コード例 #1
0
ファイル: withmapping.py プロジェクト: Systemetric/sr-pi-2012
    def findBucketForXSeconds(self, x):
        startTime = time.time()
        while time.time() - startTime < x:
            print "Reading buckets"
            markers = self.R.see(res=(1280, 1024)).processed()
            buckets = markers.buckets
            if buckets:
                target = buckets[0]
                drivingTo = min(target.desirableRobotTargets, key=abs)
                if abs(drivingTo) < 0.2:
                    print "Nearly at a bucket"
                    angle = Bearing.ofVector(target.center)

                    if abs(angle) > 5:
                        print "Off by %s" % angle
                        self.R.rotateBy(angle)

                    print "Found bucket"
                    self.R.driveDistance(0.75)
                    self.R.drive(15)
                    time.sleep(1)
                    self.R.stop()
                    self.R.lifter.up()
                    time.sleep(1)
                    self.R.lifter.down()
                    return True
            else:
                print "Found no buckets"
                self.R.rotateBy(30, fromTarget=True)
                self.R.stop()
        return False
コード例 #2
0
ファイル: simple.py プロジェクト: Systemetric/sr-pi-2012
	def findBucketForXSeconds(self, x):
		startTime = time.time()
		while time.time() - startTime < x:
			print "Reading buckets"
			markers = self.R.see(res=(1280,1024)).processed()
			buckets = markers.buckets
			if buckets:
				target = buckets[0]
				drivingTo = min(target.desirableRobotTargets, key=abs)
				if abs(drivingTo) < 1:
					print "Nearly at a bucket"
					angle = Bearing.ofVector(target.center)

					if abs(angle) > 10:
						print "Off by %s" % angle
						self.R.rotateBy(angle)

					print "Found bucket"
					self.R.driveTo(target.center, speed=50)
					time.sleep(1)
					self.R.lifter.up()
					self.R.drive(30)
					time.sleep(1.5)
					self.R.stop()
					self.R.lifter.down()
					time.sleep(1)
					self.R.lifter.up()
					time.sleep(1)
					self.R.lifter.down()
					return True
				else:
					#One more movement
					self.R.driveTo(drivingTo)
					time.sleep(0.1)

					#Turn to face where we think the bucket should be, so we can see it next loop
					angle = Bearing.ofVector(target.center)
					print "Turning to face bucket again"
					self.R.rotateBy(angle - math.copysign(2, angle))
					self.R.stop()
			else:
				print "Found no buckets"
				self.R.rotateBy(60, fromTarget=True)
				self.R.stop()
		return False
コード例 #3
0
def main(R):
    # Whether searching for cubes or a bucket
    followState = "cube"
    # Any cubes already found
    foundCubes = set()

    # Distance between each step to move towards a bucket in meters
    # (e.g. if 2 meter step, every 2 meters it will check location of bucket again)
    STEPDIST = 1

    while True:
        # Find all markers it can see
        markers = R.see(res=(1280, 1024)).processed()

        # If finding cubes
        if followState == "cube":
            print "Reading markers"
            # Get only the unique (not found already) tokens
            tokens = markers.tokens

            # Are there any tokens?
            if tokens:
                if abs(tokens[0].center) > 1:
                    R.driveTo(tokens[0].center, gap=0.75)
                else:
                    R.driveTo(tokens[0].center, gap=0.2)
                    foundCubes.add(tokens[0].id)
                    print "Found cube #%d!" % tokens[0].id
                    R.arm.grabCube(wait=True)
                    time.sleep(2)
                    R.driveDistance(-0.25)
            else:
                # Couldn't find any markers
                print "No Marker..."

                # Spin 30 degrees clockwise
                R.rotateBy(30, fromTarget=True)

                # Disable heading correction
                R.stop()

            if len(foundCubes) >= 3:
                # If found 3 or more cubes, start finding bucket
                followState = "bucket"
                # Reset found cubes
                foundCubes = set()

        elif followState == "bucket":
            # If finding bucket, get all seen buckets
            buckets = markers.buckets

            if buckets:
                # If any buckets found, target first bucket in list
                b = buckets[0]

                # Choose the best point on the bucket to align to
                target = min(b.desirableRobotTargets, key=abs)

                # Print bucket information
                print "Bucket seen at %s" % b.center
                print "Driving to %s" % target

                if abs(target) < 0.2:
                    # Nearly at the target, don't move any more
                    print "Nearly there"
                    angle = Bearing.ofVector(b.center)

                    if abs(angle) > 5:
                        # Need to turn a bit more to face the bucket
                        print "Off by %s" % angle
                        R.rotateBy(angle)

                        # Angle is ok now - go for it!
                    print "Success!"
                    R.driveDistance(0.75)
                    R.drive(15)
                    time.sleep(1)
                    R.stop()
                    R.lifter.up()
                    time.sleep(1)
                    R.lifter.down()

                    # Start following cubes again, skip the rest of the loop
                    followState = "cube"
                    continue

                else:
                    if abs(target) > STEPDIST:
                        # Too far from target - limit movement
                        target = STEPDIST * target.normalize()

                        # One more movement
                    R.driveTo(target)
                    time.sleep(0.1)

                    # Turn to face where we think the bucket should be, so we can see it next loop
                    targetFacing = b.center - target
                    angleDifference = Bearing.ofVector(targetFacing) - Bearing.ofVector(target)
                    print "Turning to face bucket again"
                    R.rotateBy(angleDifference)
                    R.stop()

            R.rotateBy(30, fromTarget=True)

            R.stop()
コード例 #4
0
ファイル: bucket.py プロジェクト: Systemetric/sr-pi-2012
    if buckets:
        # Take first bucket as target
        b = buckets[0]

        # Choose the best point on the bucket to align to
        target = min(b.desirableRobotTargets, key=abs)

        # Print information to read
        print "Bucket seen at %s" % b.center
        print "Driving to %s" % target

        # If very close to the target
        if abs(target) < 0.1:
            # Print nearly there and get angle to center of the bucket
            print "Nearly there"
            angle = Bearing.ofVector(b.center)

            # If angle is not aligned enough
            if abs(angle) > 5:
                # Turn a bit more to face the bucket and print how far off
                print "Off by %s" % angle
                R.rotateBy(angle)

                # Angle is ok now - go for it!
            print "Success!"
            R.drive(15)
            time.sleep(1)
            R.stop()
            time.sleep(10)

        else: