package org.autoplot.dom;
import java.util.ArrayList;
import java.util.List;
import java.util.logging.Level;
import org.das2.datum.Datum;
import org.das2.datum.DatumRange;
//import org.das2.datum.DatumRangeUtil;
import org.das2.datum.Units;
//import org.das2.datum.UnitsUtil;
/**
* The state of an axis, X, Y, or a Z axis colorbar, such as range and the
* scale type.
* @author jbf
*/
public class Axis extends DomNode {
public static final DatumRange DEFAULT_RANGE= new DatumRange(0, 100, Units.dimensionless);
protected DatumRange range = DEFAULT_RANGE;
public static final String PROP_RANGE = "range";
public DatumRange getRange() {
return range;
}
/**
* set the range property. Right now, if the axis is log, and the range
* contains negative values, then the axis will be in an invalid state.
* We cannot change the range setting automatically because the next setting
* may be the log property, then the order of property setter calls would
* matter. TODO: consider mutatorLock... TODO: consider making the axis
* linear...
* @param range
*/
public void setRange(DatumRange range) {
if ( range==null ) {
logger.log( Level.WARNING, "range set to null!");
return;
}
// System.err.println("range="+range);
// if ( this.controller!=null
// && this.controller.dasAxis.isHorizontal()
// && !org.das2.datum.UnitsUtil.isTimeLocation( range.getUnits() )
// && range.width().value()==1. ) {
// logger.log( Level.WARNING, "breakpoint here in setRange");
// }
// if ( this.controller!=null
// && this.controller.dasAxis.isHorizontal()
// && org.das2.datum.UnitsUtil.isTimeLocation( range.getUnits() )
// && range.intersects(org.das2.datum.DatumRangeUtil.parseTimeRangeValid("2013-10-09T19:00:00/2013-10-09T19:40:00") ) ) {
// logger.log( Level.WARNING, "breakpoint here in setRange");
// }
// if ( this.id.startsWith("xaxis_0") && !UnitsUtil.isTimeLocation(range.getUnits()) && range.max().value()>=20000 ) {
// logger.log( Level.WARNING, "breakpoint here in setRange");
// }
DatumRange oldRange = this.range;
this.range= range;
propertyChangeSupport.firePropertyChange(PROP_RANGE, oldRange, range);
}
private Datum scale = Units.dimensionless.createDatum(.1);
public static final String PROP_SCALE = "scale";
public Datum getScale() {
return scale;
}
public void setScale(Datum scale) {
Datum oldScale = this.scale;
this.scale = scale;
propertyChangeSupport.firePropertyChange(PROP_SCALE, oldScale, scale);
}
protected boolean log = false;
public static final String PROP_LOG = "log";
public boolean isLog() {
return log;
}
/**
* set the log property. If the value makes the range invalid (log and zero),
* then the range is adjusted to make it valid. This works because the order
* of property setters doesn't matter.
* @param log
*/
public void setLog(boolean log) {
boolean oldLog = this.log;
this.log = log;
propertyChangeSupport.firePropertyChange(PROP_LOG, oldLog, log);
}
protected String label = "";
/**
* concise label for the axis.
*/
public static final String PROP_LABEL = "label";
/**
* concise label for the axis.
* @return the label
*/
public String getLabel() {
return label;
}
/**
* concise label for the axis.
* @param label the label
*/
public void setLabel(String label) {
String oldLabel = this.label;
this.label = label;
propertyChangeSupport.firePropertyChange(PROP_LABEL, oldLabel, label);
}
private String fontSize = "1em";
public static final String PROP_FONTSIZE = "fontSize";
public String getFontSize() {
return fontSize;
}
/**
* set the font size relative to the canvas font size. For example
* "2em" will be twice the size. "" is an alias for 1em.
