use of org.concord.energy3d.undo.ChangeSolarPanelModelCommand in project energy3d by concord-consortium.
the class PopupMenuForSolarPanel method getPopupMenu.
static JPopupMenu getPopupMenu() {
if (popupMenuForSolarPanel == null) {
final JMenu trackerMenu = new JMenu("Tracker");
final JMenu shadeToleranceMenu = new JMenu("Shade Tolerance");
final ButtonGroup shadeToleranceButtonGroup = new ButtonGroup();
final JRadioButtonMenuItem miHighTolerance = new JRadioButtonMenuItem("High Tolerance...");
shadeToleranceButtonGroup.add(miHighTolerance);
miHighTolerance.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Choose shade tolerance level for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>The energy generated by this panel comes from each cell proportionally (ideal case).<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "High Shade Tolerance");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getShadeTolerance() != SolarPanel.HIGH_SHADE_TOLERANCE;
if (rb1.isSelected()) {
if (changed) {
final SetShadeToleranceCommand c = new SetShadeToleranceCommand(sp);
sp.setShadeTolerance(SolarPanel.HIGH_SHADE_TOLERANCE);
sp.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getShadeTolerance() != SolarPanel.HIGH_SHADE_TOLERANCE) {
changed = true;
break;
}
}
}
if (changed) {
final SetShadeToleranceForSolarPanelsOnFoundationCommand c = new SetShadeToleranceForSolarPanelsOnFoundationCommand(foundation);
foundation.setShadeToleranceForSolarPanels(SolarPanel.HIGH_SHADE_TOLERANCE);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getShadeTolerance() != SolarPanel.HIGH_SHADE_TOLERANCE) {
changed = true;
break;
}
}
}
if (changed) {
final SetShadeToleranceForAllSolarPanelsCommand c = new SetShadeToleranceForAllSolarPanelsCommand();
Scene.getInstance().setShadeToleranceForAllSolarPanels(SolarPanel.HIGH_SHADE_TOLERANCE);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final JRadioButtonMenuItem miPartialTolerance = new JRadioButtonMenuItem("Partial Tolerance...", true);
shadeToleranceButtonGroup.add(miPartialTolerance);
miPartialTolerance.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Choose shade tolerance level for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>Use bypass diodes to direct current under shading conditions.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Partial Shade Tolerance");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getShadeTolerance() != SolarPanel.PARTIAL_SHADE_TOLERANCE;
if (rb1.isSelected()) {
if (changed) {
final SetShadeToleranceCommand c = new SetShadeToleranceCommand(sp);
sp.setShadeTolerance(SolarPanel.PARTIAL_SHADE_TOLERANCE);
sp.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getShadeTolerance() != SolarPanel.PARTIAL_SHADE_TOLERANCE) {
changed = true;
break;
}
}
}
if (changed) {
final SetShadeToleranceForSolarPanelsOnFoundationCommand c = new SetShadeToleranceForSolarPanelsOnFoundationCommand(foundation);
foundation.setShadeToleranceForSolarPanels(SolarPanel.PARTIAL_SHADE_TOLERANCE);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getShadeTolerance() != SolarPanel.PARTIAL_SHADE_TOLERANCE) {
changed = true;
break;
}
}
}
if (changed) {
final SetShadeToleranceForAllSolarPanelsCommand c = new SetShadeToleranceForAllSolarPanelsCommand();
Scene.getInstance().setShadeToleranceForAllSolarPanels(SolarPanel.PARTIAL_SHADE_TOLERANCE);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final JRadioButtonMenuItem miNoTolerance = new JRadioButtonMenuItem("No Tolerance...");
shadeToleranceButtonGroup.add(miNoTolerance);
miNoTolerance.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Choose shade tolerance level for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>Shading greatly reduces the output of the entire panel.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "No Shade Tolerance");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getShadeTolerance() != SolarPanel.NO_SHADE_TOLERANCE;
if (rb1.isSelected()) {
if (changed) {
final SetShadeToleranceCommand c = new SetShadeToleranceCommand(sp);
sp.setShadeTolerance(SolarPanel.NO_SHADE_TOLERANCE);
sp.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getShadeTolerance() != SolarPanel.NO_SHADE_TOLERANCE) {
changed = true;
break;
}
}
}
if (changed) {
final SetShadeToleranceForSolarPanelsOnFoundationCommand c = new SetShadeToleranceForSolarPanelsOnFoundationCommand(foundation);
foundation.setShadeToleranceForSolarPanels(SolarPanel.NO_SHADE_TOLERANCE);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getShadeTolerance() != SolarPanel.NO_SHADE_TOLERANCE) {
changed = true;
break;
}
}
}
if (changed) {
final SetShadeToleranceForAllSolarPanelsCommand c = new SetShadeToleranceForAllSolarPanelsCommand();
Scene.getInstance().setShadeToleranceForAllSolarPanels(SolarPanel.NO_SHADE_TOLERANCE);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final ButtonGroup trackerButtonGroup = new ButtonGroup();
final JRadioButtonMenuItem miNoTracker = new JRadioButtonMenuItem("No Tracker...", true);
trackerButtonGroup.add(miNoTracker);
miNoTracker.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Remove tracker for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>No tracker will be used.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "No Tracker");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getTracker() != Trackable.NO_TRACKER;
if (rb1.isSelected()) {
if (changed) {
final SetSolarTrackerCommand c = new SetSolarTrackerCommand(sp, "No Tracker");
sp.setTracker(Trackable.NO_TRACKER);
sp.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getTracker() != Trackable.NO_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersOnFoundationCommand c = new SetSolarTrackersOnFoundationCommand(foundation, sp, "No Tracker for All Solar Panels on Selected Foundation");
foundation.setTrackerForSolarPanels(Trackable.NO_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getTracker() != Trackable.NO_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersForAllCommand c = new SetSolarTrackersForAllCommand(sp, "No Tracker for All Solar Panels");
Scene.getInstance().setTrackerForAllSolarPanels(Trackable.NO_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final JRadioButtonMenuItem miHorizontalSingleAxisTracker = new JRadioButtonMenuItem("Horizontal Single-Axis Tracker...");
trackerButtonGroup.add(miHorizontalSingleAxisTracker);
