package MinMaxTester;
import DisplayProject.CloseHideAdaptor;
import DisplayProject.Constants;
import DisplayProject.CursorMgr;
import DisplayProject.UDSWindow;
import DisplayProject.UIutils;
import DisplayProject.WindowManager;
import DisplayProject.WindowUsageMap;
import DisplayProject.actions.UserWindow;
import DisplayProject.binding.BindingManager;
import DisplayProject.binding.beans.ExtendedPropertyChangeSupport;
import DisplayProject.binding.beans.Observable;
import DisplayProject.controls.PictureGraphic;
import DisplayProject.events.ClientEventManager;
import DisplayProject.factory.CompoundFieldFactory;
import DisplayProject.factory.GraphicFactory;
import DisplayProject.plaf.Win32LookAndFeel;
import Framework.AsyncStarter;
import Framework.ErrorMgr;
import Framework.EventHandle;
import Framework.EventManager;
import Framework.EventRegistration;
import Framework.File;
import Framework.ForteKeyboardFocusManager;
import Framework.ImageData;
import Framework.RuntimeProperties;
import Framework.UsageException;
import java.awt.Dimension;
import java.awt.KeyboardFocusManager;
import java.awt.Window;
import java.awt.event.ComponentListener;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeSupport;
import java.io.Serializable;
import java.lang.String;
import java.net.MalformedURLException;
import java.net.URL;
import javax.swing.ImageIcon;
import javax.swing.JFrame;
import javax.swing.JPanel;
import javax.swing.ToolTipManager;
import javax.swing.UIManager;
/**
* FixedMaxMin<p>
* <p>
* @author Generated from Forte
* @since 19-Nov-2008
*/
@RuntimeProperties(isDistributed=false, isAnchored=false, isShared=false, isTransactional=false)
@UDSWindow()
@SuppressWarnings("serial")
public class FixedMaxMin
extends JFrame
implements Serializable, Observable
{
// -------------
// Inner classes
// -------------
/**
* This class contains routines to be able to start threads for the methods on this class in a manner
* similar to that allowed by Forte. This includes:<p>
* <ul>
* <li>Arbitrary parameters</li>
* <li>Starting threads as daemon threads</li>
* <li>Naming the thread for easy debugging</li>
* </ul>
*/
public static class AsyncRunner extends AsyncStarter {
/**
* Create an async runner which does not fire completion events nor begin a transaction
*/
public AsyncRunner() {
super();
}
/**
* display<p>
* <p>
*/
public Thread display(final FixedMaxMin pFixedMaxMin) {
return startTask(pFixedMaxMin, "FixedMaxMin.Display",
new AsyncStarter.AsyncInvoker() {
@Override public void runWithNoReturn() {
pFixedMaxMin.display();
}
});
}
}
// ----------
// Attributes
// ----------
protected File DefaultHelpFile;
protected BindingManager bindingManager = null;
public PropertyChangeSupport qq_Listeners = new ExtendedPropertyChangeSupport(this, true);
// ------------
// Constructors
// ------------
public FixedMaxMin() {
// Explicitly call the superclass constructor to prevent the implicit call
super();
this.initialize();
}
// ----------------------
// Accessors and Mutators
// ----------------------
public File getDefaultHelpFile() {
return DefaultHelpFile;
}
public void setDefaultHelpFile(File defaultHelpFile) {
DefaultHelpFile = defaultHelpFile;
UserWindow.createHelp(this, defaultHelpFile);
}
public void setHelpURL(String urlString) {
try {
URL url = new URL(urlString);
UserWindow.createHelp(this, url);
} catch (MalformedURLException e) {
UsageException err = new UsageException("Cannot create help URL", e);
ErrorMgr.addError(err);
throw err;
}
}
protected BindingManager getBindingManager() {
if (this.bindingManager == null) {
this.bindingManager = new BindingManager(this);
}
return bindingManager;
}
// -------
// Methods
// -------
public void addPropertyChangeListener(String property, PropertyChangeListener listener) {
