, _datetimeKind).ToString(
                        GetDateTimeKindFormat(_datetimeKind), CultureInfo.InvariantCulture) :
                    dateValue.ToString(GetDateTimeKindFormat(dateValue.Kind), CultureInfo.InvariantCulture);
        }
    }

    /// <summary>
    /// Internal function to convert a UTF-8 encoded IntPtr of the specified length to a DateTime.
    /// </summary>
    /// <remarks>
    /// This is a convenience function, which first calls ToString() on the IntPtr to convert it to a string, then calls

Changes to System.Data.SQLite/SQLiteFunction.cs.

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  {
    private class AggregateData
    {
      internal int _count = 1;
      internal object _data;
    }













    /// <summary>
    /// The base connection this function is attached to
    /// </summary>
    internal SQLiteBase              _base;

    /// <summary>
    /// Internal array used to keep track of aggregate function context data
    /// </summary>
    private Dictionary<long, AggregateData> _contextDataList;







    /// <summary>
    /// Holds a reference to the callback function for user functions
    /// </summary>
    private SQLiteCallback  _InvokeFunc;
    /// <summary>
    /// Holds a reference to the callbakc function for stepping in an aggregate function
................................................................................
    private static List<SQLiteFunctionAttribute> _registeredFunctions;

    /// <summary>
    /// Internal constructor, initializes the function's internal variables.
    /// </summary>
    protected SQLiteFunction()
    {
      _contextDataList = new Dictionary<long, AggregateData>();
    }

    ///////////////////////////////////////////////////////////////////////////////////////////////

    #region IDisposable Members
    /// <summary>
    /// Disposes of any active contextData variables that were not automatically cleaned up.  Sometimes this can happen if
................................................................................
            {
                ////////////////////////////////////
                // dispose managed resources here...
                ////////////////////////////////////

                IDisposable disp;

                foreach (KeyValuePair<long, AggregateData> kv in _contextDataList)
                {
                    disp = kv.Value._data as IDisposable;
                    if (disp != null)
                        disp.Dispose();
                }
                _contextDataList.Clear();




                _InvokeFunc = null;
                _StepFunc = null;
                _FinalFunc = null;
                _CompareFunc = null;
                _base = null;
                _contextDataList = null;
            }

            //////////////////////////////////////
            // release unmanaged resources here...
            //////////////////////////////////////

            disposed = true;
................................................................................
          _base.ReturnBlob(context, (byte[])returnValue);
          return;
      }
    }

    /// <summary>
    /// Internal scalar callback function, which wraps the raw context pointer and calls the virtual Invoke() method.

    /// </summary>
    /// <param name="context">A raw context pointer</param>
    /// <param name="nArgs">Number of arguments passed in</param>
    /// <param name="argsptr">A pointer to the array of arguments</param>
    internal void ScalarCallback(IntPtr context, int nArgs, IntPtr argsptr)
    {


      _context = context;

      SetReturnValue(context, Invoke(ConvertParams(nArgs, argsptr)));
    }


























    /// <summary>
    /// Internal collation sequence function, which wraps up the raw string pointers and executes the Compare() virtual function.















































    /// </summary>
    /// <param name="ptr">Not used</param>
    /// <param name="len1">Length of the string pv1</param>
    /// <param name="ptr1">Pointer to the first string to compare</param>
    /// <param name="len2">Length of the string pv2</param>
    /// <param name="ptr2">Pointer to the second string to compare</param>
    /// <returns>Returns -1 if the first string is less than the second.  0 if they are equal, or 1 if the first string is greater
    /// than the second.</returns>
    internal int CompareCallback(IntPtr ptr, int len1, IntPtr ptr1, int len2, IntPtr ptr2)
    {
      return Compare(SQLiteConvert.UTF8ToString(ptr1, len1), SQLiteConvert.UTF8ToString(ptr2, len2));



    }



    internal int CompareCallback16(IntPtr ptr, int len1, IntPtr ptr1, int len2, IntPtr ptr2)

    {
      return Compare(SQLite3_UTF16.UTF16ToString(ptr1, len1), SQLite3_UTF16.UTF16ToString(ptr2, len2));






    }
















    /// <summary>
    /// The internal aggregate Step function callback, which wraps the raw context pointer and calls the virtual Step() method.

