System.Data.SQLite
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Artifact 36c9b6d8eba4701af6af2f6b671b1ef0ae15bed8:


/********************************************************
 * ADO.NET 2.0 Data Provider for SQLite Version 3.X
 * Written by Robert Simpson (robert@blackcastlesoft.com)
 * 
 * Released to the public domain, use at your own risk!
 ********************************************************/

namespace System.Data.SQLite
{
  using System;
  using System.Data;
  using System.Runtime.InteropServices;
  using System.Collections.Generic;

  /// <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) {}

    /// <summary>
    /// Returns a string representing the active version of SQLite
    /// </summary>
    internal abstract string Version { get; }
    /// <summary>
    /// Returns the number of changes the last executing insert/update caused.
    /// </summary>
    internal abstract int    Changes { get; }
    /// <summary>
    /// Opens a database.
    /// </summary>
    /// <remarks>
    /// Implementers should call SQLiteFunction.BindFunctions() and save the array after opening a connection
    /// to bind all attributed user-defined functions and collating sequences to the new connection.
    /// </remarks>
    /// <param name="strFilename">The filename of the database to open.  SQLite automatically creates it if it doesn't exist.</param>
    internal abstract void   Open(string strFilename);
    /// <summary>
    /// Closes the currently-open database.
    /// </summary>
    /// <remarks>
    /// After the database has been closed implemeters should call SQLiteFunction.UnbindFunctions() to deallocate all interop allocated
    /// memory associated with the user-defined functions and collating sequences tied to the closed connection.
    /// </remarks>
    internal abstract void   Close();
    /// <summary>
    /// Sets the busy timeout on the connection.  SQLiteCommand will call this before executing any command.
    /// </summary>
    /// <param name="nTimeoutMS">The number of milliseconds to wait before returning SQLITE_BUSY</param>
    internal abstract void   SetTimeout(int nTimeoutMS);
    /// <summary>
    /// Quick execute of a SQL command.  This is only executed internally, usually by SQLiteConnection when the connection
    /// is first opened to set the necessary startup pragmas.
    /// </summary>
    /// <param name="strSql">The SQL command text to execute</param>
    internal abstract void   Execute(string strSql);
    /// <summary>
    /// Returns the text of the last error issued by SQLite
    /// </summary>
    /// <returns></returns>
    internal abstract string SQLiteLastError();

    /// <summary>
    /// Prepares a SQL statement for execution.
    /// </summary>
    /// <param name="strSql">The SQL command text to prepare</param>
    /// <param name="previous">The previous statement in a multi-statement command, or null if no previous statement exists</param>
    /// <param name="strRemain">The remainder of the statement that was not processed.  Each call to prepare parses the
    /// SQL up to to either the end of the text or to the first semi-colon delimiter.  The remaining text is returned
    /// here for a subsequent call to Prepare() until all the text has been processed.</param>
    /// <returns>Returns an initialized SQLiteStatement.</returns>
    internal abstract SQLiteStatement Prepare(string strSql, SQLiteStatement previous, out string strRemain);
    /// <summary>
    /// Steps through a prepared statement.
    /// </summary>
    /// <param name="stmt">The SQLiteStatement to step through</param>
    /// <returns>True if a row was returned, False if not.</returns>
    internal abstract bool Step(SQLiteStatement stmt);
    /// <summary>
    /// Finalizes a prepared statement.
    /// </summary>
    /// <param name="stmt">The statement to finalize</param>
    internal abstract void FinalizeStatement(SQLiteStatement stmt);
    /// <summary>
    /// Resets a prepared statement so it can be executed again.  If the error returned is SQLITE_SCHEMA, 
    /// transparently attempt to rebuild the SQL statement and throw an error if that was not possible.
    /// </summary>
    /// <param name="stmt">The statement to reset</param>
    /// <returns>Returns -1 if the schema changed while resetting, 0 if the reset was sucessful or 6 (SQLITE_LOCKED) if the reset failed due to a lock</returns>
    internal abstract int Reset(SQLiteStatement stmt);

    internal abstract void Cancel();