*
* @param fontSize
*/
public void setFontSize(String fontSize) {
String oldFontSize = this.fontSize;
this.fontSize = fontSize;
propertyChangeSupport.firePropertyChange(PROP_FONTSIZE, oldFontSize, fontSize);
}
protected boolean drawTickLabels = true;
public static final String PROP_DRAWTICKLABELS = "drawTickLabels";
public boolean isDrawTickLabels() {
return drawTickLabels;
}
public void setDrawTickLabels(boolean drawTickLabels) {
boolean oldDrawTickLabels = this.drawTickLabels;
this.drawTickLabels = drawTickLabels;
propertyChangeSupport.firePropertyChange(PROP_DRAWTICKLABELS, oldDrawTickLabels, drawTickLabels);
}
/**
* draw the axis on the opposite side usually used. This is on the
* right side or top.
*/
private boolean opposite = false;
public static final String PROP_OPPOSITE = "opposite";
public boolean isOpposite() {
return opposite;
}
public void setOpposite(boolean opposite) {
boolean oldOpposite = this.opposite;
this.opposite = opposite;
propertyChangeSupport.firePropertyChange(PROP_OPPOSITE, oldOpposite, opposite);
}
/**
* false indicates the component will not be drawn. Note the x and y axes
* are only drawn if the plot is drawn, and the colorbar may be drawn
* if the plot is not drawn.
*/
public static final String PROP_VISIBLE = "visible";
protected boolean visible = true;
public boolean isVisible() {
return visible;
}
public void setVisible(boolean visible) {
boolean oldVisible = this.visible;
this.visible = visible;
propertyChangeSupport.firePropertyChange(PROP_VISIBLE, oldVisible, visible);
}
/**
* true indicates the axis hasn't been changed and may/should be autoranged.
*/
public static final String PROP_AUTORANGE = "autoRange";
protected boolean autoRange = false;
public boolean isAutoRange() {
return autoRange;
}
public void setAutoRange(boolean autorange) {
if ( this.controller!=null ) {
logger.log(Level.FINEST, "{0}.setAutoRange({1})", new Object[]{this.id, autorange});
}
boolean oldAutorange = this.autoRange;
this.autoRange = autorange;
propertyChangeSupport.firePropertyChange(PROP_AUTORANGE, oldAutorange, autorange);
}
/**
* when the dimension is autoranged, consider these hints. These
* could include:
* includeZero
* log=T or log=F
* center=DATUM
* width=DATUM, for log this is the number of 10-fold cycles.
* reluctant=true
* units=UNITS, explicitly set the units.
* These are formed by combining them with ampersands, so for example:
* log=F&width=40
* would have the two hints.
*/
private String autoRangeHints = "";
public static final String PROP_AUTORANGEHINTS = "autoRangeHints";
public String getAutoRangeHints() {
return autoRangeHints;
}
public void setAutoRangeHints(String autoRangeHints) {
String oldAutoRangeHints = this.autoRangeHints;
this.autoRangeHints = autoRangeHints;
propertyChangeSupport.firePropertyChange(PROP_AUTORANGEHINTS, oldAutoRangeHints, autoRangeHints);
}
/**
* true indicates the axis label hasn't been changed by a human and may/should be autoranged.
*/
public static final String PROP_AUTOLABEL = "autoLabel";
protected boolean autoLabel = false;
public boolean isAutoLabel() {
return autoLabel;
}
public void setAutoLabel(boolean autolabel) {
boolean oldAutolabel = this.autoLabel;
this.autoLabel = autolabel;
propertyChangeSupport.firePropertyChange(PROP_AUTOLABEL, oldAutolabel, autolabel);
}
/**
* true indicates that the axis should be top to bottom or right to left.