    /// </summary>
    /// <remarks>
    /// This function takes care of doing the lookups and getting the important information put together to call the Step() function.
    /// That includes pulling out the user's contextData and updating it after the call is made.  We use a sorted list for this so
    /// binary searches can be done to find the data.
    /// </remarks>
    /// <param name="context">A raw context pointer</param>
    /// <param name="nArgs">Number of arguments passed in</param>
    /// <param name="argsptr">A pointer to the array of arguments</param>
    internal void StepCallback(IntPtr context, int nArgs, IntPtr argsptr)
    {
      long nAux;


      AggregateData data;



      nAux = (long)_base.AggregateContext(context);


      if (_contextDataList.TryGetValue(nAux, out data) == false)
      {
        data = new AggregateData();
        _contextDataList[nAux] = data;
      }





      try
      {
        _context = context;
        Step(ConvertParams(nArgs, argsptr), data._count, ref data._data);

      }
      finally
      {
        data._count++;
      }
    }


























    /// <summary>
    /// An internal aggregate Final function callback, which wraps the context pointer and calls the virtual Final() method.

    /// </summary>
    /// <param name="context">A raw context pointer</param>
    internal void FinalCallback(IntPtr context)
    {
      long n = (long)_base.AggregateContext(context);


      object obj = null;

      if (_contextDataList.ContainsKey(n))

      {



        obj = _contextDataList[n]._data;



        _contextDataList.Remove(n);
      }




      _context = context;
      SetReturnValue(context, Final(obj));



      IDisposable disp = obj as IDisposable;
      if (disp != null) disp.Dispose();


























    }

    /// <summary>
    /// Using reflection, enumerate all assemblies in the current appdomain looking for classes that
    /// have a SQLiteFunctionAttribute attribute, and registering them accordingly.
    /// </summary>
#if !PLATFORM_COMPACTFRAMEWORK
................................................................................
    /// as the connection (UTF-8 or UTF-16).
    /// </summary>
    /// <remarks>
    /// The wrapper functions that interop with SQLite will create a unique cookie value, which internally is a pointer to
    /// all the wrapped callback functions.  The interop function uses it to map CDecl callbacks to StdCall callbacks.
    /// </remarks>
    /// <param name="sqlbase">The base object on which the functions are to bind</param>

    /// <returns>Returns an array of functions which the connection object should retain until the connection is closed.</returns>
    internal static SQLiteFunction[] BindFunctions(SQLiteBase sqlbase)
    {
      SQLiteFunction f;
      List<SQLiteFunction> lFunctions = new List<SQLiteFunction>();

      foreach (SQLiteFunctionAttribute pr in _registeredFunctions)
      {
        f = (SQLiteFunction)Activator.CreateInstance(pr._instanceType);

        f._base = sqlbase;

        f._InvokeFunc = (pr.FuncType == FunctionType.Scalar) ? new SQLiteCallback(f.ScalarCallback) : null;
        f._StepFunc = (pr.FuncType == FunctionType.Aggregate) ? new SQLiteCallback(f.StepCallback) : null;
        f._FinalFunc = (pr.FuncType == FunctionType.Aggregate) ? new SQLiteFinalCallback(f.FinalCallback) : null;
        f._CompareFunc = (pr.FuncType == FunctionType.Collation) ? new SQLiteCollation(f.CompareCallback) : null;
        f._CompareFunc16 = (pr.FuncType == FunctionType.Collation) ? new SQLiteCollation(f.CompareCallback16) : null;

        if (pr.FuncType != FunctionType.Collation)







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  {
    private class AggregateData
    {
      internal int _count = 1;
      internal object _data;
    }

    /////////////////////////////////////////////////////////////////////////

    #region Private Constants
    /// <summary>
    /// The error code used for logging exceptions caught in user-provided
    /// code.
    /// </summary>
    private const int COR_E_EXCEPTION = unchecked((int)0x80131500);
    #endregion

    /////////////////////////////////////////////////////////////////////////

    /// <summary>
    /// The base connection this function is attached to
    /// </summary>
    internal SQLiteBase              _base;

    /// <summary>
    /// Internal array used to keep track of aggregate function context data
    /// </summary>
    private Dictionary<IntPtr, AggregateData> _contextDataList;

