System.Data.SQLite
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Overview
Comment:Merge all fixes, enhancements, and tests related to ticket [343d392b51] into trunk.
Downloads: Tarball | ZIP archive | SQL archive
Timelines: family | ancestors | descendants | both | trunk
Files: files | file ages | folders
SHA1: fc49363310e0fd654fb0f3bd9e447c910d118052
User & Date: mistachkin 2011-10-11 07:21:06
References
2011-10-18
09:06 Closed ticket [343d392b51]: DBConcurrencyException with attached database plus 4 other changes artifact: d742f572a9 user: mistachkin
Context
2011-10-11
12:13
Add detailed comments on the 'getAppDomainPreamble' unit test infrastructure procedure and its role in running tests that require an isolated application domain. check-in: 295690bb91 user: mistachkin tags: trunk
07:21
Merge all fixes, enhancements, and tests related to ticket [343d392b51] into trunk. check-in: fc49363310 user: mistachkin tags: trunk
04:53
Add tests to verify the assembly versions of the core projects. check-in: ff63be6a1f user: mistachkin tags: trunk
03:50
Merge updates from trunk. Closed-Leaf check-in: 250dac131a user: mistachkin tags: tkt-343d392b51
Changes
Hide Diffs Unified Diffs Ignore Whitespace Patch

Changes to System.Data.SQLite/SQLite3.cs.

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    private bool _buildingSchema;
#endif
    /// <summary>
    /// The user-defined functions registered on this connection
    /// </summary>
    protected SQLiteFunction[] _functionsArray;

    internal SQLite3(SQLiteDateFormats fmt)
      : base(fmt)
    {
    }

    protected override void Dispose(bool bDisposing)
    {
      if (bDisposing)
        Close();
................................................................................
    internal override string SQLiteLastError()
    {
      return SQLiteBase.SQLiteLastError(_sql);
    }

    internal override SQLiteStatement Prepare(SQLiteConnection cnn, string strSql, SQLiteStatement previous, uint timeoutMS, out string strRemain)
    {




















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






















      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());



    }

    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());
    }







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    private bool _buildingSchema;
#endif
    /// <summary>
    /// The user-defined functions registered on this connection
    /// </summary>
    protected SQLiteFunction[] _functionsArray;

    internal SQLite3(SQLiteDateFormats fmt, DateTimeKind kind)
      : base(fmt, kind)
    {
    }

    protected override void Dispose(bool bDisposing)
    {
      if (bDisposing)
        Close();
................................................................................
    internal override string SQLiteLastError()
    {
      return SQLiteBase.SQLiteLastError(_sql);
    }

    internal override SQLiteStatement Prepare(SQLiteConnection cnn, string strSql, SQLiteStatement previous, uint timeoutMS, out string strRemain)
    {
      if (!String.IsNullOrEmpty(strSql))
      {
        //
        // NOTE: SQLite does not support the concept of separate schemas
        //       in one database; therefore, remove the base schema name
        //       used to smooth integration with the base .NET Framework
        //       data classes.
        //
        string baseSchemaName = (cnn != null) ? cnn._baseSchemaName : null;

        if (!String.IsNullOrEmpty(baseSchemaName))
        {
          strSql = strSql.Replace(
              String.Format("[{0}].", baseSchemaName), String.Empty);

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

      IntPtr stmt = IntPtr.Zero;
      IntPtr ptr = IntPtr.Zero;
      int len = 0;
      int n = 17;
      int retries = 0;
      byte[] b = ToUTF8(strSql);
      string typedefs = null;
................................................................................
      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:
                {
                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, dt.Ticks);
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.JulianDay:
                {
                    int n = UnsafeNativeMethods.sqlite3_bind_double(stmt._sqlite_stmt, index, ToJulianDay(dt));
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.UnixEpoch:
                {
                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, Convert.ToInt64(dt.Subtract(UnixEpoch).TotalSeconds));
                    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());
    }

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

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  using System.Runtime.InteropServices;

  /// <summary>
  /// Alternate SQLite3 object, overriding many text behaviors to support UTF-16 (Unicode)
  /// </summary>
  internal class SQLite3_UTF16 : SQLite3
  {
    internal SQLite3_UTF16(SQLiteDateFormats fmt)
      : base(fmt)
    {
    }

    /// <summary>
    /// Overrides SQLiteConvert.ToString() to marshal UTF-16 strings instead of UTF-8
    /// </summary>
    /// <param name="b">A pointer to a UTF-16 string</param>
................................................................................
        _sql = db;
      }
      _functionsArray = SQLiteFunction.BindFunctions(this);
    }

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






















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



    }

    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());
    }







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  using System.Runtime.InteropServices;

  /// <summary>
  /// Alternate SQLite3 object, overriding many text behaviors to support UTF-16 (Unicode)
  /// </summary>
  internal class SQLite3_UTF16 : SQLite3
  {
    internal SQLite3_UTF16(SQLiteDateFormats fmt, DateTimeKind kind)
      : base(fmt, kind)
    {
    }

    /// <summary>
    /// Overrides SQLiteConvert.ToString() to marshal UTF-16 strings instead of UTF-8
    /// </summary>
    /// <param name="b">A pointer to a UTF-16 string</param>
................................................................................
        _sql = db;
      }
      _functionsArray = SQLiteFunction.BindFunctions(this);
    }

    internal override void Bind_DateTime(SQLiteStatement stmt, int index, DateTime dt)
    {
        switch (_datetimeFormat)
        {
            case SQLiteDateFormats.Ticks:
                {
                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, dt.Ticks);
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.JulianDay:
                {
                    int n = UnsafeNativeMethods.sqlite3_bind_double(stmt._sqlite_stmt, index, ToJulianDay(dt));
                    if (n > 0) throw new SQLiteException(n, SQLiteLastError());
                    break;
                }
            case SQLiteDateFormats.UnixEpoch:
                {
                    int n = UnsafeNativeMethods.sqlite3_bind_int64(stmt._sqlite_stmt, index, Convert.ToInt64(dt.Subtract(UnixEpoch).TotalSeconds));
                    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());
    }

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

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  /// <summary>
  /// This internal class provides the foundation of SQLite support.  It defines all the abstract members needed to implement
  /// a SQLite data provider, and inherits from SQLiteConvert which allows for simple translations of string to and from SQLite.
  /// </summary>
  internal abstract class SQLiteBase : SQLiteConvert, IDisposable
  {
    internal SQLiteBase(SQLiteDateFormats fmt)
      : base(fmt) { }

    static internal object _lock = new object();

    /// <summary>
    /// Returns a string representing the active version of SQLite
    /// </summary>
    internal abstract string Version { get; }







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  /// <summary>
  /// This internal class provides the foundation of SQLite support.  It defines all the abstract members needed to implement
  /// a SQLite data provider, and inherits from SQLiteConvert which allows for simple translations of string to and from SQLite.
  /// </summary>
  internal abstract class SQLiteBase : SQLiteConvert, IDisposable
  {
    internal SQLiteBase(SQLiteDateFormats fmt, DateTimeKind kind)
      : base(fmt, kind) { }

    static internal object _lock = new object();

    /// <summary>
    /// Returns a string representing the active version of SQLite
    /// </summary>
    internal abstract string Version { get; }

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

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  /// </item>
  /// <item>
  /// <description>DateTimeFormat</description>
  /// <description><b>Ticks</b> - Use DateTime.Ticks<br/><b>ISO8601</b> - Use ISO8601 DateTime format</description>
  /// <description>N</description>
  /// <description>ISO8601</description>
  /// </item>















  /// <item>
  /// <description>BinaryGUID</description>
  /// <description><b>True</b> - Store GUID columns in binary form<br/><b>False</b> - Store GUID columns as text</description>
  /// <description>N</description>
  /// <description>True</description>
  /// </item>
  /// <item>
................................................................................
  /// <description>N</description>
  /// <description>False</description>
  /// </item>
  /// </list>
  /// </remarks>
  public sealed partial class SQLiteConnection : DbConnection, ICloneable
  {









    private const int SQLITE_FCNTL_WIN32_AV_RETRY = 9;

    private const string _dataDirectory = "|DataDirectory|";
    private const string _masterdb = "sqlite_master";
    private const string _tempmasterdb = "sqlite_temp_master";

    /// <summary>
................................................................................
    /// </summary>
    private string _dataSource;
    /// <summary>
    /// Temporary password storage, emptied after the database has been opened
    /// </summary>
    private byte[] _password;







    /// <summary>
    /// Default command timeout
    /// </summary>
    private int _defaultTimeout = 30;

    internal bool _binaryGuid;

................................................................................