qq_Listeners.addPropertyChangeListener(property, listener);
}
public void addPropertyChangeListener(PropertyChangeListener listener) {
qq_Listeners.addPropertyChangeListener(listener);
}
public void removePropertyChangeListener(String property, PropertyChangeListener listener) {
qq_Listeners.removePropertyChangeListener(property, listener);
}
public void removePropertyChangeListener(PropertyChangeListener listener) {
qq_Listeners.removePropertyChangeListener(listener);
}
/**
* display<p>
* <p>
*/
public void display() {
UserWindow.open(this);
// ----------
// Event Loop
// ----------
EventManager.startEventLoop();
try {
EventRegistration TaskHandle_Shutdown_langThreadcurrentThread = ClientEventManager.register( Thread.currentThread(), "Shutdown" );
while (true) {
UIutils.processGUIActions();
EventHandle qq_currentEvent = EventManager.waitForEvent();
if (qq_currentEvent == null)
break;
// -------------
// task.Shutdown
// -------------
if (qq_currentEvent.isEvent(TaskHandle_Shutdown_langThreadcurrentThread)) {
try {
CursorMgr.startEvent();
// ================ Begin Forte Event Handler Translation ================
break;
// ================ End Forte Event Handler Translation ================
}
finally {
CursorMgr.endEvent();
}
}
}
EventManager.deregister( TaskHandle_Shutdown_langThreadcurrentThread );
}
//catch (Exception qq_error) {
//Logger.getLogger("task.part.Event").error("Event loop terminated by unhandled exception: " + qq_error.getMessage(), qq_error );
//throw qq_error;
//}
finally {
EventManager.endEventLoop();
UserWindow.close(this);
}
}
// ------------------
// Window Definitions
// ------------------
// <editor-fold defaultstate="collapsed" desc="Window Definitions">
private int qq_defaultSet = 1;
private int qq_msgNumber = 0;
private int qq_msgSet = 0;
protected Window primaryWindow = null;
protected int initialX;
protected int initialY;
protected int qq_SystemClosePolicy = Constants.SC_ENABLEDSHUTDOWN;
protected int qq_initialPositionPolicy = Constants.PP_SYSTEMDEFAULT;
public JPanel Form;
public PictureGraphic qq_PictureGraphic12;
/**
* qq_PictureGraphic12: transformed from: qqds_PictureGraphic
* TagId=12
* isInherited=FALSE
*/
public PictureGraphic getqq_PictureGraphic12() {
if (qq_PictureGraphic12 == null) {
qq_PictureGraphic12 = GraphicFactory.newPictureGraphic("", Constants.CG_CENTER);
qq_PictureGraphic12.setImageValue(new ImageData(new ImageIcon(FixedMaxMin.class.getResource("FixedMaxMin.qq_PictureGraphic12.png"))));
qq_PictureGraphic12.setWidthPolicy(Constants.SP_NATURAL);
qq_PictureGraphic12.setHeightPolicy(Constants.SP_NATURAL);
qq_PictureGraphic12.setImageSizePolicy(Constants.IS_NATURAL);
qq_PictureGraphic12.setOpaque( true );
qq_PictureGraphic12.setSize(new Dimension(249, 163));
qq_PictureGraphic12.setMinimumSize(new Dimension(249, 163));
qq_PictureGraphic12.setPreferredSize(new Dimension(249, 163));
}
return qq_PictureGraphic12;
}
public void setqq_PictureGraphic12(PictureGraphic value) {
PictureGraphic oldValue = qq_PictureGraphic12;
qq_PictureGraphic12 = value;
this.qq_Listeners.firePropertyChange("qq_PictureGraphic12", oldValue, value);
}
/**
* Form: transformed from: qqds_Panel
* TagId=1
* isInherited=FALSE
*/
protected void setFormProperties() {
Form.setOpaque( true );
}
public JPanel getForm() {
if (Form == null) {
Form = CompoundFieldFactory.newForm();
this.setFormProperties();
Form.add( getqq_PictureGraphic12() );
}
return Form;
}
public void setForm(JPanel value) {
JPanel oldValue = Form;
Form = value;
this.qq_Listeners.firePropertyChange("Form", oldValue, value);
}
/**
* Gets the system close policy
*
* The SystemClosePolicy property determines how a window responds to user attempts to close it by using the native window system through the window close box or a window system menu command.