miHorizontalSingleAxisTracker.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Set horizontal single-axis tracker for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>A horizontal single-axis tracker (HSAT) rotates about the north-south axis<br>to follow the sun from east to west during the day.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Horizontal Single-Axis Tracker");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getTracker() != Trackable.HORIZONTAL_SINGLE_AXIS_TRACKER;
if (rb1.isSelected()) {
if (changed) {
final SetSolarTrackerCommand c = new SetSolarTrackerCommand(sp, "Horizontal Single-Axis Tracker");
sp.setTracker(SolarPanel.HORIZONTAL_SINGLE_AXIS_TRACKER);
sp.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getTracker() != Trackable.HORIZONTAL_SINGLE_AXIS_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersOnFoundationCommand c = new SetSolarTrackersOnFoundationCommand(foundation, sp, "Horizontal Single-Axis Tracker for All Solar Panels on Selected Foundation");
foundation.setTrackerForSolarPanels(SolarPanel.HORIZONTAL_SINGLE_AXIS_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getTracker() != Trackable.HORIZONTAL_SINGLE_AXIS_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersForAllCommand c = new SetSolarTrackersForAllCommand(sp, "Horizontal Single-Axis Tracker for All Solar Panels");
Scene.getInstance().setTrackerForAllSolarPanels(SolarPanel.HORIZONTAL_SINGLE_AXIS_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final JRadioButtonMenuItem miVerticalSingleAxisTracker = new JRadioButtonMenuItem("Vertical Single-Axis Tracker...");
trackerButtonGroup.add(miVerticalSingleAxisTracker);
miVerticalSingleAxisTracker.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Set vertical single-axis tracker for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>A vertical single-axis tracker (VSAT) rotates about an axis perpendicular to the ground<br>and follow the sun from east to west during the day.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Vertical Single-Axis Tracker");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getTracker() != Trackable.VERTICAL_SINGLE_AXIS_TRACKER;
if (rb1.isSelected()) {
if (changed) {
final SetSolarTrackerCommand c = new SetSolarTrackerCommand(sp, "Vertical Single-Axis Tracker");
sp.setTracker(SolarPanel.VERTICAL_SINGLE_AXIS_TRACKER);
sp.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getTracker() != Trackable.VERTICAL_SINGLE_AXIS_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersOnFoundationCommand c = new SetSolarTrackersOnFoundationCommand(foundation, sp, "Vertical Single-Axis Tracker for All Solar Panels on Selected Foundation");
foundation.setTrackerForSolarPanels(SolarPanel.VERTICAL_SINGLE_AXIS_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getTracker() != Trackable.VERTICAL_SINGLE_AXIS_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersForAllCommand c = new SetSolarTrackersForAllCommand(sp, "Vertical Single-Axis Tracker for All Solar Panels");
Scene.getInstance().setTrackerForAllSolarPanels(SolarPanel.VERTICAL_SINGLE_AXIS_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final JRadioButtonMenuItem miAltazimuthDualAxisTracker = new JRadioButtonMenuItem("Altazimuth Dual-Axis Tracker...");
trackerButtonGroup.add(miAltazimuthDualAxisTracker);
miAltazimuthDualAxisTracker.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel panel = new JPanel();
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>Set altitude-azimuth dual-axis tracker for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>The Alt/Az dual-axis solar tracker will rotate the solar panel to face the sun<br>all the time during the day.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, panel }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Altitude-Azimuth Dual-Axis Tracker");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = sp.getTracker() != Trackable.ALTAZIMUTH_DUAL_AXIS_TRACKER;
if (rb1.isSelected()) {
if (changed) {
final SetSolarTrackerCommand c = new SetSolarTrackerCommand(sp, "Dual-Axis Tracker");
sp.setTracker(SolarPanel.ALTAZIMUTH_DUAL_AXIS_TRACKER);
sp.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (x.getTracker() != Trackable.ALTAZIMUTH_DUAL_AXIS_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersOnFoundationCommand c = new SetSolarTrackersOnFoundationCommand(foundation, sp, "Dual-Axis Tracker for All Solar Panels on Selected Foundation");
foundation.setTrackerForSolarPanels(SolarPanel.ALTAZIMUTH_DUAL_AXIS_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (x.getTracker() != Trackable.ALTAZIMUTH_DUAL_AXIS_TRACKER) {
changed = true;
break;
}
}
}
if (changed) {
final SetSolarTrackersForAllCommand c = new SetSolarTrackersForAllCommand(sp, "Dual-Axis Tracker for All Solar Panels");
Scene.getInstance().setTrackerForAllSolarPanels(SolarPanel.ALTAZIMUTH_DUAL_AXIS_TRACKER);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
final JMenu orientationMenu = new JMenu("Orientation");
final ButtonGroup orientationGroup = new ButtonGroup();
final JRadioButtonMenuItem rbmiLandscape = new JRadioButtonMenuItem("Landscape");
rbmiLandscape.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
if (rbmiLandscape.isSelected()) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel s = (SolarPanel) selectedPart;
if (!s.isRotated()) {
final RotateSolarPanelCommand c = new RotateSolarPanelCommand(s);
s.setRotated(true);
SceneManager.getInstance().getUndoManager().addEdit(c);
s.draw();
SceneManager.getInstance().refresh();
updateAfterEdit();
}
}
}
});
orientationMenu.add(rbmiLandscape);
orientationGroup.add(rbmiLandscape);
final JRadioButtonMenuItem rbmiPortrait = new JRadioButtonMenuItem("Portrait", true);
rbmiPortrait.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
if (rbmiPortrait.isSelected()) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel s = (SolarPanel) selectedPart;
if (s.isRotated()) {
final RotateSolarPanelCommand c = new RotateSolarPanelCommand(s);
s.setRotated(false);
SceneManager.getInstance().getUndoManager().addEdit(c);
s.draw();
SceneManager.getInstance().refresh();
updateAfterEdit();
}
}
}
});
orientationMenu.add(rbmiPortrait);
orientationGroup.add(rbmiPortrait);
final JMenu labelMenu = new JMenu("Label");
final JCheckBoxMenuItem miLabelNone = new JCheckBoxMenuItem("None", true);
miLabelNone.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
if (miLabelNone.isSelected()) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.clearLabels();
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
}
});
labelMenu.add(miLabelNone);
final JCheckBoxMenuItem miLabelCustom = new JCheckBoxMenuItem("Custom");
miLabelCustom.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelCustom(miLabelCustom.isSelected());
