/** Dessine l'icone de la grille */
protected static void drawGrid(Graphics g, int x, int y, Color c) {
g.setColor(c);
for (int i = 0; i < TX.length; i++)
g.drawLine(TX[i][0] + x, TX[i][2] + y, TX[i][1] + x, TX[i][2] + y);
for (int i = 0; i < TY.length; i++)
g.drawLine(TY[i][2] + x, TY[i][0] + y, TY[i][2] + x, TY[i][1] + y);
}
private void drawSquare(Graphics g, int x, int y, Tetrominoes shape) {
int squareWidth = (int) getSize().getWidth() / model.getWidth();
int squareHeight = (int) getSize().getHeight() / model.getHeight();
Color colors[] = {
new Color(0, 0, 0),
new Color(204, 102, 102),
new Color(102, 204, 102),
new Color(102, 102, 204),
new Color(204, 204, 102),
new Color(204, 102, 204),
new Color(102, 204, 204),
new Color(218, 170, 0)
};
Color color = colors[shape.ordinal()];
g.setColor(color);
g.fillRect(x + 1, y + 1, squareWidth - 2, squareHeight - 2);
g.setColor(color.brighter());
g.drawLine(x, y + squareHeight - 1, x, y);
g.drawLine(x, y, x + squareWidth - 1, y);
g.setColor(color.darker());
g.drawLine(x + 1, y + squareHeight - 1, x + squareWidth - 1, y + squareHeight - 1);
g.drawLine(x + squareWidth - 1, y + squareHeight - 1, x + squareWidth - 1, y + 1);
}
private void drawAxes(Graphics g) {
g.drawLine(padding, height, width + padding, height);
g.drawLine(padding, 0, padding, height);
g.drawString("time", padding + width / 2, height + padding - 5);
g.drawString("pop", 5, height / 2);
}
public void paint(Graphics g) {
super.paint(g);
if (!isEditing) return;
Dimension psize = getPreferredSize();
if (isFocused) g.setColor(Color.yellow);
else g.setColor(Color.green);
g.drawLine(0, 0, psize.width, 0);
g.drawLine(0, 0, 0, psize.height);
g.drawLine(0, psize.height - 1, psize.width - 1, psize.height - 1);
g.drawLine(psize.width - 1, 0, psize.width - 1, psize.height - 1);
}
public void paintComponent(Graphics g) {
super.paintComponent(g);
calcSizes();
drawAxes(g);
calcMaxes();
calcTickIncrements();
drawXTicks(g);
drawYTicks(g);
int t = 0;
int prevX = 0, prevY1 = 0, prevY2 = 0;
for (DataPair pair : data) {
int h = pair.getH();
int p = pair.getP();
// calculate where to put the dots
int x = xVal(t, maxT);
int y1 = yVal(h, maxH);
int y2 = yVal(p, maxP);
// draw herbivore dot
g.setColor(Color.BLUE);
g.fillOval(x, y1, 2 * r, 2 * r);
// draw a line connecting this dot to the last
if (prevX != 0) {
g.drawLine(prevX + r, prevY1 + r, x + r, y1 + r);
}
// draw predator dot
g.setColor(Color.RED);
g.fillOval(x, y2, 2 * r, 2 * r);
// draw a line connecting this dot to the last
if (prevX != 0) {
g.drawLine(prevX + r, prevY2 + r, x + r, y2 + r);
}
// remember these dots
prevX = x;
prevY1 = y1;
prevY2 = y2;
g.setColor(Color.BLACK);
t++;
}
}
void drawLine(Graphics g, DrawObject L) {
if (L == null) {
return;
}
if ((sequencingOn) && (L.sequenceNum != currentSequenceNumDisplay)) {
return;
}
Graphics2D g2 = (Graphics2D) g;
g2.setStroke(L.drawStroke);
int x1 = (int) ((L.x - minX) / (maxX - minX) * (D.width - 2 * inset));
int y1 = (int) ((L.y - minY) / (maxY - minY) * (D.height - 2.0 * inset));
int x2 = (int) ((L.x2 - minX) / (maxX - minX) * (D.width - 2 * inset));
int y2 = (int) ((L.y2 - minY) / (maxY - minY) * (D.height - 2.0 * inset));
if (L.isArrow) {
drawArrow(
(Graphics2D) g,
inset + x1,
D.height - y1 - inset,
inset + x2,
D.height - y2 - inset,
1.0f,
L.drawStroke);
} else {
g.drawLine(inset + x1, D.height - y1 - inset, inset + x2, D.height - y2 - inset);
}
}
void displayCharacterMap(Graphics g) {
if (currentChars != null) {
g.setColor(0xffffff);
g.fillRect(0, getHeight() - inputHeight - 2, getWidth(), inputHeight + 2);
g.setColor(0x000000);
g.drawLine(0, getHeight() - inputHeight - 2, getWidth(), getHeight() - inputHeight - 2);
for (int i = 0; i < currentChars.length; i++) {
char ch = currentChars[i];
if (isUppercase) {
ch = String.valueOf(currentChars[i]).toUpperCase().charAt(0);
}
// TODO: if i*12 > getWidth() ?
