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//                                                                             
// JTOpen (IBM Toolbox for Java - OSS version)                              
//                                                                             
// Filename: VJavaApplicationCall.java
//                                                                             
// The source code contained herein is licensed under the IBM Public License   
// Version 1.0, which has been approved by the Open Source Initiative.         
// Copyright (C) 1997-2000 International Business Machines Corporation and     
// others. All rights reserved.                                                
//                                                                             
///////////////////////////////////////////////////////////////////////////////

package com.ibm.as400.vaccess;

import java.awt.BorderLayout;
import java.awt.event.*;
import java.awt.Rectangle;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeEvent;
import java.beans.PropertyVetoException;
import java.beans.VetoableChangeListener;
import java.io.PrintWriter;
import java.util.Properties;
import java.util.StringTokenizer;
import java.util.Vector;
import java.util.Enumeration;

import com.ibm.as400.access.ExtendedIllegalStateException;
import com.ibm.as400.access.ActionCompletedListener;
import com.ibm.as400.access.ActionCompletedEvent;
import com.ibm.as400.access.AS400;
import com.ibm.as400.access.JavaApplicationCall;
import com.ibm.as400.access.Trace;

import javax.swing.JComponent;
import javax.swing.JPanel;
import javax.swing.JTextArea;
import javax.swing.JTextField;
import javax.swing.JLabel;
import javax.swing.JScrollPane;

/**
 *
 *

*Provides a visual interface to *{@link com.ibm.as400.access.JavaApplicationCall JavaApplicationCall}. The visual interface *consists of two components: an input field where the program *to run is specified and input is sent to the program, and *an output text area where the output from the program is displayed. * *

*GUI output generated by the Java program running on the system *is not handled by this class. *As in JavaApplicationCall, the Java program running on the system *receives input via standard. The output text area displays output *the system java program writes to standard out and standard error. *GUI input/output must be handled via another mechanism such as *Remote AWT. * *

*There are two ways to set up the system Java environment: *

    *
  1. VJavaApplicationCall *must have a JavaApplicationCall object. After creating the JavaApplicationCall *object, the application can set environment parameters on the JavaApplicationCall, *object, then construct *the VJavaApplicationCall object passing it the JavaApplicationCall object. *The advantage to this method is the application sets up the environment instead *of the user. *
  2. *The environment can be set up via *set commands entered in the GUI. *For additional information on these commands, *see the on-line help for the Java command. Valid commands are: *
      *
    • Classpath - the value of the CLASSPATH environment variable. Directories are separated by colons. *
    • DefaultPort - the default port for communicating standard in, standard out and standard error between the client and the system java environment. *
    • FindPort - indicates if the client should search for a free port if the default port is in use. *
    • Interpret - indicates if all Java class files should be run interpretively. *
    • Optimize - the optimization level for classes not yet optimized. *
    • Options - additional options used when running the Java class. *
    • SecurityCheckLevel - the level of warnings given for directories in the CLASSPATH that have public write authority. *
    • GarbageCollectionFrequency - the relative frequency that garbage collection runs. *
    • GarbageCollectionInitialSize - the initial size, in kilobytes, of the garbage collection heap. *
    • GarbageCollectionMaximumSize - the maximum size, in kilobytes, that the garbage collection heap can grow to. *
    • GarbageCollectionPriority - the priority of the tasks running garbage collection. *
    *For example, to send the optimization level to 30, enter
    *
     *set optimize=30
     *
    *
* *

*You start the Java application using the java command. The *syntax for this command is much like the syntax when running the command *on the client. It is *

