AggregateCounter count = new AggregateCounter( column.getName(), column.getValue() ); if ( pad && !( resolution == CounterResolution.ALL ) ) { while ( count.getTimestamp() != expected_time ) { counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time ); counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time );
List<AggregateCounter> counters = new ArrayList<AggregateCounter>(); for ( HCounterColumn<Long> column : r.get().getColumns() ) { AggregateCounter count = new AggregateCounter( column.getName(), column.getValue() ); if ( pad && !( resolution == CounterResolution.ALL ) ) { while ( count.getTimestamp() != expected_time ) { counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time ); counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time );
List<AggregateCounter> counters = new ArrayList<AggregateCounter>(); for ( HCounterColumn<Long> column : r.getColumnSlice().getColumns() ) { AggregateCounter count = new AggregateCounter( column.getName(), column.getValue() ); if ( pad && ( resolution != CounterResolution.ALL ) ) { while ( count.getTimestamp() != expected_time ) { counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time ); counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time );
List<AggregateCounter> counters = new ArrayList<AggregateCounter>(); for ( HCounterColumn<Long> column : r.getColumnSlice().getColumns() ) { AggregateCounter count = new AggregateCounter( column.getName(), column.getValue() ); if ( pad && ( resolution != CounterResolution.ALL ) ) { while ( count.getTimestamp() != expected_time ) { counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time ); counters.add( new AggregateCounter( expected_time, 0 ) ); expected_time = resolution.next( expected_time );