public void display() {
PImage img = kinect.getDepthImage();
// PImage img = kinect.getVideoImage();
// Being overly cautious here
if (depth == null || img == null) return;
// Going to rewrite the depth image to show which pixels are in threshold
// A lot of this is redundant, but this is just for demonstration purposes
display.loadPixels();
for (int x = 0; x < kw; x++) {
for (int y = 0; y < kh; y++) {
// mirroring image
int offset = kw - x - 1 + y * kw;
// Raw depth
int rawDepth = depth[offset];
int pix = x + y * display.width;
if (rawDepth < threshold) {
// A red color instead
display.pixels[pix] = p.color(150, 50, 50);
} else {
display.pixels[pix] = img.pixels[offset];
}
}
}
display.updatePixels();
// Draw the image
p.image(display, 0, 0);
}
/**
* helper function to load the large pixelinvaders logo
*
* @return
*/
public static Image createLargeIcon() {
PImage img = Collector.getInstance().getPapplet().loadImage("pics/logoBig.jpg");
if (img != null) {
return img.getImage();
}
img = new PImage(400, 400);
return img.getImage();
}
/**
* helper function to load the large pixelinvaders logo
*
* @return
*/
public static Image createLargeIcon(PApplet papplet) {
PImage img = papplet.loadImage("pics/logoBig.jpg");
if (img != null) {
return img.getImage();
}
LOG.log(Level.WARNING, "failed to load icon image!");
img = new PImage(400, 400);
return img.getImage();
}
public void getOverviewShut() {
updatePixels();
int[] buffer = new int[pixels.length];
System.arraycopy(pixels, 0, buffer, 0, pixels.length);
overviewImage = new PImage(width, height);
overviewImage.format = RGB;
overviewImage.pixels = buffer;
// overviewImage.save("image.tif");
buffer = null;
System.out.println("shut for overview");
}
public PImage get(int index, int fg) {
PImage msk = font[index];
PImage img = pa.createImage(msk.width, msk.height, PConstants.RGB);
msk.loadPixels();
img.loadPixels();
for (int i = 0; i < img.pixels.length; i++) {
img.pixels[i] = fg;
}
img.mask(msk);
return img;
}
public void preIntroSetup() {
try {
int bgWidth = env.bgImg.getWidth(env);
int bgHeight = env.bgImg.getHeight(env);
int[] bgPixels = new int[bgWidth * bgHeight];
for (int i = 0; i < bgPixels.length; i++) if (bgPixels[i] != 0) System.out.print(bgPixels[i]);
overlay = new PImage(bgWidth, bgHeight);
overlay.format = ARGB;
overlay.pixels = bgPixels;
runNum = 0;
controls.setEnabled(false);
/** * get into looping */
afterFirstStreaming = true;
/** overview shut */
draw();
/*theCamera.moveToNow(new FVector(0.0f, 0.0f, 1000));
theCamera.lookAtNow(new FVector(0.0f, 1.0f, 0));
*/
draw();
ortho(-1500, 800, -800, 800, 1000, 2000);
loadPixels();
noStroke();
getOverviewShut();
afterOverviewShot = true;
draw();
loop();
/** give the environment the hint to swop the surfaces */
env.addThem();
/** * intro */
theCamera.moveToNow(new FVector(-200.0f, 950.0f, 1000));
theCamera.lookAtNow(new FVector(-200.51917f, 851.8057f, 0));
theCamera.lookAtInter(
new FVector(1341.8213f, 757.865f, 0), new Integer(4000), new Integer(3));
Object[] actionObjects = {new FVector(0, 0, -88), new Integer(2000), new Integer(0)};
theCamera.queueAction("lookAtInter", 4000, actionObjects);
theCamera.moveToNow(new FVector(-500.51917f, 951.8057f, 200));
theCamera.moveToInter(
new FVector(1341.8213f, 857.865f, 200), new Integer(4000), new Integer(3));
Object[] actionObjects2 = {
new FVector(0, 800, Camera.maxCameraHeight), new Integer(2000), new Integer(1)
};
theCamera.queueAction("moveToInter", 0, actionObjects2);
Object[] actionObjects3 = {Boolean.valueOf(true)};
theCamera.queueAction("setControlsEnabled", 3500, actionObjects3);
} catch (Exception e) {
e.printStackTrace();
env.setErrorDisplay(