        _defaultTimeout = Convert.ToInt32(FindKey(opts, "Default Timeout", "30"), CultureInfo.CurrentCulture);

        _defaultIsolation = (IsolationLevel)Enum.Parse(typeof(IsolationLevel), FindKey(opts, "Default IsolationLevel", "Serializable"), true);
        if (_defaultIsolation != IsolationLevel.Serializable && _defaultIsolation != IsolationLevel.ReadCommitted)
          throw new NotSupportedException("Invalid Default IsolationLevel specified");



        //string temp = FindKey(opts, "DateTimeFormat", "ISO8601");
        //if (String.Compare(temp, "ticks", StringComparison.OrdinalIgnoreCase) == 0) dateFormat = SQLiteDateFormats.Ticks;
        //else if (String.Compare(temp, "julianday", StringComparison.OrdinalIgnoreCase) == 0) dateFormat = SQLiteDateFormats.JulianDay;

        if (_sql == null)
        {
          bool bUTF16 = (SQLiteConvert.ToBoolean(FindKey(opts, "UseUTF16Encoding", Boolean.FalseString)) == true);
          SQLiteDateFormats dateFormat = (SQLiteDateFormats)Enum.Parse(typeof(SQLiteDateFormats),
                                                                       FindKey(opts, "DateTimeFormat", "ISO8601"),
                                                                       true);




          if (bUTF16) // SQLite automatically sets the encoding of the database to UTF16 if called from sqlite3_open16()
            _sql = new SQLite3_UTF16(dateFormat);
          else
            _sql = new SQLite3(dateFormat);
        }

        SQLiteOpenFlagsEnum flags = SQLiteOpenFlagsEnum.None;

        if (SQLiteConvert.ToBoolean(FindKey(opts, "FailIfMissing", Boolean.FalseString)) == false)
          flags |= SQLiteOpenFlagsEnum.Create;

................................................................................
        {
            SortedList<string, string> opts = ParseConnectionString(_connectionString);

            bool bUTF16 = (SQLiteConvert.ToBoolean(FindKey(opts, "UseUTF16Encoding", Boolean.FalseString)) == true);
            SQLiteDateFormats dateFormat = (SQLiteDateFormats)Enum.Parse(typeof(SQLiteDateFormats),
                                                                         FindKey(opts, "DateTimeFormat", "ISO8601"),
                                                                         true);




            if (bUTF16) // SQLite automatically sets the encoding of the database to UTF16 if called from sqlite3_open16()
                _sql = new SQLite3_UTF16(dateFormat);
            else
                _sql = new SQLite3(dateFormat);
        }
        if (_sql != null) return _sql.Shutdown();
        throw new InvalidOperationException("Database connection not active.");
    }

    /// Enables or disabled extended result codes returned by SQLite
    public void SetExtendedResultCodes(bool bOnOff)







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  /// </item>
  /// <item>
  /// <description>DateTimeFormat</description>
  /// <description><b>Ticks</b> - Use DateTime.Ticks<br/><b>ISO8601</b> - Use ISO8601 DateTime format</description>
  /// <description>N</description>
  /// <description>ISO8601</description>
  /// </item>
  /// <item>
  /// <description>DateTimeKind</description>
  /// <description><b>Unspecified</b> - Not specified as either UTC or local time.<br/><b>Utc</b> - The time represented is UTC.<br/><b>Local</b> - The time represented is local time.</description>
  /// <description>N</description>
  /// <description>Unspecified</description>
  /// </item>
  /// <item>
  /// <description>BaseSchemaName</description>
  /// <description>Some base data classes in the framework (e.g. those that build SQL queries dynamically)
  /// assume that an ADO.NET provider cannot support an alternate catalog (i.e. database) without supporting
  /// alternate schemas as well; however, SQLite does not fit into this model.  Therefore, this value is used
  /// as a placeholder and removed prior to preparing any SQL statements that may contain it.</description>
  /// <description>N</description>
  /// <description>sqlite_default_schema</description>
  /// </item>
  /// <item>
  /// <description>BinaryGUID</description>
  /// <description><b>True</b> - Store GUID columns in binary form<br/><b>False</b> - Store GUID columns as text</description>
  /// <description>N</description>
  /// <description>True</description>
  /// </item>
  /// <item>
................................................................................
  /// <description>N</description>
  /// <description>False</description>
  /// </item>
  /// </list>
  /// </remarks>
  public sealed partial class SQLiteConnection : DbConnection, ICloneable
  {
    /// <summary>
    /// The default "stub" (i.e. placeholder) base schema name to use when
    /// returning column schema information.  Used as the initial value of
    /// the BaseSchemaName property.  This should start with "sqlite_*"
    /// because those names are reserved for use by SQLite (i.e. they cannot
    /// be confused with the names of user objects).
    /// </summary>
    private const string DefaultBaseSchemaName = "sqlite_default_schema";

    private const int SQLITE_FCNTL_WIN32_AV_RETRY = 9;

    private const string _dataDirectory = "|DataDirectory|";
    private const string _masterdb = "sqlite_master";
    private const string _tempmasterdb = "sqlite_temp_master";

    /// <summary>
................................................................................
    /// </summary>
    private string _dataSource;
    /// <summary>
    /// Temporary password storage, emptied after the database has been opened
    /// </summary>
    private byte[] _password;

    /// <summary>
    /// The "stub" (i.e. placeholder) base schema name to use when returning
    /// column schema information.
    /// </summary>
    internal string _baseSchemaName;

    /// <summary>
    /// Default command timeout
    /// </summary>
    private int _defaultTimeout = 30;

    internal bool _binaryGuid;

................................................................................

        _defaultTimeout = Convert.ToInt32(FindKey(opts, "Default Timeout", "30"), CultureInfo.CurrentCulture);

        _defaultIsolation = (IsolationLevel)Enum.Parse(typeof(IsolationLevel), FindKey(opts, "Default IsolationLevel", "Serializable"), true);
        if (_defaultIsolation != IsolationLevel.Serializable && _defaultIsolation != IsolationLevel.ReadCommitted)
          throw new NotSupportedException("Invalid Default IsolationLevel specified");

        _baseSchemaName = FindKey(opts, "BaseSchemaName", DefaultBaseSchemaName);

        //string temp = FindKey(opts, "DateTimeFormat", "ISO8601");
        //if (String.Compare(temp, "ticks", StringComparison.OrdinalIgnoreCase) == 0) dateFormat = SQLiteDateFormats.Ticks;
        //else if (String.Compare(temp, "julianday", StringComparison.OrdinalIgnoreCase) == 0) dateFormat = SQLiteDateFormats.JulianDay;

        if (_sql == null)
        {
          bool bUTF16 = (SQLiteConvert.ToBoolean(FindKey(opts, "UseUTF16Encoding", Boolean.FalseString)) == true);
          SQLiteDateFormats dateFormat = (SQLiteDateFormats)Enum.Parse(typeof(SQLiteDateFormats),
                                                                       FindKey(opts, "DateTimeFormat", "ISO8601"),
                                                                       true);

          DateTimeKind kind = (DateTimeKind)Enum.Parse(typeof(DateTimeKind),
              FindKey(opts, "DateTimeKind", "Unspecified"), true);

          if (bUTF16) // SQLite automatically sets the encoding of the database to UTF16 if called from sqlite3_open16()
            _sql = new SQLite3_UTF16(dateFormat, kind);
          else
            _sql = new SQLite3(dateFormat, kind);
        }

        SQLiteOpenFlagsEnum flags = SQLiteOpenFlagsEnum.None;

        if (SQLiteConvert.ToBoolean(FindKey(opts, "FailIfMissing", Boolean.FalseString)) == false)
          flags |= SQLiteOpenFlagsEnum.Create;

................................................................................
        {
            SortedList<string, string> opts = ParseConnectionString(_connectionString);

            bool bUTF16 = (SQLiteConvert.ToBoolean(FindKey(opts, "UseUTF16Encoding", Boolean.FalseString)) == true);
            SQLiteDateFormats dateFormat = (SQLiteDateFormats)Enum.Parse(typeof(SQLiteDateFormats),
                                                                         FindKey(opts, "DateTimeFormat", "ISO8601"),
                                                                         true);

            DateTimeKind kind = (DateTimeKind)Enum.Parse(typeof(DateTimeKind),
                FindKey(opts, "DateTimeKind", "Unspecified"), true);

            if (bUTF16) // SQLite automatically sets the encoding of the database to UTF16 if called from sqlite3_open16()
                _sql = new SQLite3_UTF16(dateFormat, kind);
            else
                _sql = new SQLite3(dateFormat, kind);
        }
        if (_sql != null) return _sql.Shutdown();
        throw new InvalidOperationException("Database connection not active.");
    }

    /// Enables or disabled extended result codes returned by SQLite
    public void SetExtendedResultCodes(bool bOnOff)

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

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  /// This base class provides datatype conversion services for the SQLite provider.
  /// </summary>
  public abstract class SQLiteConvert
  {
    /// <summary>
    /// The value for the Unix epoch (e.g. January 1, 1970 at midnight, in UTC).
    /// </summary>
    private static readonly DateTime UnixEpoch =
        new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);






    /// <summary>
    /// The format string for DateTime values when using the InvariantCulture or CurrentCulture formats.
    /// </summary>
    private const string FullFormat = "yyyy-MM-ddTHH:mm:ss.fffffffK";

    /// <summary>
    /// An array of ISO8601 datetime formats we support conversion from
    /// </summary>
    private static string[] _datetimeFormats = new string[] {
      "THHmmss",
      "THHmm",

      "HH:mm:ss",
      "HH:mm",



      "HH:mm:ss.FFFFFFF",
      "yy-MM-dd",
      "yyyy-MM-dd",





      "yyyy-MM-dd HH:mm:ss.FFFFFFF",



      "yyyy-MM-dd HH:mm:ss",
      "yyyy-MM-dd HH:mm",                               
      "yyyy-MM-ddTHH:mm:ss.FFFFFFF",
      "yyyy-MM-ddTHH:mm",
      "yyyy-MM-ddTHH:mm:ss",
      "yyyyMMddHHmmss",
      "yyyyMMddHHmm",
      "yyyyMMddTHHmmssFFFFFFF",

      "yyyyMMdd"

    };

    /// <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>
    internal SQLiteDateFormats _datetimeFormat;
    /// <summary>




    /// Initializes the conversion class
    /// </summary>
    /// <param name="fmt">The default date/time format to use for this instance</param>

    internal SQLiteConvert(SQLiteDateFormats fmt)
    {
      _datetimeFormat = fmt;

    }

    #region UTF-8 Conversion Functions
    /// <summary>
    /// Converts a string to a UTF-8 encoded byte array sized to include a null-terminating character.
    /// </summary>
    /// <param name="sourceText">The string to convert to UTF-8</param>
................................................................................