g.drawChar(ch, i * 12, getHeight() - inputHeight, Graphics.LEFT | Graphics.TOP);
if (currentChars[currentKeyStep] == currentChars[i]) {
g.drawRect(
i * 12 - 2,
getHeight() - inputHeight - 2,
inputFont.charWidth(ch) + 4,
inputHeight + 4);
}
}
}
}
public void showLine(WorldEntity e, Color c) {
Graphics g = getGObject().getEditor().getGraphics();
Point cme = getGObject().getCenter();
Point ce = e.getGObject().getCenter();
g.setColor(c);
g.drawLine(cme.x, cme.y, ce.x, ce.y);
}
private void drawYTicks(Graphics g) {
int hPos = 0;
int pPos = 0;
for (int i = 0; i < yTicks; i++) {
int drawPos = yVal(hPos, maxH) + r;
if (hPos % hInc == 0) {
// draw line
g.setColor(Color.BLACK);
g.drawLine(padding - 10, drawPos, padding, drawPos);
// draw tick values for herbivores
g.setColor(Color.BLUE);
g.drawString("" + hPos, padding - 50, drawPos + r);
// draw tick values for predators
g.setColor(Color.RED);
g.drawString("" + pPos, padding - 50, drawPos + r + 20);
}
hPos += hInc;
pPos += pInc;
}
}
void displayStatus(Graphics g) {
if (statusString != null) {
g.setColor(0xffffff);
g.fillRect(0, getHeight() - inputHeight - 2, getWidth(), inputHeight + 2);
g.setColor(0x000000);
g.drawLine(0, getHeight() - inputHeight - 2, getWidth(), getHeight() - inputHeight - 2);
g.drawString(statusString, 0, getHeight() - inputHeight - 2, Graphics.LEFT | Graphics.TOP);
}
}
private static void drawVerticalLine(Rectangle rStart, Rectangle rEnd, Graphics g) {
if (rStart == null || rEnd == null) return;
int yStart = rStart.y + rStart.height;
int yEnd = rEnd.y + (rEnd.height / 2);
if (yStart < yEnd) {
int xbase = rStart.x + TDHelper.minBoxWidth / 2;
g.drawLine(xbase, yStart, xbase, yEnd);
}
}
void displayCurrentCommand(Graphics g) {
g.setColor(0xffffff);
g.fillRect(0, getHeight() - inputHeight - 2, getWidth(), inputHeight + 2);
g.setColor(0x000000);
g.drawLine(0, getHeight() - inputHeight - 2, getWidth(), getHeight() - inputHeight - 2);
g.drawString(
"Ctrl" + " + " + currentCharCommand,
0,
getHeight() - inputHeight,
Graphics.LEFT | Graphics.TOP);
}
/* (non-Javadoc)
* @see java.awt.print.Printable#print(java.awt.Graphics, java.awt.print.PageFormat, int)
*/
public int print(Graphics g, PageFormat pf, int page) throws PrinterException {
int ret = PAGE_EXISTS;
String line = null;
try {
if (fph.knownPage(page)) {
in.seek(fph.getFileOffset(page));
line = in.readLine();
} else {
long offset = in.getFilePointer();
line = in.readLine();
if (line == null) {
ret = NO_SUCH_PAGE;
} else {
fph.createPage(page);
fph.setFileOffset(page, offset);
}
}
if (ret == PAGE_EXISTS) {
// Seite ausgeben, Grafikkontext vorbereiten
Graphics2D g2 = (Graphics2D) g;
g2.scale(1.0 / RESMUL, 1.0 / RESMUL);
int ypos = (int) pf.getImageableY() * RESMUL;
int xpos = ((int) pf.getImageableX() + 2) * RESMUL;
int yd = 12 * RESMUL;
int ymax = ypos + (int) pf.getImageableHeight() * RESMUL - yd;
// Seitentitel ausgeben
ypos += yd;
g2.setColor(Color.black);
g2.setFont(new Font("Monospaced", Font.BOLD, 10 * RESMUL));
g.drawString(fbname + " Seite " + (page + 1), xpos, ypos);
g.drawLine(
xpos,
ypos + 6 * RESMUL,
xpos + (int) pf.getImageableWidth() * RESMUL,
ypos + 6 * RESMUL);
ypos += 2 * yd;
// Zeilen ausgeben
g2.setColor(new Color(0, 0, 127));
g2.setFont(new Font("Monospaced", Font.PLAIN, 10 * RESMUL));
while (line != null) {
g.drawString(line, xpos, ypos);
ypos += yd;
if (ypos >= ymax) {
break;
}
line = in.readLine();
}
}
} catch (IOException e) {
throw new PrinterException(e.toString());
}
return ret;
}
void displayCursor(Graphics g) {
int x = getCursorX();
int y = getCursorY();
if (x >= 0 && x <= vectorLines.elementAt(y).toString().length()) {
if (isSelected(x, y)) {
g.setColor(0xffffff);
} else {
g.setColor(0x000000);
}
g.drawLine(caretLeft, (y) * inputHeight, caretLeft, (y + 1) * inputHeight);
}
}
void displayScrollBar(Graphics g) {
int x = getCursorX();
int y = getCursorY();
g.setColor(0xffffff);
g.fillRect(getWidth() - 5, 0, 5, getHeight());
g.setColor(0x000000);
g.drawLine(getWidth() - 5, 0, getWidth() - 5, getHeight());
int hScrollMin = inputHeight;
int yScroll = (((linesOnScreen - 1) * y) * inputHeight) / getLinesCount();
g.fillRect(getWidth() - 5, yScroll, 5, hScrollMin);
}
/**
* Draws this polywire on the screen. If a point is not visible (ie. behind the camera) then do
* not attempt to draw the line connecting that point.
*
* <p>Loop thru the list and draw a line connecting each point to the next.