"Das Applet konnte nicht gestartet werden. Eventuell ist dies ein Speicherproblem. Bitte stoppen sie alle anderen Java-Anwendungen. GGf. muss der Browser neu gestartet werden um den Cache zu leeren.");
}
}
public PImage get(int index, int fg, int bg) {
PImage msk = font[index];
PImage img = pa.createImage(msk.width, msk.height, PConstants.RGB);
msk.loadPixels();
img.loadPixels();
for (int i = 0; i < msk.pixels.length; i++) {
if (msk.pixels[i] == Colors.WHITE) {
img.pixels[i] = fg;
} else {
img.pixels[i] = bg;
}
}
return img;
}
boolean createTransition(final int frames) { // NOPMD
boolean rtn = false;
fill(0, 1);
noStroke();
rect(0, 0, width, height);
if (trans <= 250) {
for (int i = 0; i < 100; i++) {
final int xPos = (int) (random(ICON_BACKGROUND.width));
final int Pos = (int) (random(ICON_BACKGROUND.height));
// int pix = (int)map(a.get(posX, posY), 0, 255, 0, 255-alpha);
final int pix = ICON_BACKGROUND.get(xPos, Pos);
fill(pix, 10);
final int randx = (int) (random(width));
final int randy = (int) (random(height));
ellipse(randx, randy, i, i);
fill(0, trans);
ellipse(randx, randy, i, i);
}
if (trans <= 10) { // 1
if (frames % 4 == 0) {
trans += 1;
}
} else if (trans >= 200) {
trans = 255;
} else {
trans += 1;
}
} else {
fill(0, 255);
noStroke();
rect(0, 0, width, height);
rtn = true;
}
return rtn;
}
public Gif(PApplet parent, String filename) {
// this creates a fake image so that the first time this
// attempts to draw, something happens that's not an exception
super(1, 1, ARGB);
this.parent = parent;
// create the GifDecoder
GifDecoder gifDecoder = createDecoder(parent, filename);
// fill up the PImage and the delay arrays
frames = extractFrames(gifDecoder);
delays = extractDelays(gifDecoder);
// get the GIFs repeat count
repeatSetting = gifDecoder.getLoopCount();
// re-init our PImage with the new size
super.init(frames[0].width, frames[0].height, ARGB);
jump(0);
parent.registerMethod("dispose", this);
// and now, make the magic happen
runner = new Thread(this);
runner.start();
}
public static PImage invert(Matrix H, PImage img, Point dstDimension) {
PImage res = new PImage(dstDimension.x, dstDimension.y);
// PImage res = new PImage(img.width, img.height);
for (int x = 0; x < img.width; x++) {
for (int y = 0; y < img.height; y++) {
// Point inverse theorique (x0,y0) ?
double[][] q_array = {{x}, {y}, {1}};
Matrix P = H.times(new Matrix(q_array));
double x0 = P.get(0, 0) / P.get(2, 0);
double y0 = P.get(1, 0) / P.get(2, 0);
// S'il est hors de l'image originale, on rend le pixel transparant.
if (x0 < 0 || x0 >= img.width || y0 < 0 || y0 >= img.height) res.set(x, y, 0x00000000);
else res.set(x, y, img.get((int) x0, (int) y0));
}
}
return res;
}
public void setup() {
size(400, 400);
background(255);
stroke(0);
img = loadImage("http://cseweb.ucsd.edu/~minnes/palmTrees.jpg", "jpg");
img.resize(0, height);
image(img, 0, 0);
}
EImage(NoKinect sce, String file) {
parent = sce;
position = new int[3];
extrude = parent.loadImage(file);
extrude.loadPixels();
forDelta = 10;
values = new int[extrude.width * extrude.height];
for (int x = forDelta; x < extrude.width; x += forDelta) {
for (int y = forDelta; y < extrude.height; y += forDelta) {
values[(x * extrude.width) + y] = (int) (parent.brightness((int) extrude.get(x, y)));
for (int d = 0; d < forDelta; d++) {
values[(x * extrude.width) + y] +=
(int) (parent.brightness((int) extrude.get(x - d, y - d)));
}
values[(x * extrude.width) + y] /= forDelta;
}
}
}
public void draw() {
background(0);
/* pushMatrix();
translate(width/2,height/2);
// nav.doTransforms();
translate(-vl.bb().centroid().x,-vl.bb().centroid().y);
scale(5);
strokeWeight(0.2f);
noFill();
UVertex last=null;
