// [END bigtable_filters_limit_cells_per_col]

        // [START bigtable_filters_limit_cells_per_row]
        /// <summary>
        /// /// Read using a cells per row filter from an existing table.
        ///</summary>
        /// <param name="projectId">Your Google Cloud Project ID.</param>
        /// <param name="instanceId">Your Google Cloud Bigtable Instance ID.</param>
        /// <param name="tableId">Your Google Cloud Bigtable table ID.</param>

        public string filterLimitCellsPerRow(string projectId = "YOUR-PROJECT-ID", string instanceId = "YOUR-INSTANCE-ID", string tableId = "YOUR-TABLE-ID")
        {
            // A filter that matches the first 2 cells of each row
            RowFilter filter = RowFilters.CellsPerRowLimit(2);

            return(readFilter(projectId, instanceId, tableId, filter));
        }
        public void Chain()
        {
            var filter = RowFilters.Chain(
                RowFilters.CellsPerRowLimit(1),
                RowFilters.ValueExact("abc"));

            Assert.NotNull(filter.Chain);
            Assert.Equal(2, filter.Chain.Filters.Count);
            Assert.Equal(RowFilters.CellsPerRowLimit(1), filter.Chain.Filters[0]);
            Assert.Equal(RowFilters.ValueExact("abc"), filter.Chain.Filters[1]);
        }
        public void Interleave()
        {
            var filter = RowFilters.Interleave(
                RowFilters.CellsPerRowLimit(1),
                RowFilters.ValueExact("abc"));

            Assert.NotNull(filter.Interleave);
            Assert.Equal(2, filter.Interleave.Filters.Count);
            Assert.Equal(RowFilters.CellsPerRowLimit(1), filter.Interleave.Filters[0]);
            Assert.Equal(RowFilters.ValueExact("abc"), filter.Interleave.Filters[1]);
        }
        public void TestRowFilter()
        {
            var rowFilter = RowFilters.Chain(
                RowFilters.CellsPerColumnLimit(1),
                RowFilters.CellsPerRowOffset(2),
                RowFilters.CellsPerRowLimit(10));

            ReadRowsRequest originalRequest = CreateRowFilterRequest(rowFilter);

            BigtableReadRowsRequestManager underTest = new BigtableReadRowsRequestManager(originalRequest);

            Assert.Equal(originalRequest, underTest.BuildUpdatedRequest());
        }
        public override async Task <long> ReadHighestSequenceNrAsync(string persistenceId, long fromSequenceNr)
        {
            var rowRange = RowRange.ClosedOpen(
                ToRowKeyBigtableByteString(persistenceId, fromSequenceNr),
                ToRowKeyBigtableByteString(persistenceId, long.MaxValue));
            var rows   = RowSet.FromRowRanges(rowRange);
            var stream = _bigtableClient.ReadRows(
                _tableName,
                rows: rows,
                filter: RowFilters.Chain(RowFilters.CellsPerRowLimit(1), RowFilters.StripValueTransformer()));
            var lastRow = await stream.LastOrDefault().ConfigureAwait(false);

            return(lastRow == null ? 0L : GetSequenceNumber(lastRow));
        }
        public void TestRowFilter()
        {
            var rowFilter = RowFilters.Chain(
                RowFilters.CellsPerColumnLimit(1),
                RowFilters.CellsPerRowOffset(2),
                RowFilters.CellsPerRowLimit(10));

            var originalRequest = new ReadRowsRequest
            {
                Rows   = RowSet.FromRowKey("a"),
                Filter = rowFilter
            };

            BigtableReadRowsRequestManager underTest = new BigtableReadRowsRequestManager(originalRequest);

            Assert.Equal(originalRequest, underTest.BuildUpdatedRequest());
        }
Beispiel #7
0
        public static int Main(string[] args)
        {
            // Your Google Cloud Platform project ID
            const string projectId = "YOUR-PROJECT-ID";
            // The name of the Cloud Bigtable instance
            const string instanceId = "YOUR-INSTANCE-ID";