    /// <summary>
    /// The connection flags associated with this object (this should be the
    /// same value as the flags associated with the parent connection object).
    /// </summary>
    private SQLiteConnectionFlags _flags;

    /// <summary>
    /// Holds a reference to the callback function for user functions
    /// </summary>
    private SQLiteCallback  _InvokeFunc;
    /// <summary>
    /// Holds a reference to the callbakc function for stepping in an aggregate function
................................................................................
    private static List<SQLiteFunctionAttribute> _registeredFunctions;

    /// <summary>
    /// Internal constructor, initializes the function's internal variables.
    /// </summary>
    protected SQLiteFunction()
    {
      _contextDataList = new Dictionary<IntPtr, AggregateData>();
    }

    ///////////////////////////////////////////////////////////////////////////////////////////////

    #region IDisposable Members
    /// <summary>
    /// Disposes of any active contextData variables that were not automatically cleaned up.  Sometimes this can happen if
................................................................................
            {
                ////////////////////////////////////
                // dispose managed resources here...
                ////////////////////////////////////

                IDisposable disp;

                foreach (KeyValuePair<IntPtr, AggregateData> kv in _contextDataList)
                {
                    disp = kv.Value._data as IDisposable;
                    if (disp != null)
                        disp.Dispose();
                }
                _contextDataList.Clear();
                _contextDataList = null;

                _flags = SQLiteConnectionFlags.None;

                _InvokeFunc = null;
                _StepFunc = null;
                _FinalFunc = null;
                _CompareFunc = null;
                _base = null;

            }

            //////////////////////////////////////
            // release unmanaged resources here...
            //////////////////////////////////////

            disposed = true;
................................................................................
          _base.ReturnBlob(context, (byte[])returnValue);
          return;
      }
    }

    /// <summary>
    /// Internal scalar callback function, which wraps the raw context pointer and calls the virtual Invoke() method.
    /// WARNING: Must not throw exceptions.
    /// </summary>
    /// <param name="context">A raw context pointer</param>
    /// <param name="nArgs">Number of arguments passed in</param>
    /// <param name="argsptr">A pointer to the array of arguments</param>
    internal void ScalarCallback(IntPtr context, int nArgs, IntPtr argsptr)
    {
        try
        {
            _context = context;
            SetReturnValue(context,
                Invoke(ConvertParams(nArgs, argsptr))); /* throw */
        }
#if !PLATFORM_COMPACTFRAMEWORK
        catch (Exception e) /* NOTE: Must catch ALL. */
        {
            try
            {
                if ((_flags & SQLiteConnectionFlags.LogCallbackException) ==
                        SQLiteConnectionFlags.LogCallbackException)
                {
                    SQLiteLog.LogMessage(COR_E_EXCEPTION, String.Format(
                        "Caught exception in \"Invoke\" method: {0}",
                        e)); /* throw */
                }
            }
            catch
            {
                // do nothing.
            }
        }
#else
        catch /* NOTE: Must catch ALL. */
        {
            // do nothing (Windows CE).
        }
#endif
    }

    /// <summary>
    /// Internal collation sequence function, which wraps up the raw string pointers and executes the Compare() virtual function.
    /// WARNING: Must not throw exceptions.
    /// </summary>
    /// <param name="ptr">Not used</param>
    /// <param name="len1">Length of the string pv1</param>
    /// <param name="ptr1">Pointer to the first string to compare</param>
    /// <param name="len2">Length of the string pv2</param>
    /// <param name="ptr2">Pointer to the second string to compare</param>
    /// <returns>Returns -1 if the first string is less than the second.  0 if they are equal, or 1 if the first string is greater
    /// than the second.  Returns 0 if an exception is caught.</returns>
    internal int CompareCallback(IntPtr ptr, int len1, IntPtr ptr1, int len2, IntPtr ptr2)
    {
        try
        {
            return Compare(SQLiteConvert.UTF8ToString(ptr1, len1),
                SQLiteConvert.UTF8ToString(ptr2, len2)); /* throw */
        }
#if !PLATFORM_COMPACTFRAMEWORK
        catch (Exception e) /* NOTE: Must catch ALL. */
        {
            try
            {
                if ((_flags & SQLiteConnectionFlags.LogCallbackException) ==
                        SQLiteConnectionFlags.LogCallbackException)
                {
                    SQLiteLog.LogMessage(COR_E_EXCEPTION, String.Format(
                        "Caught exception in \"Compare\" method: {0}",
                        e)); /* throw */
                }
            }
            catch
            {
                // do nothing.
            }
        }
#else
        catch /* NOTE: Must catch ALL. */
        {
            // do nothing (Windows CE).
        }
#endif