    #region DateTime Conversion Functions
    /// <summary>
    /// Converts a string into a DateTime, using the current DateTimeFormat specified for the connection when it was opened.
    /// </summary>
    /// <remarks>
    /// Acceptable ISO8601 DateTime formats are:
    ///   yyyy-MM-dd HH:mm:ss
    ///   yyyyMMddHHmmss
    ///   yyyyMMddTHHmmssfffffff
    ///   yyyy-MM-dd
    ///   yy-MM-dd
    ///   yyyyMMdd
    ///   HH:mm:ss
    ///   THHmmss


























    /// </remarks>
    /// <param name="dateText">The string containing either a 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 string.</param>
    /// <returns>A DateTime value</returns>
    public DateTime ToDateTime(string dateText)
    {




















































      switch (_datetimeFormat)
      {
        case SQLiteDateFormats.Ticks:

          return new DateTime(Convert.ToInt64(dateText, CultureInfo.InvariantCulture));


        case SQLiteDateFormats.JulianDay:

          return ToDateTime(Convert.ToDouble(dateText, CultureInfo.InvariantCulture));


        case SQLiteDateFormats.UnixEpoch:


          return UnixEpoch.AddSeconds(Convert.ToInt32(dateText, CultureInfo.InvariantCulture));


        case SQLiteDateFormats.InvariantCulture:


          return DateTime.Parse(dateText, DateTimeFormatInfo.InvariantInfo, DateTimeStyles.None);





        case SQLiteDateFormats.CurrentCulture:


          return DateTime.Parse(dateText, DateTimeFormatInfo.CurrentInfo, DateTimeStyles.None);





        default:



          return DateTime.ParseExact(dateText, _datetimeFormats, DateTimeFormatInfo.InvariantInfo, DateTimeStyles.None);




      }
    }


    /// <summary>
    /// Converts a julianday value into a DateTime
    /// </summary>
    /// <param name="julianDay">The value to convert</param>
    /// <returns>A .NET DateTime</returns>
    public DateTime ToDateTime(double julianDay)
    {












      return DateTime.FromOADate(julianDay - 2415018.5);
    }

    /// <summary>
    /// Converts a DateTime struct to a JulianDay double
    /// </summary>
    /// <param name="value">The DateTime to convert</param>
    /// <returns>The JulianDay value the Datetime represents</returns>
    public double ToJulianDay(DateTime value)
    {
      return value.ToOADate() + 2415018.5;
    }

    /// <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
................................................................................
        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.ToString(_datetimeFormats[7], CultureInfo.InvariantCulture);
      }
    }

    /// <summary>
    /// Internal function to convert a UTF-8 encoded IntPtr of the specified length to a DateTime.
    /// </summary>
    /// <remarks>







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  /// This base class provides datatype conversion services for the SQLite provider.
  /// </summary>
  public abstract class SQLiteConvert
  {
    /// <summary>
    /// The value for the Unix epoch (e.g. January 1, 1970 at midnight, in UTC).
    /// </summary>
    protected static readonly DateTime UnixEpoch =
        new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);

    /// <summary>
    /// The value of the OLE Automation epoch represented as a Julian day.
    /// </summary>
    private static readonly double OleAutomationEpochAsJulianDay = 2415018.5;

    /// <summary>
    /// The format string for DateTime values when using the InvariantCulture or CurrentCulture formats.
    /// </summary>
    private const string FullFormat = "yyyy-MM-ddTHH:mm:ss.fffffffK";

    /// <summary>
    /// An array of ISO8601 datetime formats we support conversion from
    /// </summary>
    private static string[] _datetimeFormats = new string[] {
      "THHmmssK",
      "THHmmK",
      "HH:mm:ss.FFFFFFFK",
      "HH:mm:ssK",
      "HH:mmK",
      "yyyy-MM-dd HH:mm:ss.FFFFFFFK", /* NOTE: UTC default (5). */
      "yyyy-MM-dd HH:mm:ssK",
      "yyyy-MM-dd HH:mmK",
      "yyyy-MM-ddTHH:mm:ss.FFFFFFFK",
      "yyyy-MM-ddTHH:mmK",
      "yyyy-MM-ddTHH:mm:ssK",
      "yyyyMMddHHmmssK",
      "yyyyMMddHHmmK",
      "yyyyMMddTHHmmssFFFFFFFK",
      "THHmmss",
      "THHmm",
      "HH:mm:ss.FFFFFFF",
      "HH:mm:ss",
      "HH:mm",
      "yyyy-MM-dd HH:mm:ss.FFFFFFF", /* NOTE: Non-UTC default (19). */
      "yyyy-MM-dd HH:mm:ss",
      "yyyy-MM-dd HH:mm",
      "yyyy-MM-ddTHH:mm:ss.FFFFFFF",
      "yyyy-MM-ddTHH:mm",
      "yyyy-MM-ddTHH:mm:ss",
      "yyyyMMddHHmmss",
      "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>
    internal SQLiteDateFormats _datetimeFormat;
    /// <summary>
    /// The default DateTimeKind for this instance.
    /// </summary>
    internal DateTimeKind _datetimeKind;
    /// <summary>
    /// Initializes the conversion class
    /// </summary>
    /// <param name="fmt">The default date/time format to use for this instance</param>
    /// <param name="kind">The DateTimeKind to use.</param>
    internal SQLiteConvert(SQLiteDateFormats fmt, DateTimeKind kind)
    {
      _datetimeFormat = fmt;
      _datetimeKind = kind;
    }

    #region UTF-8 Conversion Functions
    /// <summary>
    /// Converts a string to a UTF-8 encoded byte array sized to include a null-terminating character.
    /// </summary>
    /// <param name="sourceText">The string to convert to UTF-8</param>
................................................................................

    #region DateTime Conversion Functions
    /// <summary>
    /// Converts a string into a DateTime, using the current DateTimeFormat specified for the connection when it was opened.
    /// </summary>
    /// <remarks>
    /// Acceptable ISO8601 DateTime formats are:
    /// <list type="bullet">
    /// <item><description>THHmmssK</description></item>
    /// <item><description>THHmmK</description></item>
    /// <item><description>HH:mm:ss.FFFFFFFK</description></item>
    /// <item><description>HH:mm:ssK</description></item>
    /// <item><description>HH:mmK</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ss.FFFFFFFK</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ssK</description></item>
    /// <item><description>yyyy-MM-dd HH:mmK</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ss.FFFFFFFK</description></item>
    /// <item><description>yyyy-MM-ddTHH:mmK</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ssK</description></item>
    /// <item><description>yyyyMMddHHmmssK</description></item>
    /// <item><description>yyyyMMddHHmmK</description></item>
    /// <item><description>yyyyMMddTHHmmssFFFFFFFK</description></item>
    /// <item><description>THHmmss</description></item>
    /// <item><description>THHmm</description></item>
    /// <item><description>HH:mm:ss.FFFFFFF</description></item>
    /// <item><description>HH:mm:ss</description></item>
    /// <item><description>HH:mm</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ss.FFFFFFF</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ss</description></item>
    /// <item><description>yyyy-MM-dd HH:mm</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ss.FFFFFFF</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ss</description></item>
    /// <item><description>yyyyMMddHHmmss</description></item>
    /// <item><description>yyyyMMddHHmm</description></item>
    /// <item><description>yyyyMMddTHHmmssFFFFFFF</description></item>
    /// <item><description>yyyy-MM-dd</description></item>
    /// <item><description>yyyyMMdd</description></item>
    /// <item><description>yy-MM-dd</description></item>
    /// </list>
    /// If the string cannot be matched to one of the above formats, an exception will be thrown.
    /// </remarks>
    /// <param name="dateText">The string containing either a 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 string.</param>
    /// <returns>A DateTime value</returns>
    public DateTime ToDateTime(string dateText)
    {
      return ToDateTime(dateText, _datetimeFormat, _datetimeKind);
    }

    /// <summary>
    /// Converts a string into a DateTime, using the specified DateTimeFormat and DateTimeKind.
    /// </summary>
    /// <remarks>
    /// Acceptable ISO8601 DateTime formats are:
    /// <list type="bullet">
    /// <item><description>THHmmssK</description></item>
    /// <item><description>THHmmK</description></item>
    /// <item><description>HH:mm:ss.FFFFFFFK</description></item>
    /// <item><description>HH:mm:ssK</description></item>
    /// <item><description>HH:mmK</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ss.FFFFFFFK</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ssK</description></item>
    /// <item><description>yyyy-MM-dd HH:mmK</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ss.FFFFFFFK</description></item>
    /// <item><description>yyyy-MM-ddTHH:mmK</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ssK</description></item>
    /// <item><description>yyyyMMddHHmmssK</description></item>
    /// <item><description>yyyyMMddHHmmK</description></item>
    /// <item><description>yyyyMMddTHHmmssFFFFFFFK</description></item>
    /// <item><description>THHmmss</description></item>
    /// <item><description>THHmm</description></item>
    /// <item><description>HH:mm:ss.FFFFFFF</description></item>
    /// <item><description>HH:mm:ss</description></item>
    /// <item><description>HH:mm</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ss.FFFFFFF</description></item>
    /// <item><description>yyyy-MM-dd HH:mm:ss</description></item>
    /// <item><description>yyyy-MM-dd HH:mm</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ss.FFFFFFF</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm</description></item>
    /// <item><description>yyyy-MM-ddTHH:mm:ss</description></item>
    /// <item><description>yyyyMMddHHmmss</description></item>
    /// <item><description>yyyyMMddHHmm</description></item>
    /// <item><description>yyyyMMddTHHmmssFFFFFFF</description></item>
    /// <item><description>yyyy-MM-dd</description></item>
    /// <item><description>yyyyMMdd</description></item>
    /// <item><description>yy-MM-dd</description></item>
    /// </list>
    /// If the string cannot be matched to one of the above formats, an exception will be thrown.
    /// </remarks>
    /// <param name="dateText">The string containing either a 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 string.</param>
    /// <param name="format">The SQLiteDateFormats to use.</param>
    /// <param name="kind">The DateTimeKind to use.</param>
    /// <returns>A DateTime value</returns>
    public DateTime ToDateTime(string dateText, SQLiteDateFormats format, DateTimeKind kind)
    {
        switch (format)
        {
            case SQLiteDateFormats.Ticks:
                {
                    return new DateTime(Convert.ToInt64(
                        dateText, CultureInfo.InvariantCulture), kind);
                }
            case SQLiteDateFormats.JulianDay:
                {
                    return ToDateTime(Convert.ToDouble(
                        dateText, CultureInfo.InvariantCulture), kind);
                }
            case SQLiteDateFormats.UnixEpoch:
                {
                    return DateTime.SpecifyKind(
                        UnixEpoch.AddSeconds(Convert.ToInt32(
                        dateText, CultureInfo.InvariantCulture)), kind);
                }
            case SQLiteDateFormats.InvariantCulture:
                {
                    return DateTime.SpecifyKind(DateTime.Parse(
                        dateText, DateTimeFormatInfo.InvariantInfo,
                        kind == DateTimeKind.Utc ?
                            DateTimeStyles.AdjustToUniversal :
                            DateTimeStyles.None),
                        kind);
                }
            case SQLiteDateFormats.CurrentCulture:
                {
                    return DateTime.SpecifyKind(DateTime.Parse(
                        dateText, DateTimeFormatInfo.CurrentInfo,
                        kind == DateTimeKind.Utc ?
                            DateTimeStyles.AdjustToUniversal :
                            DateTimeStyles.None),
                        kind);
                }
            default:
                {
                    return DateTime.SpecifyKind(DateTime.ParseExact(
                        dateText, _datetimeFormats,
                        DateTimeFormatInfo.InvariantInfo,
                        kind == DateTimeKind.Utc ?
                            DateTimeStyles.AdjustToUniversal :
                            DateTimeStyles.None),
                        kind);
                }
        }
    }

    /// <summary>
    /// Converts a julianday value into a DateTime
    /// </summary>
    /// <param name="julianDay">The value to convert</param>
    /// <returns>A .NET DateTime</returns>
    public DateTime ToDateTime(double julianDay)
    {
      return ToDateTime(julianDay, _datetimeKind);
    }

    /// <summary>
    /// Converts a julianday value into a DateTime
    /// </summary>
    /// <param name="julianDay">The value to convert</param>
    /// <param name="kind">The DateTimeKind to use.</param>
    /// <returns>A .NET DateTime</returns>
    public DateTime ToDateTime(double julianDay, DateTimeKind kind)
    {
        return DateTime.SpecifyKind(
            DateTime.FromOADate(julianDay - OleAutomationEpochAsJulianDay), kind);
    }

    /// <summary>
    /// Converts a DateTime struct to a JulianDay double
    /// </summary>
    /// <param name="value">The DateTime to convert</param>
    /// <returns>The JulianDay value the Datetime represents</returns>
    public 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
................................................................................
        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>

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

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    internal bool _disposing;

    /// <summary>
    /// An array of rowid's for the active statement if CommandBehavior.KeyInfo is specified
    /// </summary>
    private SQLiteKeyReader _keyInfo;


    internal long _version; // Matches the version of the connection










    /// <summary>
    /// Internal constructor, initializes the datareader and sets up to begin executing statements
    /// </summary>
    /// <param name="cmd">The SQLiteCommand this data reader is for</param>
    /// <param name="behave">The expected behavior of the data reader</param>
    internal SQLiteDataReader(SQLiteCommand cmd, CommandBehavior behave)
    {
      _throwOnDisposed = true;
      _command = cmd;
      _version = _command.Connection._version;


      _commandBehavior = behave;
      _activeStatementIndex = -1;
      _rowsAffected = -1;

      if (_command != null)
        NextResult();
................................................................................
        row[SchemaTableOptionalColumn.IsReadOnly] = false;
        row[SchemaTableOptionalColumn.IsRowVersion] = false;
        row[SchemaTableColumn.IsUnique] = false;
        row[SchemaTableColumn.IsKey] = false;
        row[SchemaTableOptionalColumn.IsAutoIncrement] = false;
        row[SchemaTableColumn.DataType] = GetFieldType(n);
        row[SchemaTableOptionalColumn.IsHidden] = false;


        strColumn = _command.Connection._sql.ColumnOriginalName(_activeStatement, n);
        if (String.IsNullOrEmpty(strColumn) == false) row[SchemaTableColumn.BaseColumnName] = strColumn;

        row[SchemaTableColumn.IsExpression] = String.IsNullOrEmpty(strColumn);
        row[SchemaTableColumn.IsAliased] = (String.Compare(GetName(n), strColumn, StringComparison.OrdinalIgnoreCase) != 0);








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    internal bool _disposing;

    /// <summary>
    /// An array of rowid's for the active statement if CommandBehavior.KeyInfo is specified
    /// </summary>
    private SQLiteKeyReader _keyInfo;

    /// <summary>
    /// Matches the version of the connection.
    /// </summary>
    internal long _version;

    /// <summary>
    /// The "stub" (i.e. placeholder) base schema name to use when returning
    /// column schema information.  Matches the base schema name used by the
    /// associated connection.
    /// </summary>
    private string _baseSchemaName;

    /// <summary>
    /// Internal constructor, initializes the datareader and sets up to begin executing statements
    /// </summary>
    /// <param name="cmd">The SQLiteCommand this data reader is for</param>
    /// <param name="behave">The expected behavior of the data reader</param>
    internal SQLiteDataReader(SQLiteCommand cmd, CommandBehavior behave)
    {
      _throwOnDisposed = true;
      _command = cmd;
      _version = _command.Connection._version;
      _baseSchemaName = _command.Connection._baseSchemaName;

      _commandBehavior = behave;
      _activeStatementIndex = -1;
      _rowsAffected = -1;

      if (_command != null)
        NextResult();
................................................................................
        row[SchemaTableOptionalColumn.IsReadOnly] = false;
        row[SchemaTableOptionalColumn.IsRowVersion] = false;
        row[SchemaTableColumn.IsUnique] = false;
        row[SchemaTableColumn.IsKey] = false;
        row[SchemaTableOptionalColumn.IsAutoIncrement] = false;
        row[SchemaTableColumn.DataType] = GetFieldType(n);
        row[SchemaTableOptionalColumn.IsHidden] = false;
        row[SchemaTableColumn.BaseSchemaName] = _baseSchemaName;

        strColumn = _command.Connection._sql.ColumnOriginalName(_activeStatement, n);
        if (String.IsNullOrEmpty(strColumn) == false) row[SchemaTableColumn.BaseColumnName] = strColumn;

        row[SchemaTableColumn.IsExpression] = String.IsNullOrEmpty(strColumn);
        row[SchemaTableColumn.IsAliased] = (String.Compare(GetName(n), strColumn, StringComparison.OrdinalIgnoreCase) != 0);

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

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                    AppDomain.CurrentDomain.DomainUnload += _domainUnload;
                }

                //
                // NOTE: Create an instance of the SQLite wrapper class.
                //
                if (_sql == null)
                    _sql = new SQLite3(SQLiteDateFormats.Default);


                //
                // NOTE: Create a single "global" (i.e. per-process) callback
                //       to register with SQLite.  This callback will pass the
                //       event on to any registered handler.  We only want to
                //       do this once.
                //







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                    AppDomain.CurrentDomain.DomainUnload += _domainUnload;
                }

                //
                // NOTE: Create an instance of the SQLite wrapper class.
                //
                if (_sql == null)
                    _sql = new SQLite3(SQLiteDateFormats.Default,
                        DateTimeKind.Unspecified);

                //
                // NOTE: Create a single "global" (i.e. per-process) callback
                //       to register with SQLite.  This callback will pass the
                //       event on to any registered handler.  We only want to
                //       do this once.
                //

Changes to Tests/basic.eagle.