if (s.getLabelCustom()) {
s.setLabelCustomText(JOptionPane.showInputDialog(MainFrame.getInstance(), "Custom Text", s.getLabelCustomText()));
}
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelCustom);
final JCheckBoxMenuItem miLabelId = new JCheckBoxMenuItem("ID");
miLabelId.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelId(miLabelId.isSelected());
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelId);
final JCheckBoxMenuItem miLabelModelName = new JCheckBoxMenuItem("Model");
miLabelModelName.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelModelName(miLabelModelName.isSelected());
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelModelName);
final JCheckBoxMenuItem miLabelCellEfficiency = new JCheckBoxMenuItem("Cell Efficiency");
miLabelCellEfficiency.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelCellEfficiency(miLabelCellEfficiency.isSelected());
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelCellEfficiency);
final JCheckBoxMenuItem miLabelTiltAngle = new JCheckBoxMenuItem("Tilt Angle");
miLabelTiltAngle.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelTiltAngle(miLabelTiltAngle.isSelected());
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelTiltAngle);
final JCheckBoxMenuItem miLabelTracker = new JCheckBoxMenuItem("Tracker");
miLabelTracker.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelTracker(miLabelTracker.isSelected());
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelTracker);
final JCheckBoxMenuItem miLabelEnergyOutput = new JCheckBoxMenuItem("Energy Output");
miLabelEnergyOutput.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (selectedPart instanceof SolarPanel) {
final SolarPanel s = (SolarPanel) selectedPart;
final SetSolarPanelLabelCommand c = new SetSolarPanelLabelCommand(s);
s.setLabelEnergyOutput(miLabelEnergyOutput.isSelected());
s.draw();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
SceneManager.getInstance().refresh();
}
}
});
labelMenu.add(miLabelEnergyOutput);
final JMenuItem miTiltAngle = new JMenuItem("Tilt Angle...");
miTiltAngle.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final String partInfo = selectedPart.toString().substring(0, selectedPart.toString().indexOf(')') + 1);
final SolarPanel sp = (SolarPanel) selectedPart;
final String title = "<html>Tilt Angle of " + partInfo + " (°)</html>";
final String footnote = "<html><hr><font size=2>The tilt angle of a solar panel is the angle between its surface and the base surface.<br>The tilt angle must be between -90° and 90°.<hr></html>";
final JPanel gui = new JPanel(new BorderLayout());
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.CENTER);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("Only this Row", true);
final JRadioButton rb3 = new JRadioButton("All Solar Panels on This Foundation");
final JRadioButton rb4 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
panel.add(rb4);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
bg.add(rb4);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
case 3:
rb4.setSelected(true);
break;
}
gui.add(panel, BorderLayout.CENTER);
final JTextField inputField = new JTextField(EnergyPanel.TWO_DECIMALS.format(sp.getTiltAngle()));
gui.add(inputField, BorderLayout.SOUTH);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Solar Panel Tilt Angle");
while (true) {
inputField.selectAll();
inputField.requestFocusInWindow();
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
double val = 0;
boolean ok = true;
try {
val = Double.parseDouble(inputField.getText());
} catch (final NumberFormatException exception) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), inputField.getText() + " is an invalid value!", "Error", JOptionPane.ERROR_MESSAGE);
ok = false;
}
if (ok) {
if (val < -90 || val > 90) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "The tilt angle must be between -90 and 90 degrees.", "Range Error", JOptionPane.ERROR_MESSAGE);
} else {
if (Util.isZero(val - 90)) {
val = 89.999;
} else if (Util.isZero(val + 90)) {
val = -89.999;
}
boolean changed = Math.abs(val - sp.getTiltAngle()) > 0.000001;
if (rb1.isSelected()) {
if (changed) {
final ChangeTiltAngleCommand c = new ChangeTiltAngleCommand(sp);
sp.setTiltAngle(val);
sp.draw();
if (sp.checkContainerIntersection()) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This tilt angle cannot be set as the solar panel would cut into the underlying surface.", "Illegal Tilt Angle", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final List<SolarPanel> row = sp.getRow();
if (!changed) {
for (final SolarPanel x : row) {
if (Math.abs(val - x.getTiltAngle()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeTiltAngleForSolarPanelRowCommand c = new ChangeTiltAngleForSolarPanelRowCommand(row);
boolean intersected = false;
for (final SolarPanel x : row) {
x.setTiltAngle(val);
x.draw();
if (x.checkContainerIntersection()) {
intersected = true;
break;
}
}
SceneManager.getInstance().refresh();
if (intersected) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This tilt angle cannot be set as one or more solar panels would cut into the underlying surface.", "Illegal Tilt Angle", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
final Foundation foundation = sp.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (Math.abs(val - x.getTiltAngle()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeFoundationSolarPanelTiltAngleCommand c = new ChangeFoundationSolarPanelTiltAngleCommand(foundation);
foundation.setTiltAngleForSolarPanels(val);
if (foundation.checkContainerIntersectionForSolarPanels()) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This tilt angle cannot be set as one or more solar panels would cut into the underlying surface.", "Illegal Tilt Angle", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 2;
} else if (rb4.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (Math.abs(val - x.getTiltAngle()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeTiltAngleForAllSolarPanelsCommand c = new ChangeTiltAngleForAllSolarPanelsCommand();
Scene.getInstance().setTiltAngleForAllSolarPanels(val);
if (Scene.getInstance().checkContainerIntersectionForAllSolarPanels()) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This tilt angle cannot be set as one or more solar panels would cut into the underlying surface.", "Illegal Tilt Angle", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 3;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
}
}
});