        return 0;
    }

    /// <summary>
    /// Internal collation sequence function, which wraps up the raw string pointers and executes the Compare() virtual function.
    /// WARNING: Must not throw exceptions.
    /// </summary>
    /// <param name="ptr">Not used</param>
    /// <param name="len1">Length of the string pv1</param>
    /// <param name="ptr1">Pointer to the first string to compare</param>
    /// <param name="len2">Length of the string pv2</param>
    /// <param name="ptr2">Pointer to the second string to compare</param>
    /// <returns>Returns -1 if the first string is less than the second.  0 if they are equal, or 1 if the first string is greater
    /// than the second.  Returns 0 if an exception is caught.</returns>
    internal int CompareCallback16(IntPtr ptr, int len1, IntPtr ptr1, int len2, IntPtr ptr2)
    {
        try
        {
            return Compare(SQLite3_UTF16.UTF16ToString(ptr1, len1),
                SQLite3_UTF16.UTF16ToString(ptr2, len2)); /* throw */
        }
#if !PLATFORM_COMPACTFRAMEWORK
        catch (Exception e) /* NOTE: Must catch ALL. */
        {

            try
            {

                if ((_flags & SQLiteConnectionFlags.LogCallbackException) ==
                        SQLiteConnectionFlags.LogCallbackException)
                {
                    SQLiteLog.LogMessage(COR_E_EXCEPTION, String.Format(
                        "Caught exception in \"Compare\" method: {0}",
                        e)); /* throw */
                }
            }
            catch
            {
                // do nothing.
            }
        }
#else
        catch /* NOTE: Must catch ALL. */
        {
            // do nothing (Windows CE).
        }
#endif

        return 0;
    }

    /// <summary>
    /// The internal aggregate Step function callback, which wraps the raw context pointer and calls the virtual Step() method.
    /// WARNING: Must not throw exceptions.
    /// </summary>
    /// <remarks>
    /// This function takes care of doing the lookups and getting the important information put together to call the Step() function.
    /// That includes pulling out the user's contextData and updating it after the call is made.  We use a sorted list for this so
    /// binary searches can be done to find the data.
    /// </remarks>
    /// <param name="context">A raw context pointer</param>
    /// <param name="nArgs">Number of arguments passed in</param>
    /// <param name="argsptr">A pointer to the array of arguments</param>
    internal void StepCallback(IntPtr context, int nArgs, IntPtr argsptr)
    {

        try
        {
            AggregateData data = null;

            if (_base != null)
            {
                IntPtr nAux = _base.AggregateContext(context);

                if ((_contextDataList != null) &&
                    !_contextDataList.TryGetValue(nAux, out data))
                {
                    data = new AggregateData();
                    _contextDataList[nAux] = data;
                }
            }

            if (data == null)
                data = new AggregateData();

            try
            {
                _context = context;
                Step(ConvertParams(nArgs, argsptr),
                    data._count, ref data._data); /* throw */
            }
            finally
            {
                data._count++;
            }
        }
#if !PLATFORM_COMPACTFRAMEWORK
        catch (Exception e) /* NOTE: Must catch ALL. */
        {
            try
            {
                if ((_flags & SQLiteConnectionFlags.LogCallbackException) ==
                        SQLiteConnectionFlags.LogCallbackException)
                {
                    SQLiteLog.LogMessage(COR_E_EXCEPTION, String.Format(
                        "Caught exception in \"Step\" method: {1}",
                        e)); /* throw */
                }
            }
            catch
            {
                // do nothing.
            }
        }
#else
        catch /* NOTE: Must catch ALL. */
        {
            // do nothing (Windows CE).
        }
#endif
    }