*/
void draw(Graphics g) {
int x1, y1, x2, y2;
if (n <= 1) return;
g.setColor(this.getColor());
for (int i = 0; i < n - 1; i++) {
x1 = (int) ps_[points[i] + 1];
y1 = (int) ps_[points[i] + 2];
x2 = (int) ps_[points[i + 1] + 1];
y2 = (int) ps_[points[i + 1] + 2];
if (visibles[points[i] / 3] && visibles[points[i + 1] / 3]) {
g.drawLine(x1, y1, x2, y2);
}
}
}
public void drawVertArrow(Graphics g, int x1, int y1, int x2, int y2) {
g.drawLine(x1, y1, x2, y2);
int[] axPoints = new int[3];
int[] ayPoints = new int[3];
axPoints[0] = x2;
ayPoints[0] = y2;
axPoints[1] = x2 - 1;
ayPoints[1] = y2 - 2;
axPoints[2] = x2 + 2;
ayPoints[2] = y2 - 2;
g.fillPolygon(axPoints, ayPoints, 3);
}
private void drawXTicks(Graphics g) {
int tPos = 0;
for (int i = 0; i < xTicks; i++) {
int drawPos = xVal(tPos, maxT) + r;
if (tPos % tInc == 0) {
g.setColor(Color.BLACK);
g.drawLine(drawPos, height, drawPos, height + 10);
g.drawString("" + tPos, drawPos, height + 30);
}
tPos += tInc;
}
}
public void paint(Graphics g) {
// double p = 1000;
// double m = 100;
double nr = r / 12;
double b = 0;
int v = 0;
g.setColor(new Color(255, 255, 255));
g.fillRect(0, 0, 500, 300);
g.setColor(new Color(0, 0, 255));
g.drawRect(0, 10, 400, 210);
g.drawLine(0, 50, 400, 50);
g.drawLine(0, 85, 400, 85);
g.drawLine(0, 120, 400, 120);
g.drawLine(0, 155, 400, 155);
g.drawLine(0, 190, 400, 190);
g.setColor(new Color(0, 0, 0));
g.drawString("INITIAL INVESTMENT = $" + p, 20, 50);
g.drawString("MONTHY INVESTMENT = $" + m, 20, 85);
g.drawString("INTEREST RATE = " + r, 20, 120);
g.drawString("YEARS OF INVESTMENT = " + y, 20, 155);
double n = 0;
b = p;
while (n < (y * 12)) {
b = (b * (1 + nr)) + m;
n++;
}
n = 0;
v = (int) b;
g.setColor(new Color(255, 0, 0));
g.drawString("ENDING BALANCE= $" + v, 20, 190);
} // end paint
public static void drawLine(Graphics g, int x1, int y1, int x2, int y2, int lineWidth) {
if (lineWidth == 1) g.drawLine(x1, y1, x2, y2);
else {
double angle;
double halfWidth = ((double) lineWidth) / 2.0;
double deltaX = (double) (x2 - x1);
double deltaY = (double) (y2 - y1);
if (x1 == x2) angle = Math.PI;
else angle = Math.atan(deltaY / deltaX) + Math.PI / 2;
int xOffset = (int) (halfWidth * Math.cos(angle));
int yOffset = (int) (halfWidth * Math.sin(angle));
int[] xCorners = {x1 - xOffset, x2 - xOffset + 1, x2 + xOffset + 1, x1 + xOffset};
int[] yCorners = {y1 - yOffset, y2 - yOffset, y2 + yOffset + 1, y1 + yOffset + 1};
g.fillPolygon(xCorners, yCorners, 4);
}
}
private static void drawBox(
String str, Rectangle r, Color fillColor, Color textColor, Graphics g) {
g.setColor(fillColor);
g.fillRect(r.x, r.y, r.width, r.height);
g.setColor(Color.black);
g.drawRect(r.x, r.y, r.width, r.height);
int xbase = r.x;
int ybase = r.y;
int thisBoxHeight = r.height;
g.drawLine(
xbase - TDHelper.minBoxWidth / 2,
ybase + thisBoxHeight / 2,
xbase,
ybase + thisBoxHeight / 2);
g.setFont(ourFont);
if (str != null) {
g.setColor(textColor);
g.drawString(str, xbase + 3, ybase + thisBoxHeight - TDHelper.descenderPixels);
}
}
/** This internal method begins a new page and prints the header. */
protected void newpage() {
page = job.getGraphics(); // Begin the new page
linenum = 0;
charnum = 0; // Reset line and char number
pagenum++; // Increment page number
page.setFont(headerfont); // Set the header font.
page.drawString(jobname, x0, headery); // Print job name left justified
String s = "- " + pagenum + " -"; // Print the page number centered.
int w = headermetrics.stringWidth(s);
page.drawString(s, x0 + (this.width - w) / 2, headery);
w = headermetrics.stringWidth(time); // Print date right justified
page.drawString(time, x0 + width - w, headery);
// Draw a line beneath the header
int y = headery + headermetrics.getDescent() + 1;
page.drawLine(x0, y, x0 + width, y);
// Set the basic monospaced font for the rest of the page.
page.setFont(font);
}
void drawScribbles(Graphics g) {
if ((scribbles == null) || (scribbles.size() == 0)) {
return;
}
DrawObject L = (DrawObject) scribbles.get(0);
int scribbleCounter = L.scribbleNum;
g.setColor(scribbleColor);
((Graphics2D) g).setStroke(new BasicStroke(2f));
int prevX = L.scribbleX;
int prevY = L.scribbleY;
for (int i = 1; i < scribbles.size(); i++) {
L = (DrawObject) scribbles.get(i);
if (L.scribbleNum == scribbleCounter) {
// Keep drawing.
g.drawLine(prevX, prevY, L.scribbleX, L.scribbleY);
prevX = L.scribbleX;
prevY = L.scribbleY;
} else {
scribbleCounter = L.scribbleNum;
prevX = L.scribbleX;
prevY = L.scribbleY;
}
}
}
@Override
public void paintComponent(Graphics g) {
super.paintComponent(g);
int width = getWidth() - rightMargin - leftMargin - 10;
int height = getHeight() - topMargin - bottomMargin;
if (width <= 0 || height <= 0) {
// not enough room to paint anything
return;
}
Color oldColor = g.getColor();
Font oldFont = g.getFont();
Color fg = getForeground();
Color bg = getBackground();
boolean bgIsLight = (bg.getRed() > 200 && bg.getGreen() > 200 && bg.getBlue() > 200);
((Graphics2D) g)
.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
if (smallFont == null) {
smallFont = oldFont.deriveFont(9.0F);
}
r.x = leftMargin - 5;
r.y = topMargin - 8;
r.width = getWidth() - leftMargin - rightMargin;
r.height = getHeight() - topMargin - bottomMargin + 16;
if (border == null) {
// By setting colors here, we avoid recalculating them
// over and over.
border =
new BevelBorder(
BevelBorder.LOWERED,
getBackground().brighter().brighter(),
getBackground().brighter(),
getBackground().darker().darker(),
getBackground().darker());
}
border.paintBorder(this, g, r.x, r.y, r.width, r.height);
// Fill background color
g.setColor(bgColor);
g.fillRect(r.x + 2, r.y + 2, r.width - 4, r.height - 4);
g.setColor(oldColor);
long tMin = Long.MAX_VALUE;
long tMax = Long.MIN_VALUE;
long vMin = Long.MAX_VALUE;
long vMax = 1;
int w = getWidth() - rightMargin - leftMargin - 10;
int h = getHeight() - topMargin - bottomMargin;
if (times.size > 1) {
tMin = Math.min(tMin, times.time(0));
tMax = Math.max(tMax, times.time(times.size - 1));
}
long viewRangeMS;
if (viewRange > 0) {
viewRangeMS = viewRange * MINUTE;
} else {
// Display full time range, but no less than a minute
viewRangeMS = Math.max(tMax - tMin, 1 * MINUTE);
}
// Calculate min/max values
for (Sequence seq : seqs) {
if (seq.size > 0) {
for (int i = 0; i < seq.size; i++) {
if (seq.size == 1 || times.time(i) >= tMax - viewRangeMS) {
long val = seq.value(i);
if (val > Long.MIN_VALUE) {
vMax = Math.max(vMax, val);
vMin = Math.min(vMin, val);
}
}
}
} else {
vMin = 0L;
}
if (unit == Unit.BYTES || !seq.isPlotted) {
// We'll scale only to the first (main) value set.
// TODO: Use a separate property for this.
break;
}
}
// Normalize scale
vMax = normalizeMax(vMax);
if (vMin > 0) {
if (vMax / vMin > 4) {
vMin = 0;
} else {
vMin = normalizeMin(vMin);
}
}
g.setColor(fg);
// Axes
// Draw vertical axis
int x = leftMargin - 18;
int y = topMargin;
FontMetrics fm = g.getFontMetrics();
g.drawLine(x, y, x, y + h);
int n = 5;
if (("" + vMax).startsWith("2")) {
n = 4;
} else if (("" + vMax).startsWith("3")) {
n = 6;
} else if (("" + vMax).startsWith("4")) {
n = 4;
} else if (("" + vMax).startsWith("6")) {
n = 6;
} else if (("" + vMax).startsWith("7")) {
n = 7;
} else if (("" + vMax).startsWith("8")) {
n = 8;
} else if (("" + vMax).startsWith("9")) {
n = 3;
}
// Ticks
ArrayList<Long> tickValues = new ArrayList<Long>();
tickValues.add(vMin);
for (int i = 0; i < n; i++) {
long v = i * vMax / n;
if (v > vMin) {
tickValues.add(v);
}
}
tickValues.add(vMax);
n = tickValues.size();
String[] tickStrings = new String[n];
for (int i = 0; i < n; i++) {
long v = tickValues.get(i);
tickStrings[i] = getSizeString(v, vMax);
}
// Trim trailing decimal zeroes.
if (decimals > 0) {
boolean trimLast = true;
boolean removedDecimalPoint = false;
do {
for (String str : tickStrings) {
if (!(str.endsWith("0") || str.endsWith("."))) {
trimLast = false;
break;
}
}
if (trimLast) {
if (tickStrings[0].endsWith(".")) {
removedDecimalPoint = true;
}
for (int i = 0; i < n; i++) {
String str = tickStrings[i];
tickStrings[i] = str.substring(0, str.length() - 1);
}
}
} while (trimLast && !removedDecimalPoint);
}
// Draw ticks
int lastY = Integer.MAX_VALUE;
for (int i = 0; i < n; i++) {
long v = tickValues.get(i);
y = topMargin + h - (int) (h * (v - vMin) / (vMax - vMin));
g.drawLine(x - 2, y, x + 2, y);
String s = tickStrings[i];
if (unit == Unit.PERCENT) {
s += "%";
}
int sx = x - 6 - fm.stringWidth(s);
if (y < lastY - 13) {
if (checkLeftMargin(sx)) {
// Wait for next repaint
return;
}
g.drawString(s, sx, y + 4);
}
// Draw horizontal grid line
g.setColor(Color.lightGray);
g.drawLine(r.x + 4, y, r.x + r.width - 4, y);
g.setColor(fg);
lastY = y;
}
// Draw horizontal axis
x = leftMargin;
y = topMargin + h + 15;
g.drawLine(x, y, x + w, y);
long t1 = tMax;
if (t1 <= 0L) {
// No data yet, so draw current time
t1 = System.currentTimeMillis();
}
long tz = timeDF.getTimeZone().getOffset(t1);
long tickInterval = calculateTickInterval(w, 40, viewRangeMS);
if (tickInterval > 3 * HOUR) {
tickInterval = calculateTickInterval(w, 80, viewRangeMS);
}
long t0 = tickInterval - (t1 - viewRangeMS + tz) % tickInterval;
while (t0 < viewRangeMS) {
x = leftMargin + (int) (w * t0 / viewRangeMS);
g.drawLine(x, y - 2, x, y + 2);
long t = t1 - viewRangeMS + t0;
String str = formatClockTime(t);
g.drawString(str, x, y + 16);
// if (tickInterval > (1 * HOUR) && t % (1 * DAY) == 0) {
if ((t + tz) % (1 * DAY) == 0) {
str = formatDate(t);
g.drawString(str, x, y + 27);
}
// Draw vertical grid line
g.setColor(Color.lightGray);
g.drawLine(x, topMargin, x, topMargin + h);
g.setColor(fg);
t0 += tickInterval;
}
