// About.java
/* A Java class for
 * LineImpedance.java
 * Electromagnetic Transmission Line Applet
 * Applet without Smith Chart - Prepared by Umberto Ravaioli 
 * for 6th edition of Fundamentals of Applied Electromagnetics Book
 * May 2009 - All Rights Reserved
 */   

import java.awt.*;
import java.awt.image.BufferedImage;
import java.io.IOException;
import javax.imageio.ImageIO;

public class Instructions extends Panel {    
    private static final Color bgcolor = new Color(255,255,245);
    public TextField epsilon;
    private Paint paint;
    
    private Image im;
    private Graphics buf;
    //Mod1State state;
    public Button bupdate;
    Polarization_State state;
    
    private BufferedImage bullet;
    
    public Instructions(Polarization_State state){
	super();
        this.state = state;	
        setLayout(null);
	
	getImages();
	setBackground(bgcolor);
	bupdate = new Button("CLOSE");
        bupdate.setBackground(new Color(240,240,255));
        bupdate.setFont(new Font("SanSerif",Font.PLAIN,state.font11));
	add(bupdate);
        
        int buttonx = state.s400+state.s50;
        int buttony = state.s350;

        int buttonwide = state.s70;
        int buttonheight = state.s27;
        
        bupdate.setBounds(buttonx,buttony,buttonwide,buttonheight);	
        Panel ps7 = new Panel();
	    ps7.setBackground(Color.lightGray);
	    add(ps7);
	    ps7.setBounds(buttonx-1,buttony-1,buttonwide+2,buttonheight+2);
	    
	Panel ps8 = new Panel();
	    ps8.setBackground(Color.black);
	    add(ps8);
	    ps8.setBounds(buttonx-2,buttony-2,buttonwide+4,buttonheight+4);	
    }


    private void getImages() {
        // read in the bullet image, because CHEERPJ does not render this
	//  symbol in any font!  (java to javascript converter)
        try {
            //bullet = ImageIO.read(getClass().getResource("bullet.png"));
	    BufferedImage img =
		ImageIO.read(getClass().getResource("bullet.png"));
	    int targetWidth = (int) (state.sfactor * img.getWidth());
	    int targetHeight = (int) (state.sfactor * img.getHeight());
	    bullet =
		new BufferedImage(targetWidth, targetHeight, BufferedImage.TYPE_INT_RGB);
	    Graphics2D graphics2D = bullet.createGraphics();
	    graphics2D.setRenderingHint(RenderingHints.KEY_INTERPOLATION,
					RenderingHints.VALUE_INTERPOLATION_BILINEAR);
	    graphics2D.drawImage(img, 0, 0, targetWidth, targetHeight, 0, 0,
				 img.getWidth(), img.getHeight(), null);
	    graphics2D.dispose();

        } catch (IOException e) {
            e.printStackTrace();
        }
    }
    
    public void paint(Graphics g){
            
	    if(im == null){
		im = createImage(getSize().width,getSize().height);
		buf = im.getGraphics();
		drawCanvas(buf);
	    }
	    else{
		drawCanvas(buf);
	    }
	    g.drawImage(im,0,0,null);
    }
	
	//Addition to reduce flicker new routine
    public void update(Graphics g){		// added to avoid clearing
            paint(g);
    }
    
    public void clear(){
	    this.getGraphics().clearRect(0,0,getSize().width,getSize().height);
	    repaint();
    }
    
    public void drawCanvas(Graphics g){
        FontMetrics fm;
        Graphics2D g2d = (Graphics2D)g;
        g2d.setRenderingHint(RenderingHints.KEY_ANTIALIASING,
                             RenderingHints.VALUE_ANTIALIAS_ON);        
        g.clearRect(0,0,getSize().width-1,getSize().height-1);

        //g.setFont(font_one);
        //fm = g.getFontMetrics();

        //boolean saveOldFlag = MaestroG.useBiggerFont;
        //MaestroG.useBiggerFont = false;
        
        g.setColor(Color.black);
        g.drawRect(0,0,getSize().width-1,getSize().height-1);
        
        g.setFont(new Font("SanSerif",Font.BOLD,state.font14));
        g.drawString("Instructions", state.s15,state.s25);
        
        g.setFont(new Font("SanSerif",Font.PLAIN,state.font12));
        g.drawString("This module focuses on the shape of the polarization "+
                    "ellipse (or line or circle) traced",state.s15,state.s50);
        String s = "by "+STR.BOLD+"E"+STR.ENDBOLD+" in the x-y plane "+
            "for a wave traveling in the z-direction.";
        int nextX = STR.displayString(s,g,state.s15,state.s70);
        