 *java [-classpath=value] [-verbose] [-Dproperty=value -Dproperty=value [...]] class [parm1 parm2 [...]]]
 *
*Note, this class correctly sets the standard in, standard out and standard *error properties so os400.stdin, os400.stdout *or os400.stderr properties are ignored. *For example, to run Java application *
 *java -classpath=/myClasses:/myClasses/lib/package.jar myProgram parm1 parm2
 *
* *To use this class you simply create a frame to contain the class *then call the load() method to run the start the application. For example, * * *
 *AS400 system = new AS400("myAS400");
 *
 * JavaApplicationCall javaCall  = new  JavaApplicationCall(system);
 *VJavaApplicationCall vJavaCall = new VJavaApplicationCall(javaCall);
 *
 *JFrame f = new JFrame ("JavaApplicationCallExample");
 *f.getContentPane().setLayout(new BorderLayout ());
 *f.getContentPane().add("Center", vJavaCall);
 *f.pack();
 *f.show();
 *
@deprecated Use Java Swing instead, along with the classes in package com.ibm.as400.access **/ public class VJavaApplicationCall extends JComponent implements KeyListener { // These variables represent event support. private transient ErrorEventSupport errorEventSupport_; private transient PropertyChangeSupport propertyChangeSupport_; private transient VetoableChangeSupport vetoableChangeSupport_; private transient WorkingEventSupport workingEventSupport_; // Private variable representing the object of JavaApplicationCall. private JavaApplicationCall javaAppCall_ = null; // Private variable representing the initial value of the classpath. private String classPath_ = ""; // List of user commands private Vector inputVector_ ; // Index of current command in input vector private int inputIndex_ = 0; // Private variable representing string input by user. private String inputStr_; // Private variable representing the object of JTextField into which user input command. private JTextField inputText_; private JScrollPane scrollPane_; // Private variable, if true the program is complete private boolean javaRunOver_ = true; // Private variable representing the default value of Options. private String [] optionArray_ = {"*NONE"}; // Private variable representing the object of JTextArea on which the output and error // messages are displayed. private JTextArea outputText_; // Private variable representing the number of parameter in command string. private int paramNum_; // Private variable representing the object of StringTokenizer. // messages are displayed. private StringTokenizer strToken_; // Private variable representing the object of VJavaGetResult which is responsible // for running the remote java application and getting the result. private VJavaGetResult vJavaGetResult_; private boolean hasNext = false; private boolean hasPrevious = false; private boolean firstDraw = true; private long linesWritten_ = 0; private static final int ROWS = 24; private static final int COLUMNS = 72; /** * Constructs a VJavaApplicationCall object. **/ public VJavaApplicationCall() { // javaAppCall_ = new JavaApplicationCall(); initialize(); } /** * Constructs a VJavaApplicationCall object. A JavaApplicationCall * object defines the Java program to run. * * @param javaApplicationCall The access class which defines the * Java application to run. **/ public VJavaApplicationCall(JavaApplicationCall javaApplicationCall) { if(javaApplicationCall == null) throw new NullPointerException ("JavaApplicationCall"); javaAppCall_ = javaApplicationCall; initialize(); } /** * Adds a listener to be notified when an error occurs. * * @see #removeErrorListener * @param listener The listener. **/ public void addErrorListener( ErrorListener listener ) { if (listener == null) { throw new NullPointerException("listener"); } errorEventSupport_.addErrorListener(listener); } /** * Notification to VJavaApplicationCall that it now has a parent component. * The windowing system calls this method * when VJavaApplicationCall gets a parent frame. When called * VJavaApplicationCall * requsts input focus be given to the input field. *