// Plot values
int start = 0;
int nValues = 0;
int nLists = seqs.size();
if (nLists > 0) {
nValues = seqs.get(0).size;
}
if (nValues == 0) {
g.setColor(oldColor);
return;
} else {
Sequence seq = seqs.get(0);
// Find starting point
for (int p = 0; p < seq.size; p++) {
if (times.time(p) >= tMax - viewRangeMS) {
start = p;
break;
}
}
}
// Optimization: collapse plot of more than four values per pixel
int pointsPerPixel = (nValues - start) / w;
if (pointsPerPixel < 4) {
pointsPerPixel = 1;
}
// Draw graphs
// Loop backwards over sequences because the first needs to be painted on top
for (int i = nLists - 1; i >= 0; i--) {
int x0 = leftMargin;
int y0 = topMargin + h + 1;
Sequence seq = seqs.get(i);
if (seq.isPlotted && seq.size > 0) {
// Paint twice, with white and with color
for (int pass = 0; pass < 2; pass++) {
g.setColor((pass == 0) ? Color.white : seq.color);
int x1 = -1;
long v1 = -1;
for (int p = start; p < nValues; p += pointsPerPixel) {
// Make sure we get the last value
if (pointsPerPixel > 1 && p >= nValues - pointsPerPixel) {
p = nValues - 1;
}
int x2 = (int) (w * (times.time(p) - (t1 - viewRangeMS)) / viewRangeMS);
long v2 = seq.value(p);
if (v2 >= vMin && v2 <= vMax) {
int y2 = (int) (h * (v2 - vMin) / (vMax - vMin));
if (x1 >= 0 && v1 >= vMin && v1 <= vMax) {
int y1 = (int) (h * (v1 - vMin) / (vMax - vMin));
if (y1 == y2) {
// fillrect is much faster
g.fillRect(x0 + x1, y0 - y1 - pass, x2 - x1, 1);
} else {
Graphics2D g2d = (Graphics2D) g;
Stroke oldStroke = null;
if (seq.transitionStroke != null) {
oldStroke = g2d.getStroke();
g2d.setStroke(seq.transitionStroke);
}
g.drawLine(x0 + x1, y0 - y1 - pass, x0 + x2, y0 - y2 - pass);
if (oldStroke != null) {
g2d.setStroke(oldStroke);
}
}
}
}
x1 = x2;
v1 = v2;
}
}
// Current value
long v = seq.value(seq.size - 1);
if (v >= vMin && v <= vMax) {
if (bgIsLight) {
g.setColor(seq.color);
} else {
g.setColor(fg);
}
x = r.x + r.width + 2;
y = topMargin + h - (int) (h * (v - vMin) / (vMax - vMin));
// a small triangle/arrow
g.fillPolygon(new int[] {x + 2, x + 6, x + 6}, new int[] {y, y + 3, y - 3}, 3);
}
g.setColor(fg);
}
}
int[] valueStringSlots = new int[nLists];
for (int i = 0; i < nLists; i++) valueStringSlots[i] = -1;
for (int i = 0; i < nLists; i++) {
Sequence seq = seqs.get(i);
if (seq.isPlotted && seq.size > 0) {
// Draw current value
// TODO: collapse values if pointsPerPixel >= 4
long v = seq.value(seq.size - 1);
if (v >= vMin && v <= vMax) {
x = r.x + r.width + 2;
y = topMargin + h - (int) (h * (v - vMin) / (vMax - vMin));
int y2 = getValueStringSlot(valueStringSlots, y, 2 * 10, i);
g.setFont(smallFont);
if (bgIsLight) {
g.setColor(seq.color);
} else {
g.setColor(fg);
}
String curValue = getFormattedValue(v, true);
if (unit == Unit.PERCENT) {
curValue += "%";
}
int valWidth = fm.stringWidth(curValue);
String legend = (displayLegend ? seq.name : "");
int legendWidth = fm.stringWidth(legend);
if (checkRightMargin(valWidth) || checkRightMargin(legendWidth)) {
// Wait for next repaint
return;
}
g.drawString(legend, x + 17, Math.min(topMargin + h, y2 + 3 - 10));
g.drawString(curValue, x + 17, Math.min(topMargin + h + 10, y2 + 3));
// Maybe draw a short line to value
if (y2 > y + 3) {
g.drawLine(x + 9, y + 2, x + 14, y2);
} else if (y2 < y - 3) {
g.drawLine(x + 9, y - 2, x + 14, y2);
}
}
g.setFont(oldFont);
g.setColor(fg);
}
}
g.setColor(oldColor);
}
public void drawHexBoard(Graphics g) {
g.setColor(Color.BLACK);
double mx1, mx2, mx3, mx4, my1, my2, my3, my4; // Margin attributes
mx1 = data.a[0][0].x - bst.scale * (r3 / 2 + 0.5);
mx2 = data.a[0][bst.getOrder() - 1].x + bst.scale * (r3 + 1);
mx3 = data.a[bst.getOrder() - 1][0].x - bst.scale * (r3 + 1);
mx4 = data.a[bst.getOrder() - 1][bst.getOrder() - 1].x + bst.scale * (r3 / 2 + 0.5);
my1 = data.a[0][0].y - bst.scale * 1.5;
my2 = data.a[0][bst.getOrder() - 1].y - bst.scale * 1.5;
my3 = data.a[bst.getOrder() - 1][0].y + bst.scale * 1.5;
my4 = data.a[bst.getOrder() - 1][bst.getOrder() - 1].y + bst.scale * 1.5;
g.fillPolygon(
getIntArray(new double[] {mx1, mx2, mx4, mx3}),
getIntArray(new double[] {my1, my2, my4, my3}),
4);
switch (gst.theme) {
case 0:
g.setColor(Color.RED);
break;
case 1:
g.setColor(Color.BLACK);
break;
case 2:
g.setColor(Color.YELLOW);
break;
}
g.fillPolygon(
getIntArray(new double[] {mx1 + 1, mx3 + 1, (mx2 + mx3) / 2}),
