package org.autoplot.dom; import java.awt.dnd.DropTarget; import java.awt.event.ActionEvent; import java.beans.PropertyChangeEvent; import java.beans.PropertyChangeListener; import java.lang.reflect.InvocationTargetException; import java.text.ParseException; import java.util.ArrayList; import java.util.Arrays; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.TooManyListenersException; import java.util.logging.Level; import java.util.logging.Logger; import javax.swing.AbstractAction; import javax.swing.JMenuItem; import javax.swing.SwingUtilities; import org.das2.datum.Datum; import org.das2.datum.DatumRange; import org.das2.datum.DatumRangeUtil; import org.das2.datum.InconvertibleUnitsException; import org.das2.datum.Units; import org.das2.datum.UnitsUtil; import org.das2.datum.format.DateTimeDatumFormatter; import org.das2.event.BoxZoomMouseModule; import org.das2.event.DasMouseInputAdapter; import org.das2.event.MouseModule; import org.das2.event.ZoomPanMouseModule; import org.das2.graph.DasAxis; import org.das2.graph.DasCanvas; import org.das2.graph.DasColorBar; import org.das2.graph.DasColumn; import org.das2.graph.DasPlot; import org.das2.graph.DasRow; import org.das2.graph.Renderer; import org.das2.graph.SeriesRenderer; import org.das2.graph.SpectrogramRenderer; import org.das2.graph.TickVDescriptor; import org.das2.util.LoggerManager; import org.jdesktop.beansbinding.Converter; import org.autoplot.AutoplotUtil; import org.autoplot.MouseModuleType; import org.autoplot.RenderType; import org.autoplot.RenderTypeUtil; import org.autoplot.dom.ChangesSupport.DomLock; import org.das2.qds.DataSetUtil; import org.das2.qds.QDataSet; import org.das2.qds.SemanticOps; import org.autoplot.datasource.URISplit; import org.autoplot.tca.DataSourceTcaSource; import org.autoplot.util.TickleTimer; import org.das2.graph.DasDevicePosition; import org.das2.qds.QFunction; import org.das2.qds.ops.Ops; /** * Manages a Plot node, for example listening for autoRange updates * and layout changes. * @author jbf */ public final class PlotController extends DomNodeController { Application dom; Plot plot; private DasPlot dasPlot; private DasColorBar dasColorBar; private LabelConverter titleConverter; /** * if the user clicks on the axis "previous" button, which interval should * be shown. */ private DatumRange scanPrevRange= null; /** * if the user clicks on the axis "next" button, which interval should * be shown. */ private DatumRange scanNextRange= null; /** * the plot elements we listen to for autoranging. */ public List pdListen= new LinkedList(); private static final String PENDING_ADD_DAS_PEER = "addDasPeer"; private static final Logger logger= org.das2.util.LoggerManager.getLogger( "autoplot.dom.plotcontroller" ); public PlotController(Application dom, Plot domPlot, DasPlot dasPlot, DasColorBar colorbar) { this( dom, domPlot ); this.dasPlot = dasPlot; this.dasColorBar = colorbar; dasPlot.addPropertyChangeListener(listener); dasPlot.getXAxis().addPropertyChangeListener(listener); dasPlot.getYAxis().addPropertyChangeListener(listener); } public PlotController( final Application dom, Plot plot ) { super( plot ); this.dom = dom; this.plot = plot; this.plot.addPropertyChangeListener( Plot.PROP_TITLE, labelListener ); this.plot.addPropertyChangeListener(Plot.PROP_TICKS_URI, ticksURIListener ); this.plot.addPropertyChangeListener( Plot.PROP_ID, idListener ); this.plot.getXaxis().addPropertyChangeListener( autorangeListener ); this.plot.getYaxis().addPropertyChangeListener( autorangeListener ); this.plot.getZaxis().addPropertyChangeListener( autorangeListener ); dom.options.addPropertyChangeListener( Options.PROP_DAY_OF_YEAR, dayOfYearListener ); dom.options.addPropertyChangeListener( Options.PROP_MOUSEMODULE, mouseModuleListener ); plot.controller= this; } public PropertyChangeListener rowColListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt); if ( dasPlot!=null && evt.getPropertyName().equals(Plot.PROP_ROWID) ) { String id= (String)evt.getNewValue(); Row row= ( id.length()==0 ) ? null : (Row) DomUtil.getElementById( dom, id ); if ( row==null ) row= dom.controller.getCanvas().marginRow; DasRow dasRow= row.controller.getDasRow(); dasPlot.setRow(dasRow); plot.getXaxis().getController().getDasAxis().setRow(dasRow); plot.getYaxis().getController().getDasAxis().setRow(dasRow); plot.getZaxis().getController().getDasAxis().setRow(dasRow); } else if ( dasPlot!=null && evt.getPropertyName().equals(Plot.PROP_COLUMNID) ) { String id= (String)evt.getNewValue(); Column col= ( id.length()==0 ) ? null : (Column) DomUtil.getElementById( dom, id ); if ( col==null ) col= dom.controller.getCanvas().marginColumn; DasColumn dasColumn= col.controller.getDasColumn(); dasPlot.setColumn(dasColumn); DasColumn oldColorbarColumn= plot.getZaxis().getController().getDasAxis().getColumn(); plot.getXaxis().getController().getDasAxis().setColumn(dasColumn); plot.getYaxis().getController().getDasAxis().setColumn(dasColumn); // need to remove old column if no one is listening to it DasColumn c= DasColorBar.getColorBarColumn(dasColumn); dasColorBar.setColumn(c); //TODO verify updateListeners are removed. oldColorbarColumn.removeListeners(); } } }; public Plot getPlot() { return plot; } /** * true indicates that the controller is allowed to automatically add * bindings to the plot axes. */ public static final String PROP_AUTOBINDING = "autoBinding"; protected boolean autoBinding = true; public boolean isAutoBinding() { return autoBinding; } public void setAutoBinding(boolean autoBinding) { boolean oldAutoBinding = this.autoBinding; this.autoBinding = autoBinding; propertyChangeSupport.firePropertyChange(PROP_AUTOBINDING, oldAutoBinding, autoBinding); } // /** // * return the Canvas containing this plot, or null if this cannot be resolved. // * // * @return // */ // private Canvas getCanvasForPlot() { // Canvas[] cc= dom.getCanvases(); // for ( Canvas c: cc ) { // for ( Row r: c.getRows() ) { // if ( r.getId().equals(plot.getRowId()) ) { // return c; // } // } // } // return null; // } private PropertyChangeListener labelListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"labelListener"); if ( evt.getPropertyName().equals(Plot.PROP_TITLE) ) { plot.setAutoLabel(false); } } }; private PropertyChangeListener ticksURIListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"ticksURIListener"); if ( evt.getPropertyName().equals(Plot.PROP_TICKS_URI) ) { String control= (String) evt.getNewValue(); if ( control.length()==0 ) { plot.getXaxis().getController().getDasAxis().setDataPath(""); plot.getXaxis().getController().getDasAxis().setDrawTca(false); plot.getXaxis().setLabel(""); } else { if ( Ops.isSafeName(control) ) { // hey wow it's a data source DomNode n= dom.getElementById(control); if ( n instanceof DataSourceFilter ) { DataSourceFilter dsf= (DataSourceFilter)n; QFunction f; try { f = new DataSourceTcaSource(dsf); plot.getXaxis().getController().getDasAxis().setTcaFunction(f); plot.getXaxis().getController().getDasAxis().setDrawTca(true); plot.getXaxis().setLabel("%{RANGE}"); } catch (Exception ex) { plot.getXaxis().getController().getDasAxis().setDataPath(""); plot.getXaxis().getController().getDasAxis().setDrawTca(false); plot.getXaxis().setLabel("Error with init using "+control); } } else { plot.getXaxis().getController().getDasAxis().setDataPath(""); plot.getXaxis().getController().getDasAxis().setDrawTca(false); plot.getXaxis().setLabel("node must be data source"); } } else { logger.log(Level.FINE, "prop_ticks_uri={0}", evt.getNewValue()); String dasAddress= "class:org.autoplot.tca.UriTcaSource:" + evt.getNewValue(); //TODO: check for time series browse here and set to time axis. plot.getXaxis().getController().getDasAxis().setDataPath(dasAddress); plot.getXaxis().getController().getDasAxis().setDrawTca(true); plot.getXaxis().setLabel("%{RANGE}"); } } } } }; private PropertyChangeListener idListener=new PropertyChangeListener() { @Override public void propertyChange( PropertyChangeEvent evt ) { LoggerManager.logPropertyChangeEvent(evt,"idListener"); if ( dom.controller.isValueAdjusting() ) return; DomLock lock = dom.controller.mutatorLock(); lock.lock( "Changing plot id" ); try { for ( BindingModel b: dom.getBindings() ) { if ( b.getSrcId().equals(evt.getOldValue() ) ) { b.srcId= (String)evt.getNewValue(); } if ( b.getDstId().equals(evt.getOldValue() ) ) { b.dstId= (String)evt.getNewValue(); } } for ( PlotElement pe: dom.plotElements ) { if ( pe.getPlotId().equals(evt.getOldValue()) ) { pe.setPlotId((String) evt.getNewValue()); } } } finally { lock.unlock(); } } }; private PropertyChangeListener dayOfYearListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"dayOfYearListener"); final DasAxis update= PlotController.this.plot.getXaxis().controller.dasAxis; updateAxisFormatter(update); } }; private PropertyChangeListener mouseModuleListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"mouseModuleListener"); DasPlot p= dasPlot; MouseModuleType mm= (MouseModuleType) evt.getNewValue(); MouseModule m= null; if ( null!