final JMenuItem miAzimuth = new JMenuItem("Azimuth...");
miAzimuth.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final String partInfo = selectedPart.toString().substring(0, selectedPart.toString().indexOf(')') + 1);
final SolarPanel sp = (SolarPanel) selectedPart;
final Foundation foundation = sp.getTopContainer();
final String title = "<html>Azimuth Angle of " + partInfo + " (°)</html>";
final String footnote = "<html><hr><font size=2>The azimuth angle is measured clockwise from the true north.<hr></html>";
final JPanel gui = new JPanel(new BorderLayout());
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.CENTER);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
gui.add(panel, BorderLayout.CENTER);
double a = sp.getRelativeAzimuth() + foundation.getAzimuth();
if (a > 360) {
a -= 360;
}
final JTextField inputField = new JTextField(EnergyPanel.TWO_DECIMALS.format(a));
gui.add(inputField, BorderLayout.SOUTH);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Solar Panel Azimuth");
while (true) {
inputField.selectAll();
inputField.requestFocusInWindow();
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
double val = 0;
boolean ok = true;
try {
val = Double.parseDouble(inputField.getText());
} catch (final NumberFormatException exception) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), inputField.getText() + " is an invalid value!", "Error", JOptionPane.ERROR_MESSAGE);
ok = false;
}
if (ok) {
a = val - foundation.getAzimuth();
if (a < 0) {
a += 360;
}
boolean changed = Math.abs(a - sp.getRelativeAzimuth()) > 0.000001;
if (rb1.isSelected()) {
if (changed) {
final ChangeAzimuthCommand c = new ChangeAzimuthCommand(sp);
sp.setRelativeAzimuth(a);
sp.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (Math.abs(a - x.getRelativeAzimuth()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeFoundationSolarPanelAzimuthCommand c = new ChangeFoundationSolarPanelAzimuthCommand(foundation);
foundation.setAzimuthForSolarPanels(a);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (Math.abs(a - x.getRelativeAzimuth()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeAzimuthForAllSolarPanelsCommand c = new ChangeAzimuthForAllSolarPanelsCommand();
Scene.getInstance().setAzimuthForAllSolarPanels(a);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
}
});
final JMenuItem miSize = new JMenuItem("Size...");
miSize.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel s = (SolarPanel) selectedPart;
final String partInfo = s.toString().substring(0, selectedPart.toString().indexOf(')') + 1);
final JPanel gui = new JPanel(new BorderLayout(5, 5));
gui.setBorder(BorderFactory.createTitledBorder("Choose Size for " + partInfo));
final JComboBox<String> sizeComboBox = new JComboBox<String>(solarPanelNominalSize.getStrings());
final int nItems = sizeComboBox.getItemCount();
for (int i = 0; i < nItems; i++) {
if (Util.isZero(s.getPanelHeight() - solarPanelNominalSize.getNominalHeights()[i]) && Util.isZero(s.getPanelWidth() - solarPanelNominalSize.getNominalWidths()[i])) {
sizeComboBox.setSelectedIndex(i);
}
}
gui.add(sizeComboBox, BorderLayout.NORTH);
if (JOptionPane.showConfirmDialog(MainFrame.getInstance(), gui, "Set Size", JOptionPane.OK_CANCEL_OPTION, JOptionPane.QUESTION_MESSAGE) == JOptionPane.CANCEL_OPTION) {
return;
}
final int i = sizeComboBox.getSelectedIndex();
boolean changed = s.getNumberOfCellsInX() != solarPanelNominalSize.getCellNx()[i] || s.getNumberOfCellsInY() != solarPanelNominalSize.getCellNy()[i];
if (!changed) {
if (Math.abs(s.getPanelWidth() - solarPanelNominalSize.getNominalWidths()[i]) > 0.000001 || Math.abs(s.getPanelHeight() - solarPanelNominalSize.getNominalHeights()[i]) > 0.000001) {
changed = true;
}
}
if (changed) {
final ChooseSolarPanelSizeCommand c = new ChooseSolarPanelSizeCommand(s);
s.setPanelWidth(solarPanelNominalSize.getNominalWidths()[i]);
s.setPanelHeight(solarPanelNominalSize.getNominalHeights()[i]);
s.setNumberOfCellsInX(solarPanelNominalSize.getCellNx()[i]);
s.setNumberOfCellsInY(solarPanelNominalSize.getCellNy()[i]);
s.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
updateAfterEdit();
}
}
});
final JMenuItem miBaseHeight = new JMenuItem("Base Height...");
miBaseHeight.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final String partInfo = selectedPart.toString().substring(0, selectedPart.toString().indexOf(')') + 1);
final SolarPanel sp = (SolarPanel) selectedPart;
final Foundation foundation = sp.getTopContainer();
final String title = "<html>Base Height (m) of " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2></html>";
final JPanel gui = new JPanel(new BorderLayout());
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.CENTER);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("Only this Row");
final JRadioButton rb3 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb4 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
panel.add(rb4);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
bg.add(rb4);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
case 3:
rb4.setSelected(true);
break;
}
gui.add(panel, BorderLayout.CENTER);
final JTextField inputField = new JTextField(EnergyPanel.TWO_DECIMALS.format(sp.getBaseHeight() * Scene.getInstance().getAnnotationScale()));
gui.add(inputField, BorderLayout.SOUTH);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Solar Panel Base Height");
while (true) {
inputField.selectAll();
inputField.requestFocusInWindow();
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
double val = 0;
boolean ok = true;
try {
val = Double.parseDouble(inputField.getText()) / Scene.getInstance().getAnnotationScale();
} catch (final NumberFormatException exception) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), inputField.getText() + " is an invalid value!", "Error", JOptionPane.ERROR_MESSAGE);
ok = false;
}
if (ok) {
boolean changed = Math.abs(val - sp.getBaseHeight()) > 0.000001;
if (rb1.isSelected()) {
if (changed) {
final ChangeBaseHeightCommand c = new ChangeBaseHeightCommand(sp);
sp.setBaseHeight(val);
sp.draw();
if (sp.checkContainerIntersection()) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This base height cannot be set as the solar panel would cut into the underlying surface.", "Illegal Base Height", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final List<SolarPanel> row = sp.getRow();
for (final SolarPanel x : row) {
if (Math.abs(val - x.getBaseHeight()) > 0.000001) {
changed = true;
break;
}
}
if (changed) {
final ChangeBaseHeightForSolarPanelRowCommand c = new ChangeBaseHeightForSolarPanelRowCommand(row);
