internal void ReadpVm(IntPtr pVm, int version, SqliteCommand cmd) { int pN; IntPtr pazValue; IntPtr pazColName; bool first = true; int[] declmode = null; while (true) { bool hasdata = cmd.ExecuteStatement(pVm, out pN, out pazValue, out pazColName); // For the first row, get the column information if (first) { first = false; if (version == 3) { // A decltype might be null if the type is unknown to sqlite. decltypes = new string[pN]; declmode = new int[pN]; // 1 == integer, 2 == datetime for (int i = 0; i < pN; i++) { IntPtr decl = Sqlite.sqlite3_column_decltype16(pVm, i); if (decl != IntPtr.Zero) { decltypes[i] = Marshal.PtrToStringUni(decl).ToLower(System.Globalization.CultureInfo.InvariantCulture); if (decltypes[i] == "int" || decltypes[i] == "integer") { declmode[i] = 1; } else if (decltypes[i] == "date" || decltypes[i] == "datetime") { declmode[i] = 2; } } } } columns = new string[pN]; for (int i = 0; i < pN; i++) { string colName; if (version == 2) { IntPtr fieldPtr = Marshal.ReadIntPtr(pazColName, i * IntPtr.Size); colName = Sqlite.HeapToString(fieldPtr, ((SqliteConnection)cmd.Connection).Encoding); } else { colName = Marshal.PtrToStringUni(Sqlite.sqlite3_column_name16(pVm, i)); } columns[i] = colName; column_names_sens [colName] = i; column_names_insens [colName] = i; } } if (!hasdata) { break; } object[] data_row = new object [pN]; for (int i = 0; i < pN; i++) { if (version == 2) { IntPtr fieldPtr = Marshal.ReadIntPtr(pazValue, i * IntPtr.Size); data_row[i] = Sqlite.HeapToString(fieldPtr, ((SqliteConnection)cmd.Connection).Encoding); } else { switch (Sqlite.sqlite3_column_type(pVm, i)) { case 1: long val = Sqlite.sqlite3_column_int64(pVm, i); // If the column was declared as an 'int' or 'integer', let's play // nice and return an int (version 3 only). if (declmode[i] == 1 && val >= int.MinValue && val <= int.MaxValue) { data_row[i] = (int)val; } // Or if it was declared a date or datetime, do the reverse of what we // do for DateTime parameters. else if (declmode[i] == 2) { data_row[i] = DateTime.FromFileTime(val); } else { data_row[i] = val; } break; case 2: data_row[i] = Sqlite.sqlite3_column_double(pVm, i); break; case 3: data_row[i] = Marshal.PtrToStringUni(Sqlite.sqlite3_column_text16(pVm, i)); // If the column was declared as a 'date' or 'datetime', let's play // nice and return a DateTime (version 3 only). if (declmode[i] == 2) { data_row[i] = DateTime.Parse((string)data_row[i]); } break; case 4: int blobbytes = Sqlite.sqlite3_column_bytes16(pVm, i); IntPtr blobptr = Sqlite.sqlite3_column_blob(pVm, i); byte[] blob = new byte[blobbytes]; Marshal.Copy(blobptr, blob, 0, blobbytes); data_row[i] = blob; break; case 5: data_row[i] = null; break; default: throw new ApplicationException("FATAL: Unknown sqlite3_column_type"); } } } rows.Add(data_row); } }
internal void ReadpVm (IntPtr pVm, int version, SqliteCommand cmd) { int pN; IntPtr pazValue; IntPtr pazColName; bool first = true; int[] declmode = null; while (true) { bool hasdata = cmd.ExecuteStatement(pVm, out pN, out pazValue, out pazColName); // For the first row, get the column information if (first) { first = false; if (version == 3) { // A decltype might be null if the type is unknown to sqlite. decltypes = new string[pN]; declmode = new int[pN]; // 1 == integer, 2 == datetime for (int i = 0; i < pN; i++) { IntPtr decl = Sqlite.sqlite3_column_decltype16 (pVm, i); if (decl != IntPtr.Zero) { decltypes[i] = Marshal.PtrToStringUni (decl).ToLower(System.Globalization.CultureInfo.InvariantCulture); if (decltypes[i] == "int" || decltypes[i] == "integer") declmode[i] = 1; else if (decltypes[i] == "date" || decltypes[i] == "datetime") declmode[i] = 2; } } } columns = new string[pN]; for (int i = 0; i < pN; i++) { string colName; if (version == 2) { IntPtr fieldPtr = Marshal.ReadIntPtr (pazColName, i*IntPtr.Size); colName = Sqlite.HeapToString (fieldPtr, ((SqliteConnection)cmd.Connection).Encoding); } else { colName = Marshal.PtrToStringUni (Sqlite.sqlite3_column_name16 (pVm, i)); } columns[i] = colName; column_names_sens [colName] = i; column_names_insens [colName] = i; } } if (!hasdata) break; object[] data_row = new object [pN]; for (int i = 0; i < pN; i++) { if (version == 2) { IntPtr fieldPtr = Marshal.ReadIntPtr (pazValue, i*IntPtr.Size); data_row[i] = Sqlite.HeapToString (fieldPtr, ((SqliteConnection)cmd.Connection).Encoding); } else { switch (Sqlite.sqlite3_column_type (pVm, i)) { case 1: long val = Sqlite.sqlite3_column_int64 (pVm, i); // If the column was declared as an 'int' or 'integer', let's play // nice and return an int (version 3 only). if (declmode[i] == 1 && val >= int.MinValue && val <= int.MaxValue) data_row[i] = (int)val; // Or if it was declared a date or datetime, do the reverse of what we // do for DateTime parameters. else if (declmode[i] == 2) data_row[i] = DateTime.FromFileTime(val); else data_row[i] = val; break; case 2: data_row[i] = Sqlite.sqlite3_column_double (pVm, i); break; case 3: data_row[i] = Marshal.PtrToStringUni (Sqlite.sqlite3_column_text16 (pVm, i)); // If the column was declared as a 'date' or 'datetime', let's play // nice and return a DateTime (version 3 only). if (declmode[i] == 2) data_row[i] = DateTime.Parse((string)data_row[i]); break; case 4: int blobbytes = Sqlite.sqlite3_column_bytes16 (pVm, i); IntPtr blobptr = Sqlite.sqlite3_column_blob (pVm, i); byte[] blob = new byte[blobbytes]; Marshal.Copy (blobptr, blob, 0, blobbytes); data_row[i] = blob; break; case 5: data_row[i] = null; break; default: throw new ApplicationException ("FATAL: Unknown sqlite3_column_type"); } } } rows.Add (data_row); } }