* SystemClosePolicy responds to window closure attempts according to the following parameters:
* <li>Constants.SC_DISABLED Does not allow window closure through window system.</li>
* <li>Constants.SC_ENABLEDNOFINALIZE Window can be closed, but the contents are not verified, guaranteeing that the window will close (for example, the user clicks the Cancel button).</li>
* <li>Constants.SC_ENABLEDFINALIZE Posts the RequestFinalize method on the window, with a reason code of zero.</li>
* <li>Constants.SC_ENABLEDSHUTDOWN Posts Shutdown event to window�s task and to all tasks started by that task. This is the default value.</li>
*/
public int getSystemClosePolicy() {
return qq_SystemClosePolicy;
}
/**
* Sets the system close policy
*
* The SystemClosePolicy property determines how a window responds to user attempts to close it by using the native window system through the window close box or a window system menu command.
* SystemClosePolicy responds to window closure attempts according to the following parameters:
* <li>Constants.SC_DISABLED Does not allow window closure through window system.</li>
* <li>Constants.SC_ENABLEDNOFINALIZE Window can be closed, but the contents are not verified, guaranteeing that the window will close (for example, the user clicks the Cancel button).</li>
* <li>Constants.SC_ENABLEDFINALIZE Posts the RequestFinalize method on the window, with a reason code of zero.</li>
* <li>Constants.SC_ENABLEDSHUTDOWN Posts Shutdown event to window�s task and to all tasks started by that task. This is the default value.</li>
*/
public void setSystemClosePolicy(int policy) {
this.qq_SystemClosePolicy = policy;
if (policy == Constants.SC_DISABLED) {
this.addComponentListener(new CloseHideAdaptor(this));
} else {
for (ComponentListener cl : this.getComponentListeners()) {
if (cl instanceof CloseHideAdaptor) {
this.removeComponentListener(cl);
break;
}
}
}
}
/**
* Gets the initial position policy
*
* The InitialPositionPolicy property sets the position of a main window when it is first displayed, relative to a primary window or the screen.
* You use the InitialPositionPolicy property in conjunction with the InitialX, InitialY properties.
* InitialPositionPolicy sets the position of a window according to the following values:
* <li>Constants.PP_SYSTEMDEFAULT Accepts the default window system placement specification.</li>
* <li>Constants.PP_PRIMARYCENTERED Centers the window relative to the window specified as the PrimaryWindow property.</li>
* <li>Constants.PP_PRIMARYRELATIVE Positions the window relative to the primary window, using the PrimaryWindow, InitialX and InitialY attributes.</li>
* <li>Constants.PP_SCREENCENTERED Centers the window relative to the screen.</li>
* <li>Constants.PP_SCREENRELATIVE Positions the window relative to the screen, using the InitialX and InitialY properties.</li>
*/
public int getInitialPositionPolicy() {
return qq_initialPositionPolicy;
}
/**
* Sets the initial position policy
*
* The InitialPositionPolicy property sets the position of a main window when it is first displayed, relative to a primary window or the screen.
* You use the InitialPositionPolicy property in conjunction with the InitialX, InitialY properties.
* InitialPositionPolicy sets the position of a window according to the following values:
* <li>Constants.PP_SYSTEMDEFAULT Accepts the default window system placement specification.</li>
* <li>Constants.PP_PRIMARYCENTERED Centers the window relative to the window specified as the PrimaryWindow property.</li>
* <li>Constants.PP_PRIMARYRELATIVE Positions the window relative to the primary window, using the PrimaryWindow, InitialX and InitialY attributes.</li>
* <li>Constants.PP_SCREENCENTERED Centers the window relative to the screen.</li>
* <li>Constants.PP_SCREENRELATIVE Positions the window relative to the screen, using the InitialX and InitialY properties.</li>
*/
public void setInitialPositionPolicy(int policy) {
this.qq_initialPositionPolicy = policy;
}
/**
* Gets the primary window
*
* The primary window property designates a window, known as a primary window, to serve as an initial position reference for the current window.