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

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

    internal abstract int    ColumnCount(SQLiteStatement stmt);
    internal abstract string ColumnName(SQLiteStatement stmt, int index);
    internal abstract string ColumnType(SQLiteStatement stmt, int index, out TypeAffinity nAffinity);
    internal abstract int    ColumnIndex(SQLiteStatement stmt, string columnName);
    internal abstract string ColumnOriginalName(SQLiteStatement stmt, int index);
    internal abstract string ColumnDatabaseName(SQLiteStatement stmt, int index);
    internal abstract string ColumnTableName(SQLiteStatement stmt, int index);
    internal abstract void ColumnMetaData(string dataBase, string table, string column, out string dataType, out string collateSequence, out bool notNull, out bool primaryKey, out bool autoIncrement);

    internal abstract double   GetDouble(SQLiteStatement stmt, int index);
    internal abstract Int32    GetInt32(SQLiteStatement stmt, int index);
    internal abstract Int64    GetInt64(SQLiteStatement stmt, int index);
    internal abstract string   GetText(SQLiteStatement stmt, int index);
    internal abstract long     GetBytes(SQLiteStatement stmt, int index, int nDataoffset, byte[] bDest, int nStart, int nLength);
    internal abstract long     GetChars(SQLiteStatement stmt, int index, int nDataoffset, char[] bDest, int nStart, int nLength);
    internal abstract DateTime GetDateTime(SQLiteStatement stmt, int index);
    internal abstract bool     IsNull(SQLiteStatement stmt, int index);
    
    /// <summary>
    /// Helper function to retrieve a column of data from an active statement.
    /// </summary>
    /// <param name="stmt">The statement being step()'d through</param>
    /// <param name="index">The column index to retrieve</param>
    /// <param name="typ">The type of data contained in the column.  If Uninitialized, this function will retrieve the datatype information.</param>
    /// <returns>Returns the data in the column</returns>
    internal virtual  object   GetValue(SQLiteStatement stmt, int index, ref SQLiteType typ)
    {
      if (typ.Affinity == 0) typ = SQLiteConvert.ColumnToType(stmt, index);
      if (IsNull(stmt, index)) return DBNull.Value;
      
      Type t = SQLiteConvert.SQLiteTypeToType(typ);

      switch (TypeToAffinity(t))
      {
        case TypeAffinity.Blob:
          int n = (int)GetBytes(stmt, index, 0, null, 0, 0);
          byte[] b = new byte[n];
          GetBytes(stmt, index, 0, b, 0, n);
          return b;
        case TypeAffinity.DateTime:
          return GetDateTime(stmt, index);
        case TypeAffinity.Double:
          return Convert.ChangeType(GetDouble(stmt, index), t, null);
        case TypeAffinity.Int64:
          return Convert.ChangeType(GetInt64(stmt, index), t, null);
        default:
          if (typ.Type == DbType.Guid)
            return new Guid(GetText(stmt, index));

          return GetText(stmt, index);
      }
    }

    internal abstract IntPtr  CreateCollation(string strCollation, SQLiteCollation func);
    internal abstract IntPtr  CreateFunction(string strFunction, int nArgs, SQLiteCallback func, SQLiteCallback funcstep, SQLiteCallback funcfinal);
    internal abstract void FreeFunction(IntPtr cookie);

    internal abstract int AggregateCount(IntPtr context);
    internal abstract IntPtr AggregateContext(IntPtr context);

    internal abstract long   GetParamValueBytes(IntPtr ptr, int nDataOffset, byte[] bDest, int nStart, int nLength);
    internal abstract double GetParamValueDouble(IntPtr ptr);
    internal abstract int    GetParamValueInt32(IntPtr ptr);
    internal abstract Int64  GetParamValueInt64(IntPtr ptr);
    internal abstract string GetParamValueText(IntPtr ptr);
    internal abstract TypeAffinity GetParamValueType(IntPtr ptr);

    internal abstract void ReturnBlob(IntPtr context, byte[] value);
    internal abstract void ReturnDouble(IntPtr context, double value);
    internal abstract void ReturnError(IntPtr context, string value);
    internal abstract void ReturnInt32(IntPtr context, Int32 value);
    internal abstract void ReturnInt64(IntPtr context, Int64 value);
    internal abstract void ReturnNull(IntPtr context);
    internal abstract void ReturnText(IntPtr context, string value);

    internal abstract void SetPassword(byte[] passwordBytes);
    internal abstract void ChangePassword(byte[] newPasswordBytes);

    protected virtual void Dispose(bool bDisposing)
    {
    }

    public void Dispose()
    {
      Dispose(true);
      GC.SuppressFinalize(this);
    }
  }
}