    /// <summary>
    /// An internal aggregate Final function callback, which wraps the context pointer and calls the virtual Final() method.
    /// WARNING: Must not throw exceptions.
    /// </summary>
    /// <param name="context">A raw context pointer</param>
    internal void FinalCallback(IntPtr context)
    {

        try
        {
            object obj = null;


            if (_base != null)
            {
                IntPtr n = _base.AggregateContext(context);
                AggregateData aggData;

                if ((_contextDataList != null) &&
                    _contextDataList.TryGetValue(n, out aggData))
                {
                    obj = aggData._data;
                    _contextDataList.Remove(n);
                }
            }

            try
            {
                _context = context;
                SetReturnValue(context, Final(obj)); /* throw */
            }
            finally
            {
                IDisposable disp = obj as IDisposable;
                if (disp != null) disp.Dispose(); /* throw */
            }
        }
#if !PLATFORM_COMPACTFRAMEWORK
        catch (Exception e) /* NOTE: Must catch ALL. */
        {
            try
            {
                if ((_flags & SQLiteConnectionFlags.LogCallbackException) ==
                        SQLiteConnectionFlags.LogCallbackException)
                {
                    SQLiteLog.LogMessage(COR_E_EXCEPTION, String.Format(
                        "Caught exception in \"Final\" method: {1}",
                        e)); /* throw */
                }
            }
            catch
            {
                // do nothing.
            }
        }
#else
        catch /* NOTE: Must catch ALL. */
        {
            // do nothing (Windows CE).
        }
#endif
    }

    /// <summary>
    /// Using reflection, enumerate all assemblies in the current appdomain looking for classes that
    /// have a SQLiteFunctionAttribute attribute, and registering them accordingly.
    /// </summary>
#if !PLATFORM_COMPACTFRAMEWORK
................................................................................
    /// as the connection (UTF-8 or UTF-16).
    /// </summary>
    /// <remarks>
    /// The wrapper functions that interop with SQLite will create a unique cookie value, which internally is a pointer to
    /// all the wrapped callback functions.  The interop function uses it to map CDecl callbacks to StdCall callbacks.
    /// </remarks>
    /// <param name="sqlbase">The base object on which the functions are to bind</param>
    /// <param name="flags">The flags associated with the parent connection object</param>
    /// <returns>Returns an array of functions which the connection object should retain until the connection is closed.</returns>
    internal static SQLiteFunction[] BindFunctions(SQLiteBase sqlbase, SQLiteConnectionFlags flags)
    {
      SQLiteFunction f;
      List<SQLiteFunction> lFunctions = new List<SQLiteFunction>();

      foreach (SQLiteFunctionAttribute pr in _registeredFunctions)
      {
        f = (SQLiteFunction)Activator.CreateInstance(pr._instanceType);

        f._base = sqlbase;
        f._flags = flags;
        f._InvokeFunc = (pr.FuncType == FunctionType.Scalar) ? new SQLiteCallback(f.ScalarCallback) : null;
        f._StepFunc = (pr.FuncType == FunctionType.Aggregate) ? new SQLiteCallback(f.StepCallback) : null;
        f._FinalFunc = (pr.FuncType == FunctionType.Aggregate) ? new SQLiteFinalCallback(f.FinalCallback) : null;
        f._CompareFunc = (pr.FuncType == FunctionType.Collation) ? new SQLiteCollation(f.CompareCallback) : null;
        f._CompareFunc16 = (pr.FuncType == FunctionType.Collation) ? new SQLiteCollation(f.CompareCallback16) : null;

        if (pr.FuncType != FunctionType.Collation)

Changes to System.Data.SQLite/SQLiteStatement.cs.

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    /// </summary>
    internal SQLiteParameter[] _paramValues;
    /// <summary>
    /// Command this statement belongs to (if any)
    /// </summary>
    internal SQLiteCommand     _command;






    private string[] _types;

    /// <summary>
    /// Initializes the statement and attempts to get all information about parameters in the statement
    /// </summary>
    /// <param name="sqlbase">The base SQLite object</param>

    /// <param name="stmt">The statement</param>
    /// <param name="strCommand">The command text for this statement</param>
    /// <param name="previous">The previous command in a multi-statement command</param>
    internal SQLiteStatement(SQLiteBase sqlbase, SQLiteStatementHandle stmt, string strCommand, SQLiteStatement previous)
    {
      _sql     = sqlbase;
      _sqlite_stmt = stmt;
      _sqlStatement  = strCommand;