=mm ) switch (mm) { case boxZoom: m= p.getDasMouseInputAdapter().getModuleByLabel("Box Zoom"); break; case crosshairDigitizer: m= p.getDasMouseInputAdapter().getModuleByLabel("Crosshair Digitizer"); break; case zoomX: m= p.getDasMouseInputAdapter().getModuleByLabel("Zoom X"); break; default: break; } if ( m!=null ) { p.getDasMouseInputAdapter().setPrimaryModule( m ); } else { logger.log( Level.WARNING, "logger note recognized: {0}", mm); } } }; /** * listen to changes in the autoRange property of the axes, and to the autoRangeHints. */ private PropertyChangeListener autorangeListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"autorangeListener"); if ( dom.getController().isValueAdjusting() ) { logger.fine("autorangeListener cannot work while isValueAdjusting"); return; } if ( dom.options.autoranging ) { if ( evt.getPropertyName().equals("autoRange") && evt.getNewValue().equals(Boolean.TRUE) ) { resetZoom( getPlot().getXaxis().isAutoRange(), getPlot().getYaxis().isAutoRange(), getPlot().getZaxis().isAutoRange() ); } else if ( evt.getPropertyName().equals("autoRangeHints") ) { resetZoom( getPlot().getXaxis().isAutoRange(), getPlot().getYaxis().isAutoRange(), getPlot().getZaxis().isAutoRange() ); } else if ( evt.getPropertyName().equals("range") ) { if ( !evt.getNewValue().equals(evt.getOldValue()) ) { redoAutoranging(); } } } } }; /** * experiment with re-autoranging after the xaxis is adjusted. */ private void redoAutoranging() { boolean alwaysAutorange = false; if (alwaysAutorange) { System.err.println(String.format("line307 %s %s %s", getPlot().getXaxis().isAutoRange(), getPlot().getYaxis().isAutoRange(), getPlot().getZaxis().isAutoRange())); boolean mustAutoRange = getPlot().getXaxis().isAutoRange() || getPlot().getYaxis().isAutoRange(); if (mustAutoRange) { List pes = getApplication().getController().getPlotElementsFor(plot); for (PlotElement pe : pes) { try { QDataSet b = AutoplotUtil.bounds(pe.getController().getDataSet(), pe.getRenderType()); if (getPlot().getYaxis().isAutoRange()) { pe.getPlotDefaults().getYaxis().setRange(DataSetUtil.asDatumRange(b.slice(1))); } if (getPlot().getXaxis().isAutoRange()) { pe.getPlotDefaults().getXaxis().setRange(DataSetUtil.asDatumRange(b.slice(0))); } } catch (Exception ex) { logger.log(Level.SEVERE, null, ex); } } resetZoom(getPlot().getXaxis().isAutoRange(), getPlot().getYaxis().isAutoRange(), getPlot().getZaxis().isAutoRange()); } } } /** * * @param bounds rank 1, two-element bounds * @return true if the bounds are valid. */ private static boolean validBounds( QDataSet bounds ) { QDataSet wds= DataSetUtil.weightsDataSet(bounds); return !(wds.value(0)==0 || wds.value(1)==0); } /** * A new dataset has been loaded or the axis is focused on a new range. * bug 1627: out-of-memory caused here by careless copying of data. This is improved, but more could be done. * @param dr0 the new range for the axis. * @param ds the dataset to find next or previous focus. */ private void updateNextPrevious( final DatumRange dr0, QDataSet ds ) { logger.log(Level.FINE, "updateNextPrevious: {0}", dr0); if ( ds!=null && SemanticOps.isBundle(ds) ) { logger.log(Level.FINE, "unbundling: {0}", ds); QDataSet xds= SemanticOps.xtagsDataSet(ds); if ( ds.rank()==2 ) { ds= Ops.unbundle( ds, ds.length(0)-1 ); } else { ds= SemanticOps.getDependentDataSet(ds); } ds= Ops.link( xds, ds ); } if ( ds!=null && ( ds.rank()==0 || ds.length()>10000000 ) ) { logger.fine("simple next and previous used because data is very large"); scanNextRange= dr0.next(); scanPrevRange= dr0.previous(); } else { scanNextRange= DataSetUtil.getNextInterval(ds, dr0); scanPrevRange= DataSetUtil.getPreviousInterval(ds, dr0); } double rescaleFactor; rescaleFactor= scanNextRange.width().divide(dr0.width()).value(); if ( rescaleFactor<0.1 || rescaleFactor>10 ) { logger.log(Level.WARNING, "scan next fails to find acceptable range: {0} -> {1} rescaleFactor={2}", new Object[]{dr0, scanNextRange, rescaleFactor}); scanNextRange= dr0.next(); } rescaleFactor= scanPrevRange.width().divide(dr0.width()).value(); if ( rescaleFactor<0.1 || rescaleFactor>10 ) { logger.log(Level.WARNING, "scan prev fails to find acceptable range: {0} -> {1} rescaleFactor={2}", new Object[]{dr0, scanPrevRange, rescaleFactor}); scanPrevRange= dr0.previous(); } Runnable run= new Runnable() { @Override public void run() { Plot p= getPlot(); if ( p==null ) return; Axis a= p.getXaxis(); if ( a==null ) return; AxisController c= a.getController(); if ( c==null ) return; DasAxis da= c.getDasAxis(); if ( da==null ) return; if ( scanNextRange.min().equals(dr0.max()) ) { da.setNextActionLabel("step >>","step to next interval
"+scanNextRange); } else { da.setNextActionLabel("scan >>","scan to
"+scanNextRange); } if ( scanPrevRange.max().equals(dr0.min()) ) { da.setPreviousActionLabel("<< step","step to previous interval
"+scanPrevRange); } else { da.setPreviousActionLabel("<< scan","scan to
"+scanPrevRange); } } }; SwingUtilities.invokeLater(run); } /** * fancy class for the purpose of restoring the feedback from elsewhere in * the system once the mouse action is complete. */ private class MyFeedback implements DasMouseInputAdapter.Feedback { String myLastMessage=""; String otherLastMessage=""; @Override public void setMessage(String message) { if ( message.equals("") ) { if ( getApplication().getController().getStatus().equals(myLastMessage) ) { getApplication().getController().setStatus(otherLastMessage); } } else { otherLastMessage= getApplication().getController().getStatus(); getApplication().getController().setStatus(message); } myLastMessage= message; } } /** * Create the das2 GUI components that implement the plot. This should * be called from the event thread. * @param canvas the canvas containing the item * @param domRow the row indicating the vertical position * @param domColumn the column indicating the horizontal position */ protected void createDasPeer( final Canvas canvas, final Row domRow, final Column domColumn) { Runnable run = new Runnable() { @Override public void run() { createDasPeerImmediately( canvas, domRow, domColumn ); } }; if ( SwingUtilities.isEventDispatchThread() ) { run.run(); } else { try { SwingUtilities.invokeAndWait(run); } catch (InterruptedException | InvocationTargetException ex) { logger.log(Level.SEVERE, null, ex); } } } PropertyChangeListener xaxisRangeListener; private void createDasPeerImmediately( Canvas canvas, Row domRow, Column domColumn ) { Application application= dom; DatumRange x = this.plot.xaxis.range; DatumRange y = this.plot.yaxis.range; final DasAxis xaxis = new DasAxis(x.min(), x.max(), DasAxis.HORIZONTAL); DasAxis yaxis = new DasAxis(y.min(), y.max(), DasAxis.VERTICAL); xaxis.setEnableHistory(false); //xaxis.setUseDomainDivider(true); yaxis.setEnableHistory(false); //yaxis.setUseDomainDivider(true); final TickleTimer