getIntArray(new double[] {my1 + 1, my3 - 1, (my2 + my3) / 2}),
3);
g.fillPolygon(
getIntArray(new double[] {mx2 - 1, mx4 - 1, (mx2 + mx3) / 2}),
getIntArray(new double[] {my2 + 1, my4 - 1, (my2 + my3) / 2}),
3);
switch (gst.theme) {
case 0:
g.setColor(Color.BLUE);
break;
case 1:
g.setColor(new Color(1, 175, 1));
break;
case 2:
g.setColor(Color.lightGray);
}
g.fillPolygon(
getIntArray(new double[] {mx1 + 1, mx2 - 1, (mx2 + mx3) / 2}),
getIntArray(new double[] {my1 + 1, my2 + 1, (my2 + my3) / 2}),
3);
g.fillPolygon(
getIntArray(new double[] {mx3 + 1, mx4 - 1, (mx2 + mx3) / 2}),
getIntArray(new double[] {my3 - 1, my4 - 1, (my2 + my3) / 2}),
3);
for (int i = 0; i < bst.getOrder(); i++)
for (int j = 0; j < bst.getOrder(); j++) {
g.setColor(Color.BLACK);
g.fillPolygon(getIntArray(data.a[i][j].polyX), getIntArray(data.a[i][j].polyY), 6);
g.setColor(Color.WHITE);
g.fillPolygon(getIntArray(data.a[i][j].polyXIn()), getIntArray(data.a[i][j].polyYIn()), 6);
g.setColor(Color.BLACK);
double x = data.a[i][j].x, y = data.a[i][j].y;
g.drawLine((int) x, (int) y, (int) x + 1, (int) y + 1);
circle(g, x, y, data.a[i][j].getState());
}
if (ptm == null) return;
if (ptm.length == 0) return;
for (int i = 0; i < ptm.length; i++) {
g.setColor(Color.YELLOW);
g.fillPolygon(
getIntArray(data.a[ptm[i][0]][ptm[i][1]].polyXIn()),
getIntArray(data.a[ptm[i][0]][ptm[i][1]].polyYIn()),
6);
g.setColor(Color.BLACK);
double x = data.a[ptm[i][0]][ptm[i][1]].x, y = data.a[ptm[i][0]][ptm[i][1]].y;
circle(g, x, y, data.a[ptm[i][0]][ptm[i][1]].getState());
}
}
public void paintComponent(Graphics g) {
// We request keyboard focus out here so that we can catch events for locking zoom, etc.
requestFocus();
// 3 Images are painted each time. The reason we use images rather than directly drawing
// onto the graphics context is that the drawings of one image can be taking place
// concurrently with the other using threads into offscreen graphic contexts assoc.
// with the respective images. While printing we do the opposite
if (setupComplete && currImg != null) {
int prevH = getPrev(currImg.imgIdH);
int nextH = getNext(currImg.imgIdH);
if (blFlag || !timer.isRunning()) {
img[prevH].paintStuff1(0, g, this);
currImg.paintStuff1(_xPix, g, this);
img[nextH].paintStuff1(_xPix + _xPix, g, this);
/*g.drawImage (img [prevH].img, 0, 0, this);
g.drawImage (img [prevH].timeimg, 0, _yPix, this);
g.drawImage (currImg.img, _xPix, 0, this);
g.drawImage (currImg.timeimg, _xPix, _yPix, this);
g.drawImage (img [nextH].img, _xPix + _xPix, 0, this);
g.drawImage (img [nextH].timeimg, _xPix + _xPix, _yPix, this);*/
} else {
img[prevH].paintStuff2(0, g, this);
currImg.paintStuff2(_xPix, g, this);
img[nextH].paintStuff2(_xPix + _xPix, g, this);
/*g.drawImage (img [prevH].img1, 0, 0, this);
g.drawImage (img [prevH].timeimg, 0, _yPix, this);
g.drawImage (currImg.img1, _xPix, 0, this);
g.drawImage (currImg.timeimg, _xPix, _yPix, this);
g.drawImage (img [nextH].img1, _xPix + _xPix, 0, this);
g.drawImage (img [nextH].timeimg, _xPix + _xPix, _yPix, this);*/
}
}
if (zoomLkLineDispStatus && zXTime >= begTime && zXTime <= endTime) {
int xcord = panePosX + getEvtXCord(zXTime - begTime);
g.setColor(Color.white);
g.drawLine(xcord, 0, xcord, _yPix);
g.fillRect(xcord, _yPix - lineSize, zLockStrW + 2, lineSize);
g.setColor(Color.black);
g.drawRect(xcord, _yPix - lineSize, zLockStrW + 1, lineSize - 1);
g.setColor(Color.red);
g.drawString("Zoom Lock", xcord + 1, _yPix - fDescent);
}
if (elTLineDispStatus && elapsedPoint >= begTime && elapsedPoint <= endTime) {
int xcord = panePosX + getEvtXCord(elapsedPoint - begTime);
g.setColor(Color.white);
g.drawLine(xcord, 0, xcord, _yPix);
g.fillRect(xcord, _yPix - lineSize, elTimeStrW + 2, lineSize);
g.setColor(Color.black);
g.drawRect(xcord, _yPix - lineSize, elTimeStrW + 1, lineSize - 1);
g.setColor(Color.red);
g.drawString("Elapsed Time", xcord + 1, _yPix - fDescent);
}
}
void drawEqnLine(Graphics g, DrawObject L) {
if (L == null) {
return;
}
if ((sequencingOn) && (L.sequenceNum != currentSequenceNumDisplay)) {
return;
}
// First, special cases:
if ((L.a == 0) && (L.b == 0)) {
return;
}
double px = 0, py = 0, qx = 0, qy = 0;
double leftX = px, rightX = qx, leftY = py, rightY = qy;
if (L.a == 0) {
// Case 2: a=0 => horizontal line.