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{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} \
-result {0 1 2 2 1 2 2 2 {1 {{x 1} {y foobar} {z 1234}}} {2 {{x 2} {y foobar}\
{z 5678}}} 2 {1 {{x 1} {y foobar} {z 1234}}} {2 {{x 2} {y foobar} {z 5678}}}}}

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

runTest {test basic-1.12 {DateTime using Unix epoch} -setup {
  setupDb [set fileName basic-1.12.db] "" "" "DateTimeFormat=UnixEpoch;"
} -body {
  set result [list]

  sql execute $db "CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y DATETIME);"
  sql execute $db "INSERT INTO t1 (x, y) VALUES(1, 1302825600);"
  sql execute $db "INSERT INTO t1 (x, y) VALUES(2, 1334448000);"
  sql execute $db "INSERT INTO t1 (x, y) VALUES(3, 1365984000);"
................................................................................

  sql execute -verbatim $db "INSERT INTO t1 (x, y) VALUES(8, ?);" \
      [list param1 DateTime 1334448000]

  sql execute -verbatim $db "INSERT INTO t1 (x, y) VALUES(9, ?);" \
      [list param1 DateTime 1365984000]

  sql execute -execute reader -datetimeformat "MM/dd/yyyy HH:mm:ss" $db \
      "SELECT x, y FROM t1 ORDER BY x;"

  foreach name [lsort -integer [array names rows -regexp {^\d+$}]] {
    lappend result [list $name $rows($name)]
  }

  set result
} -cleanup {
  cleanupDb $fileName

  unset -nocomplain name rows result db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} \
-result {{1 {{x 1} {y {04/15/2011 00:00:00}}}} {2 {{x 2} {y {04/15/2012\
00:00:00}}}} {3 {{x 3} {y {04/15/2013 00:00:00}}}} {4 {{x 4} {y {04/15/2011\
00:00:00}}}} {5 {{x 5} {y {04/15/2012 00:00:00}}}} {6 {{x 6} {y {04/15/2013\
00:00:00}}}} {7 {{x 7} {y {04/15/2011 00:00:00}}}} {8 {{x 8} {y {04/15/2012\
00:00:00}}}} {9 {{x 9} {y {04/15/2013 00:00:00}}}}}}

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

set date [clock format [clock seconds] -format yyyy-MM-dd]

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

runTest {test basic-1.13 {DateTime using invariant culture} -setup {
  setupDb [set fileName basic-1.13.db] "" "" "DateTimeFormat=InvariantCulture;"
} -body {
  set result [list]

  sql execute $db "CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y DATETIME);"

  sql execute $db \
      "INSERT INTO t1 (x, y) VALUES(1, 'Wednesday, 16 December 2009');"
................................................................................

  sql execute $db "INSERT INTO t1 (x, y) VALUES(11, ?);" \
      [list param1 DateTime 12:00]

  sql execute $db "INSERT INTO t1 (x, y) VALUES(12, ?);" \
      [list param1 DateTime "12/16/2009 12:00"]

  sql execute -execute reader -datetimeformat "MM/dd/yyyy HH:mm:ss" $db \
      "SELECT x, CAST(y AS TEXT) AS y2 FROM t1 ORDER BY x;"

  foreach name [lsort -integer [array names rows -regexp {^\d+$}]] {
    lappend result [list $name $rows($name)]
  }

  set result
................................................................................
${date}T12:00:00.0000000Z}}} {9 {{x 9} {y2 2009-12-16T12:00:00.0000000Z}}}\
{10 {{x 10} {y2 2009-12-16T00:00:00.0000000Z}}} {11 {{x 11} {y2\
${date}T12:00:00.0000000Z}}} {12 {{x 12} {y2 2009-12-16T12:00:00.0000000Z}}}}]}

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

runTest {test basic-1.14 {DateTime using current culture} -setup {
  setupDb [set fileName basic-1.14.db] "" "" "DateTimeFormat=CurrentCulture;"
} -body {
  set result [list]

  sql execute $db "CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y DATETIME);"

  sql execute $db \
      "INSERT INTO t1 (x, y) VALUES(1, 'Wednesday, 16 December 2009');"
................................................................................

  sql execute $db "INSERT INTO t1 (x, y) VALUES(11, ?);" \
      [list param1 DateTime 12:00]

  sql execute $db "INSERT INTO t1 (x, y) VALUES(12, ?);" \
      [list param1 DateTime "12/16/2009 12:00"]

  sql execute -execute reader -datetimeformat "MM/dd/yyyy HH:mm:ss" $db \
      "SELECT x, CAST(y AS TEXT) AS y2 FROM t1 ORDER BY x;"

  foreach name [lsort -integer [array names rows -regexp {^\d+$}]] {
    lappend result [list $name $rows($name)]
  }

  set result







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{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} \
-result {0 1 2 2 1 2 2 2 {1 {{x 1} {y foobar} {z 1234}}} {2 {{x 2} {y foobar}\
{z 5678}}} 2 {1 {{x 1} {y foobar} {z 1234}}} {2 {{x 2} {y foobar} {z 5678}}}}}

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

runTest {test basic-1.12 {DateTime using Unix epoch} -setup {
  setupDb [set fileName basic-1.12.db] "" UnixEpoch Utc
} -body {
  set result [list]

  sql execute $db "CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y DATETIME);"
  sql execute $db "INSERT INTO t1 (x, y) VALUES(1, 1302825600);"
  sql execute $db "INSERT INTO t1 (x, y) VALUES(2, 1334448000);"
  sql execute $db "INSERT INTO t1 (x, y) VALUES(3, 1365984000);"
................................................................................

  sql execute -verbatim $db "INSERT INTO t1 (x, y) VALUES(8, ?);" \
      [list param1 DateTime 1334448000]

  sql execute -verbatim $db "INSERT INTO t1 (x, y) VALUES(9, ?);" \
      [list param1 DateTime 1365984000]

  sql execute -execute reader -datetimeformat [getDateTimeFormat] $db \
      "SELECT x, y FROM t1 ORDER BY x;"

  foreach name [lsort -integer [array names rows -regexp {^\d+$}]] {
    lappend result [list $name $rows($name)]
  }

  set result
} -cleanup {
  cleanupDb $fileName

  unset -nocomplain name rows result db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} \
-result {{1 {{x 1} {y {2011-04-15 00:00:00Z}}}} {2 {{x 2} {y {2012-04-15\
00:00:00Z}}}} {3 {{x 3} {y {2013-04-15 00:00:00Z}}}} {4 {{x 4} {y {2011-04-15\
00:00:00Z}}}} {5 {{x 5} {y {2012-04-15 00:00:00Z}}}} {6 {{x 6} {y {2013-04-15\
00:00:00Z}}}} {7 {{x 7} {y {2011-04-15 00:00:00Z}}}} {8 {{x 8} {y {2012-04-15\
00:00:00Z}}}} {9 {{x 9} {y {2013-04-15 00:00:00Z}}}}}}

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

set date [clock format [clock seconds] -format yyyy-MM-dd]

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

runTest {test basic-1.13 {DateTime using invariant culture} -setup {
  setupDb [set fileName basic-1.13.db] "" InvariantCulture Utc
} -body {
  set result [list]

  sql execute $db "CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y DATETIME);"

  sql execute $db \
      "INSERT INTO t1 (x, y) VALUES(1, 'Wednesday, 16 December 2009');"
................................................................................

  sql execute $db "INSERT INTO t1 (x, y) VALUES(11, ?);" \
      [list param1 DateTime 12:00]

  sql execute $db "INSERT INTO t1 (x, y) VALUES(12, ?);" \
      [list param1 DateTime "12/16/2009 12:00"]

  sql execute -execute reader -datetimeformat [getDateTimeFormat] $db \
      "SELECT x, CAST(y AS TEXT) AS y2 FROM t1 ORDER BY x;"

  foreach name [lsort -integer [array names rows -regexp {^\d+$}]] {
    lappend result [list $name $rows($name)]
  }

  set result
................................................................................
${date}T12:00:00.0000000Z}}} {9 {{x 9} {y2 2009-12-16T12:00:00.0000000Z}}}\
{10 {{x 10} {y2 2009-12-16T00:00:00.0000000Z}}} {11 {{x 11} {y2\
${date}T12:00:00.0000000Z}}} {12 {{x 12} {y2 2009-12-16T12:00:00.0000000Z}}}}]}

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

runTest {test basic-1.14 {DateTime using current culture} -setup {
  setupDb [set fileName basic-1.14.db] "" CurrentCulture Utc
} -body {
  set result [list]

  sql execute $db "CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y DATETIME);"

  sql execute $db \
      "INSERT INTO t1 (x, y) VALUES(1, 'Wednesday, 16 December 2009');"
................................................................................

  sql execute $db "INSERT INTO t1 (x, y) VALUES(11, ?);" \
      [list param1 DateTime 12:00]

  sql execute $db "INSERT INTO t1 (x, y) VALUES(12, ?);" \
      [list param1 DateTime "12/16/2009 12:00"]

  sql execute -execute reader -datetimeformat [getDateTimeFormat] $db \
      "SELECT x, CAST(y AS TEXT) AS y2 FROM t1 ORDER BY x;"

  foreach name [lsort -integer [array names rows -regexp {^\d+$}]] {
    lappend result [list $name $rows($name)]
  }

  set result

Changes to Tests/common.eagle.