nextPrevTickleTimer= new TickleTimer( 300, new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { final DatumRange dr= (DatumRange)xaxis.getDatumRange(); List pele= getApplication().getController().getPlotElementsFor(plot); final QDataSet ds= pele.size()> 0 ? pele.get(0).getController().getDataSet() : null; updateNextPrevious(dr,ds); } }); xaxisRangeListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"xaxis datumrange"); if ( dom.getOptions().isScanEnabled() ) { nextPrevTickleTimer.tickle(); } } }; xaxis.addPropertyChangeListener( DasAxis.PROPERTY_DATUMRANGE, xaxisRangeListener ); AbstractAction nextListener= new AbstractAction( "scannext" ) { @Override public void actionPerformed(ActionEvent e) { LoggerManager.logGuiEvent(e); List pele= getApplication().getController().getPlotElementsFor(plot); DatumRange dr= xaxis.getDatumRange(); if ( pele.isEmpty() || scanNextRange==null ) { xaxis.setDatumRange(dr.next()); } else { dr= scanNextRange; if ( !dr.min().equals( xaxis.getDatumRange().max() ) ) { xaxis.setAnimated(true); // yeah, return of animated axes! xaxis.setDataRange( dr.min(), dr.max() ); xaxis.setAnimated(false); } xaxis.setDatumRange(dr); } } }; xaxis.setNextAction( "scan", nextListener ); AbstractAction prevListener= new AbstractAction( "scanprev" ) { @Override public void actionPerformed(ActionEvent e) { LoggerManager.logGuiEvent(e); List pele= getApplication().getController().getPlotElementsFor(plot); DatumRange dr= xaxis.getDatumRange(); if ( pele.isEmpty() || scanPrevRange==null ) { xaxis.setDatumRange(dr.previous()); } else { dr= scanPrevRange; if ( xaxis.isLog() && dr.min().value()<=0 ) { logger.fine("cannot scan to non-positive with log xaxis"); return; } if ( !dr.max().equals( xaxis.getDatumRange().min() ) ) { xaxis.setAnimated(true); xaxis.setDataRange( dr.min(), dr.max() ); xaxis.setAnimated(false); } xaxis.setDatumRange(dr); } } }; xaxis.setPreviousAction( "scan", prevListener ); if (UnitsUtil.isTimeLocation(xaxis.getUnits())) { xaxis.setUserDatumFormatter(new DateTimeDatumFormatter(dom.getController().getApplication().getOptions().isDayOfYear() ? DateTimeDatumFormatter.OPT_DOY : 0 )); //See kludge in TimeSeriesBrowseController } else { xaxis.setUserDatumFormatter(null); } if (UnitsUtil.isTimeLocation(yaxis.getUnits())) { yaxis.setUserDatumFormatter(new DateTimeDatumFormatter(dom.getController().getApplication().getOptions().isDayOfYear() ? DateTimeDatumFormatter.OPT_DOY : 0 )); } else { yaxis.setUserDatumFormatter(null); } plot.setRowId(domRow.getId()); DasRow row = domRow.controller.getDasRow(); plot.addPropertyChangeListener( Plot.PROP_ROWID, rowColListener ); plot.addPropertyChangeListener( Plot.PROP_COLUMNID, rowColListener ); DasColumn col= domColumn.controller.getDasColumn(); final DasPlot dasPlot1 = new DasPlot(xaxis, yaxis); dasPlot1.setPreviewEnabled(true); dasPlot1.setDrawGridOver(false); DatumRange colorRange = new DatumRange(0, 100, Units.dimensionless); DasColorBar colorbar = new DasColorBar(colorRange.min(), colorRange.max(), false); colorbar.addFocusListener(application.controller.focusAdapter); colorbar.setFillColor(new java.awt.Color(0, true)); colorbar.setEnableHistory(false); //colorbar.setUseDomainDivider(true); DasCanvas dasCanvas = canvas.controller.getDasCanvas(); dasCanvas.add(dasPlot1, row, col); // the axes need to know about the plotId, so they can do reset axes units properly. dasPlot1.getXAxis().setPlot(dasPlot1); dasPlot1.getYAxis().setPlot(dasPlot1); BoxZoomMouseModule boxmm = (BoxZoomMouseModule) dasPlot1.getDasMouseInputAdapter().getModuleByLabel("Box Zoom"); dasPlot1.getDasMouseInputAdapter().setPrimaryModule(boxmm); //dasPlot1.getDasMouseInputAdapter().addMouseModule( new AnnotatorMouseModule(dasPlot1) ) ; MouseModuleType m= dom.getOptions().getMouseModule(); MouseModule mm= null; if ( null!=m ) switch (m) { case boxZoom: // do nothing break; case crosshairDigitizer: mm= dasPlot1.getDasMouseInputAdapter().getModuleByLabel("Crosshair Digitizer"); break; case zoomX: mm= dasPlot1.getDasMouseInputAdapter().getModuleByLabel("Zoom X"); break; default: break; } if ( mm!=null ) dasPlot1.getDasMouseInputAdapter().setPrimaryModule(mm); DasMouseInputAdapter.Feedback feedback= new MyFeedback(); dasPlot1.getDasMouseInputAdapter().setFeedback( feedback ); dasCanvas.add(colorbar, dasPlot1.getRow(), DasColorBar.getColorBarColumn(dasPlot1.getColumn())); MouseModule zoomPan = new ZoomPanMouseModule(dasPlot1, dasPlot1.getXAxis(), dasPlot1.getYAxis()); dasPlot1.getDasMouseInputAdapter().setSecondaryModule(zoomPan); MouseModule zoomPanX = new ZoomPanMouseModule(dasPlot1.getXAxis(), dasPlot1.getXAxis(), null); dasPlot1.getXAxis().getDasMouseInputAdapter().setSecondaryModule(zoomPanX); dasPlot1.getXAxis().getDasMouseInputAdapter().setFeedback( feedback ); MouseModule zoomPanY = new ZoomPanMouseModule(dasPlot1.getYAxis(), null, dasPlot1.getYAxis()); dasPlot1.getYAxis().getDasMouseInputAdapter().setSecondaryModule(zoomPanY); dasPlot1.getYAxis().getDasMouseInputAdapter().setFeedback( feedback ); MouseModule zoomPanZ = new ZoomPanMouseModule(colorbar, null, colorbar); colorbar.getDasMouseInputAdapter().setSecondaryModule(zoomPanZ); colorbar.getDasMouseInputAdapter().setFeedback( feedback ); dasCanvas.revalidate(); dasCanvas.repaint(); ApplicationController ac= application.controller; ac.layoutListener.listenTo(dasPlot1); ac.layoutListener.listenTo(colorbar); //TODO: clean up in an addDasPeer way new AxisController(application, this.plot, this.plot.getXaxis(), xaxis); new AxisController(application, this.plot, this.plot.getYaxis(), yaxis); new AxisController(application, this.plot, this.plot.getZaxis(), colorbar); bindTo(dasPlot1); dasPlot1.addFocusListener(ac.focusAdapter); dasPlot1.getXAxis().addFocusListener(ac.focusAdapter); dasPlot1.getYAxis().addFocusListener(ac.focusAdapter); dasPlot1.addPropertyChangeListener(DasPlot.PROP_FOCUSRENDERER, ac.rendererFocusListener); ac.bind( this.plot, Plot.PROP_ISOTROPIC, dasPlot1, DasPlot.PROP_ISOTROPIC ); ac.bind( this.plot, Plot.PROP_DISPLAYTITLE, dasPlot1, DasPlot.PROP_DISPLAYTITLE ); ac.bind( this.plot, Plot.PROP_DISPLAYLEGEND, dasPlot1, DasPlot.PROP_DISPLAYLEGEND ); ac.bind( this.plot, Plot.PROP_FONTSIZE, dasPlot1, DasPlot.PROP_FONTSIZE ); ac.bind( this.plot, Plot.PROP_LEGENDFONTSIZE, dasPlot1, DasPlot.PROP_LEGENDFONTSIZE ); ac.bind(application.getOptions(), Options.PROP_LOGMESSAGETIMEOUTSEC, dasPlot1, DasPlot.PROP_LOG_TIMEOUT_SEC ); ac.bind(application.getOptions(), Options.PROP_DRAWGRID, dasPlot1, "drawGrid"); ac.bind(application.getOptions(), Options.PROP_DRAWMINORGRID, dasPlot1, "drawMinorGrid"); ac.bind(application.getOptions(), Options.PROP_FLIPCOLORBARLABEL, this.plot.getZaxis().getController().dasAxis, "flipLabel"); ac.bind(application.getOptions(), Options.PROP_FLIPCOLORBARLABEL, this.plot.getYaxis().getController().dasAxis, "flipLabel"); ac.bind(application.getOptions(), Options.PROP_TICKLEN, dasPlot1.getXAxis(), "tickLength"); ac.bind(application.getOptions(), Options.PROP_TICKLEN, dasPlot1.getYAxis(), "tickLength"); ac.bind(application.getOptions(), Options.PROP_TICKLEN, colorbar, "tickLength"); ac.bind(application.getOptions(), Options.PROP_OPPOSITEAXISVISIBLE, dasPlot1.getXAxis(), DasAxis.PROP_OPPOSITE_AXIS_VISIBLE ); ac.bind(application.getOptions(), Options.PROP_OPPOSITEAXISVISIBLE, dasPlot1.getYAxis(), DasAxis.PROP_OPPOSITE_AXIS_VISIBLE ); ac.bind(application.getOptions(), Options.PROP_LINE_THICKNESS, dasPlot1.getXAxis(), DasAxis.PROP_LINETHICKNESS ); ac.bind(application.getOptions(), Options.PROP_LINE_THICKNESS, dasPlot1.getYAxis(), DasAxis.PROP_LINETHICKNESS ); ac.bind(application.getOptions(), Options.PROP_LINE_THICKNESS, colorbar, DasAxis.PROP_LINETHICKNESS ); ac.bind(application.getOptions(), Options.PROP_LINE_THICKNESS, dasPlot1, DasAxis.PROP_LINETHICKNESS ); ac.bind(application.getOptions(), Options.PROP_MULTILINETEXTALIGNMENT, dasPlot1, DasPlot.PROP_MULTILINETEXTALIGNMENT); ac.bind(application.getOptions(), Options.PROP_PRINTINGLOGLEVEL, dasPlot1, DasPlot.PROP_PRINTINGLOGLEVEL ); ac.bind(application.getOptions(), Options.PROP_DISPLAYLOGLEVEL, dasPlot1, DasPlot.PROP_LOG_LEVEL ); ac.bind(this.plot, Plot.PROP_LEGENDPOSITION, dasPlot1, DasPlot.PROP_LEGENDPOSITION ); ac.bind(this.plot, Plot.PROP_DISPLAYLEGEND, dasPlot1, DasPlot.PROP_DISPLAYLEGEND ); ac.bind(application.getOptions(), Options.PROP_OVERRENDERING, dasPlot1, "overSize"); ac.bind(this.plot, Plot.PROP_VISIBLE, dasPlot1, "plotVisible" ); ac.bind(this.plot, Plot.PROP_COLORTABLE, colorbar, "type" ); dasPlot1.addPropertyChangeListener(listener); dasPlot1.getXAxis().addPropertyChangeListener(listener); dasPlot1.getYAxis().addPropertyChangeListener(listener); if ( plot.getTicksURI().length()>0 ) { //TODO: understand this better. We don't have to set titles, right? Maybe it's because implementation is handled here instead of in das2. logger.fine("setLabel(%{RANGE})"); String dasAddress= "class:org.autoplot.tca.UriTcaSource:" + plot.getTicksURI(); dasPlot1.getXAxis().setDataPath(dasAddress); dasPlot1.getXAxis().setDrawTca(true); plot.getXaxis().setLabel("%{RANGE}"); //TODO: this is really only necessary for time locations. } this.dasPlot = dasPlot1; this.dasColorBar = colorbar; dasPlot.setEnableRenderPropertiesAction(false); //dasPlot.getDasMouseInputAdapter().removeMenuItem("Render Properties"); application.controller.maybeAddContextMenus( this ); boolean headless= "true".equals( System.getProperty("java.awt.headless") ); if ( !headless && canvas.controller.getDropTargetListener()!=null ) { DropTarget dropTarget = new DropTarget(); dropTarget.setComponent(dasPlot); try { dropTarget.addDropTargetListener( canvas.controller.getDropTargetListener() ); } catch (TooManyListenersException ex) { logger.log(Level.SEVERE, ex.getMessage(), ex); } dasPlot.setDropTarget(dropTarget); } updateAxisFormatter( dasPlot1.getXAxis() ); } /** * get the axis in the DOM for the dasAxis implementation. * @return null if the axis is not from this plot. */ private Axis getDomAxis( DasAxis axis ) { Axis domAxis; if ( plot.xaxis.controller==null ) { return null; } if ( plot.xaxis.controller.dasAxis == axis ) { domAxis= plot.xaxis; } else if ( plot.yaxis.controller.dasAxis==axis ) { domAxis= plot.yaxis; } else if ( plot.zaxis.controller.dasAxis==axis ) { domAxis= plot.zaxis; } else { domAxis= null; } return domAxis; } private void updateAxisFormatter( DasAxis axis ) { logger.fine("updateAxisFormatter()"); if ( UnitsUtil.isTimeLocation(axis.getUnits()) && !axis.getLabel().contains("%{RANGE}") ) { axis.setUserDatumFormatter(new DateTimeDatumFormatter( dom.getController().getApplication().getOptions().isDayOfYear() ? DateTimeDatumFormatter.OPT_DOY : 0 )); } else { TickVDescriptor.setDayOfYear( dom.getController().getApplication().getOptions().isDayOfYear() ); axis.setTickV(null); axis.setUserDatumFormatter(null); } } private PropertyChangeListener plotListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { if ( evt.getPropertyName().equals(Plot.PROP_COLORBARCOLUMNPOSITION) ) { try { DasDevicePosition.parseLayoutStr( dasColorBar.getColumn(), (String)evt.getNewValue() ); } catch ( ParseException ex ) { logger.log(Level.WARNING, "unable to parse value: {0}", evt.getNewValue()); String val= DasDevicePosition.formatLayoutStr( dasColorBar.getColumn() ); if ( !val.equals(evt.getNewValue()) ) { plot.setColorbarColumnPosition(val); } } } if ( titleConverter==null ) return; dasPlot.setTitle( (String)titleConverter.convertForward(plot.getTitle()) ); } }; private PropertyChangeListener listener = new PropertyChangeListener() { @Override public String toString() { return ""+PlotController.this; } @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"listener"); if (evt.getSource() instanceof DasAxis) { DasAxis axis = (DasAxis) evt.getSource(); Axis domAxis= getDomAxis(axis); if ( domAxis==null ) return; if ( evt.getPropertyName().equals("Frame.active") ) return; if ( evt.getPropertyName().equals(DasAxis.PROP_UNITS) || evt.getPropertyName().equals(DasAxis.PROPERTY_DATUMRANGE ) ) { if ( axis.isDrawTca() && domAxis.getLabel().length()==0 ) { domAxis.setLabel("%{RANGE}"); } } if ( evt.getPropertyName().equals(DasAxis.PROP_UNITS) || evt.getPropertyName().equals(DasAxis.PROPERTY_DATUMRANGE ) || evt.getPropertyName().equals(DasAxis.PROP_LABEL) ) { updateAxisFormatter(axis); } } else if ( evt.getPropertyName().equals( DasPlot.PROP_FOCUSRENDERER ) ) { List eles= PlotController.this.dom.controller.getPlotElementsFor(plot); PlotElement fe= null; for ( PlotElement ele: eles ) { if ( ele.getController().getRenderer()== evt.getNewValue() ) { fe= ele; } } if ( fe!=null ) PlotController.this.dom.controller.setPlotElement( fe ); } } }; public DasColorBar getDasColorBar() { return dasColorBar; } public DasPlot getDasPlot() { return dasPlot; } /** * set log to false if the axis contains 0 or negative min. * @param a */ private static void logCheck( Axis a ) { if ( a.isLog() && a.getRange().min().doubleValue( a.getRange().getUnits() ) <= 0 ) { a.setLog(false); } } /** * introduced when a linear digitized trace was put on top of a log spectrogram. * We need to be more sophistocated about how we resolve the two. * Axes that have autorange=false indicate that they do not care about this * dimension. * @param a1 an axis with range, log, and autoRange properties. * @param a2 an axis with range, log, and autoRange properties. * @return */ private Axis resolveSettings( Axis a1, Axis a2 ) { Axis result; if ( !a1.isAutoRange() && a2.isAutoRange() ) { logger.log(Level.FINER, "resolveSettings axis a1 ({0}) is not autorange", new Object[]{a1.range.getUnits()}); return a2; } else if ( !a2.isAutoRange() && a1.isAutoRange() ) { logger.log(Level.FINER, "resolveSettings axis a2 ({0}) is not autorange", new Object[]{a2.range.getUnits()}); return a1; } result = new Axis(); result.range = DatumRangeUtil.union( a1.range, a2.range ); logger.log(Level.FINER, "resolveSettings range {0} {1} -> {2}", new Object[]{a1.range, a2.range, result.range }); if ( a1.log==a2.log ) { result.log= a1.log; } else { result.log= result.range.min().doubleValue(result.range.getUnits()) > 0; } result.autoRange= a1.autoRange && a2.isAutoRange(); logger.log(Level.FINER, "resolveSettings range {0} {1} -> {2}", new Object[]{a1.range, a2.range, result.range }); return result; } /** * only autorange when the settings have completely changed. Chris and Craig * @param axis * @param newSettings * @return */ private Axis reluctantRanging( Axis axis, Axis newSettings ) { try { if ( DatumRangeUtil.rescale( axis.getRange(),-1,2 ).intersects( newSettings.getRange() ) ) { double d1= DatumRangeUtil.normalize( axis.getRange(), newSettings.getRange().min(), axis.isLog() ); double d2= DatumRangeUtil.normalize( axis.getRange(), newSettings.getRange().max(), axis.isLog() ); if ( Math.abs(d2-d1)>0.1 ) { return axis; } else { return newSettings; } } else { return newSettings; } } catch ( InconvertibleUnitsException ex ) { return newSettings; } } /** * implement hints like width=40&includeZero=T. *
     * includeZero   T or F     make sure that zero is within the result.
     * min           0          make zero be the minimum value.
     * max           100        make 100 be the maximum value
     * width         30nT       use this width.  This is a formatted datum which 
     *                          is parsed with the units of the axis, or with the number of cycles for log.
     * log           T or F     force log or linear axis
     * widths        30nT,300nT,3000nT   use one of these widths
     * center        0          constrain the center to be this location
     * extend        10         percent to extend the range beyond the min and the max, so the width is this percent more.  This is done after other constraints.
     *               0,10       percent the max by ten percent.
     * (not yet) reluctant     T or F     use the old range if it is acceptable.