      // Determine parameters for this statement (if any) and prepare space for them.
      int nCmdStart = 0;
      int n = _sql.Bind_ParamCount(this);
      int x;
      string s;

      if (n > 0)
      {
        if (previous != null)
          nCmdStart = previous._unnamedParameters;

        _paramNames = new string[n];
        _paramValues = new SQLiteParameter[n];

        for (x = 0; x < n; x++)
        {
          s = _sql.Bind_ParamName(this, x + 1);
          if (String.IsNullOrEmpty(s))
          {
            s = String.Format(CultureInfo.InvariantCulture, ";{0}", nCmdStart);
            nCmdStart++;
            _unnamedParameters++;
          }
          _paramNames[x] = s;
................................................................................
    {
      if (param == null)
        throw new SQLiteException((int)SQLiteErrorCode.Error, "Insufficient parameters supplied to the command");

      object obj = param.Value;
      DbType objType = param.DbType;















      if (Convert.IsDBNull(obj) || obj == null)
      {
        _sql.Bind_Null(this, index);
        return;
      }

      if (objType == DbType.Object)
        objType = SQLiteConvert.TypeToDbType(obj.GetType());

      switch (objType)
      {
        case DbType.Date:
        case DbType.Time:
        case DbType.DateTime:
          //
          // NOTE: The old method (commented below) does not honor the selected date format
          //       for the connection.
          // _sql.Bind_DateTime(this, index, Convert.ToDateTime(obj, CultureInfo.CurrentCulture));
          _sql.Bind_DateTime(this, index, (obj is string) ?
              _sql.ToDateTime((string)obj) : Convert.ToDateTime(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Boolean:
          _sql.Bind_Int32(this, index, ToBoolean(obj, CultureInfo.CurrentCulture) ? 1 : 0);
          break;
        case DbType.SByte:
          _sql.Bind_Int32(this, index, Convert.ToSByte(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Int16:
          _sql.Bind_Int32(this, index, Convert.ToInt16(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Int32:
          _sql.Bind_Int32(this, index, Convert.ToInt32(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Int64:
          _sql.Bind_Int64(this, index, Convert.ToInt64(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Byte:
          _sql.Bind_UInt32(this, index, Convert.ToByte(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.UInt16:
          _sql.Bind_UInt32(this, index, Convert.ToUInt16(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.UInt32:
          _sql.Bind_UInt32(this, index, Convert.ToUInt32(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.UInt64:
          _sql.Bind_UInt64(this, index, Convert.ToUInt64(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Single:
        case DbType.Double:
        case DbType.Currency:
        //case DbType.Decimal: // Dont store decimal as double ... loses precision
          _sql.Bind_Double(this, index, Convert.ToDouble(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Binary:
          _sql.Bind_Blob(this, index, (byte[])obj);
          break;
        case DbType.Guid:
          if (_command.Connection._binaryGuid == true)
            _sql.Bind_Blob(this, index, ((Guid)obj).ToByteArray());
          else
            _sql.Bind_Text(this, index, obj.ToString());

          break;
        case DbType.Decimal: // Dont store decimal as double ... loses precision
          _sql.Bind_Text(this, index, Convert.ToDecimal(obj, CultureInfo.CurrentCulture).ToString(CultureInfo.InvariantCulture));
          break;
        default:
          _sql.Bind_Text(this, index, obj.ToString());
          break;
      }
    }

    internal string[] TypeDefinitions
    {
      get { return _types; }







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    /// </summary>
    internal SQLiteParameter[] _paramValues;
    /// <summary>
    /// Command this statement belongs to (if any)
    /// </summary>
    internal SQLiteCommand     _command;

    /// <summary>
    /// The flags associated with the parent connection object.
    /// </summary>
    private SQLiteConnectionFlags _flags;

    private string[] _types;

    /// <summary>
    /// Initializes the statement and attempts to get all information about parameters in the statement
    /// </summary>
    /// <param name="sqlbase">The base SQLite object</param>
    /// <param name="flags">The flags associated with the parent connection object</param>
    /// <param name="stmt">The statement</param>
    /// <param name="strCommand">The command text for this statement</param>
    /// <param name="previous">The previous command in a multi-statement command</param>
    internal SQLiteStatement(SQLiteBase sqlbase, SQLiteConnectionFlags flags, SQLiteStatementHandle stmt, string strCommand, SQLiteStatement previous)
    {
      _sql     = sqlbase;
      _sqlite_stmt = stmt;
      _sqlStatement  = strCommand;
      _flags = flags;

