Example 1 with ChangeSolarPanelModelCommand
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;
}
Also used :
JPanel(javax.swing.JPanel)
ChangeSolarCellPropertiesCommand(org.concord.energy3d.undo.ChangeSolarCellPropertiesCommand)
ActionEvent(java.awt.event.ActionEvent)
ChangeBaseHeightForAllSolarCollectorsCommand(org.concord.energy3d.undo.ChangeBaseHeightForAllSolarCollectorsCommand)
SetShadeToleranceForSolarPanelsOnFoundationCommand(org.concord.energy3d.undo.SetShadeToleranceForSolarPanelsOnFoundationCommand)
SetSolarTrackersForAllCommand(org.concord.energy3d.undo.SetSolarTrackersForAllCommand)
PvAnnualAnalysis(org.concord.energy3d.simulation.PvAnnualAnalysis)
SetSolarTrackerCommand(org.concord.energy3d.undo.SetSolarTrackerCommand)
BorderLayout(java.awt.BorderLayout)
ChangeTiltAngleForAllSolarPanelsCommand(org.concord.energy3d.undo.ChangeTiltAngleForAllSolarPanelsCommand)
ChangeTiltAngleForSolarPanelRowCommand(org.concord.energy3d.undo.ChangeTiltAngleForSolarPanelRowCommand)
Foundation(org.concord.energy3d.model.Foundation)
LockEditPointsOnFoundationCommand(org.concord.energy3d.undo.LockEditPointsOnFoundationCommand)
ChangeFoundationSolarPanelModelCommand(org.concord.energy3d.undo.ChangeFoundationSolarPanelModelCommand)
HousePart(org.concord.energy3d.model.HousePart)
SetSolarTrackersOnFoundationCommand(org.concord.energy3d.undo.SetSolarTrackersOnFoundationCommand)
SetTemperatureEffectsCommand(org.concord.energy3d.undo.SetTemperatureEffectsCommand)
ChangeAzimuthForAllSolarPanelsCommand(org.concord.energy3d.undo.ChangeAzimuthForAllSolarPanelsCommand)
ChangeInverterEfficiencyForAllCommand(org.concord.energy3d.undo.ChangeInverterEfficiencyForAllCommand)
SetTemperatrureEffectsForAllCommand(org.concord.energy3d.undo.SetTemperatrureEffectsForAllCommand)
JRadioButtonMenuItem(javax.swing.JRadioButtonMenuItem)
ChangeFoundationSolarPanelAzimuthCommand(org.concord.energy3d.undo.ChangeFoundationSolarPanelAzimuthCommand)
ChooseSolarPanelSizeCommand(org.concord.energy3d.undo.ChooseSolarPanelSizeCommand)
JOptionPane(javax.swing.JOptionPane)
ChangeAzimuthCommand(org.concord.energy3d.undo.ChangeAzimuthCommand)
JCheckBoxMenuItem(javax.swing.JCheckBoxMenuItem)
ChangeSolarCellPropertiesForAllCommand(org.concord.energy3d.undo.ChangeSolarCellPropertiesForAllCommand)
ActionListener(java.awt.event.ActionListener)
ChangeModelForAllSolarPanelsCommand(org.concord.energy3d.undo.ChangeModelForAllSolarPanelsCommand)
SolarPanel(org.concord.energy3d.model.SolarPanel)
SpringLayout(javax.swing.SpringLayout)
ChangeFoundationSolarCollectorBaseHeightCommand(org.concord.energy3d.undo.ChangeFoundationSolarCollectorBaseHeightCommand)
ChangeFoundationSolarPanelTiltAngleCommand(org.concord.energy3d.undo.ChangeFoundationSolarPanelTiltAngleCommand)
Map(java.util.Map)
JDialog(javax.swing.JDialog)
ItemEvent(java.awt.event.ItemEvent)
JRadioButton(javax.swing.JRadioButton)
Wall(org.concord.energy3d.model.Wall)
ChangeBaseHeightForSolarPanelRowCommand(org.concord.energy3d.undo.ChangeBaseHeightForSolarPanelRowCommand)
BoxLayout(javax.swing.BoxLayout)
JTextField(javax.swing.JTextField)
ChangeSolarPanelModelCommand(org.concord.energy3d.undo.ChangeSolarPanelModelCommand)
Callable(java.util.concurrent.Callable)
ChangeFoundationInverterEfficiencyCommand(org.concord.energy3d.undo.ChangeFoundationInverterEfficiencyCommand)
Rack(org.concord.energy3d.model.Rack)
RotateSolarPanelCommand(org.concord.energy3d.undo.RotateSolarPanelCommand)
Roof(org.concord.energy3d.model.Roof)
PvDailyAnalysis(org.concord.energy3d.simulation.PvDailyAnalysis)
JMenuItem(javax.swing.JMenuItem)
ChangeFoundationSolarCellPropertiesCommand(org.concord.energy3d.undo.ChangeFoundationSolarCellPropertiesCommand)
PvModuleSpecs(org.concord.energy3d.simulation.PvModuleSpecs)
LockEditPointsCommand(org.concord.energy3d.undo.LockEditPointsCommand)
JComboBox(javax.swing.JComboBox)
JLabel(javax.swing.JLabel)
ShowSunBeamCommand(org.concord.energy3d.undo.ShowSunBeamCommand)
ChangeTiltAngleCommand(org.concord.energy3d.undo.ChangeTiltAngleCommand)
ChangeBaseHeightCommand(org.concord.energy3d.undo.ChangeBaseHeightCommand)
LockEditPointsForClassCommand(org.concord.energy3d.undo.LockEditPointsForClassCommand)
ButtonGroup(javax.swing.ButtonGroup)
ChangeInverterEfficiencyCommand(org.concord.energy3d.undo.ChangeInverterEfficiencyCommand)
ItemListener(java.awt.event.ItemListener)
SetShadeToleranceCommand(org.concord.energy3d.undo.SetShadeToleranceCommand)
SetShadeToleranceForAllSolarPanelsCommand(org.concord.energy3d.undo.SetShadeToleranceForAllSolarPanelsCommand)
SetFoundationTemperatureEffectsCommand(org.concord.energy3d.undo.SetFoundationTemperatureEffectsCommand)
JMenu(javax.swing.JMenu)
SetSolarPanelLabelCommand(org.concord.energy3d.undo.SetSolarPanelLabelCommand)
Aggregations
BorderLayout (java.awt.BorderLayout)1
ActionEvent (java.awt.event.ActionEvent)1
ActionListener (java.awt.event.ActionListener)1
ItemEvent (java.awt.event.ItemEvent)1
ItemListener (java.awt.event.ItemListener)1
Map (java.util.Map)1
Callable (java.util.concurrent.Callable)1
BoxLayout (javax.swing.BoxLayout)1
ButtonGroup (javax.swing.ButtonGroup)1
JCheckBoxMenuItem (javax.swing.JCheckBoxMenuItem)1
JComboBox (javax.swing.JComboBox)1
JDialog (javax.swing.JDialog)1
JLabel (javax.swing.JLabel)1
JMenu (javax.swing.JMenu)1
JMenuItem (javax.swing.JMenuItem)1
JOptionPane (javax.swing.JOptionPane)1
JPanel (javax.swing.JPanel)1
JRadioButton (javax.swing.JRadioButton)1
JRadioButtonMenuItem (javax.swing.JRadioButtonMenuItem)1
JTextField (javax.swing.JTextField)1