     * 
* Width or width imply that extend=0, but extend=10 may become the default. * @param axis the axis to which we are applying the hints. * @param hintsString the string, ampersand-delimited; or null when no hints should be applied. */ public static void doHints( Axis axis, String hintsString ) { Map hints= URISplit.parseParams(hintsString); DatumRange range=axis.getRange(); boolean log= axis.isLog(); boolean includeZero= "T".equals(hints.get("includeZero")); Datum minValue= null; { String s= hints.get("min"); if ( s!=null ) try { minValue= axis.getRange().getUnits().parse(s); } catch (ParseException ex) { logger.log(Level.SEVERE, null, ex); } } Datum maxValue= null; { String s= hints.get("max"); if ( s!=null ) try { maxValue= axis.getRange().getUnits().parse(s); } catch (ParseException ex) { logger.log(Level.SEVERE, null, ex); } } String width= hints.get("width"); String widths= hints.get("widths"); String center= hints.get("center"); String logHint= hints.get("log"); String extend= hints.get("extend"); if ( logHint!=null && UnitsUtil.isRatioMeasurement( axis.getRange().getUnits() ) ) { if ( logHint.equals("T") ) { if ( range.min().value() <= 0. ) { if ( range.max().value()>0 ) { double m= range.max().value(); range= new DatumRange( m/1e3, m, range.getUnits() ); } else { range= new DatumRange( 1, 1000, range.getUnits() ); } } } log= logHint.equals("T"); } if ( width!=null ) { Units u= range.getUnits().getOffsetUnits(); Datum currentCenter=null; if ( center!=null ) { try { currentCenter= u.parse(center); } catch (ParseException ex) { logger.log( Level.WARNING, null, ex ); } } if ( currentCenter==null ) { if ( log ) { currentCenter= DatumRangeUtil.rescaleLog( range, 0.5, 0.5 ).min(); } else { currentCenter= DatumRangeUtil.rescale( range, 0.5, 0.5 ).min(); } } try { if ( log ) { Datum w= Units.log10Ratio.parse(width); w= w.divide(2); range= new DatumRange( currentCenter.divide( Math.pow(10,w.value()) ), currentCenter.multiply( Math.pow(10,w.value()) ) ); } else { Datum w= u.parse(width); w= w.divide(2); range= new DatumRange( currentCenter.subtract(w), currentCenter.add(w) ); } } catch (ParseException | InconvertibleUnitsException ex ) { logger.log(Level.WARNING, null, ex); } } if ( widths!=null ) { String[] wss= widths.split("\\,"); Datum limit= log ? Units.log10Ratio.createDatum( Math.log10( range.max().divide(range.min()).value() ) ) : range.width(); Units u= range.getUnits().getOffsetUnits(); for ( String ws: wss ) { try { if ( log ) { Datum w= Units.log10Ratio.parse(ws); if ( w.gt(limit) || ws.equals(wss[wss.length-1])) { w= w.divide(2); Datum currentCenter= DatumRangeUtil.rescaleLog( range, 0.5, 0.5 ).min(); range= new DatumRange( currentCenter.divide( Math.pow(10,w.value()) ), currentCenter.multiply( Math.pow(10,w.value()) ) ); break; } } else { Datum w= u.parse(ws); if ( w.gt(limit) || ws.equals(wss[wss.length-1])) { w= w.divide(2); Datum currentCenter= DatumRangeUtil.rescale( range, 0.5, 0.5 ).min(); range= new DatumRange( currentCenter.subtract(w), currentCenter.add(w) ); break; } } } catch (ParseException | InconvertibleUnitsException ex ) { logger.log( Level.WARNING, null, ex ); } } } if ( includeZero && UnitsUtil.isRatioMeasurement(range.getUnits() ) ) { Datum z= range.getUnits().createDatum(0); if ( widths==null && width==null ) { range= DatumRangeUtil.union( range, z ); //TODO: consider extra 10% } else { if ( range.min().value()>0 ) { double n= DatumRangeUtil.normalize( range, z ); range= DatumRangeUtil.rescale( range, n, n+1 ); } else if ( range.max().value()<0. ) { double n= DatumRangeUtil.normalize( range, z ); range= DatumRangeUtil.rescale( range, n-1, n ); } } } if ( minValue!=null && UnitsUtil.isRatioMeasurement(range.getUnits() ) ) { if ( widths==null && width==null ) { if ( range.max().gt(minValue) ) { range= DatumRange.newRange( minValue, range.max() ); } } else { Datum w= range.width(); range= DatumRange.newRange( minValue, minValue.add(w) ); } } if ( maxValue!=null && UnitsUtil.isRatioMeasurement(range.getUnits() ) ) { if ( widths==null && width==null ) { if ( range.min().lt(maxValue) ) { range= DatumRange.newRange( range.min(), maxValue ); } } else { Datum w= range.width(); range= DatumRange.newRange( maxValue.subtract(w), maxValue ); } } if ( center!=null ) { Units u= range.getUnits(); try { if ( log ) { Datum currentCenter = u.parse(center); double w1= Math.abs( Math.log10( range.min().divide(currentCenter).value() ) ); double w2= Math.abs( Math.log10( range.max().divide(currentCenter).value() ) ); double w= w1>=w2 ? w1 : w2; range= new DatumRange( currentCenter.divide( Math.pow(10,w) ), currentCenter.multiply( Math.pow(10,w) ) ); } else { Datum currentCenter= u.parse(center); Datum w1= range.min().subtract(currentCenter).abs(); Datum w2= range.max().subtract(currentCenter).abs(); Datum w= w1.ge(w2) ? w1 : w2; range= new DatumRange( currentCenter.subtract(w), currentCenter.add(w) ); } } catch (ParseException | InconvertibleUnitsException ex ) { logger.log(Level.WARNING, null, ex); } } if ( extend!=null ) { double dextendmin,dextendmax; if ( extend.contains(",") ) { String[] ss= extend.split(","); dextendmin= Double.parseDouble(ss[0])/100; dextendmax= Double.parseDouble(ss[1])/100; } else { dextendmax= dextendmin= Double.parseDouble(extend)/100/2; } if ( log ) { range= DatumRangeUtil.rescaleLog( range, 0-dextendmin, 1+dextendmax ); } else { range= DatumRangeUtil.rescale( range, 0-dextendmin, 1+dextendmax ); } } AxisController ac= axis.getController(); if ( ac!=null ) { ac.setRangeAutomatically( range, log ); } else { axis.setRange(range); axis.setLog(log); } } /** * set the zoom so that all of the plotElements' data is visible. This means finding * the "union" of the plotElements' plotDefault ranges. If any plotElement's default log * is false, then the new setting will be false. * @param x reset zoom in the x dimension. * @param y reset zoom in the y dimension. * @param z reset zoom in the z dimension. * @see AutoplotUtil#resetZoomX(org.autoplot.dom.Application, org.autoplot.dom.Plot) * @see AutoplotUtil#resetZoomY(org.autoplot.dom.Application, org.autoplot.dom.Plot) * @see AutoplotUtil#resetZoomZ(org.autoplot.dom.Application, org.autoplot.dom.Plot) */ public void resetZoom(boolean x, boolean y, boolean z) { logger.entering("PlotController","resetZoom",new Object[]{x,y,z}); List elements = dom.controller.getPlotElementsFor(plot); if ( elements.isEmpty() ) return; Plot newSettings = null; boolean haveTsb= false; // System.err.println("== resetZoom Elements==" ); // for ( PlotElement p: elements ) { // System.err.println( p + " y= " + p.getPlotDefaults().getYaxis().getRange() ); // } boolean alsoBindings= false; // See https://sourceforge.net/p/autoplot/bugs/2149/ if ( alsoBindings ) { List plots= DomUtil.findBindings( dom, plot.getXaxis(), Axis.PROP_RANGE ); for ( BindingModel b : plots ) { Plot other; if ( b.getDstId().equals( plot.getXaxis().getId() ) ) { Axis oa= (Axis)DomUtil.getElementById( dom, b.getSrcId() ); other= (Plot)DomUtil.getPlotForAxis( dom, oa ); } else { Axis oa= (Axis)DomUtil.getElementById( dom, b.getDstId() ); other= (Plot)DomUtil.getPlotForAxis( dom, oa ); } elements.addAll( DomUtil.getPlotElementsFor( dom, other ) ); } plots= DomUtil.findBindings( dom, plot.getYaxis(), Axis.PROP_RANGE ); for ( BindingModel b : plots ) { Plot other; if ( b.getDstId().equals( plot.getYaxis().getId() ) ) { Axis oa= (Axis)DomUtil.getElementById( dom, b.getSrcId() ); other= (Plot)DomUtil.getPlotForAxis( dom, oa ); } else { Axis oa= (Axis)DomUtil.getElementById( dom, b.getDstId() ); other= (Plot)DomUtil.getPlotForAxis( dom, oa ); } elements.addAll( DomUtil.getPlotElementsFor( dom, other ) ); } plots= DomUtil.findBindings( dom, plot.getZaxis(), Axis.PROP_RANGE ); for ( BindingModel b : plots ) { Plot other; if ( b.getDstId().equals( plot.getZaxis().getId() ) ) { Axis oa= (Axis)DomUtil.getElementById( dom, b.getSrcId() ); other= (Plot)DomUtil.getPlotForAxis( dom, oa ); } else { Axis oa= (Axis)DomUtil.getElementById( dom, b.getDstId() ); other= (Plot)DomUtil.getPlotForAxis( dom, oa ); } elements.addAll( DomUtil.getPlotElementsFor( dom, other ) ); } } boolean warnedAboutUnits= false; for (PlotElement p : elements) { Plot plot1 = p.getPlotDefaults(); if (newSettings == null) { newSettings = (Plot) plot1.copy(); } else { try { newSettings.xaxis= resolveSettings( newSettings.xaxis,plot1.getXaxis() ); } catch ( InconvertibleUnitsException ex ) { if ( !warnedAboutUnits ) { logger.log( Level.FINE, "plot elements on the same xaxis have inconsistent units: {0} {1}", new Object[]{newSettings.xaxis.range.getUnits().toString(), plot1.getXaxis().getRange().getUnits().toString()}); warnedAboutUnits= true; } } try { newSettings.yaxis= resolveSettings( newSettings.yaxis, plot1.getYaxis() ); } catch ( InconvertibleUnitsException ex ) { if ( !warnedAboutUnits ) { logger.log( Level.FINE, "plot elements on the same yaxis have inconsistent units: {0} {1}", new Object[]{newSettings.yaxis.range.getUnits().toString(), plot1.getYaxis().getRange().getUnits().toString()}); warnedAboutUnits= true; } } try { newSettings.zaxis= resolveSettings( newSettings.zaxis, plot1.getZaxis() ); } catch ( InconvertibleUnitsException ex ) { if ( !warnedAboutUnits ) { logger.log( Level.FINE, "plot elements on the same zaxis have inconsistent units: {0} {1}", new Object[]{newSettings.zaxis.range.getUnits().toString(), plot1.getZaxis().getRange().getUnits().toString()}); warnedAboutUnits= true; } } } DataSourceFilter dsf= this.dom.controller.getDataSourceFilterFor(p); if ( dsf!