boolean intersected = false;
for (final SolarPanel x : row) {
x.setBaseHeight(val);
x.draw();
if (x.checkContainerIntersection()) {
intersected = true;
break;
}
}
if (intersected) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This base height cannot be set as one or more solar panels in the row would cut into the underlying surface.", "Illegal Base Height", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (Math.abs(val - x.getBaseHeight()) > 0.000001) {
changed = true;
break;
}
}
if (changed) {
final ChangeFoundationSolarCollectorBaseHeightCommand c = new ChangeFoundationSolarCollectorBaseHeightCommand(foundation, sp.getClass());
foundation.setBaseHeightForSolarPanels(val);
if (foundation.checkContainerIntersectionForSolarPanels()) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This base height cannot be set as one or more solar panels would cut into the underlying surface.", "Illegal Base Height", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 2;
} else if (rb4.isSelected()) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (Math.abs(val - x.getBaseHeight()) > 0.000001) {
changed = true;
break;
}
}
if (changed) {
final ChangeBaseHeightForAllSolarCollectorsCommand c = new ChangeBaseHeightForAllSolarCollectorsCommand(sp.getClass());
Scene.getInstance().setBaseHeightForAllSolarPanels(val);
if (Scene.getInstance().checkContainerIntersectionForAllSolarPanels()) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "This base height cannot be set as one or more solar panels would cut into the underlying surface.", "Illegal Base Height", JOptionPane.ERROR_MESSAGE);
c.undo();
} else {
SceneManager.getInstance().getUndoManager().addEdit(c);
}
}
selectedScopeIndex = 3;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
}
});
final JCheckBoxMenuItem cbmiDisableEditPoint = new JCheckBoxMenuItem("Disable Edit Point");
cbmiDisableEditPoint.addItemListener(new ItemListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void itemStateChanged(final ItemEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final boolean disabled = cbmiDisableEditPoint.isSelected();
final SolarPanel sp = (SolarPanel) selectedPart;
final String partInfo = sp.toString().substring(0, sp.toString().indexOf(')') + 1);
final JPanel gui = new JPanel(new BorderLayout(0, 20));
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.SOUTH);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final String title = "<html>" + (disabled ? "Disable" : "Enable") + " edit point for " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>Disable the edit point of a solar panel prevents it<br>from being unintentionally moved.<hr></html>";
final Object[] options = new Object[] { "OK", "Cancel" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[0]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), (disabled ? "Disable" : "Enable") + " Edit Point");
dialog.setVisible(true);
if (optionPane.getValue() == options[0]) {
if (rb1.isSelected()) {
final LockEditPointsCommand c = new LockEditPointsCommand(sp);
sp.setLockEdit(disabled);
SceneManager.getInstance().getUndoManager().addEdit(c);
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = sp.getTopContainer();
final LockEditPointsOnFoundationCommand c = new LockEditPointsOnFoundationCommand(foundation, sp.getClass());
foundation.setLockEditForClass(disabled, sp.getClass());
SceneManager.getInstance().getUndoManager().addEdit(c);
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
final LockEditPointsForClassCommand c = new LockEditPointsForClassCommand(sp);
Scene.getInstance().setLockEditForClass(disabled, sp.getClass());
SceneManager.getInstance().getUndoManager().addEdit(c);
selectedScopeIndex = 2;
}
SceneManager.getInstance().refresh();
Scene.getInstance().setEdited(true);
}
}
});
final JCheckBoxMenuItem cbmiDrawSunBeam = new JCheckBoxMenuItem("Draw Sun Beam");
cbmiDrawSunBeam.addItemListener(new ItemListener() {
@Override
public void itemStateChanged(final ItemEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
final ShowSunBeamCommand c = new ShowSunBeamCommand(sp);
sp.setSunBeamVisible(cbmiDrawSunBeam.isSelected());
sp.drawSunBeam();
sp.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
Scene.getInstance().setEdited(true);
}
});
final JMenuItem miCells = new JMenuItem("Solar Cells...");
miCells.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel solarPanel = (SolarPanel) selectedPart;
final String title = "<html>Solar Cell Properties of " + selectedPart.toString().substring(0, selectedPart.toString().indexOf(')') + 1) + "</html>";
String footnote = "<html><hr><font size=2><b>How efficiently can a solar cell convert light into electricity?</b><br>The Shockley-Queisser limit is 34%. The theoretical limit for multilayer cells<br>is 86%. As of 2017, the best solar panel in the market has an efficiency of 24%.<br>The highest efficiency you can choose is limited to " + SolarPanel.MAX_SOLAR_CELL_EFFICIENCY_PERCENTAGE + "%.<hr>";
footnote += "<font size=2>Solar cells made of monocrystalline silicon are usually round or semi-round.<br>Hence, there is a small fraction of area on a solar panel not covered by cells.<br>In other words, a monocrystalline solar panel has a smaller packing density.";
footnote += "<br><font size=2>Solar cells made of polycrystalline silicon are usually square. Compared with a<br>monocrystalline solar panel, a polycrystalline one has a higher packing density.<br>Color has no relationship with efficiency.<hr></html>";
final JPanel gui = new JPanel(new BorderLayout());
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.SOUTH);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
final JPanel inputPanel = new JPanel(new SpringLayout());
inputPanel.setBorder(BorderFactory.createEmptyBorder(5, 5, 5, 5));
gui.add(inputPanel, BorderLayout.CENTER);
JLabel label = new JLabel("Type: ", JLabel.LEFT);
inputPanel.add(label);
final JComboBox<String> typeComboBox = new JComboBox<String>(new String[] { "Polycrystalline", "Monocrystalline", "Thin Film" });
typeComboBox.setSelectedIndex(solarPanel.getCellType());
label.setLabelFor(typeComboBox);
inputPanel.add(typeComboBox);
label = new JLabel("Color: ", JLabel.LEFT);
inputPanel.add(label);
final JComboBox<String> colorComboBox = new JComboBox<String>(new String[] { "Blue", "Black", "Gray" });
colorComboBox.setSelectedIndex(solarPanel.getColorOption());
label.setLabelFor(colorComboBox);
inputPanel.add(colorComboBox);
label = new JLabel("Efficiency (%): ", JLabel.LEFT);
inputPanel.add(label);