* Since this method is * called by Swing at the appropriate time, application code should not * call this method. **/ public void addNotify() { super.addNotify(); inputText_.requestFocus(); } /** * Adds a listener to be notified when the value of any bound property * changes. * * @see #removePropertyChangeListener * @param listener The listener. **/ public void addPropertyChangeListener( PropertyChangeListener listener ) { if (listener == null) { throw new NullPointerException("listener"); } propertyChangeSupport_.addPropertyChangeListener(listener); } /** * Adds a listener to be notified when the value of any constrained * property changes. * * @see #removeVetoableChangeListener * @param listener The listener. **/ public void addVetoableChangeListener( VetoableChangeListener listener ) { if (listener == null) { throw new NullPointerException("listener"); } vetoableChangeSupport_.addVetoableChangeListener(listener); } /** * Adds a listener to be notified when work starts and stops on potentially long running operations. * * @param listener The listener. **/ public void addWorkingListener(WorkingListener listener) { if (listener == null) { throw new NullPointerException("listener"); } workingEventSupport_.addWorkingListener(listener); } // write output to the text window then move the scrollbar so the // user always sees the latest text. void appendOutput(String output) { outputText_.append(output); linesWritten_ ++; int tx = outputText_.getSize().width; int ty = outputText_.getSize().height; Rectangle rect = new Rectangle(0,ty-2,tx-1,ty-1); if (linesWritten_ < ROWS) { int pixelsPerLine = ty / ROWS; if (pixelsPerLine > 0) { int visableLines = scrollPane_.getSize().height / pixelsPerLine; if (linesWritten_ > visableLines) outputText_.scrollRectToVisible(rect); } } else { if(ty > scrollPane_.getSize().height) outputText_.scrollRectToVisible(rect); } } /** * Stops all threads. @exception Throwable If an error occurs during cleanup. **/ protected void finalize() throws Throwable { vJavaGetResult_ = null; super.finalize(); } /** * Returns the access class which defines the Java application to run. * * @return The the com.ibm.as400.access.JavaApplicationCall object * which defines the Java application to run. **/ public JavaApplicationCall getJavaApplicationCall() { return javaAppCall_; } /** * Returns a reference to the JTextArea object. Standard output and * standard error information from the system Java program are displayed * in this text area. The * application can use the reference to the JTextArea to modify * attributes such as the size of the text area * or the font used to display text in the text area. * * @return The JTextArea object which displays standard output * and standard error from the system Java program. **/ public JTextArea getOutputText() { return outputText_; } /** * Initializes the event support and displays the GUI. **/ private void initialize() { // Initialize the event support. errorEventSupport_ = new ErrorEventSupport(this); propertyChangeSupport_ = new PropertyChangeSupport(this); vetoableChangeSupport_ = new VetoableChangeSupport(this); workingEventSupport_ = new WorkingEventSupport (this); inputVector_ = new Vector(); setLayout(new BorderLayout()); JPanel part1=new JPanel(new BorderLayout()); JLabel outputLabel = new JLabel(ResourceLoader.getText("REMOTE_OUTPUT_LABEL")); JLabel inputLabel = new JLabel(ResourceLoader.getText("REMOTE_INPUT_LABEL")); outputText_ = new JTextArea(); outputText_.setEditable(false); outputText_.setRows(ROWS); outputText_.setColumns(COLUMNS); scrollPane_ = new JScrollPane(outputText_); scrollPane_.setVerticalScrollBarPolicy(JScrollPane.VERTICAL_SCROLLBAR_AS_NEEDED); inputText_ = new JTextField(); part1.add(outputLabel,BorderLayout.NORTH); part1.add(scrollPane_,BorderLayout.CENTER); JPanel part2=new JPanel(new BorderLayout()); part2.add(inputLabel,BorderLayout.NORTH); part2.add(inputText_,BorderLayout.CENTER); add(part1,BorderLayout.CENTER); add(part2,BorderLayout.SOUTH); inputText_.addKeyListener(this); appendOutput(ResourceLoader.getText("REMOTE_PROMPT")); } /** * A key is pressed. * @param keyEvent The key event. **/ public void keyPressed(KeyEvent keyEvent){} /** * The key is released. * @param keyEvent The key event. **/ public void keyReleased(KeyEvent keyEvent) { if (javaAppCall_ == null) throw new ExtendedIllegalStateException("JavaApplicationCall", ExtendedIllegalStateException.PROPERTY_NOT_SET); switch (keyEvent.getKeyCode()) { case KeyEvent.VK_ENTER : processEnter(); break; case KeyEvent.VK_PAGE_DOWN : if(inputVector_.size() >0) { inputIndex_ = inputVector_.size() -1; inputText_.setText((String) inputVector_.elementAt(inputIndex_)); } break; case KeyEvent.VK_PAGE_UP : if(inputVector_.size()>0) { inputIndex_ = 0; inputText_.setText((String) inputVector_.elementAt(inputIndex_)); } break; case KeyEvent.VK_UP : if(inputVector_.size()>0) { if(hasPrevious) // press Up and get the previous command. { if(inputIndex_ >0) inputIndex_ -= 1; inputText_.setText((String) inputVector_.elementAt(inputIndex_)); } else inputText_.setText((String) inputVector_.elementAt(inputIndex_)); hasPrevious = true; hasNext = true; } break; case KeyEvent.VK_DOWN : if(inputVector_.size()>0) { if(hasNext) // press Down and get the next command. { if(inputIndex_ < inputVector_.size()-1) inputIndex_ +=1; inputText_.setText((String) inputVector_.elementAt(inputIndex_)); hasPrevious = true; } } break; case KeyEvent.VK_ESCAPE : inputText_.setText(""); } } /** * The key is typed. * @param keyEvent The key event. **/ public void keyTyped(KeyEvent keyEvent){} /** * Loads information produced by the Java Application run on the system. **/ private void load() { if (vJavaGetResult_ == null) vJavaGetResult_ = new VJavaGetResult(this); try { javaAppCall_.getSystem().connectService(AS400.COMMAND); } catch (Exception e) { appendOutput(e.toString() + "\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); return; } appendOutput(ResourceLoader.getText("REMOTE_JAVA_START")); appendOutput(javaAppCall_.getJavaApplication()+"\n\n"); vJavaGetResult_.play(); } /** * * Displays the values of the corresponding properties. **/ private void processDCommand() { if(paramNum_>1) { appendOutput(ResourceLoader.getText("REMOTE_COMMAND_ERROR")+"\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } else { appendOutput(ResourceLoader.getText("REMOTE_D_LINE1")+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE2")); appendOutput(javaAppCall_.getSecurityCheckLevel()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE3")); appendOutput(classPath_+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE4")); appendOutput(javaAppCall_.getGarbageCollectionFrequency()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE5")); appendOutput(javaAppCall_.getGarbageCollectionInitialSize()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE6")); appendOutput(javaAppCall_.getGarbageCollectionMaximumSize()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE7")); appendOutput(javaAppCall_.getGarbageCollectionPriority()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE8")); appendOutput(javaAppCall_.getInterpret()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE9")); appendOutput(javaAppCall_.getOptimization()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE10")); // get the value of Options StringBuffer optionStr = new StringBuffer(); for(int i=0;i< optionArray_.length;i++) { optionStr.append(optionArray_[i]); optionStr.append(" "); } appendOutput(optionStr.toString() +"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE11")); appendOutput(javaAppCall_.getDefaultPort()+"\n"); appendOutput(ResourceLoader.getText("REMOTE_D_LINE12")); appendOutput(javaAppCall_.isFindPort()+"\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } } /** * Invoked when the user presses the enter key. * * @param event The ActionEvent. **/ void processEnter() { if (javaAppCall_ == null) throw new ExtendedIllegalStateException("JavaApplicationCall", ExtendedIllegalStateException.PROPERTY_NOT_SET); // check the application whether completed if(javaRunOver_) { if(inputText_.getText().trim().equals(""))// process Return key { appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } else { if(inputVector_.size() >0) { int tempIndex = inputIndex_; int vectorSize = inputVector_.size(); String lastInput = (String)inputVector_.lastElement(); String currentInput = (String) inputVector_.elementAt(tempIndex); // enter a command that is not the same as the last command if(!lastInput.equalsIgnoreCase(inputText_.getText())) { inputVector_.addElement(inputText_.getText()); } hasNext = false; // Press Down, can not get next command. hasPrevious = false; vectorSize = inputVector_.size(); inputIndex_ = vectorSize -1 ; // keep the original command and press enter