=null && dsf.getController()!=null && dsf.getController().getTsb()!=null ) { haveTsb= true; } } if ( newSettings==null ) { plot.getXaxis().setAutoRange(true); plot.getYaxis().setAutoRange(true); plot.getZaxis().setAutoRange(true); logger.exiting( "PlotController","resetZoom"); return; } if ( x ) { logCheck(newSettings.getXaxis()); Axis newAxis= newSettings.getXaxis(); if ( plot.getXaxis().getAutoRangeHints().length()>0 ) { doHints( newAxis, plot.getXaxis().getAutoRangeHints() ); } if ( dom.options.getAutorangeType().equals( Options.VALUE_AUTORANGE_TYPE_RELUCTANT) ) { newAxis= reluctantRanging( plot.getXaxis(), newAxis ); } plot.getXaxis().setLog( newAxis.isLog() ); plot.getXaxis().setRange( newAxis.getRange()); plot.getXaxis().setAutoRange(true); if ( haveTsb==true ) { plot.getXaxis().getController().dasAxis.setScanRange( null ); } else { plot.getXaxis().getController().dasAxis.setScanRange( plot.getXaxis().getRange() ); } } if ( y ) { logCheck(newSettings.getYaxis()); Axis newAxis= newSettings.getYaxis(); if ( plot.getYaxis().getAutoRangeHints().length()>0 ) { doHints( newAxis, plot.getYaxis().getAutoRangeHints() ); } if ( dom.options.getAutorangeType().equals( Options.VALUE_AUTORANGE_TYPE_RELUCTANT) ) { newAxis= reluctantRanging( plot.getYaxis(), newAxis ); } plot.getYaxis().setLog( newAxis.isLog() ); plot.getYaxis().setRange( newAxis.getRange()); plot.getYaxis().setAutoRange(true); plot.getYaxis().getController().dasAxis.setScanRange( newAxis.getRange() ); } if ( z ) { logCheck(newSettings.getZaxis()); Axis newAxis= newSettings.getZaxis(); if ( plot.getZaxis().getAutoRangeHints().length()>0 ) { doHints( newAxis, plot.getZaxis().getAutoRangeHints() ); } if ( dom.options.getAutorangeType().equals( Options.VALUE_AUTORANGE_TYPE_RELUCTANT) ) { newAxis= reluctantRanging( plot.getZaxis(), newAxis ); } plot.getZaxis().setLog( newAxis.isLog() ); plot.getZaxis().setRange( newAxis.getRange() ); plot.getZaxis().setAutoRange(true); plot.getZaxis().getController().dasAxis.setScanRange( newAxis.getRange() ); } logger.log(Level.FINER, "xrange: {0}", plot.getXaxis().getRange()); logger.log(Level.FINER, "yrange: {0}", plot.getYaxis().getRange()); logger.log(Level.FINER, "zrange: {0}", plot.getZaxis().getRange()); logger.exiting( "PlotController", "resetZoom" ); } private final PropertyChangeListener plotDefaultsListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"plotDefaultsListener"); PlotElement pele= (PlotElement)evt.getSource(); List pp= PlotController.this.dom.getController().getPlotElementsFor(plot); if ( pp.contains(pele) ) { pp.remove(pele); } else { //System.err.println("Plot "+plot+" doesn't contain the source plotElement "+plotElement +" see bug 2992903" ); //bug 2992903 return; } if ( pele.isAutoRenderType() && pp.isEmpty() ) { PlotController.this.setAutoBinding(true); } doPlotElementDefaultsChange(pele); } }; private final PropertyChangeListener renderTypeListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"renderTypeListener"); checkRenderType(); } }; PlotElement plotElement; /** * return the plotElement we are listening to. * @return */ public PlotElement getPlotElement() { return this.plotElement; } private final PropertyChangeListener plotElementDataSetListener= new PropertyChangeListener() { @Override public void propertyChange(PropertyChangeEvent evt) { LoggerManager.logPropertyChangeEvent(evt,"plotElementDataSetListener"); if ( plotElement==null ) { System.err.println("whoops, getting there"); return; } QDataSet ds1; if ( titleConverter==null ) return; if ( titleConverter.plotElement!=null ) { ds1= titleConverter.plotElement.getController().getDataSet(); } else { ds1= null; } logger.log(Level.FINE, "titleConverter should use for dataset: {0}", ds1); String t= (String)titleConverter.convertForward( plot.getTitle() ); dasPlot.setTitle( t ); AxisController xaxisController= plot.getXaxis().getController(); AxisController yaxisController= plot.getYaxis().getController(); if ( xaxisController==null || yaxisController==null ) return; LabelConverter yaxisLabelConverter= yaxisController.labelConverter; LabelConverter xaxisLabelConverter= xaxisController.labelConverter; if ( xaxisLabelConverter==null || yaxisLabelConverter==null ) return; dasPlot.getYAxis().setLabel( (String)yaxisLabelConverter.convertForward( plot.getYaxis().getLabel() ) ); dasPlot.getXAxis().setLabel( (String)xaxisLabelConverter.convertForward( plot.getXaxis().getLabel() ) ); QDataSet pds= plotElement.getController().getDataSet(); logger.log( Level.FINE, "{0} dataSetListener", plot); if ( pds!=null && UnitsUtil.isIntervalOrRatioMeasurement(SemanticOps.getUnits(pds)) ) { updateNextPrevious( plot.getXaxis().getRange(), pds ); } } @Override public String toString() { return "plotElementDataSetListener for "+PlotController.this.getPlot().getId(); } }; /** * check to see if the render type needs a colorbar by default. If the * changes are happening automatically, then return without doing anything. */ private void checkRenderType() { if ( dom.getController().isValueAdjusting() ) return; boolean needsColorbar = false; for (PlotElement p : dom.getController().getPlotElementsFor(plot)) { if (RenderTypeUtil.needsColorbar(p.getRenderType())) { needsColorbar = true; } } plot.getZaxis().setVisible(needsColorbar); // boolean needsYAxis= false; // this doesn't work... // for (PlotElement p : dom.getController().getPlotElementsFor(plot)) { // if ( p.getPlotDefaults().getYaxis().isVisible() ) { // needsYAxis= true; // } // } // plot.getYaxis().setVisible(needsYAxis); } void addPlotElement(PlotElement p) { addPlotElement(p,true); } private List indecesOfPlotElements( ) { List indeces= new ArrayList<>(dom.plotElements.size()); for ( int i=0; ibottom ) { for ( int i=ploc; i>bottom; i-- ) { newPes[i]= newPes[i-1]; } newPes[bottom]= p; } //for ( int i=0; i=0; top-- ) { if ( newPes[top].getPlotId().equals(p.getPlotId()) ) break; } int ploc; for ( ploc=0; ploc 0.9 ) { that.getYaxis().setRange( domPlot.getYaxis().getRange() ); } AutoplotUtil.resetZoomX(dom); //that.getController().resetZoom(true, true, false); } finally { lock.unlock(); } return that; } private void removeBindingsPEToColorbar( PlotElement pe ) { this.dom.controller.unbind( pe.style, PlotElementStyle.PROP_COLORTABLE, this.plot, Plot.PROP_COLORTABLE ); } /** * remove the plot element from this plot: remove renderer, remove bindings, etc. * @param p */ protected void removePlotElement(PlotElement p) { DomLock lock= changesSupport.mutatorLock(); lock.lock("removePlotElement"); try { Renderer rr= p.controller.getRenderer(); // setPlotId re-enters this code, so we need to rem if ( rr!=null && dasPlot.containsRenderer(rr) ) dasPlot.removeRenderer(rr); if ( rr instanceof SpectrogramRenderer ) { ((SpectrogramRenderer)rr).setColorBar(null); } else if ( rr instanceof SeriesRenderer ) { ((SeriesRenderer)rr).setColorBar(null); } doPlotElementDefaultsChange(null); p.removePropertyChangeListener( PlotElement.PROP_PLOT_DEFAULTS, plotDefaultsListener ); p.removePropertyChangeListener( PlotElement.PROP_RENDERTYPE, renderTypeListener ); removeBindingsPEToColorbar(p); pdListen.remove(p); if ( !p.getPlotId().equals("") ) p.setPlotId(""); checkRenderType(); } finally { lock.unlock(); } } // private static String getCommonPart( String wordA, String wordB ) { // StringBuilder common= new StringBuilder(); // StringBuilder commonTest= new StringBuilder(); // for(int i=0;icommon.length() ) { // common= commonTest; // } // commonTest= new StringBuilder(); // } // } // } // if ( commonTest.length()>common.length() ) { // common= commonTest; // commonTest= new StringBuilder(); // } // return common.toString(); // } private Plot getPlotDefaultsOneFamily( List pes ) { Plot result= null; if ( pes.size()>0 ) result= pes.get(0).getPlotDefaults(); // more like old behavior return result; } /** * check all the plotElements' plot defaults, so that properties marked as automatic can be reset. * @param plotElement */ private void doPlotElementDefaultsChange( PlotElement pele ) { if ( pele!