final JTextField efficiencyField = new JTextField(EnergyPanel.TWO_DECIMALS.format(solarPanel.getCellEfficiency() * 100));
label.setLabelFor(efficiencyField);
inputPanel.add(efficiencyField);
SpringUtilities.makeCompactGrid(inputPanel, 3, 2, 6, 6, 6, 6);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Solar Cell Properties");
while (true) {
efficiencyField.selectAll();
efficiencyField.requestFocusInWindow();
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
double val = 0;
boolean ok = true;
try {
val = Double.parseDouble(efficiencyField.getText());
} catch (final NumberFormatException exception) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), efficiencyField.getText() + " is an invalid value!", "Error", JOptionPane.ERROR_MESSAGE);
ok = false;
}
if (ok) {
if (val < SolarPanel.MIN_SOLAR_CELL_EFFICIENCY_PERCENTAGE || val > SolarPanel.MAX_SOLAR_CELL_EFFICIENCY_PERCENTAGE) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "Solar cell efficiency must be between " + SolarPanel.MIN_SOLAR_CELL_EFFICIENCY_PERCENTAGE + "% and " + SolarPanel.MAX_SOLAR_CELL_EFFICIENCY_PERCENTAGE + "%.", "Range Error", JOptionPane.ERROR_MESSAGE);
} else {
final int cellType = typeComboBox.getSelectedIndex();
final int colorOption = colorComboBox.getSelectedIndex();
boolean changed = cellType != solarPanel.getCellType() || colorOption != solarPanel.getColorOption() || Math.abs(val * 0.01 - solarPanel.getCellEfficiency()) > 0.000001;
if (rb1.isSelected()) {
if (changed) {
final ChangeSolarCellPropertiesCommand c = new ChangeSolarCellPropertiesCommand(solarPanel);
solarPanel.setCellEfficiency(val * 0.01);
solarPanel.setCellType(cellType);
solarPanel.setColorOption(colorOption);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = solarPanel.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (cellType != x.getCellType() || colorOption != x.getColorOption() || Math.abs(val * 0.01 - x.getCellEfficiency()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeFoundationSolarCellPropertiesCommand c = new ChangeFoundationSolarCellPropertiesCommand(foundation);
foundation.setSolarCellEfficiency(val * 0.01);
foundation.setCellTypeForSolarPanels(cellType);
foundation.setColorForSolarPanels(colorOption);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (cellType != x.getCellType() || colorOption != x.getColorOption() || Math.abs(val * 0.01 - x.getCellEfficiency()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeSolarCellPropertiesForAllCommand c = new ChangeSolarCellPropertiesForAllCommand();
Scene.getInstance().setSolarCellEfficiencyForAll(val * 0.01);
Scene.getInstance().setCellTypeForAllSolarPanels(cellType);
Scene.getInstance().setColorForAllSolarPanels(colorOption);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
}
}
});
final JMenuItem miTemperatureEffects = new JMenuItem("Temperature Effects...");
miTemperatureEffects.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final String partInfo = selectedPart.toString().substring(0, selectedPart.toString().indexOf(')') + 1);
final SolarPanel solarPanel = (SolarPanel) selectedPart;
final String title = "<html>Temperature Effects of " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>Increased temperature reduces solar cell efficiency. To determine this temperature effect,<br>it is important to know the expected operating temperature: the Nominal Operating Cell<br>Temperature (NOCT). NOCT ranges from 33°C to 58°C.<hr></html>";
final JPanel gui = new JPanel(new BorderLayout());
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.CENTER);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
gui.add(panel, BorderLayout.SOUTH);
final JPanel inputPanel = new JPanel(new SpringLayout());
gui.add(inputPanel, BorderLayout.CENTER);
inputPanel.setBorder(BorderFactory.createEmptyBorder(5, 5, 5, 5));
JLabel label = new JLabel("<html>Nominal Operating Cell Temperature (°C): ", JLabel.LEFT);
inputPanel.add(label);
final JTextField noctField = new JTextField(EnergyPanel.TWO_DECIMALS.format(solarPanel.getNominalOperatingCellTemperature()));
label.setLabelFor(noctField);
inputPanel.add(noctField);
label = new JLabel("<html>Temperature Coefficient of Pmax (%/°C): ", JLabel.LEFT);
inputPanel.add(label);
final JTextField pmaxField = new JTextField(EnergyPanel.TWO_DECIMALS.format(solarPanel.getTemperatureCoefficientPmax() * 100));
label.setLabelFor(pmaxField);
inputPanel.add(pmaxField);
SpringUtilities.makeCompactGrid(inputPanel, 2, 2, 6, 6, 6, 6);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Temperature Effects");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
double noct = 0;
double pmax = 0;
boolean ok = true;
try {
noct = Double.parseDouble(noctField.getText());
pmax = Double.parseDouble(pmaxField.getText());
} catch (final NumberFormatException exception) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "Invalid input!", "Error", JOptionPane.ERROR_MESSAGE);
ok = false;
}
if (ok) {
if (noct < 33 || noct > 58) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "Nominal Operating Cell Temperature must be between 33 and 58 Celsius degrees.", "Range Error", JOptionPane.ERROR_MESSAGE);
} else if (pmax < -1 || pmax > 0) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "Temperature coefficient of Pmax must be between -1% and 0% per Celsius degree.", "Range Error", JOptionPane.ERROR_MESSAGE);
} else {
boolean changed = Math.abs(noct - solarPanel.getNominalOperatingCellTemperature()) > 0.000001 || Math.abs(pmax * 0.01 - solarPanel.getTemperatureCoefficientPmax()) > 0.000001;
if (rb1.isSelected()) {
if (changed) {
final SetTemperatureEffectsCommand c = new SetTemperatureEffectsCommand(solarPanel);
solarPanel.setTemperatureCoefficientPmax(pmax * 0.01);
solarPanel.setNominalOperatingCellTemperature(noct);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = solarPanel.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (Math.abs(noct - x.getNominalOperatingCellTemperature()) > 0.000001 || Math.abs(pmax * 0.01 - x.getTemperatureCoefficientPmax()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final SetFoundationTemperatureEffectsCommand c = new SetFoundationTemperatureEffectsCommand(foundation);
foundation.setTemperatureCoefficientPmax(pmax * 0.01);
foundation.setNominalOperatingCellTemperature(noct);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (Math.abs(noct - x.getNominalOperatingCellTemperature()) > 0.000001 || Math.abs(pmax * 0.01 - x.getTemperatureCoefficientPmax()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final SetTemperatrureEffectsForAllCommand c = new SetTemperatrureEffectsForAllCommand();
