private synchronized void processInputGlobalScope(final NamedDoubleTimeSeriesPoint input) { // NOPMD (AvoidSynchronizedAtMethodLevel) final long inputTimestamp = input.getTime(); final AggregationVariableSet inputVariables = this.aggregationVariables.get(input.getName()); final long startOfInputTimestampsInterval = this.computeFirstTimestampInInterval(inputTimestamp, inputVariables); final long endOfInputTimestampsInterval = this.computeLastTimestampInInterval(inputTimestamp, inputVariables); final String appname = entry.getKey(); final AggregationVariableSet variables = entry.getValue(); final long startOfLatestIntervalTimestamp = this.computeFirstTimestampInInterval(inputTimestamp, variables); final long endOfLatestIntervalTimestamp = this.computeLastTimestampInInterval(inputTimestamp, variables); long lastTimestampInCurrentInterval = variables.getLastTimestampInCurrentInterval();
private synchronized void processInputGlobalScope(final NamedDoubleTimeSeriesPoint input) { // NOPMD (AvoidSynchronizedAtMethodLevel) final long inputTimestamp = input.getTime(); final AggregationVariableSet inputVariables = this.aggregationVariables.get(input.getName()); final long startOfInputTimestampsInterval = this.computeFirstTimestampInInterval(inputTimestamp, inputVariables); final long endOfInputTimestampsInterval = this.computeLastTimestampInInterval(inputTimestamp, inputVariables); final String appname = entry.getKey(); final AggregationVariableSet variables = entry.getValue(); final long startOfLatestIntervalTimestamp = this.computeFirstTimestampInInterval(inputTimestamp, variables); final long endOfLatestIntervalTimestamp = this.computeLastTimestampInInterval(inputTimestamp, variables); long lastTimestampInCurrentInterval = variables.getLastTimestampInCurrentInterval();
private synchronized void processInputVariableScope(final NamedDoubleTimeSeriesPoint input) { // NOPMD (AvoidSynchronizedAtMethodLevel) final long currentTime = input.getTime(); final String appname = input.getName(); final AggregationVariableSet variables = this.aggregationVariables.get(appname); final long startOfTimestampsInterval = this.computeFirstTimestampInInterval(currentTime, variables); final long endOfTimestampsInterval = this.computeLastTimestampInInterval(currentTime, variables); if (this.recentWindow.getWindowEnd() != endOfTimestampsInterval) { this.recentWindow = new AggregationWindow(startOfTimestampsInterval, endOfTimestampsInterval); super.deliver(OUTPUT_PORT_NAME_AGGREGATION_WINDOW, this.recentWindow); } // check if interval is omitted if (endOfTimestampsInterval > variables.getLastTimestampInCurrentInterval()) { if (variables.getFirstTimestampInCurrentInterval() >= 0) { // don't do this for the first record (only used for initialization of variables) this.calculateAndDeliverAggregationValue(variables); long numIntervalsElapsed = 1; // refined below numIntervalsElapsed = (endOfTimestampsInterval - variables.getLastTimestampInCurrentInterval()) / this.aggregationSpan; if (numIntervalsElapsed > 1) { for (int i = 1; i < numIntervalsElapsed; i++) { super.deliver(OUTPUT_PORT_NAME_AGGREGATED_TSPOINT, new NamedDoubleTimeSeriesPoint(variables.getLastTimestampInCurrentInterval() + (i * this.aggregationSpan), Double.NaN, // Note: Count filter should use 0.0 appname)); } } } variables.setFirstTimestampInCurrentInterval(startOfTimestampsInterval); variables.setLastTimestampInCurrentInterval(endOfTimestampsInterval); variables.getAggregationList().clear(); } variables.getAggregationList().add(input); }
private synchronized void processInputVariableScope(final NamedDoubleTimeSeriesPoint input) { // NOPMD (AvoidSynchronizedAtMethodLevel) final long currentTime = input.getTime(); final String appname = input.getName(); final AggregationVariableSet variables = this.aggregationVariables.get(appname); final long startOfTimestampsInterval = this.computeFirstTimestampInInterval(currentTime, variables); final long endOfTimestampsInterval = this.computeLastTimestampInInterval(currentTime, variables); if (this.recentWindow.getWindowEnd() != endOfTimestampsInterval) { this.recentWindow = new AggregationWindow(startOfTimestampsInterval, endOfTimestampsInterval); super.deliver(OUTPUT_PORT_NAME_AGGREGATION_WINDOW, this.recentWindow); } // check if interval is omitted if (endOfTimestampsInterval > variables.getLastTimestampInCurrentInterval()) { if (variables.getFirstTimestampInCurrentInterval() >= 0) { // don't do this for the first record (only used for initialization of variables) this.calculateAndDeliverAggregationValue(variables); long numIntervalsElapsed = 1; // refined below numIntervalsElapsed = (endOfTimestampsInterval - variables.getLastTimestampInCurrentInterval()) / this.aggregationSpan; if (numIntervalsElapsed > 1) { for (int i = 1; i < numIntervalsElapsed; i++) { super.deliver(OUTPUT_PORT_NAME_AGGREGATED_TSPOINT, new NamedDoubleTimeSeriesPoint(variables.getLastTimestampInCurrentInterval() + (i * this.aggregationSpan), Double.NaN, // Note: Count filter should use 0.0 appname)); } } } variables.setFirstTimestampInCurrentInterval(startOfTimestampsInterval); variables.setLastTimestampInCurrentInterval(endOfTimestampsInterval); variables.getAggregationList().clear(); } variables.getAggregationList().add(input); }