=null && isAutoBinding() ) doCheckBindings( plot, pele.getPlotDefaults() ); List bms= dom.getController().findBindings( dom, Application.PROP_TIMERANGE, null, Axis.PROP_RANGE ); BindingModel existingBinding= dom.getController().findBinding( dom, Application.PROP_TIMERANGE, plot.xaxis, Axis.PROP_RANGE ); if ( bms.contains(existingBinding) ) { if ( bms.size()>1 ) { plot.getXaxis().setAutoRange(false); } } List pes= dom.getController().getPlotElementsFor(plot); if ( DomUtil.oneFamily( pes ) ) { Plot defaults= getPlotDefaultsOneFamily(pes); PlotElement p= pes.get(0); if ( !plot.controller.getApplication().getController().isValueAdjusting() ) { // I would reset the autorange property here for unbound axes before v2013a_16. I'm not sure why... if ( !this.dom.getController().isBoundAxis(plot.getXaxis()) ) { if ( !defaults.getXaxis().getRange().getUnits().isConvertibleTo( plot.getXaxis().getRange().getUnits() ) ) { plot.getXaxis().setAutoRange(true); } } if ( !this.dom.getController().isBoundAxis(plot.getYaxis()) ) { if ( !defaults.getYaxis().getRange().getUnits().isConvertibleTo( plot.getYaxis().getRange().getUnits() ) ) { plot.getYaxis().setAutoRange(true); } } if ( !this.dom.getController().isBoundAxis(plot.getZaxis()) ) { if ( !defaults.getZaxis().getRange().getUnits().isConvertibleTo( plot.getZaxis().getRange().getUnits() ) ) { plot.getZaxis().setAutoRange(true); } } } else { logger.fine("value is adjusting, no reset autorange"); } boolean isFirst= false; for ( PlotElement pete: this.dom.getPlotElements() ) { if ( pete.plotId.equals(this.plot.id ) ) { if ( pete==p ) { isFirst=true; } break; } } if ( this.plotElement!=null && isFirst ) { this.plotElement.getController().removePropertyChangeListener( PlotElementController.PROP_DATASET, plotElementDataSetListener ); } if ( isFirst ) { this.plotElement= p; this.plotElement.getController().addPropertyChangeListener( PlotElementController.PROP_DATASET, plotElementDataSetListener ); } if ( true ) { // bugfix 1157: simplify logic, was: if ( pele==null || defaults.getXaxis().isAutoRange()!=false ) { //TODO: why is this? /home/jbf/ct/hudson/vap/geo_1.vap wants it if ( defaults!=null ) { if ( plot.isAutoLabel() ) plot.getController().setTitleAutomatically( defaults.getTitle() ); if ( plot.getXaxis().isAutoLabel() && defaults.getXaxis().isAutoLabel() ) plot.getXaxis().getController().setLabelAutomatically( defaults.getXaxis().getLabel() ); if ( plot.getYaxis().isAutoLabel() && defaults.getYaxis().isAutoLabel() ) plot.getYaxis().getController().setLabelAutomatically( defaults.getYaxis().getLabel() ); if ( plot.getZaxis().isAutoLabel() && defaults.getZaxis().isAutoLabel() ) plot.getZaxis().getController().setLabelAutomatically( defaults.getZaxis().getLabel() ); if ( plot.getXaxis().isAutoRange() && plot.getYaxis().isAutoRange() ) plot.setIsotropic( defaults.isIsotropic() ); } else { if ( plot.isAutoLabel() ) plot.getController().setTitleAutomatically( p.getPlotDefaults().getTitle() ); // stack of traces if ( plot.getXaxis().isAutoLabel() ) plot.getXaxis().getController().setLabelAutomatically( "" ); if ( plot.getYaxis().isAutoLabel() ) plot.getYaxis().getController().setLabelAutomatically( "" ); if ( plot.getZaxis().isAutoLabel() ) plot.getZaxis().getController().setLabelAutomatically( "" ); } } } //if ( dom.getController().getPlotElementsFor(plot).isEmpty() ) { //System.err.println("should this happen? see bug 2992903"); //} if ( dom.getOptions().isAutoranging() ) { resetZoom( plot.getXaxis().isAutoRange() && pele!=null && pele.getPlotDefaults().getXaxis().isAutoRange(), plot.getYaxis().isAutoRange(), plot.getZaxis().isAutoRange() ); } } /** * See sourceforge ticket. We've loaded an old * vap file and we need to convert units.dimensionless to a correct unit. * @param e */ protected void doPlotElementDefaultsUnitsChange( PlotElement e ) { DatumRange elerange; DatumRange range; elerange= e.getPlotDefaults().getXaxis().getRange(); range= plot.getXaxis().getRange(); if ( elerange.getUnits() != range.getUnits() && range.getUnits()==Units.dimensionless ) { DatumRange dr; if ( UnitsUtil.isTimeLocation(elerange.getUnits()) ) { dr= DatumRangeUtil.parseTimeRangeValid( "2010-01-01" ); } else { dr= new DatumRange( range.min().doubleValue(Units.dimensionless), range.max().doubleValue(Units.dimensionless), elerange.getUnits() ); } boolean auto= plot.getXaxis().autoRange; plot.getXaxis().setRange( dr ); plot.getXaxis().setAutoRange(auto); } elerange= e.getPlotDefaults().getYaxis().getRange(); range= plot.getYaxis().getRange(); if ( !UnitsUtil.isTimeLocation(elerange.getUnits()) && elerange.getUnits() != range.getUnits() && range.getUnits()==Units.dimensionless ) { DatumRange dr; if ( UnitsUtil.isTimeLocation(elerange.getUnits()) ) { dr= DatumRangeUtil.parseTimeRangeValid( "2010-01-01" ); } else { dr= new DatumRange( range.min().doubleValue(Units.dimensionless), range.max().doubleValue(Units.dimensionless), elerange.getUnits() ); } boolean auto= plot.getYaxis().autoRange; plot.getYaxis().setRange( dr ); plot.getYaxis().setAutoRange(auto); } elerange= e.getPlotDefaults().getZaxis().getRange(); range= plot.getZaxis().getRange(); if ( !UnitsUtil.isTimeLocation(elerange.getUnits()) && elerange.getUnits() != range.getUnits() && range.getUnits()==Units.dimensionless ) { DatumRange dr; if ( UnitsUtil.isTimeLocation(elerange.getUnits()) ) { dr= DatumRangeUtil.parseTimeRangeValid( "2010-01-01" ); } else { dr= new DatumRange( range.min().doubleValue(Units.dimensionless), range.max().doubleValue(Units.dimensionless), elerange.getUnits() ); } boolean auto= plot.getZaxis().autoRange; plot.getZaxis().setRange( dr ); plot.getZaxis().setAutoRange(auto); } } /** * See https://sourceforge.net/p/autoplot/bugs/1649/ * @param newSettingsXaxis * @return */ private boolean shouldBindX( Axis newSettingsXaxis ) { boolean shouldBindX= false; DatumRange xrange= newSettingsXaxis.getRange(); if ( dom.timeRange.getUnits().isConvertibleTo(xrange.getUnits()) && UnitsUtil.isTimeLocation(xrange.getUnits()) ) { if ( dom.controller.isConnected( plot ) ) { logger.log(Level.FINER, "not binding because plot is connected: {0}", plot); // don't bind a connected plot. } else if ( dom.timeRange.intersects( xrange ) ) { try { double reqOverlap= UnitsUtil.isTimeLocation( dom.timeRange.getUnits() ) ? 0.01 : 0.8; DatumRange droverlap= DatumRangeUtil.sloppyIntersection( xrange, dom.timeRange ); double overlap= droverlap.width().divide(dom.timeRange.width()).doubleValue(Units.dimensionless); if ( overlap > 1.0 ) overlap= 1/overlap; if ( overlap > reqOverlap ) { shouldBindX= true; logger.log( Level.FINER, "binding axis because there is significant overlap dom.timerange={0}", dom.timeRange.toString()); dom.getController().setStatus("binding axis because there is significant overlap"); } } catch ( InconvertibleUnitsException ex ) { shouldBindX= false; } catch ( IllegalArgumentException ex ) { shouldBindX= false; //logERatio } } } return shouldBindX; } /** * after autoranging, we need to check to see if a plotElement's plot looks like * it should be automatically bound or unbound. * * We unbind if changing this plot's axis settings will make another plot * invalid. * * We bind if the axis setting is similar to the application timerange. * @param plot the plot whose binds we are checking. Bindings with this node may be added or removed. * @param newSettings the new plot settings from autoranging. */ private void doCheckBindings( Plot plot, Plot newSettings ) { logger.entering( "PlotController", "doCheckBindings" ); boolean shouldBindX= false; boolean shouldSetAxisRange= false; // true indicates that the dom.timeRange already contains the range List bms= dom.getController().findBindings( dom, Application.PROP_TIMERANGE, null, Axis.PROP_RANGE ); BindingModel bm= dom.getController().findBinding( dom, Application.PROP_TIMERANGE, plot.getXaxis(), Axis.PROP_RANGE ); if ( bm!=null ) bms.remove(bm); if ( ! plot.isAutoBinding() ) { logger.exiting( "PlotController", "doCheckBindings" ); return; } boolean needToAutorangeAfterAll= false; // if we aren't autoranging, then only change the bindings if there will be a conflict. if ( plot.getXaxis().isAutoRange()==false ) { shouldBindX= bm!=null; // this binding is no longer set. if ( bm!=null && !newSettings.getXaxis().getRange().getUnits().isConvertibleTo( plot.getXaxis().getRange().getUnits() ) ) { shouldBindX= false; logger.finer("remove timerange binding that would cause inconvertable units"); } if (!shouldBindX) shouldBindX= shouldBindX(newSettings.getXaxis()); needToAutorangeAfterAll= UnitsUtil.isTimeLocation( plot.getXaxis().getRange().getUnits() ) && !shouldBindX; } if ( newSettings.getXaxis().isLog()==false && ( needToAutorangeAfterAll || plot.getXaxis().isAutoRange() ) ) { if ( bms.isEmpty() && UnitsUtil.isTimeLocation( newSettings.getXaxis().getRange().getUnits() ) ) { logger.finer("binding axis to timeRange because no one is using it"); DatumRange tr= plot.getXaxis().getRange(); // it's already been set for TimeSeriesBrowse if ( UnitsUtil.isTimeLocation( tr.getUnits() ) ) { dom.setTimeRange( tr ) ; // newSettings.getXaxis().getRange() ); // TimeSeriesBrowse } else { dom.setTimeRange( newSettings.getXaxis().getRange() ); // fall back to old logic. } shouldSetAxisRange= true; } if ( !plot.getXaxis().isAutoRange() ) { if ( needToAutorangeAfterAll && bm!