Scene.getInstance().setTemperatureCoefficientPmaxForAll(pmax * 0.01);
Scene.getInstance().setNominalOperatingCellTemperatureForAll(noct);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
}
}
});
final JMenuItem miInverterEff = new JMenuItem("Inverter Efficiency...");
miInverterEff.addActionListener(new ActionListener() {
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final String partInfo = selectedPart.toString().substring(0, selectedPart.toString().indexOf(')') + 1);
final SolarPanel solarPanel = (SolarPanel) selectedPart;
final String title = "<html>Inverter Efficiency (%) of " + partInfo + "</html>";
final String footnote = "<html><hr><font size=2>The efficiency of a micro inverter for converting electricity from DC to AC is typically 95%.<hr></html>";
final JPanel gui = new JPanel(new BorderLayout());
final JPanel panel = new JPanel();
gui.add(panel, BorderLayout.CENTER);
panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS));
panel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
panel.add(rb1);
panel.add(rb2);
panel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
gui.add(panel, BorderLayout.CENTER);
final JTextField inputField = new JTextField(EnergyPanel.TWO_DECIMALS.format(solarPanel.getInverterEfficiency() * 100));
gui.add(inputField, BorderLayout.SOUTH);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(new Object[] { title, footnote, gui }, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Inverter Efficiency");
while (true) {
inputField.selectAll();
inputField.requestFocusInWindow();
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
double val = 0;
boolean ok = true;
try {
val = Double.parseDouble(inputField.getText());
} catch (final NumberFormatException exception) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), inputField.getText() + " is an invalid value!", "Error", JOptionPane.ERROR_MESSAGE);
ok = false;
}
if (ok) {
if (val < SolarPanel.MIN_INVERTER_EFFICIENCY_PERCENTAGE || val >= SolarPanel.MAX_INVERTER_EFFICIENCY_PERCENTAGE) {
JOptionPane.showMessageDialog(MainFrame.getInstance(), "Inverter efficiency must be greater than " + SolarPanel.MIN_INVERTER_EFFICIENCY_PERCENTAGE + "% and less than " + SolarPanel.MAX_INVERTER_EFFICIENCY_PERCENTAGE + "%.", "Range Error", JOptionPane.ERROR_MESSAGE);
} else {
boolean changed = Math.abs(val * 0.01 - solarPanel.getInverterEfficiency()) > 0.000001;
if (rb1.isSelected()) {
if (changed) {
final ChangeInverterEfficiencyCommand c = new ChangeInverterEfficiencyCommand(solarPanel);
solarPanel.setInverterEfficiency(val * 0.01);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
final Foundation foundation = solarPanel.getTopContainer();
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (Math.abs(val * 0.01 - x.getInverterEfficiency()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeFoundationInverterEfficiencyCommand c = new ChangeFoundationInverterEfficiencyCommand(foundation);
foundation.setSolarPanelInverterEfficiency(val * 0.01);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (Math.abs(val * 0.01 - x.getInverterEfficiency()) > 0.000001) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeInverterEfficiencyForAllCommand c = new ChangeInverterEfficiencyForAllCommand();
Scene.getInstance().setSolarPanelInverterEfficiencyForAll(val * 0.01);
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
}
}
});
trackerMenu.add(miNoTracker);
trackerMenu.add(miHorizontalSingleAxisTracker);
trackerMenu.add(miVerticalSingleAxisTracker);
trackerMenu.add(miAltazimuthDualAxisTracker);
shadeToleranceMenu.add(miNoTolerance);
shadeToleranceMenu.add(miPartialTolerance);
shadeToleranceMenu.add(miHighTolerance);
final JMenuItem miModel = new JMenuItem("Model...");
miModel.addActionListener(new ActionListener() {
private String modelName;
// remember the scope selection as the next action will likely be applied to the same scope
private int selectedScopeIndex = 0;
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel s = (SolarPanel) selectedPart;
final Foundation foundation = s.getTopContainer();
final String partInfo = s.toString().substring(0, s.toString().indexOf(')') + 1);
final Map<String, PvModuleSpecs> modules = PvModulesData.getInstance().getModules();
final String[] models = new String[modules.size() + 1];
int i = 0;
models[i] = "Custom";
for (final String key : modules.keySet()) {
models[++i] = key;
}
final PvModuleSpecs specs = s.getPvModuleSpecs();
modelName = specs.getModel();
final JPanel gui = new JPanel(new BorderLayout(5, 5));
gui.setBorder(BorderFactory.createTitledBorder("Model for " + partInfo));
final JComboBox<String> typeComboBox = new JComboBox<String>(models);
typeComboBox.setSelectedItem(specs.getModel());
typeComboBox.addItemListener(new ItemListener() {
@Override
public void itemStateChanged(final ItemEvent e) {
if (e.getStateChange() == ItemEvent.SELECTED) {
modelName = (String) typeComboBox.getSelectedItem();
}
}
});
gui.add(typeComboBox, BorderLayout.NORTH);
final JPanel scopePanel = new JPanel();
scopePanel.setLayout(new BoxLayout(scopePanel, BoxLayout.Y_AXIS));
scopePanel.setBorder(BorderFactory.createTitledBorder("Apply to:"));
final JRadioButton rb1 = new JRadioButton("Only this Solar Panel", true);
final JRadioButton rb2 = new JRadioButton("All Solar Panels on this Foundation");
final JRadioButton rb3 = new JRadioButton("All Solar Panels");
scopePanel.add(rb1);
scopePanel.add(rb2);
scopePanel.add(rb3);
final ButtonGroup bg = new ButtonGroup();
bg.add(rb1);
bg.add(rb2);
bg.add(rb3);
switch(selectedScopeIndex) {
case 0:
rb1.setSelected(true);
break;
case 1:
rb2.setSelected(true);
break;
case 2:
rb3.setSelected(true);
break;
}
gui.add(scopePanel, BorderLayout.CENTER);
final Object[] options = new Object[] { "OK", "Cancel", "Apply" };
final JOptionPane optionPane = new JOptionPane(gui, JOptionPane.QUESTION_MESSAGE, JOptionPane.YES_NO_CANCEL_OPTION, null, options, options[2]);
final JDialog dialog = optionPane.createDialog(MainFrame.getInstance(), "Solar Panel Model");
while (true) {
dialog.setVisible(true);
final Object choice = optionPane.getValue();
if (choice == options[1] || choice == null) {
break;
} else {
boolean changed = !modelName.equals(s.getModelName());
if (rb1.isSelected()) {
if (changed) {
final ChangeSolarPanelModelCommand c = new ChangeSolarPanelModelCommand(s);
s.setPvModuleSpecs(PvModulesData.getInstance().getModuleSpecs(modelName));
s.draw();
SceneManager.getInstance().refresh();
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 0;