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      #       release of Eagle, the following command must be used instead
      #       (also all on one line):
      #
      #       EagleShell.exe -initialize -postInitialize
      #         "object invoke Interpreter.GetActive AddRuntimeOption native"
      #         -file .\path\to\all.eagle
      #







      if {[hasRuntimeOption native]} then {
        return [file join [file dirname $::path] bin [getBuildYear] \
            [machineToPlatform $::tcl_platform(machine)] \
            [getBuildConfiguration]]
      } else {
        return [file join [file dirname $::path] bin [getBuildYear] \
            [getBuildConfiguration] bin]

      }
    }
 
    proc getBuildFileName { fileName } {
      return [file nativename \
          [file join [getBuildDirectory] [file tail $fileName]]]
    }
................................................................................
      #
      # NOTE: This procedure returns the directory where the test application
      #       itself (i.e. the Eagle shell) is located.  This will be used as
      #       the destination for the copied System.Data.SQLite native and
      #       managed assemblies (i.e. because this is one of the few places
      #       where the CLR will actually find and load them properly).
      #







      return [info binary]

    }
 
    proc getBinaryFileName { fileName } {
      return [file nativename \
          [file join [getBinaryDirectory] [file tail $fileName]]]
    }
 
................................................................................
        addConstraint SQLite

        tputs $channel [appendArgs "yes (" $version ")\n"]
      } else {
        tputs $channel no\n
      }
    }






















 
    proc enumerableToList { enumerable } {
      set result [list]

      if {[string length $enumerable] == 0 || $enumerable eq "null"} then {
        return $result
      }
................................................................................
      #
      # NOTE: Evaluate the constructed [compileCSharp] command and return the
      #       result.
      #
      eval $command
    }
 
    proc setupDb {fileName {mode ""} {delete ""} {extra ""} {varName db}} {


      #
      # NOTE: For now, all test databases used by the test suite are placed into
      #       the temporary directory.  Each database used by a test should be
      #       cleaned up by that test using the "cleanupDb" procedure, below.
      #
      set fileName [file join [getTemporaryPath] [file tail $fileName]]

      #
      # NOTE: By default, delete any pre-existing database with the same file
      #       name.
      #
      if {[string length $delete] == 0 || $delete} then {
        catch {file delete $fileName}
      }

      #
      # NOTE: Refer to the specified variable (e.g. "db") in the context of the
      #       caller.  The handle to the opened database will be stored there.
      #
................................................................................
      #
      # NOTE: If the caller specified a journal mode, add the necessary portion
      #       of the connection string now.
      #
      if {[string length $mode] > 0} then {
        append connection {;Journal Mode=${mode}}
      }

















      #
      # NOTE: If the caller specified an extra payload to the connection string,
      #       append it now.
      #
      if {[string length $extra] > 0} then {
        append connection \; $extra







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      #       release of Eagle, the following command must be used instead
      #       (also all on one line):
      #
      #       EagleShell.exe -initialize -postInitialize
      #         "object invoke Interpreter.GetActive AddRuntimeOption native"
      #         -file .\path\to\all.eagle
      #
      if {[info exists ::build_directory] && \
          [string length $::build_directory] > 0} then {
        #
        # NOTE: The location of the build directory has been overridden.
        #
        return $::build_directory
      } else {
        if {[hasRuntimeOption native]} then {
          return [file join [file dirname $::path] bin [getBuildYear] \
              [machineToPlatform $::tcl_platform(machine)] \
              [getBuildConfiguration]]
        } else {
          return [file join [file dirname $::path] bin [getBuildYear] \
              [getBuildConfiguration] bin]
        }
      }
    }
 
    proc getBuildFileName { fileName } {
      return [file nativename \
          [file join [getBuildDirectory] [file tail $fileName]]]
    }
................................................................................
      #
      # NOTE: This procedure returns the directory where the test application
      #       itself (i.e. the Eagle shell) is located.  This will be used as
      #       the destination for the copied System.Data.SQLite native and
      #       managed assemblies (i.e. because this is one of the few places
      #       where the CLR will actually find and load them properly).
      #
      if {[info exists ::binary_directory] && \
          [string length $::binary_directory] > 0} then {
        #
        # NOTE: The location of the binary directory has been overridden.
        #
        return $::binary_directory
      } else {
        return [info binary]
      }
    }
 
    proc getBinaryFileName { fileName } {
      return [file nativename \
          [file join [getBinaryDirectory] [file tail $fileName]]]
    }
 
................................................................................
        addConstraint SQLite

        tputs $channel [appendArgs "yes (" $version ")\n"]
      } else {
        tputs $channel no\n
      }
    }
 
    proc getDateTimeFormat {} {
      #
      # NOTE: This procedure simply returns the "default" DateTime format used
      #       by the test suite.
      #
      if {[info exists ::datetime_format] && \
          [string length $::datetime_format] > 0} then {
        #
        # NOTE: Return the manually overridden value for the DateTime format.
        #
        return $::datetime_format
      } else {
        #
        # NOTE: Return an ISO8601 DateTime format compatible with SQLite,
        #       System.Data.SQLite, and suitable for round-tripping with the
        #       DateTime class of the framework.  If this value is changed,
        #       various tests may fail.
        #
        return "yyyy-MM-dd HH:mm:ss.FFFFFFFK"
      }
    }
 
    proc enumerableToList { enumerable } {
      set result [list]

      if {[string length $enumerable] == 0 || $enumerable eq "null"} then {
        return $result
      }
................................................................................
      #
      # NOTE: Evaluate the constructed [compileCSharp] command and return the
      #       result.
      #
      eval $command
    }
 
    proc setupDb {
            fileName {mode ""} {dateTimeFormat ""} {dateTimeKind ""} {extra ""}
            {delete true} {varName db}} {
      #
      # NOTE: For now, all test databases used by the test suite are placed into
      #       the temporary directory.  Each database used by a test should be
      #       cleaned up by that test using the "cleanupDb" procedure, below.
      #
      set fileName [file join [getTemporaryPath] [file tail $fileName]]

      #
      # NOTE: By default, delete any pre-existing database with the same file
      #       name.
      #
      if {$delete} then {
        catch {file delete $fileName}
      }

      #
      # NOTE: Refer to the specified variable (e.g. "db") in the context of the
      #       caller.  The handle to the opened database will be stored there.
      #
................................................................................
      #
      # NOTE: If the caller specified a journal mode, add the necessary portion
      #       of the connection string now.
      #
      if {[string length $mode] > 0} then {
        append connection {;Journal Mode=${mode}}
      }

      #
      # NOTE: If the caller specified a DateTime format, add the necessary
      #       portion of the connection string now.
      #
      if {[string length $dateTimeFormat] > 0} then {
        append connection {;DateTimeFormat=${dateTimeFormat}}
      }

      #
      # NOTE: If the caller specified a DateTimeKind, add the necessary portion
      #       of the connection string now.
      #
      if {[string length $dateTimeKind] > 0} then {
        append connection {;DateTimeKind=${dateTimeKind}}
      }

      #
      # NOTE: If the caller specified an extra payload to the connection string,
      #       append it now.
      #
      if {[string length $extra] > 0} then {
        append connection \; $extra