leftX = minX;
rightX = maxX;
py = -L.c / L.b;
qy = -L.c / L.b;
if ((py < minY) || (py > maxY)) {
// Cannot display.
return;
}
leftY = rightY = py;
} else if (L.b == 0) {
// Case 3: b=0 => vertical line.
leftX = -L.c / L.a;
rightX = -L.c / L.a;
leftY = minY;
rightY = maxY;
if ((leftX < minX) || (leftX > maxX)) {
return;
}
} else {
// Case 4: regular.
// Note: the line could intersect the drawable region in weird ways.
px = (-L.c - L.b * minY) / L.a;
qx = (-L.c - L.b * maxY) / L.a;
py = (-L.c - L.a * minX) / L.b;
qy = (-L.c - L.a * maxX) / L.b;
// System.out.println ("px=" + px + " qx=" + qx + " py=" + py + " qy=" + qy);
// Find leftmost point to draw.
if ((py >= minY) && (py <= maxY)) {
// Leftmost point is on the x=minX line.
leftX = minX;
leftY = py;
// System.out.println ("case(a): leftmost on minX-line");
} else {
// Leftmost point is not on the x=minX line.
// Find leftmost point intersecting with low or high
if (px < qx) {
leftX = px;
leftY = minY;
// System.out.println ("case(a.1): on minY-line");
} else {
leftX = qx;
leftY = maxY;
// System.out.println ("case(a.2): on maxY-line");
}
}
// Now find rightmost point.
if ((qy >= minY) && (qy <= maxY)) {
// Rightmost point is on the x=maxX line.
rightX = maxX;
rightY = qy;
// System.out.println ("case(b): rightmost on maxX-line");
} else {
if (px > qx) {
rightX = px;
rightY = minY;
// System.out.println ("case(b.1): rightmost on minY-line");
} else {
rightX = qx;
rightY = maxY;
// System.out.println ("case(b.1): rightmost on maxY-line");
}
}
}
// System.out.println ("left:(" + leftX + "," + leftY + ") right:(" + rightX + "," + rightY +
// ")");
int x1 = (int) ((leftX - minX) / (maxX - minX) * (D.width - 2 * inset));
int y1 = (int) ((leftY - minY) / (maxY - minY) * (D.height - 2.0 * inset));
int x2 = (int) ((rightX - minX) / (maxX - minX) * (D.width - 2 * inset));
int y2 = (int) ((rightY - minY) / (maxY - minY) * (D.height - 2.0 * inset));
Graphics2D g2 = (Graphics2D) g;
g2.setStroke(L.drawStroke);
g.drawLine(inset + x1, D.height - y1 - inset, inset + x2, D.height - y2 - inset);
}
/** Dessine l'icone d'un SED */
protected static void drawSED(Graphics g, int x, int y, Color c) {
g.setColor(c);
for (int i = 0; i < SY2.length; i++)
g.drawLine(SY2[i][0] + x, SY2[i][2] + y, SY2[i][1] + x, SY2[i][2] + y);
}
public void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2d = (Graphics2D) g;
RenderingHints rh = g2d.getRenderingHints();
rh.put(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
rh.put(RenderingHints.KEY_RENDERING, RenderingHints.VALUE_RENDER_QUALITY);
g2d.setRenderingHints(rh);
// Background.
D = this.getSize();
g.setColor(backgroundColor);
g.fillRect(0, 0, D.width, D.height);
Graphics2D g2 = (Graphics2D) g;
g2.setStroke(lineStroke);
// Axes, bounding box.
g.setColor(Color.gray);
g.drawLine(inset, D.height - inset, D.width - inset, D.height - inset);
g.drawLine(D.width - inset, inset, D.width - inset, D.height - inset);
g.drawLine(inset, inset, inset, D.height - inset);
g.drawLine(inset, inset, D.width - inset, inset);
double xDelta = (maxX - minX) / numIntervals;
// X-ticks and labels.
for (int i = 1; i <= numIntervals; i++) {
double xTickd = i * xDelta;
int xTick = (int) (xTickd / (maxX - minX) * (D.width - 2 * inset));
g.drawLine(inset + xTick, D.height - inset - 5, inset + xTick, D.height - inset + 5);
double x = minX + i * xDelta;
g.drawString(df.format(x), xTick + inset - 5, D.height - inset + 20);
}
// Y-ticks
double yDelta = (maxY - minY) / numIntervals;
for (int i = 0; i < numIntervals; i++) {
int yTick = (i + 1) * (int) ((D.height - 2 * inset) / (double) numIntervals);
g.drawLine(inset - 5, D.height - yTick - inset, inset + 5, D.height - yTick - inset);
double y = minY + (i + 1) * yDelta;
g.drawString(df.format(y), 1, D.height - yTick - inset);
}
// Zoom+move
Font savedFont = g.getFont();
g.setFont(plusFont);
g.drawString("+", D.width - 25, 20);
g.setFont(minusFont);
g.drawString("-", D.width - 25, 50);
drawArrow(g2d, D.width - 70, 20, D.width - 70, 0, 1.0f, lineStroke); // Up
drawArrow(g2d, D.width - 70, 30, D.width - 70, 50, 1.0f, lineStroke); // Down
drawArrow(g2d, D.width - 65, 25, D.width - 45, 25, 1.0f, lineStroke); // Right
drawArrow(g2d, D.width - 75, 25, D.width - 95, 25, 1.0f, lineStroke); // Left
g.setFont(savedFont);
// See if standard axes are in the middle.