=null ) { dom.getController().removeBinding(bm); } plot.getXaxis().setAutoRange(true); // setting the time range would clear autoRange here. } shouldBindX= shouldBindX(newSettings.getXaxis()); } if ( bm==null && shouldBindX ) { logger.log(Level.FINER, "add binding: {0}", plot.getXaxis()); plot.getXaxis().setLog(false); dom.getController().bind( dom, Application.PROP_TIMERANGE, plot.getXaxis(), Axis.PROP_RANGE ); BindingModel b= dom.getController().findBinding( dom, Application.PROP_TIMERANGE, plot, Plot.PROP_CONTEXT ); if ( b!=null ) dom.getController().removeBinding(b); // https://sourceforge.net/p/autoplot/bugs/868/ //if ( !CanvasUtil.getMostBottomPlot(dom.getController().getCanvasFor(plot))==plot ) { // plot.getXaxis().setDrawTickLabels(false); //} //TODO: could disable tick label drawing automatically. } else if ( bm!=null && !shouldBindX ) { logger.log(Level.FINER, "remove binding: {0}", bm); //BindingModel b= dom.getController().findBinding( dom, Application.PROP_TIMERANGE, plot, Plot.PROP_CONTEXT ); //if ( b!=null ) dom.getController().deleteBinding(b); // 3516161 https://sourceforge.net/p/autoplot/bugs/868/ plot.setContext( dom.getTimeRange() ); dom.getController().removeBinding(bm); } if ( needToAutorangeAfterAll ) { plot.getXaxis().setAutoRange(true); // the order matters now, because this will cause the setting to change. } if ( !shouldBindX ) { List b= dom.getController().findBindings( dom, Application.PROP_TIMERANGE ); if ( b.isEmpty() && UnitsUtil.isTimeLocation( plot.getContext().getUnits() ) ) { DatumRange dr= plot.getContext(); dom.setTimeRange(dr); } dom.getController().bind( dom, Application.PROP_TIMERANGE, plot, Plot.PROP_CONTEXT ); } plot.setAutoBinding(false); logger.exiting( "PlotController", "doCheckBindings" ); } /** * delete the das peer that implements this node. */ void deleteDasPeer() { final DasPlot p = getDasPlot(); final DasColorBar cb = getDasColorBar(); final DasCanvas c= p.getCanvas(); p.getDasMouseInputAdapter().setFeedback( DasMouseInputAdapter.NULL_FEEDBACK ); if ( c!=null ) { SwingUtilities.invokeLater( new Runnable() { @Override public void run() { c.remove(p); c.remove(cb); } } ); } p.getDasMouseInputAdapter().releaseAll(); } private void bindTo(DasPlot p) { ApplicationController ac= dom.controller; titleConverter= new LabelConverter( dom, plot, null, null, null ); ac.bind( this.plot, Plot.PROP_TITLE, p, DasPlot.PROP_TITLE, titleConverter ); Converter plotContextConverter= new Converter() { @Override public Object convertForward(Object s) { if ( s==Application.DEFAULT_TIME_RANGE ) { return null; } else { return s; } } @Override public Object convertReverse(Object t) { if ( t==null ) { return Application.DEFAULT_TIME_RANGE; } else { return t; } } }; this.plot.addPropertyChangeListener(plotListener); ac.bind( this.plot, Plot.PROP_CONTEXT, p, DasPlot.PROP_CONTEXT, plotContextConverter ); ac.bind( this.plot, Plot.PROP_BACKGROUND, p, DasPlot.PROP_DRAWBACKGROUND ); ac.bind(this.plot, Plot.PROP_EPHEMERIS_LABELS, p.getXAxis(), DasAxis.PROP_TCALABELS ); } /** * remove the bindings created in bindTo. */ protected void removeBindings() { ApplicationController ac= dom.controller; DasPlot p= this.dasPlot; // these were unbound already. // ac.unbind( this.plot, Plot.PROP_TITLE, p, DasPlot.PROP_TITLE ); // ac.unbind( this.plot, Plot.PROP_CONTEXT, p, DasPlot.PROP_CONTEXT ); // ac.unbind( this.plot, Plot.PROP_ISOTROPIC, p, DasPlot.PROP_ISOTROPIC ); // ac.unbind( this.plot, Plot.PROP_DISPLAYTITLE, p, DasPlot.PROP_DISPLAYTITLE ); // ac.unbind( this.plot, Plot.PROP_DISPLAYLEGEND, p, DasPlot.PROP_DISPLAYLEGEND ); //int i= dom.options.boundCount(); ac.unbind( dom.options, Options.PROP_DRAWGRID, p, "drawGrid"); ac.unbind( dom.options, Options.PROP_DRAWMINORGRID, p, "drawMinorGrid"); ac.unbind( dom.options, Options.PROP_FLIPCOLORBARLABEL, this.plot.getZaxis().getController().dasAxis, "flipLabel"); ac.unbind( dom.options, Options.PROP_FLIPCOLORBARLABEL, this.plot.getYaxis().getController().dasAxis, "flipLabel"); ac.unbind( dom.options, Options.PROP_TICKLEN, p.getXAxis(), "tickLength"); ac.unbind( dom.options, Options.PROP_TICKLEN, p.getYAxis(), "tickLength"); ac.unbind( dom.options, Options.PROP_TICKLEN, this.dasColorBar, "tickLength"); ac.unbind( dom.options, Options.PROP_OPPOSITEAXISVISIBLE, p.getXAxis(), DasAxis.PROP_OPPOSITE_AXIS_VISIBLE); ac.unbind( dom.options, Options.PROP_OPPOSITEAXISVISIBLE, p.getYAxis(), DasAxis.PROP_OPPOSITE_AXIS_VISIBLE); ac.unbind( dom.options, Options.PROP_LINE_THICKNESS, p.getXAxis(), DasAxis.PROP_LINETHICKNESS ); ac.unbind( dom.options, Options.PROP_LINE_THICKNESS, p.getYAxis(), DasAxis.PROP_LINETHICKNESS ); ac.unbind( dom.options, Options.PROP_LINE_THICKNESS, this.dasColorBar, DasAxis.PROP_LINETHICKNESS ); ac.unbind( dom.options, Options.PROP_LINE_THICKNESS, p, DasAxis.PROP_LINETHICKNESS ); ac.unbind( dom.options, Options.PROP_MULTILINETEXTALIGNMENT, p, DasPlot.PROP_MULTILINETEXTALIGNMENT ); ac.unbind( dom.options, Options.PROP_PRINTINGLOGLEVEL, p, DasPlot.PROP_PRINTINGLOGLEVEL ); ac.unbind( dom.options, Options.PROP_DISPLAYLOGLEVEL, p, DasPlot.PROP_LOG_LEVEL ); ac.unbind( dom.options, Options.PROP_LOGMESSAGETIMEOUTSEC, p, DasPlot.PROP_LOG_TIMEOUT_SEC ); ac.unbind( dom.options, Options.PROP_OVERRENDERING, p, DasPlot.PROP_OVERSIZE ); dom.options.removePropertyChangeListener( Options.PROP_DAY_OF_YEAR, dayOfYearListener ); dom.options.removePropertyChangeListener( Options.PROP_MOUSEMODULE, mouseModuleListener ); this.plot.removePropertyChangeListener(plotListener); this.plot.xaxis.controller.removeBindings(); this.plot.yaxis.controller.removeBindings(); this.plot.zaxis.controller.removeBindings(); this.plot.getXaxis().removePropertyChangeListener( autorangeListener ); this.plot.getYaxis().removePropertyChangeListener( autorangeListener ); this.plot.getZaxis().removePropertyChangeListener( autorangeListener ); this.plot.removePropertyChangeListener( Plot.PROP_TITLE, labelListener ); this.plot.removePropertyChangeListener( Plot.PROP_TICKS_URI, ticksURIListener ); this.plot.removePropertyChangeListener( Plot.PROP_EPHEMERIS_LABELS, ticksURIListener ); this.plot.removePropertyChangeListener( Plot.PROP_ID, idListener ); this.plot.removePropertyChangeListener( Plot.PROP_ROWID, rowColListener ); this.plot.removePropertyChangeListener( Plot.PROP_COLUMNID, rowColListener ); //System.err.println("removeBindings "+i+" -> "+dom.options.boundCount() ); final DasAxis a= p.getXAxis(); a.removePropertyChangeListener( xaxisRangeListener ); a.setPreviousAction( "scan", null ); a.setNextAction( "scan", null ); expertMenuItems= null; this.pdListen= null; this.titleConverter= null; } /** * remove references this controller has so that they are more likely to be * garbage collected. This must be called after removeBindings. */ protected void removeReferences() { this.plot= null; this.dom= null; this.dasPlot= null; this.dasColorBar= null; this.pdListen= null; } public BindingModel[] getBindings() { return dom.controller.getBindingsFor(plot); } public BindingModel getBindings(int index) { return getBindings()[index]; } protected JMenuItem plotElementPropsMenuItem = null; public static final String PROP_PLOTELEMENTPROPSMENUITEM = "plotElementPropsMenuItem"; public JMenuItem getPlotElementPropsMenuItem() { return plotElementPropsMenuItem; } public void setPlotElementPropsMenuItem(JMenuItem pelePropsMenuItem) { JMenuItem old = this.plotElementPropsMenuItem; this.plotElementPropsMenuItem = pelePropsMenuItem; propertyChangeSupport.firePropertyChange(PROP_PLOTELEMENTPROPSMENUITEM, old, pelePropsMenuItem); } public Application getApplication() { return dom; } @Override public String toString() { return this.plot + " controller"; } /** * set the title, leaving autoLabel true. * @param title */ public void setTitleAutomatically(String title) { plot.setTitle(title); plot.setAutoLabel(true); } private JMenuItem[] expertMenuItems; /** * provide spot to locate the menu items that are hidden in basic mode. * @param items */ public void setExpertMenuItems( JMenuItem[] items ) { this.expertMenuItems= Arrays.copyOf( items, items.length ); } public JMenuItem[] getExpertMenuItems() { return Arrays.copyOf( expertMenuItems, expertMenuItems.length ); } public void setExpertMode( boolean expert ) { for ( JMenuItem mi: expertMenuItems ) { mi.setVisible(expert); } } /** * return the row for this plot. This just calls dom.canvases.get(0).getController().getRowFor(this.plot); * @return */ public Row getRow() { return dom.canvases.get(0).getController().getRowFor(this.plot); } /** * return the row for this plot. This just calls dom.canvases.get(0).getController().getRowFor(this.plot); * @return */ public Column getColumn() { return dom.canvases.get(0).getController().getColumnFor(this.plot); } }