public RangeAxisData getRangeAxisData(RangeAxisConfig rangeAxisConfig) { if (rangeAxisConfig != null) { int id = rangeAxisConfig.getId(); return rangeAxisDataMap.get(id); } return null; }
public PlotData(PlotInstance plotInstance, DataTable dataTable) { if (plotInstance == null) { throw new IllegalArgumentException("null not allowed for plotInstance"); } this.plotInstance = plotInstance; plotInstance.setPlotData(this); PlotConfiguration plotConfiguration = plotInstance.getMasterPlotConfiguration(); // if (plotConfiguration.getPrioritizedListenerCount() > 0) { // plotConfiguration.clearPrioritizedListeners(); // } plotConfiguration.addPlotConfigurationListener(this, true); this.originalDataTable = dataTable; originalDataTable.addDataTableListener(this, true); valueMappingDataTable = new ValueMappingDataTableView(originalDataTable); for (int i = 0; i < valueMappingDataTable.getColumnNumber(); ++i) { if (valueMappingDataTable.isNominal(i)) { valueMappingDataTable.setMappingProvider( i, new NominalSortingDataTableMapping(valueMappingDataTable, i, true)); } } // add filtered data table view to view stack filteredDataTableView = new FilteredDataTable(valueMappingDataTable); // add sorted data table view on view stack (without sort provider for now) sortedDataTableView = new SortedDataTableView(filteredDataTableView, null); sortedDataTableView.addDataTableListener(this, true); // init valueSourceDataMap for (ValueSource valueSource : plotConfiguration.getAllValueSources()) { ValueSourceData valueSourceData = new ValueSourceData(valueSource, plotInstance); valueSourceDataMap.put(valueSource.getId(), valueSourceData); } // init dimensionConfigDataMap for (DefaultDimensionConfig dimensionConfig : plotConfiguration.getDefaultDimensionConfigs().values()) { DimensionConfigData dimensionConfigData = new DimensionConfigData(plotInstance, dimensionConfig); dimensionConfigDataMap.put(dimensionConfig.getId(), dimensionConfigData); } DefaultDimensionConfig domainConfig; domainConfig = plotConfiguration.getDomainConfigManager().getDomainConfig(true); dimensionConfigDataMap.put( domainConfig.getId(), new DimensionConfigData(plotInstance, domainConfig)); domainConfig = plotConfiguration.getDomainConfigManager().getDomainConfig(false); dimensionConfigDataMap.put( domainConfig.getId(), new DimensionConfigData(plotInstance, domainConfig)); // init DomainConfigManagerData domainConfigManagerData = new DomainConfigManagerData(plotInstance); // init RangeAxisDataMap for (RangeAxisConfig rangeAxisConfig : plotConfiguration.getRangeAxisConfigs()) { RangeAxisData rangeAxisData = new RangeAxisData(rangeAxisConfig, plotInstance); rangeAxisDataMap.put(rangeAxisConfig.getId(), rangeAxisData); } clearCache(); }
@Override public synchronized boolean plotConfigurationChanged(PlotConfigurationChangeEvent change) { if (change == null || change == lastProcessedEvent) { return true; } lastProcessedEvent = change; PlotConfiguration currentPlotConfig = plotInstance.getCurrentPlotConfigurationClone(); // get current plot config // prepare temp variables int id = -1; DimensionConfig currentDimensionConfig = null; RangeAxisConfig currentRangeAxis = null; DimensionConfig changeDimensionConfig = change.getDimensionConfig(); if (changeDimensionConfig != null) { // if event is a dimension config add/remove event, get current dimension config // (may be null if meta event is processed and it has been deleted afterwards) id = changeDimensionConfig.getId(); currentDimensionConfig = currentPlotConfig.getDefaultDimensionConfigById(id); } RangeAxisConfig