        g.setColor(Color.red);
        g.setFont(new Font("SanSerif",Font.BOLD,state.font13));
        g.drawString("Input Parameters", state.s15,state.s110);
        g.setColor(Color.black);
        
        g.setFont(new Font("SanSerif",Font.PLAIN,state.font12));
        int deltaY = state.s20;
        //INPUT
        //s = "\u2022 Magnitude and phase of E"+STR.SUB+"x"+STR.ENDSUB;
        //nextX = STR.displayString(s,g,state.s15,state.s130);
	g.drawImage(bullet,state.s15,state.s130-bullet.getHeight(),this);
        s = " Magnitude and phase of E"+STR.SUB+"x"+STR.ENDSUB;
        nextX = STR.displayString(s,g,state.s15+bullet.getWidth(),state.s130);
	
        //s = "\u2022 Magnitude and phase of E"+STR.SUB+"y"+STR.ENDSUB;
        //nextX = STR.displayString(s,g,state.s15,state.s130+deltaY);
	g.drawImage(bullet,state.s15,state.s130+deltaY-bullet.getHeight(),this);
        s = " Magnitude and phase of E"+STR.SUB+"y"+STR.ENDSUB;
        nextX = STR.displayString(s,g,state.s15+bullet.getWidth(),state.s130+deltaY);
	
       //OUTPUT
        g.setColor(Color.red);
        //g.setFont(state.ttfFont.deriveFont(Font.BOLD,15f));
        
        g.setFont(new Font("SanSerif",Font.BOLD,state.font13));
        int newY = state.s130+3*deltaY+state.s40;
        g.drawString("Displayed Information", state.s15,newY);
        g.setColor(Color.black);
        
        g.setFont(new Font("SanSerif",Font.PLAIN,state.font12));
        newY += state.s20;
        //s = "\u2022 Temporal variations of "+STR.BOLD+"E"+
        //    STR.ENDBOLD+" in the x-y plane";
        //nextX = STR.displayString(s,g,state.s15,newY);
	g.drawImage(bullet,state.s15,newY-bullet.getHeight(),this);
        s = " Temporal variations of "+STR.BOLD+"E"+
            STR.ENDBOLD+" in the x-y plane";
        nextX = STR.displayString(s,g,state.s15+bullet.getWidth(),newY);	
	
        //s = "\u2022 Polarization state";
        //nextX = STR.displayString(s,g,state.s15,newY+deltaY);
	g.drawImage(bullet,state.s15,newY+deltaY-bullet.getHeight(),this);
        s = " Polarization state";
        nextX = STR.displayString(s,g,state.s15+bullet.getWidth(),newY+deltaY);

        //s = "\u2022 Trace of polarization ellipse (or line or circle)";
        //nextX = STR.displayString(s,g,state.s15,newY+2*deltaY);
	g.drawImage(bullet,state.s15,newY+2*deltaY-bullet.getHeight(),this);
        s = " Trace of polarization ellipse (or line or circle)";
        nextX = STR.displayString(s,g,state.s15+bullet.getWidth(),newY+2*deltaY);

        drawCopyRight(g);

        //MaestroG.useBiggerFont = saveOldFlag;
    }


    public void drawCopyRight(Graphics g) {
        int deltaY = state.s20;
        int startingY = getSize().height - state.s70;
        int startingX = 0;
        FontMetrics fm;
        g.setColor(Color.black);
        g.setColor(Color.black);
        g.setFont(new Font("SanSerif",Font.PLAIN,state.font12));
        fm = g.getFontMetrics();
        g.drawString("Applet Design: Umberto Ravaioli",
                     startingX+state.s15,startingY+deltaY);
        
        String s = "Interactive Java"+STR.SUP+"TM"+STR.ENDSUP+
            " platform:  www.amanogawa.com";
        int nextX = STR.displayString(s,g,startingX+state.s15,startingY+2*deltaY);
        int lineLength = fm.stringWidth("Interactive JavaTM platform:  www.amanogawa.com");
        lineLength+= state.s10;

        g.drawString("All Rights Reserved",startingX+state.s15,startingY+3*deltaY);
        g.drawLine(startingX,startingY,
                   startingX+lineLength+state.s25,startingY);
        g.drawLine(startingX+lineLength+state.s25,startingY,
                   startingX+lineLength+state.s25,startingY+4*deltaY);
    }

//----------------------------------------------------------------------------------------    
}//End