public void mouseClicked() { // int id = camPicker.get(mouseX, mouseY); int id = picker.get(mouseX, mouseY); if (id > -1) { for (int i = 0; i < cameras.size(); i++) { if (i == id) { cameras.get(id).changeToSelectedColor(); cameras.get(id).isSelected = true; } else { cameras.get(i).setDefaultColor(); cameras.get(i).isSelected = false; } } } }
public void mouseDragged() { // int id = camPicker.get(mouseX, mouseY); int id = picker.get(mouseX, mouseY); /* //keep objects from being selected while dragging other objects; DOESN'T FIX ANYTHING YET if(id > -1 && id == prevID){ // cameras.get(id).changeToDragColor(); println("indragged same"); cameras.get(id).drag(mouseX, mouseY); } */ if (id > -1) { for (int i = 0; i < cameras.size(); i++) { if (i == id) { // println("indragged diff " + " x is " + mouseX + " y is " + mouseY); // cameras.get(id).changeToDragColor(); cameras.get(id).drag(mouseX, mouseY); prevID = id; break; } } // int id = camPicker.get(mouseX, mouseY); for (int i = cameras.size(); i < cameras.size() + characters.size(); i++) { // println(i + " hi " + " camSize is " + cameras.size() + " charSize is" + // characters.size() + " both together are " + cameras.size() + characters.size()); if (i == id) { // characters.get(id).changeToDragColor(); characters.get(id - cameras.size()).drag(mouseX, mouseY); // println("char is " + id); break; } } } }
final boolean isResponding(Object target) { return picker.getRespondManager().isResponding(target); }
boolean isHovered(Selectable selectable) { return selectable == picker.getCurrentHovered(); }
public void draw() { // display things // execute sceneManager stuff resetMatrix(); // beginCamera(); camera(); rotateX(HALF_PI); translate(globalCameraX, globalCameraY, globalCameraZ); /* rotation using a and d PMatrix3D foRealCameraMatrix=new PMatrix3D(); getMatrix(foRealCameraMatrix); */ // translate(0,-100, -400 ); // translate(0,0, 0 ); // rotate(sin(millis() * 0.001), 1,0,0); background(bGround); for (int i = 0; i < cameras.size(); i++) { // camPicker.start(i); //add picker to each cam picker.start(i); cameras.get(i).display(); } // camPicker.stop(); for (int i = cameras.size(); i < cameras.size() + characters.size(); i++) { // charPicker.start(i); picker.start(i); characters.get(i - cameras.size()).display(); } // charPicker.stop(); picker.stop(); // endCamera(); // int id = camPicker.get(mouseX, mouseY); // if (id > -1) { // for (int i=0; i<cameras.size(); i++) { // if (i == id) { // cameras.get(id).changeToSelectedColor(); // cameras.get(id).isSelected = true; // } else { // cameras.get(i).setDefaultColor(); // cameras.get(i).isSelected = false; // } // } // } // checks for rule violations int id = -1; for (int i = 0; i < cameras.size(); i++) { if (cameras.get(i).isSelected) { if (selectedRule == 0) rulesChecker.checkLineOfAction(cameras, characters, i); else if (selectedRule == 1) rulesChecker.checkThirtyDegreeRule(cameras, characters, i); else resetAllCams(); } } rulesChecker.checkCuttingOnAction(sm, timeline); rulesChecker.checkPacing(sm, timeline); /* This is for camera rotation using a and d resetMatrix(); pushMatrix(); setMatrix(myCamera); rotate(angle); getMatrix(); popMatrix; */ // have to rotate back to original orientation in order to properly display the drop-down menu rotateX(PI); rotateX(HALF_PI); controlP5.draw(); timeline.draw(); }