      // Determine parameters for this statement (if any) and prepare space for them.
      int nCmdStart = 0;
      int n = _sql.Bind_ParamCount(this, _flags);
      int x;
      string s;

      if (n > 0)
      {
        if (previous != null)
          nCmdStart = previous._unnamedParameters;

        _paramNames = new string[n];
        _paramValues = new SQLiteParameter[n];

        for (x = 0; x < n; x++)
        {
          s = _sql.Bind_ParamName(this, _flags, x + 1);
          if (String.IsNullOrEmpty(s))
          {
            s = String.Format(CultureInfo.InvariantCulture, ";{0}", nCmdStart);
            nCmdStart++;
            _unnamedParameters++;
          }
          _paramNames[x] = s;
................................................................................
    {
      if (param == null)
        throw new SQLiteException((int)SQLiteErrorCode.Error, "Insufficient parameters supplied to the command");

      object obj = param.Value;
      DbType objType = param.DbType;

      if ((obj != null) && (objType == DbType.Object))
          objType = SQLiteConvert.TypeToDbType(obj.GetType());

#if !PLATFORM_COMPACTFRAMEWORK
      if ((_flags & SQLiteConnectionFlags.LogPreBind) == SQLiteConnectionFlags.LogPreBind)
      {
          IntPtr handle = _sqlite_stmt;

          SQLiteLog.LogMessage(0, String.Format(
              "Binding statement {0} paramter #{1} with database type {2} and raw value {{{3}}}...",
              handle, index, objType, obj));
      }
#endif

      if ((obj == null) || Convert.IsDBNull(obj))
      {
          _sql.Bind_Null(this, _flags, index);
        return;
      }




      switch (objType)
      {
        case DbType.Date:
        case DbType.Time:
        case DbType.DateTime:
          //
          // NOTE: The old method (commented below) does not honor the selected date format
          //       for the connection.
          // _sql.Bind_DateTime(this, index, Convert.ToDateTime(obj, CultureInfo.CurrentCulture));
            _sql.Bind_DateTime(this, _flags, index, (obj is string) ?
              _sql.ToDateTime((string)obj) : Convert.ToDateTime(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Boolean:
          _sql.Bind_Int32(this, _flags, index, ToBoolean(obj, CultureInfo.CurrentCulture) ? 1 : 0);
          break;
        case DbType.SByte:
          _sql.Bind_Int32(this, _flags, index, Convert.ToSByte(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Int16:
          _sql.Bind_Int32(this, _flags, index, Convert.ToInt16(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Int32:
          _sql.Bind_Int32(this, _flags, index, Convert.ToInt32(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Int64:
          _sql.Bind_Int64(this, _flags, index, Convert.ToInt64(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Byte:
          _sql.Bind_UInt32(this, _flags, index, Convert.ToByte(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.UInt16:
          _sql.Bind_UInt32(this, _flags, index, Convert.ToUInt16(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.UInt32:
          _sql.Bind_UInt32(this, _flags, index, Convert.ToUInt32(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.UInt64:
          _sql.Bind_UInt64(this, _flags, index, Convert.ToUInt64(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Single:
        case DbType.Double:
        case DbType.Currency:
        //case DbType.Decimal: // Dont store decimal as double ... loses precision
          _sql.Bind_Double(this, _flags, index, Convert.ToDouble(obj, CultureInfo.CurrentCulture));
          break;
        case DbType.Binary:
          _sql.Bind_Blob(this, _flags, index, (byte[])obj);
          break;
        case DbType.Guid:
          if (_command.Connection._binaryGuid == true)
            _sql.Bind_Blob(this, _flags, index, ((Guid)obj).ToByteArray());
          else
            _sql.Bind_Text(this, _flags, index, obj.ToString());

          break;
        case DbType.Decimal: // Dont store decimal as double ... loses precision
          _sql.Bind_Text(this, _flags, index, Convert.ToDecimal(obj, CultureInfo.CurrentCulture).ToString(CultureInfo.InvariantCulture));
          break;
        default:
          _sql.Bind_Text(this, _flags, index, obj.ToString());
          break;
      }
    }

    internal string[] TypeDefinitions
    {
      get { return _types; }

Changes to System.Data.SQLite/UnsafeNativeMethods.cs.