if((tempIndex < vectorSize -1)&&inputText_.getText().equals(currentInput)) { inputIndex_ = tempIndex; hasNext = true; // Press Down , can get next command. } } else { inputVector_.addElement(inputText_.getText()); inputIndex_ = 0; hasNext = false; hasPrevious = false; } // Get the original height of the outputText_ appendOutput(inputText_.getText()+"\n"); inputStr_ = inputText_.getText().trim(); inputText_.setText(""); strToken_ = new StringTokenizer(inputStr_ ," "); paramNum_ = strToken_.countTokens(); String commandStr = strToken_.nextToken().toUpperCase(); if(commandStr.equals("JAVA")) { processJavaCommand(); } else if(commandStr.equals("D")) { processDCommand(); } else if(commandStr.equals("SET")) { processSetCommand(); } else if ((commandStr.equals("HELP")) || (commandStr.equals("?")) || (commandStr.equals("H"))) { processHelpCommand(); } else if ((commandStr.equals("QUIT")) || (commandStr.equals("Q"))) { if(paramNum_ > 1) { appendOutput(ResourceLoader.getText("REMOTE_COMMAND_ERROR")+"\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } else System.exit(0); } else { appendOutput(ResourceLoader.getText("REMOTE_COMMAND_ERROR")+"\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } } } else // This is data to be sent to the application. { appendOutput(inputText_.getText()+"\n"); inputStr_ = inputText_.getText(); inputText_.setText(""); javaAppCall_.sendStandardInString(inputStr_); } } /** * * Process the help command. **/ private void processHelpCommand() { if(paramNum_>1) { appendOutput(ResourceLoader.getText("REMOTE_COMMAND_ERROR")+"\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } else { appendOutput(ResourceLoader.getText("REMOTE_HELP")); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } } /** * * Process the java command. **/ private void processJavaCommand() { Properties prop = new Properties(); String javaAppName = "" ; String classPath = ""; Vector param = new Vector(); if(paramNum_ == 1) { appendOutput(ResourceLoader.getText("REMOTE_JAVA_ERROR")+"\n"); appendOutput("\n"+ResourceLoader.getText("REMOTE_PROMPT")); } else { Vector cmdVector = new Vector(); while(strToken_.hasMoreTokens()) { cmdVector.addElement(strToken_.nextToken()); } int vectorSize = cmdVector.size(); // find the java application int javaIndex = 0; boolean findJavaApp = false; while(javaIndex < vectorSize) { if(!(( String) cmdVector.elementAt(javaIndex)).startsWith("-")) { javaAppName = (String) cmdVector.elementAt(javaIndex); findJavaApp = true; break; } javaIndex += 1; } if(findJavaApp) // java application is found { boolean findError = false; boolean findClassPath = false; boolean findVerbose = false; boolean findProperty = false; int i = 0; while( i < javaIndex) { if(( (String) cmdVector.elementAt(i)).toUpperCase().startsWith("-CLASSPATH")) { if (!findClassPath) // only allow setting classpath one time in one command string { findClassPath = true; String propertyValue = (String) cmdVector.elementAt(i); int index = propertyValue.indexOf("="); // check the format of the classpath if ((index >0)&& ( index +1 < propertyValue.length())) { classPath = propertyValue.substring(index+1); } else { findError = true; break; } } else { findError = true; break; } } else if(( (String) cmdVector.elementAt(i)).toUpperCase().startsWith("-D")) { String tempStr = (String) cmdVector.elementAt(i); String propStr = tempStr.substring(2); StringTokenizer propToken = new StringTokenizer(propStr,"="); if ( propToken.countTokens() >= 2) { String propKey = propToken.nextToken(); String propertyValue = (String) cmdVector.elementAt(i); int index = propertyValue.indexOf("="); String propValue = propertyValue.substring(index+1); prop.put(propKey,propValue); } else { findError = true; break; } findProperty = true; } else if(( (String) cmdVector.elementAt(i)).toUpperCase().startsWith("-VERBOSE")) { if (!findVerbose) { findVerbose = true; } else { findError = true; break; } } else { findError = true; break; } i += 1; } // find the parameters of the java application i = javaIndex + 1; boolean findParam = false; while(( i < vectorSize) && !findError) { findParam = true; param.addElement(cmdVector.elementAt(i)); i += 1; } if(!findError) // No error in the command string. { try { javaAppCall_.setJavaApplication(javaAppName); if (findParam) { String [] paramArray = new String[param.size()]; for(int j=0;j





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