for(UVertex v:vl) {
stroke(0);
v.pellipse(v,0.1f, 0.1f);
if(last!=null) {
if(v.dist(last)>15) stroke(200);
v.pline(v,last);
}
last=v;
}
popMatrix();
*/
// noLights();
noTint();
stroke(255, 0, 0);
// strokeWeight(2);
noFill();
// translate(100,100);
translate(width / 2, height / 2);
nav.doTransforms();
translate(-img.width / 2, -img.height / 2, -5);
fill(img.get(300, 300));
rect(-img.width, -img.height, img.width * 3, img.height * 3);
translate(0, 0, 5);
image(img, 0, 0);
UVertex last = null;
for (UVertex v : vl) {
UVertex res = UMapping.mercatorMapping(v, geobb, img.width, img.height);
fill(255, 100, 0);
noStroke();
UMB.pellipse(res, 4);
stroke(255, 100, 0);
noFill();
res.z = 20;
UMB.pellipse(res, 12);
// strokeWeight(0.6f);
point(res.x, res.y);
if (last != null) v.pline(res, new UVertex(res.x, res.y, 0));
last = res;
}
}
public BFont(PApplet pa, String filename) {
this.pa = pa;
PImage fontImage = pa.loadImage(filename);
int rows = (int) Math.floor(fontImage.height / GameConstants.TILE_H);
int columns = (int) Math.floor(fontImage.width / GameConstants.TILE_W);
characters = rows * columns;
font = new PImage[characters];
for (int j = 0; j < rows; j++) {
for (int i = 0; i < columns; i++) {
font[(j * columns) + i] =
fontImage.get(
i * GameConstants.TILE_W,
j * GameConstants.TILE_H,
GameConstants.TILE_W,
GameConstants.TILE_H);
}
}
}
// Takes a PImage and compresses it into a JPEG byte stream
// Adapted from Dan Shiffman's UDP Sender code
public byte[] compressImage(PImage img) {
// We need a buffered image to do the JPG encoding
BufferedImage bimg = new BufferedImage(img.width, img.height, BufferedImage.TYPE_INT_RGB);
img.loadPixels();
bimg.setRGB(0, 0, img.width, img.height, img.pixels, 0, img.width);
// Need these output streams to get image as bytes for UDP communication
ByteArrayOutputStream baStream = new ByteArrayOutputStream();
BufferedOutputStream bos = new BufferedOutputStream(baStream);
// Turn the BufferedImage into a JPG and put it in the BufferedOutputStream
// Requires try/catch
try {
ImageIO.write(bimg, "jpg", bos);
} catch (IOException e) {
e.printStackTrace();
}
// Get the byte array, which we will send out via UDP!
return baStream.toByteArray();
}
public void draw() {
Date date = new Date(); // given date
Calendar calendar = GregorianCalendar.getInstance(); // creates a new calendar instance
calendar.setTime(date); // assigns calendar to given date
calendar.get(Calendar.HOUR_OF_DAY); // gets hour in 24h format
calendar.get(Calendar.HOUR); // gets hour in 12h format
calendar.get(Calendar.MONTH);
backgroundImg.resize(0, height);
image(backgroundImg, 0, 0);
int r = 0;
int g = 0;
int b = 0;
int hour = (calendar.get(Calendar.HOUR_OF_DAY));
int second = (calendar.get(Calendar.SECOND));
switch (second % 5) {
case 0:
fill(255, 0, 0);
break;
case 1:
fill(0, 255, 0);
break;
case 2:
fill(0, 0, 255);
break;
case 3:
fill(227, 227, 0);
break;
case 4:
fill(227, 0, 227);
break;
default:
fill(0, 227, 227);
break;
}
ellipse(width / 4, height / 6, width / 5, height / 5);
}
public void setImages(PImage i_mainImage, PImage i_gridImage) {
mainImage = i_mainImage.get();
gridImage = i_gridImage.get();
if (size.x / (i_mainImage.width + 0.0) < size.y / (i_mainImage.height + 0.0)) {
mainImage.resize((int) this.size.x, 0);
gridImage.resize((int) this.size.x, 0);
} else {
mainImage.resize(0, (int) this.size.y);
gridImage.resize(0, (int) this.size.y);
}
imageOffset =
new PVector(
this.size.x / 2.0f - mainImage.width / 2.0f,
this.size.y / 2.0f - mainImage.height / 2.0f);
redrawNow();
}
public PImage copyImage(PImage img) {
// A more efficient method may be possible - e.g. TimeDisplacement example P5 sketch.