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###############################################################################
#
# tkt-343d392b51.eagle --
#
# Written by Joe Mistachkin.
# Released to the public domain, use at your own risk!
#
###############################################################################

package require Eagle
package require EagleLibrary
package require EagleTest

runTestPrologue

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

package require System.Data.SQLite.Test
runSQLiteTestPrologue

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

set dateTimeFormats [list "" Ticks ISO8601 JulianDay UnixEpoch]

for {set i 1} {$i < 5} {incr i} {
  set dateTimeFormat [lindex $dateTimeFormats $i]

  runTest {test [appendArgs tkt-343d392b51-1. $i] [subst {DateTime\
      binding $dateTimeFormat format}] -setup {
    setupDb [set fileName [appendArgs tkt-343d392b51-1. $i .db]] "" \
        $dateTimeFormat Utc

    set dateTime "4 October, 2011 3:27:50 PM GMT"
  } -body {
    sql execute $db "CREATE TABLE t1(x DATETIME);"

    set paramDateTime1 [clock format [clock scan $dateTime] -format \
        [getDateTimeFormat] -gmt true]

    switch -exact -- $dateTimeFormat {
      Ticks {
        set paramDateTime1 [object invoke -alias DateTime Parse $paramDateTime1]
        set paramDateTime1 [$paramDateTime1 ToUniversalTime.Ticks]
        set paramDateTime2 $paramDateTime1
      }
      ISO8601 {
        set paramDateTime2 [appendArgs ' $paramDateTime1 ']
      }
      JulianDay {
        set paramDateTime1 [object invoke -alias DateTime Parse $paramDateTime1]
        set paramDateTime1 [$paramDateTime1 -alias ToUniversalTime]

        set paramDateTime1 [expr {[$paramDateTime1 ToOADate] + \
            [object invoke -flags +NonPublic System.Data.SQLite.SQLiteConvert \
            OleAutomationEpochAsJulianDay]}]

        set paramDateTime2 $paramDateTime1
      }
      UnixEpoch {
        set paramDateTime1 [clock scan $dateTime]
        set paramDateTime2 $paramDateTime1
      }
    }

    sql execute $db [appendArgs "INSERT INTO t1 (x) VALUES(" $paramDateTime2 \
        ");"]

    list [sql execute -verbatim -execute reader -format list -datetimeformat \
        [getDateTimeFormat] $db "SELECT x FROM t1 WHERE x = ?;" \
        [list param1 String $paramDateTime1]] \
        [sql execute -verbatim -execute reader -format list -datetimeformat \
        [getDateTimeFormat] $db "SELECT x FROM t1 WHERE x = ?;" \
        [list param1 DateTime $paramDateTime1]]
  } -cleanup {
    cleanupDb $fileName

    unset -nocomplain paramDateTime2 paramDateTime1 dateTime db fileName
  } -constraints {eagle culture.en_US monoBug28 command.sql compile.DATA SQLite\
System.Data.SQLite} -result {{{2011-10-04 15:27:50Z}} {{2011-10-04 15:27:50Z}}}}
}

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

unset -nocomplain dateTimeFormat i dateTimeFormats

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

runTest {test tkt-343d392b51-2.1 {SQLiteDataAdapter update fail} -setup {
  setupDb [set fileName tkt-343d392b51-2.1.db]
  set otherFileName tkt-343d392b51-2.1-otherDb.db
} -body {
  set id [object invoke Interpreter.GetActive NextId]
  set dataSource [file join [getTemporaryPath] $fileName]
  set otherDataSource [file join [getTemporaryPath] $otherFileName]
  set otherDbName otherDb
  set otherTable [appendArgs $otherDbName .t1]

  set sql(inserts) ""
  set sql(1) [subst { \
    ATTACH DATABASE '${otherDataSource}' AS ${otherDbName}; \
    CREATE TABLE ${otherTable}(x INTEGER PRIMARY KEY, y DATETIME); \
    [for {set i 1} {$i < 3} {incr i} {
      append sql(inserts) [appendArgs \
          "INSERT INTO " ${otherTable} " (x, y) VALUES(" $i ", '" \
          [clock format $i -format [getDateTimeFormat]] "'); "]
    }; return [expr {[info exists sql(inserts)] ? $sql(inserts) : ""}]] \
  }]

  set sql(2) [subst { \
    SELECT x, y FROM ${otherTable} ORDER BY x; \
  }]

  unset -nocomplain results errors

  set code [compileCSharpWith [subst {
    using System;
    using System.Data;
    using System.Data.SQLite;

    namespace _Dynamic${id}
    {
      public class Test${id}
      {
        public static void Main()
        {
          using (SQLiteConnection connection = new SQLiteConnection(
              "Data Source=${dataSource};"))
          {
            connection.Open();

            using (SQLiteCommand command = connection.CreateCommand())
            {
              command.CommandText = "${sql(1)}";
              command.ExecuteNonQuery();
            }

            using (SQLiteDataAdapter dataAdapter = new SQLiteDataAdapter(
                "${sql(2)}", connection))
            {
              using (DataSet dataSet = new DataSet())
              {
                dataAdapter.Fill(dataSet, "${otherTable}");

                DataTable dataTable = dataSet.Tables\["${otherTable}"\];

                dataTable.Columns\["x"\].Unique = true;
                dataTable.PrimaryKey = new DataColumn\[\] {
                  dataTable.Columns\["x"\]
                };

                [expr {[isMono] ? "#pragma warning disable 219" : ""}]
                SQLiteCommandBuilder commandBuilder =
                    new SQLiteCommandBuilder(dataAdapter);
                [expr {[isMono] ? "#pragma warning restore 219" : ""}]

                foreach (DataRow dataRow in dataTable.Rows)
                {
                  //
                  // NOTE: Update even rows and delete odd rows.
                  //
                  if ((long)dataRow\["x"\] % 2 == 0)
                    dataRow\["y"\] =
                        DateTime.UtcNow.ToString("[getDateTimeFormat]");
                  else
                    dataRow.Delete();
                }

                dataAdapter.Update(dataTable); // DBConcurrencyException (?)
              }
            }
          }
        }
      }
    }
  }] results errors System.Data.SQLite.dll]

  list $code $results \
      [expr {[info exists errors] ? $errors : ""}] \
      [expr {$code eq "Ok" ? [catch {
        object invoke _Dynamic${id}.Test${id} Main
      } result] : [set result ""]}] $result
} -cleanup {
  cleanupDb $otherFileName
  cleanupDb $fileName

  unset -nocomplain result code results errors i sql otherTable otherDbName \
      otherDataSource dataSource id db otherFileName fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -match \
glob -result {* System.Data.DBConcurrencyException: *}}

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

runTest {test tkt-343d392b51-2.2 {SQLiteDataAdapter update success} -setup {
  setupDb [set fileName tkt-343d392b51-2.2.db] "" JulianDay
  set otherFileName tkt-343d392b51-2.2-otherDb.db
} -body {
  set id [object invoke Interpreter.GetActive NextId]
  set dataSource [file join [getTemporaryPath] $fileName]
  set otherDataSource [file join [getTemporaryPath] $otherFileName]
  set otherDbName otherDb
  set otherTable [appendArgs $otherDbName .t1]

  set sql(inserts) ""
  set sql(1) [subst { \
    ATTACH DATABASE '${otherDataSource}' AS ${otherDbName}; \
    CREATE TABLE ${otherTable}(x INTEGER PRIMARY KEY, y DATETIME); \
    [for {set i 1} {$i < 3} {incr i} {
      append sql(inserts) [appendArgs \
          "INSERT INTO " ${otherTable} " (x, y) VALUES(" $i ", JULIANDAY('" \
          [clock format $i -format [getDateTimeFormat]] "')); "]
    }; return [expr {[info exists sql(inserts)] ? $sql(inserts) : ""}]] \
  }]

  set sql(2) [subst { \
    SELECT x, y FROM ${otherTable} ORDER BY x; \
  }]

  unset -nocomplain results errors

  set code [compileCSharpWith [subst {
    using System;
    using System.Data;
    using System.Data.SQLite;

    namespace _Dynamic${id}
    {
      public class Test${id}
      {
        public static void Main()
        {
          using (SQLiteConnection connection = new SQLiteConnection(
              "Data Source=${dataSource};DateTimeFormat=JulianDay;"))
          {
            connection.Open();

            using (SQLiteCommand command = connection.CreateCommand())
            {
              command.CommandText = "${sql(1)}";
              command.ExecuteNonQuery();
            }

            using (SQLiteDataAdapter dataAdapter = new SQLiteDataAdapter(
                "${sql(2)}", connection))
            {
              using (DataSet dataSet = new DataSet())
              {
                dataAdapter.Fill(dataSet, "${otherTable}");

                DataTable dataTable = dataSet.Tables\["${otherTable}"\];

                dataTable.Columns\["x"\].Unique = true;
                dataTable.PrimaryKey = new DataColumn\[\] {
                  dataTable.Columns\["x"\]
                };

                [expr {[isMono] ? "#pragma warning disable 219" : ""}]
                SQLiteCommandBuilder commandBuilder =
                    new SQLiteCommandBuilder(dataAdapter);
                [expr {[isMono] ? "#pragma warning restore 219" : ""}]

                foreach (DataRow dataRow in dataTable.Rows)
                {
                  //
                  // NOTE: Update even rows and delete odd rows.
                  //
                  if ((long)dataRow\["x"\] % 2 == 0)
                    dataRow\["y"\] =
                        DateTime.UtcNow.ToString("[getDateTimeFormat]");
                  else
                    dataRow.Delete();
                }

                dataAdapter.Update(dataTable); // DBConcurrencyException (?)
              }
            }
          }
        }
      }
    }
  }] results errors System.Data.SQLite.dll]

  list $code $results \
      [expr {[info exists errors] ? $errors : ""}] \
      [expr {$code eq "Ok" ? [catch {
        object invoke _Dynamic${id}.Test${id} Main
      } result] : [set result ""]}] $result
} -cleanup {
  cleanupDb $otherFileName
  cleanupDb $fileName

  unset -nocomplain result code results errors i sql otherTable otherDbName \
      otherDataSource dataSource id db otherFileName fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -match \
regexp -result {^Ok System#CodeDom#Compiler#CompilerResults#\d+ \{\} 0 \{\}$}}