*/
private boolean flipped = false;
public static final String PROP_FLIPPED = "flipped";
public boolean isFlipped() {
return flipped;
}
public void setFlipped(boolean flipped) {
boolean oldFlipped = this.flipped;
this.flipped = flipped;
propertyChangeSupport.firePropertyChange(PROP_FLIPPED, oldFlipped, flipped);
}
AxisController controller;
public AxisController getController() {
return controller;
}
@Override
public void syncTo(DomNode n) {
super.syncTo(n);
if ( !( n instanceof Axis ) ) throw new IllegalArgumentException("node should be an Axis");
if ( controller!=null ) {
controller.syncTo(n,new ArrayList());
} else {
syncTo(n,new ArrayList() );
}
}
@Override
public void syncTo(DomNode n, List exclude ) {
super.syncTo(n,exclude);
if ( !( n instanceof Axis ) ) throw new IllegalArgumentException("node should be an Axis");
if ( controller!=null ) {
controller.syncTo(n,exclude);
} else {
Axis that = (Axis) n;
if ( !exclude.contains( PROP_LOG ) ) this.setLog(that.isLog());
if ( !exclude.contains( PROP_FLIPPED ) ) this.setFlipped(that.isFlipped());
if ( !exclude.contains( PROP_OPPOSITE ) ) this.setOpposite(that.isOpposite());
if ( !exclude.contains( PROP_RANGE ) ) this.setRange(that.getRange());
if ( !exclude.contains( PROP_SCALE ) ) this.setScale(that.getScale());
if ( !exclude.contains( PROP_LABEL ) ) this.setLabel(that.getLabel());
if ( !exclude.contains( PROP_FONTSIZE ) ) this.setFontSize(that.getFontSize());
if ( !exclude.contains( PROP_AUTORANGE ) ) this.setAutoRange(that.isAutoRange());
if ( !exclude.contains( PROP_AUTORANGEHINTS ) ) this.setAutoRangeHints(that.getAutoRangeHints());
if ( !exclude.contains( PROP_AUTOLABEL ) ) this.setAutoLabel(that.isAutoLabel());
if ( !exclude.contains( PROP_DRAWTICKLABELS ) ) this.setDrawTickLabels(that.isDrawTickLabels());
if ( !exclude.contains( PROP_VISIBLE ) ) this.setVisible(that.isVisible());
}
}
@Override
public DomNode copy() {
Axis result= (Axis) super.copy();
result.controller= null;
return result;
}
@Override
public List diffs(DomNode node) {
if ( !( node instanceof Axis ) ) throw new IllegalArgumentException("node should be an Axis");
Axis that = (Axis) node;
List result = new ArrayList<>();
boolean b;
b= that.log==this.log ;
if ( !b ) result.add( new PropertyChangeDiff( PROP_LOG , that.log, this.log) );
b= that.flipped==this.flipped;
if ( !b ) result.add( new PropertyChangeDiff( PROP_FLIPPED , that.flipped, this.flipped) );
b= that.opposite==this.opposite;
if ( !b ) result.add( new PropertyChangeDiff( PROP_OPPOSITE, that.opposite, this.opposite) );
b= that.range.equals(this.range) ;
if ( !b ) result.add(new PropertyChangeDiff( PROP_RANGE, that.range , this.range ) );
b= that.scale.equals(this.scale) ;
if ( !b ) result.add(new PropertyChangeDiff( PROP_SCALE, that.scale , this.scale ) );
b= that.label.equals(this.label) ;
if ( !b ) result.add(new PropertyChangeDiff( PROP_LABEL, that.label , this.label ) );
b= that.fontSize.equals(this.fontSize) ;
if ( !b ) result.add(new PropertyChangeDiff( PROP_FONTSIZE, that.fontSize , this.fontSize ) );
b= that.autoRange==this.autoRange;
if ( !b ) result.add(new PropertyChangeDiff( PROP_AUTORANGE, that.autoRange , this.autoRange ) );
b= that.autoRangeHints.equals(this.autoRangeHints);
if ( !b ) result.add(new PropertyChangeDiff( PROP_AUTORANGEHINTS, that.autoRangeHints, this.autoRangeHints ) );
b= that.autoLabel==this.autoLabel;
if ( !b ) result.add(new PropertyChangeDiff( PROP_AUTOLABEL, that.autoLabel , this.autoLabel ) );
b= that.drawTickLabels==this.drawTickLabels;
if ( !b ) result.add(new PropertyChangeDiff( PROP_DRAWTICKLABELS, that.drawTickLabels, this.drawTickLabels ) );
b= that.visible==this.visible;
if ( !b ) result.add(new PropertyChangeDiff( PROP_VISIBLE, that.visible, this.visible ) );
return result;
}
}