/* * Works in 1.1+Swing, 1.4, and all releases in between. * Used by the Converter example. */ import javax.swing.*; import javax.swing.event.*; /** * Implements a model whose data is actually in another model (the * "source model"). The follower model adjusts the values obtained * from the source model (or set in the follower model) to be in * a different unit of measure. * */ public class FollowerRangeModel extends ConverterRangeModel implements ChangeListener { ConverterRangeModel sourceModel; //the real model /** Creates a FollowerRangeModel that gets its state from sourceModel. */ public FollowerRangeModel(ConverterRangeModel sourceModel) { this.sourceModel = sourceModel; sourceModel.addChangeListener(this); } //The only method in the ChangeListener interface. public void stateChanged(ChangeEvent e) { fireStateChanged(); } public int getMaximum() { int modelMax = sourceModel.getMaximum(); double multiplyBy = sourceModel.getMultiplier()/this.getMultiplier(); return (int)(modelMax * multiplyBy); } public void setMaximum(int newMaximum) { sourceModel.setMaximum((int)(newMaximum * (this.getMultiplier()/sourceModel.getMultiplier()))); } public int getValue() { return (int)getDoubleValue(); } public void setValue(int newValue) { setDoubleValue((double)newValue); } public double getDoubleValue() { return sourceModel.getDoubleValue() * sourceModel.getMultiplier() / this.getMultiplier(); } public void setDoubleValue(double newValue) { sourceModel.setDoubleValue( newValue * this.getMultiplier() / sourceModel.getMultiplier()); } public int getExtent() { return super.getExtent(); } public void setExtent(int newExtent) { super.setExtent(newExtent); } public void setRangeProperties(int value, int extent, int min, int max, boolean adjusting) { double multiplyBy = this.getMultiplier()/sourceModel.getMultiplier(); sourceModel.setRangeProperties(value*multiplyBy, extent, min, (int)(max*multiplyBy), adjusting); } }