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

runTest {test tkt-343d392b51-3.1 {attached database, same table name} -setup {
  setupDb [set fileName tkt-343d392b51-3.1.db]
  set otherFileName tkt-343d392b51-3.1-otherDb.db
} -body {
  set otherDataSource [file join [getTemporaryPath] $otherFileName]
  set otherDbName otherDb
  set otherTable [appendArgs $otherDbName .t1]

  set sql(inserts) ""
  set sql(1) [subst { \
    CREATE TABLE t1(x INTEGER PRIMARY KEY); \
    ATTACH DATABASE '${otherDataSource}' AS ${otherDbName}; \
    CREATE TABLE ${otherTable}(x INTEGER PRIMARY KEY); \
    [for {set i 1} {$i < 3} {incr i} {
      append sql(inserts) [appendArgs \
          "INSERT INTO t1 (x) VALUES(" $i "); "]

      append sql(inserts) [appendArgs \
          "INSERT INTO " ${otherTable} " (x) VALUES(" [expr {$i * 2}] "); "]
    }; return [expr {[info exists sql(inserts)] ? $sql(inserts) : ""}]] \
  }]

  sql execute $db $sql(1)

  list [sql execute -execute reader -format list $db "SELECT x FROM t1;"] \
      [sql execute -execute reader -format list $db [appendArgs \
      "SELECT x FROM " ${otherTable} ";"]]
} -cleanup {
  cleanupDb $otherFileName
  cleanupDb $fileName

  unset -nocomplain i sql otherTable otherDbName otherDataSource db \
      otherFileName fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{{1 2} {2 4}}}

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

runTest {test tkt-343d392b51-3.2 {adapter, attached db, table names} -setup {
  setupDb [set fileName tkt-343d392b51-3.2.db]
  set otherFileName tkt-343d392b51-3.2-otherDb.db
} -body {
  set id [object invoke Interpreter.GetActive NextId]
  set dataSource [file join [getTemporaryPath] $fileName]
  set otherDataSource [file join [getTemporaryPath] $otherFileName]
  set otherDbName otherDb
  set otherTable [appendArgs $otherDbName .t1]

  set sql(inserts) ""
  set sql(1) [subst { \
    CREATE TABLE t1(x INTEGER PRIMARY KEY); \
    ATTACH DATABASE '${otherDataSource}' AS ${otherDbName}; \
    CREATE TABLE ${otherTable}(x INTEGER PRIMARY KEY); \
    [for {set i 1} {$i < 3} {incr i} {
      append sql(inserts) [appendArgs \
          "INSERT INTO t1 (x) VALUES(" $i ");"]
      append sql(inserts) [appendArgs \
          "INSERT INTO " ${otherTable} " (x) VALUES(" [expr {$i * 2}] "); "]
    }; return [expr {[info exists sql(inserts)] ? $sql(inserts) : ""}]] \
  }]

  set sql(2) [subst { \
    SELECT x FROM ${otherTable} ORDER BY x; \
  }]

  unset -nocomplain results errors

  set code [compileCSharpWith [subst {
    using System;
    using System.Data;
    using System.Data.SQLite;

    namespace _Dynamic${id}
    {
      public class Test${id}
      {
        public static void Main()
        {
          using (SQLiteConnection connection = new SQLiteConnection(
              "Data Source=${dataSource};"))
          {
            connection.Open();

            using (SQLiteCommand command = connection.CreateCommand())
            {
              command.CommandText = "${sql(1)}";
              command.ExecuteNonQuery();
            }

            using (SQLiteDataAdapter dataAdapter = new SQLiteDataAdapter(
                "${sql(2)}", connection))
            {
              using (DataSet dataSet = new DataSet())
              {
                dataAdapter.Fill(dataSet, "${otherTable}");

                DataTable dataTable = dataSet.Tables\["${otherTable}"\];

                dataTable.Columns\["x"\].Unique = true;
                dataTable.PrimaryKey = new DataColumn\[\] {
                  dataTable.Columns\["x"\]
                };

                [expr {[isMono] ? "#pragma warning disable 219" : ""}]
                SQLiteCommandBuilder commandBuilder =
                    new SQLiteCommandBuilder(dataAdapter);
                [expr {[isMono] ? "#pragma warning restore 219" : ""}]

                foreach (DataRow dataRow in dataTable.Rows)
                  dataRow.Delete();

                dataAdapter.Update(dataTable); // DBConcurrencyException (?)
              }
            }
          }
        }
      }
    }
  }] results errors System.Data.SQLite.dll]

  list $code $results \
      [expr {[info exists errors] ? $errors : ""}] \
      [expr {$code eq "Ok" ? [catch {
        object invoke _Dynamic${id}.Test${id} Main
      } result] : [set result ""]}] $result
} -cleanup {
  cleanupDb $otherFileName
  cleanupDb $fileName

  unset -nocomplain result code results errors i sql otherTable otherDbName \
      otherDataSource dataSource id db otherFileName fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -match \
regexp -result {^Ok System#CodeDom#Compiler#CompilerResults#\d+ \{\} 0 \{\}$}}

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

runSQLiteTestEpilogue
runTestEpilogue

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

runTest {test tkt-448d663d11-1.2 {missing journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.2.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.3 {missing journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.3.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.5 {'Default' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.5.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Default false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.6 {'Default' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.6.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Default false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.8 {'Delete' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.8.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Delete false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.9 {'Delete' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.9.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Delete false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.15 {'Wal' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.15.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Wal false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.16 {'Wal' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.16.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Wal false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.18 {'Bad' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.18.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Bad false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.19 {'Bad' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.19.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Bad false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}

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

runSQLiteTestEpilogue
runTestEpilogue







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

runTest {test tkt-448d663d11-1.2 {missing journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.2.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName "" "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.3 {missing journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.3.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName "" "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.5 {'Default' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.5.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Default "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.6 {'Default' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.6.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Default "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.8 {'Delete' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.8.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Delete "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.9 {'Delete' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.9.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Delete "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.15 {'Wal' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.15.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Wal "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.16 {'Wal' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.16.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Wal "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}
................................................................................

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

runTest {test tkt-448d663d11-1.18 {'Bad' journal mode, non-WAL db} -body {
  set fileName tkt-448d663d11-1.18.db
  file copy -force [file join $path nonWal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Bad "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{delete}}
................................................................................

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

runTest {test tkt-448d663d11-1.19 {'Bad' journal mode, WAL db} -body {
  set fileName tkt-448d663d11-1.19.db
  file copy -force [file join $path wal.db] \
      [file join [getTemporaryPath] $fileName]
  setupDb $fileName Bad "" "" "" false
  sql execute -execute scalar $db "PRAGMA journal_mode;"
} -cleanup {
  cleanupDb $fileName
  unset -nocomplain db fileName
} -constraints \
{eagle monoBug28 command.sql compile.DATA SQLite System.Data.SQLite} -result \
{wal}}

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

runSQLiteTestEpilogue
runTestEpilogue

Changes to Tests/tkt-b4a7ddc83f.eagle.

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  object invoke -flags +NonPublic System.Data.SQLite.UnsafeNativeMethods \
      sqlite3_shutdown
}

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

for {set i 1} {$i < 3} {incr i} {
  runTest {test tkt-b4a7ddc83f-1.$i {logging shutdown} -setup \
      [getAppDomainPreamble {
    set appDomainId(1) {[object invoke AppDomain.CurrentDomain Id]}
    set fileName {tkt-b4a7ddc83f-1.$i.db}
  }] -body {
    set appDomainId(2) [object invoke AppDomain.CurrentDomain Id]

    package require EagleLibrary
    package require EagleTest
    package require System.Data.SQLite.Test








|


|







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  object invoke -flags +NonPublic System.Data.SQLite.UnsafeNativeMethods \
      sqlite3_shutdown
}

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

for {set i 1} {$i < 3} {incr i} {
  runTest {test [appendArgs tkt-b4a7ddc83f-1. $i] {logging shutdown} -setup \
      [getAppDomainPreamble {
    set appDomainId(1) {[object invoke AppDomain.CurrentDomain Id]}
    set fileName {[appendArgs tkt-b4a7ddc83f-1. $i .db]}
  }] -body {
    set appDomainId(2) [object invoke AppDomain.CurrentDomain Id]

    package require EagleLibrary
    package require EagleTest
    package require System.Data.SQLite.Test

Changes to www/test.wiki.

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  </li>

  <li>
    Make sure all tests pass; the log file
    &quot;%TEMP%\EagleShell.exe.test.&lt;pid&gt;.log&quot; may be checked if any
    errors should occur.  EagleTest should produce &quot;success&quot; messages
    very similar to the following:<br /><br />
    PASSED: 48<br />
    TOTAL: 48<br />
    PASS PERCENTAGE: 100%<br />
    OVERALL RESULT: SUCCESS<br />
  </li>
</ol>







|
|




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  </li>

  <li>
    Make sure all tests pass; the log file
    &quot;%TEMP%\EagleShell.exe.test.&lt;pid&gt;.log&quot; may be checked if any
    errors should occur.  EagleTest should produce &quot;success&quot; messages
    very similar to the following:<br /><br />
    PASSED: 96<br />
    TOTAL: 96<br />
    PASS PERCENTAGE: 100%<br />
    OVERALL RESULT: SUCCESS<br />
  </li>
</ol>