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#endif

  // Handles the unmanaged database pointer, and provides finalization support for it.
  internal class SQLiteConnectionHandle : CriticalHandle
  {
    public static implicit operator IntPtr(SQLiteConnectionHandle db)
    {
      return db.handle;
    }

    public static implicit operator SQLiteConnectionHandle(IntPtr db)
    {
      return new SQLiteConnectionHandle(db);
    }

................................................................................
  }

  // Provides finalization support for unmanaged SQLite statements.
  internal class SQLiteStatementHandle : CriticalHandle
  {
    public static implicit operator IntPtr(SQLiteStatementHandle stmt)
    {
      return stmt.handle;
    }

    public static implicit operator SQLiteStatementHandle(IntPtr stmt)
    {
      return new SQLiteStatementHandle(stmt);
    }








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#endif

  // Handles the unmanaged database pointer, and provides finalization support for it.
  internal class SQLiteConnectionHandle : CriticalHandle
  {
    public static implicit operator IntPtr(SQLiteConnectionHandle db)
    {
      return (db != null) ? db.handle : IntPtr.Zero;
    }

    public static implicit operator SQLiteConnectionHandle(IntPtr db)
    {
      return new SQLiteConnectionHandle(db);
    }

................................................................................
  }

  // Provides finalization support for unmanaged SQLite statements.
  internal class SQLiteStatementHandle : CriticalHandle
  {
    public static implicit operator IntPtr(SQLiteStatementHandle stmt)
    {
      return (stmt != null) ? stmt.handle : IntPtr.Zero;
    }

    public static implicit operator SQLiteStatementHandle(IntPtr stmt)
    {
      return new SQLiteStatementHandle(stmt);
    }

Changes to Tests/basic.eagle.

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Source=test\.db\} 0 \{test\.db, Uri=test\.db\} 0 \{60, Default Timeout=60\} 0\
\{False, Enlist=False\} 0 \{True, FailIfMissing=True\} 0 \{False, Legacy\
Format=False\} 0 \{True, Read Only=True\} 0 \{secret, Password=secret\} 0\
\{4096, Page Size=4096\} 0 \{1024, Max Page Count=1024\} 0 \{8192, Cache\
Size=8192\} 0 \{UnixEpoch, DateTimeFormat=UnixEpoch\} 0 \{Utc,\
DateTimeKind=Utc\} 0 \{sqlite_schema, BaseSchemaName=sqlite_schema\} 0\
\{Memory, Journal Mode=Memory\} 0 \{Serializable, Default\
IsolationLevel=Serializable\} 0 \{False, Foreign Keys=False\} 0 \{Default,\
Flags=Default\}$}}

###############################################################################

runTest {test data-1.17 {SQLiteConvert ToDateTime (Julian Day)} -body {
  set dateTime [object invoke System.Data.SQLite.SQLiteConvert ToDateTime \
      2455928.0 Utc]








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Source=test\.db\} 0 \{test\.db, Uri=test\.db\} 0 \{60, Default Timeout=60\} 0\
\{False, Enlist=False\} 0 \{True, FailIfMissing=True\} 0 \{False, Legacy\
Format=False\} 0 \{True, Read Only=True\} 0 \{secret, Password=secret\} 0\
\{4096, Page Size=4096\} 0 \{1024, Max Page Count=1024\} 0 \{8192, Cache\
Size=8192\} 0 \{UnixEpoch, DateTimeFormat=UnixEpoch\} 0 \{Utc,\
DateTimeKind=Utc\} 0 \{sqlite_schema, BaseSchemaName=sqlite_schema\} 0\
\{Memory, Journal Mode=Memory\} 0 \{Serializable, Default\
IsolationLevel=Serializable\} 0 \{False, Foreign Keys=False\} 0 \{None,\
Flags=None\}$}}

###############################################################################

runTest {test data-1.17 {SQLiteConvert ToDateTime (Julian Day)} -body {
  set dateTime [object invoke System.Data.SQLite.SQLiteConvert ToDateTime \
      2455928.0 Utc]