            // [END bigtable_quickstart]
            if (projectId == "YOUR-PROJECT" + "-ID")
            {
                Console.WriteLine("Edit QuickStart.cs and replace YOUR-PROJECT-ID with your project id.");
                return(-1);
            }
            if (instanceId == "YOUR-INSTANCE" + "-ID")
            {
                Console.WriteLine("Edit QuickStart.cs and replace YOUR-INSTANCE-ID with your instance id.");
                return(-1);
            }
            // [START bigtable_quickstart]
            // The name of the Cloud Bigtable table
            const string tableId = "my-table";

            try
            {
                // Creates a Bigtable client
                BigtableClient bigtableClient = BigtableClient.Create();

                // Read a row from my-table using a row key
                Row row = bigtableClient.ReadRow(
                    new TableName(projectId, instanceId, tableId), "r1", RowFilters.CellsPerRowLimit(1));
                // Print the row key and data (column value, labels, timestamp)
                Console.WriteLine($"{"Row key:",-30}{row.Key.ToStringUtf8()}\n" +
                                  $"{"  Column Family:",-30}{row.Families[0].Name}\n" +
                                  $"{"    Column Qualifyer:",-30}{row.Families[0].Columns[0].Qualifier.ToStringUtf8()}\n" +
                                  $"{"      Value:",-30}{row.Families[0].Columns[0].Cells[0].Value.ToStringUtf8()}\n" +
                                  $"{"      Labels:",-30}{row.Families[0].Columns[0].Cells[0].Labels}\n" +
                                  $"{"      Timestamp:",-30}{row.Families[0].Columns[0].Cells[0].TimestampMicros}\n");
            }
            catch (Exception ex)
            {
                // Handle error performing the read operation
                Console.WriteLine($"Error reading row r1: {ex.Message}");
            }
            return(0);
        }
Beispiel #8
0
        private static void DoHelloWorld()
        {
            try
            {
                // [START bigtable_hw_connect]
                // BigtableTableAdminClient API lets us create, manage and delete tables.
                BigtableTableAdminClient bigtableTableAdminClient = BigtableTableAdminClient.Create();

                // BigtableClient API lets us read and write to a table.
                BigtableClient bigtableClient = BigtableClient.Create();
                // [END bigtable_hw_connect]

                // [START bigtable_hw_create_table]
                // Create a table with a single column family.
                Console.WriteLine($"Create new table: {tableId} with column family: {columnFamily}, instance: {instanceId}");

                // Check whether a table with given TableName already exists.
                if (!TableExist(bigtableTableAdminClient))
                {
                    bigtableTableAdminClient.CreateTable(
                        new InstanceName(projectId, instanceId),
                        tableId,
                        new Table
                    {
                        Granularity    = Table.Types.TimestampGranularity.Millis,
                        ColumnFamilies =
                        {
                            {
                                columnFamily, new ColumnFamily
                                {
                                    GcRule = new GcRule
                                    {
                                        MaxNumVersions = 1
                                    }
                                }
                            }
                        }
                    });
                    // Confirm that table was created successfully.
                    Console.WriteLine(TableExist(bigtableTableAdminClient)
                        ? $"Table {tableId} created successfully\n"
                        : $"There was a problem creating a table {tableId}");
                }
                else
                {
                    Console.WriteLine($"Table: {tableId} already exists");
                }
                // [END bigtable_hw_create_table]

                // [START bigtable_hw_write_rows]
                // Initialize Google.Cloud.Bigtable.V2.TableName object.
                Google.Cloud.Bigtable.Common.V2.TableName tableName = new Google.Cloud.Bigtable.Common.V2.TableName(projectId, instanceId, tableId);

                // Write some rows

                /* Each row has a unique row key.
                 *
                 *     Note: This example uses sequential numeric IDs for simplicity, but
                 *     this can result in poor performance in a production application.
                 *     Since rows are stored in sorted order by key, sequential keys can
                 *     result in poor distribution of operations across nodes.
                 *
                 *     For more information about how to design a Bigtable schema for the
                 *     best performance, see the documentation:
                 *
                 *     https://cloud.google.com/bigtable/docs/schema-design */

                Console.WriteLine($"Write some greetings to the table {tableId}");

                // Insert 1 row using MutateRow()
                s_greetingIndex = 0;
                try
                {
                    bigtableClient.MutateRow(tableName, rowKeyPrefix + s_greetingIndex, MutationBuilder());
                    Console.WriteLine($"\tGreeting:   -- {s_greetings[s_greetingIndex],-18}-- written successfully");
                }
                catch (Exception ex)
                {
                    Console.WriteLine($"\tFailed to write greeting: --{s_greetings[s_greetingIndex]}");
                    Console.WriteLine(ex.Message);
                    throw;
                }

