/** Planning thread: connect to robot and start planning loop */
public void run() {
// blocks until connected
while (!nxt.startCommunications()) {
System.out.println("Failed to Connect to Robot");
Tools.rest(2000);
}
// blocks until you start Planning from GUI
while (!robotMoving) {
Tools.rest(100);
}
/*
* this generates the 5 shooting points, 2 more optional for debugging
*/
int sixth = (GOAL_TOP - GOAL_BOTTOM) / 6;
int mid = GOAL_BOTTOM;
side = shootingLeft ? GOAL_LEFT : GOAL_RIGHT;
getPitchInfo();
goalPoints[0] = new Point(side, mid + sixth * 3);
goalPoints[1] = new Point(side, mid + sixth * 2);
goalPoints[2] = new Point(side, mid + sixth * 4);
goalPoints[3] = new Point(side, mid + sixth);
goalPoints[4] = new Point(side, mid + sixth * 5);
lr = System.currentTimeMillis();
theLoop();
}
/** Returns the angle needed to rotate the robot so that it is facing towards the given point. */
private double getAngleToFacePoint(Point target) {
// first I want to find where the target is in relation to our robot
Point targetRelativePos = Tools.getRelativePos(nxt.getCoors(), target);
// now find direction of target from nxt
double targetFromNxt = Tools.getAngleFrom0_0(targetRelativePos);
if (targetFromNxt < 0) targetFromNxt = 2 * Math.PI + targetFromNxt;
// now find how much our robot has to turn to face target
// (turning by negative getAngle returns it to face 0 then add on ball
// Angle
double howMuchToTurn = nxt.getAngle() - targetFromNxt;
// now adjust it so that it turns in the shortest direction (clockwise
// or counter clockwise)
if (howMuchToTurn < -Math.PI) howMuchToTurn = 2 * Math.PI + howMuchToTurn;
else if (howMuchToTurn > Math.PI) howMuchToTurn = -(2 * Math.PI - howMuchToTurn);
return howMuchToTurn;
}
boolean hasBall() {
int dist = (int) Tools.getDistanceBetweenPoint(nxt.getCoors(), ball.getCoors());
int a = (int) Math.toDegrees(getAngleToFacePoint(ball.getCoors()));
return dist < 55 && a < 30 && a > -30; // <45
}
private void theLoop() {
while (true) {
// pause if gui asks to pause
while (!robotMoving) {
nxt.stop();
Tools.rest(100);
}
while (blockingMode && robotMoving) {
// this is the penalty mode that returns to normal game
defend();
Tools.rest(50);
}
// get rid of debug lines
vision.dropAllLines();
// update coordinates
getPitchInfo();
// if robot is by the wall, try to rotate
// 97-379 seem to be upper and lower limits for robots y value
int tmpy = ImageProcessor.barrelCorrected(nxt.getCoors()).y;
if (tmpy < MINYPOS || tmpy > MAXYPOS) {
System.out.println("im too close to wall");
boolean d = false;
int upordown = 0;
if (tmpy < MINYPOS) {
// d = ball.getCoors().x > nxt.getCoors().x;
d = !shootingLeft;
// which way should it be facing
upordown = nxt.getAngle() > 0 && nxt.getAngle() < Math.PI ? 1 : -1;
// by which side is it stuck
}
if (tmpy > MAXYPOS) {
// d = ball.getCoors().x < nxt.getCoors().x;
d = shootingLeft;
// which way should it be facing
upordown = nxt.getAngle() > 0 && nxt.getAngle() < Math.PI ? -1 : 1;
// by which side is it stuck
}
if (d) Main2.nxt.adjustWheelSpeeds(0, upordown * 600);
else Main2.nxt.adjustWheelSpeeds(upordown * 600, 0);
Tools.rest(600);
Main2.nxt.stop();
continue;
}
// target point is the shooting position
// returns ball coors if there is no shooting position
Point target = findPositionToShootFrom(ball.getCoors());
// if the other robot is less than 300 away, go for the ball
if (ball.getCoors().distance(opponentRobot.getCoors()) < 300) target = ball.getCoors();
// distance between the robot and the ball
int dist = (int) Tools.getDistanceBetweenPoint(nxt.getCoors(), ball.getCoors());
// if we are close to the ball AND it is not behind us, go for the
// ball
if (shootingLeft && (ball.getCoors().x - 30) < nxt.getCoors().x && dist < 70) {
target = ball.getCoors();
}
if (!shootingLeft && (ball.getCoors().x + 30) > nxt.getCoors().x && dist < 70) {
target = ball.getCoors();
}
// if we are close to the ball: slow down
// gear = dist < 100 ? (dist < 70 ? 4 : 7) : 12;
// if has ball and can shoot -> shoot
if (hasBall()) {
// if pointing to the other half -> shoot (also, don't kick
// 10cm~30px from the wall)
// 10cm = by how much does the kicker stick our when it kicks
if (isPointingTheOtherWay()
&& !(tmpy < MINYPOS + 30 && nxt.getAngle() > Math.PI && nxt.getAngle() < 2 * Math.PI)
&& !(tmpy > MAXYPOS - 30 && nxt.getAngle() > 0 && nxt.getAngle() < Math.PI)) {
nxt.kick();
nxt.adjustWheelSpeeds(600, 600);
Tools.rest(50);
continue;
}
System.out.println("hasBall");
if (isClearToShoot(ball.getCoors())) {
System.out.println("isClearToShoot");
nxt.adjustWheelSpeeds(600, 600);
nxt.kick();
Tools.rest(50);
continue;
} else {
// if has ball but cannot shoot: just go for goal
target = ball.getCoors(); // goalPoints[0];
}
}
// print the possible goals.
for (int i = 0; i < goalPoints.length; i++) {
printOnVisionFix(goalPoints[i], Color.red);
}
// mark blue possible shoothig position
printOnVisionFix(currentGoal, Color.blue);
// if close enough, rotate.
{
if (dist < 50 && !ball.getCoors().equals(target)) {
double a = getAngleToFacePoint(currentGoal);
if (Math.toDegrees(a) > 10) {
long l = System.currentTimeMillis();
if (l - lr > 1000) {
nxt.rotateBy(a);
lr = l;
}
Tools.rest(50);
continue;
}
}
}
// Get a path from the path planner, fiddle with it to get the correct waypoint, move, iterate
ArrayList<Point> path =
PathSearch.getPath(
new Point(ball.getCoors().x, 480 - ball.getCoors().y),
new Point(nxt.getCoors().x, 480 - nxt.getCoors().y),
(int) Math.toDegrees(nxt.getAngle()),
new Point(opponentRobot.getCoors().x, 480 - opponentRobot.getCoors().y));
for (int j = 0; j < path.size(); j++) {
printOnVision(path.get(j), Color.red);
}
if (path.size() > 2) target = path.remove(2);
else if (path.size() > 1) target = path.remove(1);
else target = path.remove(0);
target.y = 480 - target.y;
printOnVisionFix(target, Color.red);
moveTo(target);
Tools.rest(50);
}
}