* When a main window first realizes itself through the Open method on the UserWindow, it assumes a position according to the InitialPositionPolicy attribute.
* When the InitialPositionPolicy property is set to PP_PRIMARYRELATIVE (relative to the primary window) or PP_PRIMARYCENTERED (centered on the primary window),
* the window realizes itself in a position relative to the designated primary window.<p>
* <p>
* To take a position relative to the primary window, a window uses the PrimaryWindow attribute in conjunction with the InitialX and InitialY properties, which specify the window�s horizontal and vertical coordinates.
*/
public Window getPrimaryWindow() {
return this.primaryWindow;
}
/**
* Sets the primary window
*
* The primary window property designates a window, known as a primary window, to serve as an initial position reference for the current window.
* When a main window first realizes itself through the Open method on the UserWindow, it assumes a position according to the InitialPositionPolicy attribute.
* When the InitialPositionPolicy property is set to PP_PRIMARYRELATIVE (relative to the primary window) or PP_PRIMARYCENTERED (centered on the primary window),
* the window realizes itself in a position relative to the designated primary window.<p>
* <p>
* To take a position relative to the primary window, a window uses the PrimaryWindow attribute in conjunction with the InitialX and InitialY properties, which specify the window�s horizontal and vertical coordinates.
*/
public void setPrimaryWindow(Window value) {
this.primaryWindow = value;
}
/**
* Gets the InitialX value
*
* The InitialX property (integer) is the window�s initial horizontal screen position, relative to a primary window or the screen. It is specified in mils.
* InitialX applies only to main windows and only when a window�s InitialPositionPolicy attribute is set to PP_PRIMARYRELATIVE (relative to the primary window) or PP_SCREENRELATIVE (relative to the screen).
* InitialX, and its corollary, InitialY, work in conjunction with the PrimaryWindow and InitialPositionPolicy attributes to determine the position of a main window when it is first realized.
*/
public int getInitialX() {
return initialX;
}
/**
* Sets the InitialX value
*
* The InitialX property (integer) is the window�s initial horizontal screen position, relative to a primary window or the screen. It is specified in mils.
* InitialX applies only to main windows and only when a window�s InitialPositionPolicy attribute is set to PP_PRIMARYRELATIVE (relative to the primary window) or PP_SCREENRELATIVE (relative to the screen).
* InitialX, and its corollary, InitialY, work in conjunction with the PrimaryWindow and InitialPositionPolicy attributes to determine the position of a main window when it is first realized.
*/
public void setInitialX(int value) {
this.initialX = value;
}
/**
* Gets the InitialY value
*
* The InitialY property (integer) is the window�s initial vertical screen position, relative to a primary window or the screen. It is specified in mils.
* InitialY applies only to main windows and only when a window�s InitialPositionPolicy attribute is set to PP_PRIMARYRELATIVE (relative to the primary window) or PP_SCREENRELATIVE (relative to the screen).
* InitialY, and its corollary, InitialX, work in conjunction with the PrimaryWindow and InitialPositionPolicy attributes to determine the position of a main window when it is first realized.
*/
public int getInitialY() {
return initialY;
}
/**
* Sets the InitialY value
*
* The InitialY property (integer) is the window�s initial vertical screen position, relative to a primary window or the screen. It is specified in mils.
* InitialY applies only to main windows and only when a window�s InitialPositionPolicy attribute is set to PP_PRIMARYRELATIVE (relative to the primary window) or PP_SCREENRELATIVE (relative to the screen).
* InitialY, and its corollary, InitialX, work in conjunction with the PrimaryWindow and InitialPositionPolicy attributes to determine the position of a main window when it is first realized.
*/
public void setInitialY(int value) {
this.initialY = value;
}
/**
* Gets the default message set number for the window and its widgets.
*/
public int getSetNum() {
return this.qq_defaultSet;
}
/**
* Sets the default message set number for the window and its widgets.