return img.get();
}
// FUNCTION THAT WILL BE CALLED IN PARENT CLASS
public void createbg() {
PImage canvas;
// addational value
float r = 1;
// MASKE erstellen (Vignette)
// begindraw and endraw are needed for pgraphics to work properly
mask.beginDraw();
// make a black background
mask.background(0);
// center the anchorpoint
mask.shapeMode(PConstants.CENTER);
// make a white ellipse half as large as the canvas
mask.fill(255);
mask.ellipse(width / 2, height / 2, width / 1.3f, height / 1.3f);
// resize for better blur compability (prevent crashes)
mask.resize(width / 5, height / 5);
mask.filter(PConstants.BLUR, 19);
// restire full size. this will blur the image even further
mask.resize(width / 2, height / 2);
mask.endDraw();
// CREATE Picture
pimg.beginDraw();
// make a black background
pimg.background(0);
// this will generate bubbles specified by the image (NOT FINISHED)
for (int i = 0; i < img.width; i += parent.random(200)) {
for (int j = 0; j < img.height; j += parent.random(200)) {
pimg.fill(img.get(i, j));
pimg.noStroke();
pimg.shapeMode(PConstants.CENTER);
pimg.ellipse(i + 1, j + 1, r, r);
r = parent.random(0.2f, 200);
}
r = parent.random(0.2f, 200);
}
// resize for better blur compability (prevent crashes)
pimg.resize(width / 5, height / 5);
pimg.filter(PConstants.BLUR, 9);
// create a temp canvas to use te mask
canvas = pimg.get();
canvas.filter(PConstants.BLUR, 15);
canvas.resize(width / 2, height / 2);
// apply mask on the generated image
pimg.resize(width / 2, height / 2);
pimg.image(canvas, 0, 0);
pimg.mask(mask.get());
pimg.endDraw();
// set the transparent image on a black background
// save the vignetted image
stage.beginDraw();
stage.image(pimg.get(), 0, 0);
stage.endDraw();
stage.save(output_path + output_data);
}
/** Setup processing. */
public void setup() { // NOPMD
receivedGestures[BLUE] = new ArrayList<String>();
receivedGestures[GREEN] = new ArrayList<String>();
// Create Enviroment.
size(screen.width - 1, screen.height - 1, OPENGL);
textMode(MODEL);
background(255);
noStroke();
smooth();
createRandomness();
thisInteractome = new Interactome(this, MAX_SIZE, MIN_SIZE, CIRCLE_COUNT, SCREENS, splayer);
initializeTitles(); // starting, ending
kare = 0;
trans = 0;
// Initialize gestures Map.
gestMap.put(0, "TOWhor");
gestMap.put(1, "TOWver");
gestMap.put(2, "TOWfor");
for (int i = 1; i < 13; i++) {
final PImage tmpImage =
loadImage("eu/funinnumbers/games/sg/tow/engine/ui/visualoutput/img/TOWhor_" + i + ".gif");
tmpImage.resize(tmpImage.width / 4, tmpImage.height / 4);
horFrames.add(tmpImage);
}
for (int i = 1; i < 16; i++) {
final PImage tmpImage =
loadImage("eu/funinnumbers/games/sg/tow/engine/ui/visualoutput/img/TOWver_" + i + ".gif");
tmpImage.resize(tmpImage.width / 4, tmpImage.height / 4);
verFrames.add(tmpImage);
}
for (int i = 1; i < 8; i++) {
final PImage tmpImage =
loadImage("eu/funinnumbers/games/sg/tow/engine/ui/visualoutput/img/TOWfor_" + i + ".gif");
tmpImage.resize(tmpImage.width / 4, tmpImage.height / 4);
forFrames.add(tmpImage);
}
for (int i = 0; i < 6; i++) {
PImage tmpImage =
loadImage("eu/funinnumbers/games/sg/tow/engine/ui/visualoutput/img/any.gif");