g.setColor(Color.gray);
if ((minX < 0) && (maxX > 0) && (drawMiddleAxes)) {
// Draw y-axis
int x = (int) ((0 - minX) / (maxX - minX) * (D.width - 2 * inset));
g.drawLine(inset + x, D.height - inset, inset + x, inset);
}
if ((minY < 0) && (maxY > 0) && (drawMiddleAxes)) {
// Draw x-axis
int y = (int) ((0 - minY) / (maxY - minY) * (D.height - 2.0 * inset));
g.drawLine(inset, D.height - y - inset, D.width - inset, D.height - y - inset);
}
// Draw the objects.
drawObjects(g, points, lines, ovals, rectangles, images, labels, eqnLines);
if (animationMode) {
drawObjects(g, animPoints, animLines, animOvals, animRectangles, null, labels, eqnLines);
// No images in animation mode.
}
drawScribbles(g);
}
public void paint(Graphics g) {
path = findOptimizedPath(srcID, dstID, type);
/// Create the drawing board
Dimension d = getSize();
g.setColor(Color.white);
g.fillRect(1, 1, d.width - 2, d.height - 2);
g.setColor(Color.black);
g.drawRect(1, 1, d.width - 2, d.height - 2);
g.setFont(serifFont);
/// Draw the whole network, including all routers with
/// delay and flow level, sources and destinations.
int numR = 1;
int w = 95;
int h = d.height / 5;
int pos = -1;
for (int i = 0; i < 3; i++) {
g.drawOval(w, h + 100 * i, 40, 40);
g.drawString("S" + String.valueOf(i + 1), w + 13, h + 100 * i - 5);
}
for (int i = 0; i < 3; i++) {
pos++;
Router temp = statMux.getRouter(pos);
g.drawOval(w + 110, h + 100 * i, 40, 40);
g.drawString("R" + String.valueOf(numR++), w + 123, h + 100 * i - 5);
g.drawString(
String.valueOf(temp.getDelay() * temp.getPriority(type) + temp.getFlowLevel()),
w + 125,
h + 100 * i + 15);
g.drawString(String.valueOf(temp.getFlowLevel()), w + 125, h + 100 * i + 35);
}
h = d.height / 11;
for (int i = 0; i < 4; i++) {
pos++;
Router temp = statMux.getRouter(pos);
g.drawOval(w + 210, h + 100 * i, 40, 40);
g.drawString("R" + String.valueOf(numR++), w + 223, h + 100 * i - 5);
g.drawString(
String.valueOf(temp.getDelay() * temp.getPriority(type) + temp.getFlowLevel()),
w + 225,
h + 100 * i + 15);
g.drawString(String.valueOf(temp.getFlowLevel()), w + 225, h + 100 * i + 35);
}
h = 20;
for (int i = 0; i < 6; i++) {
pos++;
Router temp = statMux.getRouter(pos);
g.drawOval(w + 310, h + 80 * i, 40, 40);
g.drawString("R" + String.valueOf(numR++), w + 320, h + 80 * i - 5);
g.drawString(
String.valueOf(temp.getDelay() * temp.getPriority(type) + temp.getFlowLevel()),
w + 325,
h + 80 * i + 15);
g.drawString(String.valueOf(temp.getFlowLevel()), w + 325, h + 80 * i + 35);
}
for (int i = 0; i < 4; i++) {
g.drawOval(w + 410, d.height / 11 + 100 * i, 40, 40);
g.drawString("D" + String.valueOf(i + 1), w + 423, d.height / 11 + 100 * i - 5);
}
g.setColor(Color.black);
int[][] connection = statMux.getConnections();
/// Check buffer for connections at each step and draw links at layer1
for (int i = 0; i < connection[path[0] - 1].length; i++) {
int temp = connection[path[0] - 1][i] - 3;
g.drawLine(w + 40, (path[0]) * d.height / 5 + 20, w + 110, temp * d.height / 5 + 20);
}
/// Check buffer for connections at each step and draw links at layer2
for (int i = 0; i < connection[path[1] - 1].length; i++) {
int temp = connection[path[1] - 1][i] - 7;
g.drawLine(
w + 150, (path[1] - 3) * d.height / 5 + 20, w + 210, (d.height / 11) + 100 * temp + 20);
}
/// Check buffer for connections at each step and draw links at layer3
for (int i = 0; i < connection[path[2] - 1].length; i++) {
int temp = connection[path[2] - 1][i] - 11;
g.drawLine(w + 250, (d.height / 11) + 100 * (path[2] - 7) + 20, w + 310, 80 * temp + 40);
}
/// Draw optimized path for packets traveling between source
/// and destination
h = d.height / 5;
Graphics2D g2 = (Graphics2D) g;
g2.setStroke(new BasicStroke(2));
g2.setColor(Color.red);
g2.drawLine(w + 40, h * (path[0]) + 20, w + 110, h * (path[1] - 3) + 20);
g2.drawLine(
w + 150, h * (path[1] - 3) + 20, w + 210, (d.height / 11) + 100 * (path[2] - 7) + 20);
g2.drawLine(
w + 250, (d.height / 11) + 100 * (path[2] - 7) + 20, w + 310, 80 * (path[3] - 11) + 40);
g2.drawLine(
w + 350, 80 * (path[3] - 11) + 40, w + 410, (d.height / 11) + 100 * (path[4] - 17) + 20);
/// Calculate and display loss, delay, and throughput
delayTime = getDelay(path, type);
throughPut = getThroughput(path);
int numPackLost = getLossRate(numTransfer);
lossRate = numPackLost / 100000.0 + 0.0005 * delayTime;
delayVal.setText(String.format("%.2f", delayTime));
throuVal.setText(String.valueOf(throughPut));
lossVal.setText(String.format("%.4f", lossRate));
}