changeRangeAxis = change.getRangeAxisConfig(); if (changeRangeAxis != null) { // if event is a range axis config add/remove event, get current range axis config // (may be null if meta event is processed and it has been deleted afterwards) id = changeRangeAxis.getId(); currentRangeAxis = currentPlotConfig.getRangeAxisConfigById(id); } switch (change.getType()) { case TRIGGER_REPLOT: clearCache(); break; case AXES_FONT: break; case AXIS_LINE_COLOR: break; case AXIS_LINE_WIDTH: break; case FRAME_BACKGROUND_COLOR: break; case CHART_TITLE: break; case COLOR_SCHEME: break; case DATA_TABLE_EXCHANGED: break; case DIMENSION_CONFIG_ADDED: // if current plot configuration still contains item.. if (currentDimensionConfig != null && id != -1) { // add new dimension config data to map dimensionConfigDataMap.put( id, new DimensionConfigData( plotInstance, (DefaultDimensionConfig) currentDimensionConfig)); debug( "ADDED dimension " + currentDimensionConfig.getDimension().getName() + " ## ID: " + id); clearCache(); } else { debug( "#### CAUTION ###### ADD DIMENSION CONFIG: CURRENT DIMENSIONCONFIG " + changeDimensionConfig.getLabel() + " with id " + changeDimensionConfig.getId() + " IS NULL! Processing meta event?"); } break; case DIMENSION_CONFIG_CHANGED: dimensionConfigChanged(change.getDimensionChange()); break; case DIMENSION_CONFIG_REMOVED: debug( "REMOVED dimension " + changeDimensionConfig.getDimension().getName() + " ## ID: " + changeDimensionConfig.getId()); dimensionConfigDataMap.remove( changeDimensionConfig.getId()); // remove dimension config data from map clearCache(); break; case LEGEND_CHANGED: break; case PLOT_BACKGROUND_COLOR: break; case PLOT_ORIENTATION: break; case RANGE_AXIS_CONFIG_ADDED: // if current plot configuration still contains item.. if (currentRangeAxis != null && id != -1) { // add new range axis data to map debug("range axis ADDED - " + currentRangeAxis.getLabel() + " ## ID: " + id); rangeAxisDataMap.put(id, new RangeAxisData(currentRangeAxis, plotInstance)); for (ValueSource valueSource : currentRangeAxis.getValueSources()) { // also add containing value sources data to map debug( "value source ADDED - " + valueSource.getLabel() + " ## ID: " + valueSource.getId()); valueSourceDataMap.put( valueSource.getId(), new ValueSourceData(valueSource, plotInstance)); } } else { debug( "#### CAUTION ###### ADD RANGE AXIS CONFIG: CURRENT RANGEAXISCONFIG " + changeRangeAxis.getLabel() + " with id " + changeRangeAxis.getId() + " IS NULL! Processing meta event?"); } break; case RANGE_AXIS_CONFIG_CHANGED: RangeAxisConfigChangeEvent rangeAxisConfigChange = change.getRangeAxisConfigChange(); debug( "range axis CHANGED - " + rangeAxisConfigChange.getSource().getLabel() + " ## ID: " + rangeAxisConfigChange.getSource().getId()); rangeAxisConfigChanged(rangeAxisConfigChange); break; case RANGE_AXIS_CONFIG_MOVED: break; case RANGE_AXIS_CONFIG_REMOVED: RangeAxisConfig rangeAxis = change.getRangeAxisConfig(); debug("range axis REMOVED - " + rangeAxis.getLabel() + " ## ID: " + rangeAxis.getId()); rangeAxisDataMap.remove(rangeAxis.getId()); // remove range axis config from map for (ValueSource valueSource : rangeAxis.getValueSources()) { // also remove all containing value sources from data map valueSourceDataMap.remove(valueSource.getId()); } clearCache(); break; case LINK_AND_BRUSH_SELECTION: break; case META_CHANGE: for (PlotConfigurationChangeEvent e : change.getPlotConfigChangeEvents()) { plotConfigurationChanged(e); } break; } return true; }