tmpImage.resize(tmpImage.width / 2, tmpImage.height / 2);
anyFrames.add(tmpImage);
tmpImage = loadImage("eu/funinnumbers/games/sg/tow/engine/ui/visualoutput/img/null.gif");
tmpImage.resize(tmpImage.width / 2, tmpImage.height / 2);
anyFrames.add(tmpImage);
}
imagesForGestures.put("TOWhor", horFrames);
imagesForGestures.put("TOWver", verFrames);
imagesForGestures.put("TOWfor", forFrames);
team1gesA = horFrames.get(0);
team2gesA = horFrames.get(0);
stage1Team1width = width / 4 - team1gesA.width / 2;
stage1Team2width = 3 * width / 4 - team2gesA.width / 2;
stage1height = height - team1gesA.height;
// fillImageVectors();
timer.scheduleAtFixedRate(new ChangeCurrentImages(), 2000, IMG_REFRESHRATE);
timer.scheduleAtFixedRate(new CheckStage(), 4000, STAGE_REFRESHRATE);
// Set the default font
textFont(fontCounter, 255);
textSize(48);
// Setup Counters
teamWidth = width / SCREENS;
// Counter settings
counterBoxX[0] = 100 - 5;
counterBoxX[1] = width - 100 - 5;
counterBoxY = height - 95;
counterX[0] = 100;
counterX[1] = width - 100;
counterY = height - 50;
}
public void draw() {
img.loadPixels();
colorMode(HSB, 1, 1, 1);
// for(int i = 0; i < settings.passesperupdate; i++ ){
initBuckets();
runBuckets();
// }
totalphotonscast = 0;
// settings.exposure = (float) mouseX / 100;
colorMode(RGB, 1);
for (int x = 0; x < w; x++) {
for (int y = 0; y < h; y++) {
double div = count[x + y * h] / settings.exposure;
totalphotonscast += count[x + y * h];
int i = (x + y * w) * 3;
int c = 0;
if (mousePressed && mouseButton == LEFT) {
// show grayscale, so early color renders dont look like shit
c = color((float) ((plate[i + 0] + plate[i + 1] + plate[i + 2]) / div / 3));
} else { // show color
c =
color(
(float) (plate[i + 0] / div),
(float) (plate[i + 1] / div),
(float) (plate[i + 2] / div));
}
img.pixels[x + y * w] = c;
}
}
img.updatePixels();
image(img, 0, 0, (float) (w * settings.scale), (float) (h * settings.scale));
println(
"Ms: "
+ (millis() - millis)
+ " - Pass: "******" - "
+ totalphotonscast
+ " rays cast so far - "
+ (totalphotonscast - lastphotonscast) / (millis() - millis) * 1000
+ " rays per second.");
millis = millis();
lastphotonscast = totalphotonscast;
// if( frameCount % 1 == 0 ){
if (keyPressed) {
savedframecount += 1;
saveFrame("out2/" + savedframecount + "_box.tiff");
println("Saved a frame.");
// wipePlate();
}
if (mousePressed && mouseButton == RIGHT) {
FilmGraph.DrawGraph(this);
}
}
public void draw() {
t++;
if (cam.available()) {
prevFrame.copy(cam, 0, 0, cam.width, cam.height, 0, 0, cam.width, cam.height);
// prevFrame.updatePixels();
cam.read();
}
// cam.loadPixels();
// prevFrame.loadPixels();
loadPixels();
ArrayList<Ponto> motionAtual = new ArrayList<Ponto>();
for (int x = 0; x < cam.width; x++) {
for (int y = 0; y < cam.height; y++) {
int loc = x + y * cam.width;
int current = cam.pixels[loc];
int previous = prevFrame.pixels[loc];
float r1 = red(current);
float g1 = green(current);
float b1 = blue(current);
float r2 = red(previous);
float g2 = green(previous);
float b2 = blue(previous);
float diff = dist(r1, g1, b1, r2, g2, b2);
// How different are the colors?