                // Insert multiple rows using MutateRows()
                // Build a MutateRowsRequest (contains table name and a collection of entries).
                MutateRowsRequest request = new MutateRowsRequest
                {
                    TableNameAsTableName = tableName
                };

                s_mapToOriginalGreetingIndex = new List <int>();
                while (++s_greetingIndex < s_greetings.Length)
                {
                    s_mapToOriginalGreetingIndex.Add(s_greetingIndex);
                    // Build an entry for every greeting (consists of rowkey and a collection of mutations).
                    string rowKey = rowKeyPrefix + s_greetingIndex;
                    request.Entries.Add(Mutations.CreateEntry(rowKey, MutationBuilder()));
                }

                // Make the request to write multiple rows.
                MutateRowsResponse response = bigtableClient.MutateRows(request);

                // Check the status code of each entry to ensure that it was written successfully.
                foreach (MutateRowsResponse.Types.Entry entry in response.Entries)
                {
                    s_greetingIndex = s_mapToOriginalGreetingIndex[(int)entry.Index];
                    if (entry.Status.Code == 0)
                    {
                        Console.WriteLine($"\tGreeting:   -- {s_greetings[s_greetingIndex],-18}-- written successfully");
                    }
                    else
                    {
                        Console.WriteLine($"\tFailed to write greeting: --{s_greetings[s_greetingIndex]}");
                        Console.WriteLine(entry.Status.Message);
                    }
                }

                Mutation MutationBuilder() =>
                Mutations.SetCell(columnFamily, columnName, s_greetings[s_greetingIndex], new BigtableVersion(DateTime.UtcNow));

                //[END bigtable_hw_write_rows]

                // [START bigtable_hw_create_filter]
                RowFilter filter = RowFilters.CellsPerRowLimit(1);
                // [END bigtable_hw_create_filter]

                // [START bigtable_hw_get_with_filter]
                // Read from the table.
                Console.WriteLine("Read the first row");

                int rowIndex = 0;

                // Read a specific row. Apply a filter to return latest only cell value accross entire row.
                Row rowRead = bigtableClient.ReadRow(
                    tableName, rowKey: rowKeyPrefix + rowIndex, filter: filter);
                Console.WriteLine(
                    $"\tRow key: {rowRead.Key.ToStringUtf8()} " +
                    $"  -- Value: {rowRead.Families[0].Columns[0].Cells[0].Value.ToStringUtf8(),-16} " +
                    $"  -- Time Stamp: {rowRead.Families[0].Columns[0].Cells[0].TimestampMicros}");
                // [END bigtable_hw_get_with_filter]

                // [START bigtable_hw_scan_with_filter]
                Console.WriteLine("Read all rows using streaming");
                // stream the content of the whole table. Apply a filter to return latest only cell values accross all rows.
                ReadRowsStream responseRead = bigtableClient.ReadRows(tableName, filter: filter);

                Task printRead = PrintReadRowsAsync();
                printRead.Wait();

                async Task PrintReadRowsAsync()
                {
                    await responseRead.ForEachAsync(row =>
                    {
                        Console.WriteLine($"\tRow key: {row.Key.ToStringUtf8()} " +
                                          $"  -- Value: {row.Families[0].Columns[0].Cells[0].Value.ToStringUtf8(),-16} " +
                                          $"  -- Time Stamp: {row.Families[0].Columns[0].Cells[0].TimestampMicros}");
                    });
                }
                // [END bigtable_hw_scan_with_filter]

                // [START bigtable_hw_delete_table]
                // Clean up. Delete the table.
                Console.WriteLine($"Delete table: {tableId}");

                bigtableTableAdminClient.DeleteTable(name: tableName);
                if (!TableExist(bigtableTableAdminClient))
                {
                    Console.WriteLine($"Table: {tableId} deleted successfully");
                }
                // [END bigtable_hw_delete_table]
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Exception while running HelloWorld: {ex.Message}");
            }
        }
        public void CellsPerRowLimit()
        {
            var filter = RowFilters.CellsPerRowLimit(2);

            Assert.Equal(2, filter.CellsPerRowLimitFilter);
        }