} else if (rb2.isSelected()) {
if (!changed) {
for (final SolarPanel x : foundation.getSolarPanels()) {
if (!modelName.equals(x.getModelName())) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeFoundationSolarPanelModelCommand c = new ChangeFoundationSolarPanelModelCommand(foundation);
foundation.setModelForSolarPanels(PvModulesData.getInstance().getModuleSpecs(modelName));
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 1;
} else if (rb3.isSelected()) {
if (!changed) {
for (final SolarPanel x : Scene.getInstance().getAllSolarPanels()) {
if (!modelName.equals(x.getModelName())) {
changed = true;
break;
}
}
}
if (changed) {
final ChangeModelForAllSolarPanelsCommand c = new ChangeModelForAllSolarPanelsCommand();
Scene.getInstance().setModelForAllSolarPanels(PvModulesData.getInstance().getModuleSpecs(modelName));
SceneManager.getInstance().getUndoManager().addEdit(c);
}
selectedScopeIndex = 2;
}
if (changed) {
updateAfterEdit();
}
if (choice == options[0]) {
break;
}
}
}
}
});
popupMenuForSolarPanel = createPopupMenu(true, true, new Runnable() {
@Override
public void run() {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
final SolarPanel sp = (SolarPanel) selectedPart;
switch(sp.getShadeTolerance()) {
case SolarPanel.HIGH_SHADE_TOLERANCE:
Util.selectSilently(miHighTolerance, true);
break;
case SolarPanel.PARTIAL_SHADE_TOLERANCE:
Util.selectSilently(miPartialTolerance, true);
break;
case SolarPanel.NO_SHADE_TOLERANCE:
Util.selectSilently(miNoTolerance, true);
break;
}
Util.selectSilently(cbmiDrawSunBeam, sp.isSunBeamVisible());
Util.selectSilently(cbmiDisableEditPoint, sp.getLockEdit());
Util.selectSilently(rbmiLandscape, sp.isRotated());
Util.selectSilently(rbmiPortrait, !sp.isRotated());
Util.selectSilently(miLabelNone, !sp.isLabelVisible());
Util.selectSilently(miLabelCustom, sp.getLabelCustom());
Util.selectSilently(miLabelId, sp.getLabelId());
Util.selectSilently(miLabelModelName, sp.getLabelModelName());
Util.selectSilently(miLabelCellEfficiency, sp.getLabelCellEfficiency());
Util.selectSilently(miLabelTiltAngle, sp.getLabelTiltAngle());
Util.selectSilently(miLabelTracker, sp.getLabelTracker());
Util.selectSilently(miLabelEnergyOutput, sp.getLabelEnergyOutput());
final PvModuleSpecs pms = sp.getPvModuleSpecs();
final boolean isCustom = "Custom".equals(pms.getModel());
miCells.setEnabled(isCustom);
miSize.setEnabled(isCustom);
miTemperatureEffects.setEnabled(isCustom);
shadeToleranceMenu.setEnabled(isCustom);
switch(sp.getTracker()) {
case Trackable.ALTAZIMUTH_DUAL_AXIS_TRACKER:
Util.selectSilently(miAltazimuthDualAxisTracker, true);
break;
case Trackable.HORIZONTAL_SINGLE_AXIS_TRACKER:
Util.selectSilently(miHorizontalSingleAxisTracker, true);
break;
case Trackable.VERTICAL_SINGLE_AXIS_TRACKER:
Util.selectSilently(miVerticalSingleAxisTracker, true);
break;
case Trackable.NO_TRACKER:
Util.selectSilently(miNoTracker, true);
break;
}
miAltazimuthDualAxisTracker.setEnabled(true);
miHorizontalSingleAxisTracker.setEnabled(true);
miVerticalSingleAxisTracker.setEnabled(true);
if (sp.getContainer() instanceof Roof) {
final Roof roof = (Roof) sp.getContainer();
final boolean flat = Util.isZero(roof.getHeight());
miAltazimuthDualAxisTracker.setEnabled(flat);
miHorizontalSingleAxisTracker.setEnabled(flat);
miVerticalSingleAxisTracker.setEnabled(flat);
} else if (sp.getContainer() instanceof Wall || sp.getContainer() instanceof Rack) {
miAltazimuthDualAxisTracker.setEnabled(false);
miHorizontalSingleAxisTracker.setEnabled(false);
miVerticalSingleAxisTracker.setEnabled(false);
}
if (sp.getTracker() != Trackable.NO_TRACKER) {
// vertical and tilted single-axis trackers can adjust the tilt angle
miTiltAngle.setEnabled(sp.getTracker() == Trackable.VERTICAL_SINGLE_AXIS_TRACKER || sp.getTracker() == Trackable.TILTED_SINGLE_AXIS_TRACKER);
// any tracker that will alter the azimuth angle should disable the menu item
miAzimuth.setEnabled(sp.getTracker() != Trackable.ALTAZIMUTH_DUAL_AXIS_TRACKER && sp.getTracker() != Trackable.VERTICAL_SINGLE_AXIS_TRACKER);
} else {
miTiltAngle.setEnabled(true);
miAzimuth.setEnabled(true);
miBaseHeight.setEnabled(true);
if (sp.getContainer() instanceof Roof) {
final Roof roof = (Roof) sp.getContainer();
if (roof.getHeight() > 0) {
miTiltAngle.setEnabled(false);
miAzimuth.setEnabled(false);
miBaseHeight.setEnabled(false);
}
} else if (sp.getContainer() instanceof Wall || sp.getContainer() instanceof Rack) {
miTiltAngle.setEnabled(false);
miAzimuth.setEnabled(false);
miBaseHeight.setEnabled(false);
}
}
}
});
final JMenuItem miDeleteRow = new JMenuItem("Delete Row");
miDeleteRow.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
final HousePart selectedPart = SceneManager.getInstance().getSelectedPart();
if (!(selectedPart instanceof SolarPanel)) {
return;
}
SceneManager.getTaskManager().update(new Callable<Object>() {
@Override
public Object call() {
Scene.getInstance().removeAllSolarPanels(((SolarPanel) selectedPart).getRow());
return null;
}
});
}
});
popupMenuForSolarPanel.add(miDeleteRow);
popupMenuForSolarPanel.addSeparator();
popupMenuForSolarPanel.add(miModel);
popupMenuForSolarPanel.add(miCells);
popupMenuForSolarPanel.add(miSize);
popupMenuForSolarPanel.add(miTemperatureEffects);
popupMenuForSolarPanel.add(shadeToleranceMenu);
popupMenuForSolarPanel.addSeparator();
popupMenuForSolarPanel.add(miTiltAngle);
popupMenuForSolarPanel.add(miAzimuth);
popupMenuForSolarPanel.add(miBaseHeight);
popupMenuForSolarPanel.add(miInverterEff);
popupMenuForSolarPanel.add(orientationMenu);
popupMenuForSolarPanel.add(trackerMenu);
popupMenuForSolarPanel.addSeparator();
popupMenuForSolarPanel.add(cbmiDisableEditPoint);
popupMenuForSolarPanel.add(cbmiDrawSunBeam);
popupMenuForSolarPanel.add(labelMenu);
popupMenuForSolarPanel.addSeparator();
JMenuItem mi = new JMenuItem("Daily Yield Analysis...");
mi.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
if (EnergyPanel.getInstance().adjustCellSize()) {
return;
}
if (SceneManager.getInstance().getSelectedPart() instanceof SolarPanel) {
new PvDailyAnalysis().show();
}
}
});
popupMenuForSolarPanel.add(mi);
mi = new JMenuItem("Annual Yield Analysis...");
mi.addActionListener(new ActionListener() {
@Override
public void actionPerformed(final ActionEvent e) {
if (EnergyPanel.getInstance().adjustCellSize()) {
return;
}
if (SceneManager.getInstance().getSelectedPart() instanceof SolarPanel) {
new PvAnnualAnalysis().show();
}
}
});
popupMenuForSolarPanel.add(mi);
}
return popupMenuForSolarPanel;
}
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