if (diff > threshold) {
Ponto atual = new Ponto(current, loc);
motionAtual.add(atual);
} else {
pixels[loc] = color(0);
}
}
}
if (t > rastroSize) { // after x draws
rastros.add(motionAtual);
if (rastros.size() == rastroSize) { // array completo? excluir rastro 0
rastros.remove(0);
}
// aplicar rastro
for (int x = 0; x < rastros.size(); x++) {
ArrayList<Ponto> motion = rastros.get(x);
// para cada motion
for (int y = 0; y < motion.size(); y++) {
// para cada ponto
Ponto ponto = motion.get(y);
// Float R = (new Float(-x*x*10 +255) / rastroSize) * 255;
// Float G = (new Float(-(x-rastroSize/2)*(x-rastroSize/2)*10+255) / rastroSize) *
// 105;
// Float B = (new Float(-(x-rastroSize)*(x-rastroSize)*20+255) / rastroSize) * 55;
// Float A = R;
// Float cor = (new Float(x)/rastros.size())*255;
int a = 255 / (x + 1);
// System.out.println(a);
pixels[ponto.getPosition()] = color(0, 0, 156, a); // Math.round(ponto.getCor());
}
}
}
updatePixels();
if (debug) {
text("rastros: " + rastroSize, 10, 30);
text("contexto: " + threshold, 10, 60);
}
}
public void draw() {
if (_theOther.get_context().get_regionselected()) {
_cur_image = _theOther.get_current_image();
if (_theOther.get_context().get_debug()) _theOther.image(_cur_image, 0, 0);
_roi = _theOther.get_context().get_region_of_interest();
_diff_image =
_theOther.createImage(
_theOther.get_videosource().get_width(),
_theOther.get_videosource().get_height(),
PConstants.ARGB);
_diff_image.copy(
_theOther
.get_videosource()
.diff(Other.get_instance().get_context().get_region_of_interest()),
_roi.get_start().get_x(),
_roi.get_start().get_y(),
_roi.width(),
_roi.height(),
_roi.get_start().get_x(),
_roi.get_start().get_y(),
_roi.width(),
_roi.height());
_diff_image.filter(PConstants.THRESHOLD, _edgeThreshold / 10f);
_diff_image.filter(PConstants.ERODE);
for (int i = 1; i < _dilation; i++) {
_diff_image.filter(PConstants.DILATE);
}
if (_theOther.get_context().get_debug())
_theOther.image(_diff_image, 0, _theOther.get_videosource().get_height());
// _edge_image = edges(_theOther.get_current_image());
// _edge_image.filter(PConstants.THRESHOLD, _edgeThreshold/10f);
// _theOther.image(_edge_image, 0, 240);
_screen = _theOther.get_context().get_screen();
_distance = _theOther.get_context().get_distance();
_blobs = _flob.track(_diff_image);
for (int i = 0; i < _blobs.size(); i++) {
_tb = _flob.getTrackedBlob(i);
if (i == 0 || _screen.distance_to(_tb.cx, _tb.cy) < _distance) {
// selectedBlob = tb;
_distance = _screen.distance_to(_tb.cx, _tb.cy);
}
if (_theOther.get_context().get_debug()) {
_txt = "id: " + _tb.id + " time: " + _tb.presencetime + " ";
_theOther.strokeWeight(1);
_theOther.stroke(0, 255, 0);
_theOther.fill(220, 220, 255, 100);
_theOther.rect(_tb.cx, _tb.cy, _tb.dimx, _tb.dimy);
_theOther.fill(0, 255, 0, 200);
_theOther.rect(_tb.cx, _tb.cy, 5, 5);
_theOther.fill(0);
_theOther.line(
_tb.cx, _tb.cy, _tb.cx + _tb.velx * _velmult, _tb.cy + _tb.vely * _velmult);
_theOther.text(_txt, _tb.cx - _tb.dimx * 0.10f, _tb.cy + 5f);
}
}
_theOther.get_context().set_distance(_distance);
// _blobs = _flob.calc(_diff_image);
// int numblobs = _blobs.size();//flob.getNumBlobs();
//
// for(int i = 0; i < numblobs; i++) {
//
// ABlob ab = (ABlob)_flob.getABlob(i);
// //trackedBlob tb = (trackedBlob)_flob.getTrackedBlob(i);
// //now access all blobs fields.. float tb.cx, tb.cy, tb.dimx, tb.dimy...
//
// // test blob coords here
// //b1.test(ab.cx,ab.cy, ab.dimx, ab.dimy);
//
// //box
// drawBlob(ab);
// //drawBlob(tb);
// }
//
// ocv.cvOpenCVVideoSource ocv = (OpenCVVideoSource)
// _theOther.get_videosource();.threshold(80);
// Blob[] blobs = ocv.cv.blobs(10, ocv.get_width()*ocv.get_height()/2, 100, true,
// OpenCV.MAX_VERTICES*4);
//
// // draw blob results
// for( int i=0; i<blobs.length; i++ ) {
// _theOther.beginShape();
// for( int j=0; j<blobs[i].points.length; j++ ) {
// _theOther.vertex( blobs[i].points[j].x, blobs[i].points[j].y );
// }
// _theOther.endShape(PConstants.CLOSE);
// }
if (_theOther.get_context().get_debug()) {
_theOther.get_context().get_screen().draw_screen(_theOther);
_theOther.get_context().get_region_of_interest().draw(_theOther);
_theOther.fill(0, 0, 255);
_theOther.text(
String.format("edge threshold = %d | dilation = %d", _edgeThreshold, _dilation),
10,
10);
}
}
}