*/
public void setSetNum(int value) {
this.qq_defaultSet = value;
}
/**
* Gets the message set number for the message number of the window's title.
*/
public int getTitleSetNum() {
return this.qq_msgSet;
}
/**
* Sets the message set number for the message number of the window's title.
*/
public void setTitleSetNum(int value) {
this.qq_msgSet = value;
}
/**
* Gets the message number for the message number of the window's title.
*/
public int getTitleMsgNum() {
return this.qq_msgNumber;
}
/**
* Sets the message number for the message number of the window's title.
*/
public void setTitleMsgNum(int value) {
this.qq_msgNumber = value;
}
/**
* Initialise the window and all its children.
*/
protected void initialize() {
if (this.Form == null) {
this.setName( "FixedMaxMin" );
this.setTitle( "Fixed No Max Min" );
this.setSystemClosePolicy(Constants.SC_ENABLEDSHUTDOWN);
if (this.getContentPane() != this.getForm()) {
this.setContentPane(getForm());
}
this.qq_setupWindowUsage();
this.setResizable( false );
this.setAlwaysOnTop(false);
UserWindow.setIconizeEnabled(this, false);
WindowManager.addWindowListener(this);
this.setDefaultCloseOperation(javax.swing.WindowConstants.DO_NOTHING_ON_CLOSE);
this.setUsage(DisplayProject.Constants.WU_UPDATE);
UIutils.processGUIActions();
this.pack();
this.setInitialX(0);
this.setInitialY(0);
this.setInitialPositionPolicy(Constants.PP_SYSTEMDEFAULT);
}
}
// ----------------
// Window usage
//-----------------
protected WindowUsageMap usage = new WindowUsageMap();
public int getUsage() {
return this.usage.getUsage();
}
public WindowUsageMap getUsageMap() {
return this.usage;
}
/**
* Sets the window usage
*
* The Usage property sets the state for all a window�s child widgets at once, providing collective widget state changes on a predefined basis. A widget�s state determines how the widget reacts to mouse actions and how it displays itself. A window�s Usage property provides a convenient way to control the states of a group of widgets in the context of their parent window. With the Usage attribute, you can synchronize widget states to conform to a pattern you establish for the window.
* The Usage attribute accepts the following values:
* <li>Constants.WU_EDIT Edit usage: widgets themselves are editable, but not underlying data.</li>
* <li>Constants.WU_QUERY Query only usage: widget data is editable, but not widgets themselves.</li>
* <li>Constants.WU_UPDATE Update usage: mouse actions and keyboard input accepted. Widgets themselves are changeable. This is the default.</li>
* <li>Constants.WU_USER1 A user-defined usage. Default values same as WU_UPDATE.</li>
* <li>Constants.WU_USER2 A user-defined usage. Default values same as WU_UPDATE.</li>
* <li>Constants.WU_USER3 A user-defined usage. Default values same as WU_UPDATE.</li>
* <li>Constants.WU_VIEW View-only usage: no keyboard input is accepted. Widget posts Click events for mouse clicks.</li>
*/
public void setUsage(int usage) {
this.usage.setUsage(usage);
}
public void qq_setupWindowUsage() {
this.usage = new WindowUsageMap();
this.usage.add(getqq_PictureGraphic12(), Constants.FS_INACTIVE, Constants.FS_INACTIVE, Constants.FS_INACTIVE, Constants.FS_INACTIVE, Constants.FS_INACTIVE, Constants.FS_INACTIVE);
}
// </editor-fold>
// -----------
// Main method
// -----------
public static void main(String []args) {
KeyboardFocusManager.setCurrentKeyboardFocusManager(new ForteKeyboardFocusManager());
try {
UIManager.setLookAndFeel(new Win32LookAndFeel());
}
catch (Exception e) {}
ToolTipManager.sharedInstance().setDismissDelay(Integer.MAX_VALUE);
FixedMaxMin myClass = new FixedMaxMin();
myClass.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
myClass.setVisible(true);
UIutils.processGUIActions();
}
} // end class FixedMaxMin
// c Pass 2 Conversion Time: 436 milliseconds