Exemplo n.º 1
0
class first_center(Task):
    def on_first_run(self, results):
        self.update_data(results)

        path_found = self.path_results.visible > 0

        self.centered_checker = ConsistencyCheck(8, 10)

        self.center = DownwardTarget(
            lambda self=self:
            (self.path_results.center_x, self.path_results.center_y),
            target=(0, 0),
            deadband=(.05, .05),
            px=0.5,
            py=0.5,
            dx=0.02,
            dy=0.02,
            valid=path_found)

    def on_run(self, results):
        self.update_data(results)
        self.center()

        # if not check_seen(results):
        #     self.finish(success=False)
        if self.centered_checker.check(self.center.finished):
            self.center.stop()
            self.finish()
Exemplo n.º 2
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class center(Task):
    def update_data(self):
        self.pipe_results = shm.pipe_results.get()

    def on_first_run(self):
        self.update_data()

        pipe_found = self.pipe_results.heuristic_score > 0

        self.centered_checker = ConsistencyCheck(18, 20)

        self.center = DownwardTarget(lambda self=self:
                                     (self.pipe_results.center_x * 100, self.
                                      pipe_results.center_y * 100),
                                     target=(0, 0),
                                     deadband=(4, 4),
                                     px=0.03,
                                     py=0.03,
                                     dx=0.01,
                                     dy=0.01,
                                     valid=pipe_found)
        self.logi("Beginning to center on the pipe")

        self.logi("Pipe center" + str(self.pipe_results.center_x) + " " +
                  str(self.pipe_results.center_y))

    def on_run(self):
        self.update_data()
        self.center()

        if self.centered_checker.check(self.center.finished):
            self.center.stop()
            self.finish()
Exemplo n.º 3
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    def set_REMOVING(self, xp, yp, hp):
        self.state = State.REMOVING
        self.remove_start = time.time()

        self.old_x = xp
        self.old_y = yp

        self.old_h = hp

        self.removing_initial_hd = normalized_hd()

        # handle losing sight of the handle better
        # XXX will need to be tweaked, Zander is tweaking vision GUI, grabber, etc
        self.remove_positioning_task = Sequential(
            OrientTask(lambda: self.removing_initial_hd),
            ZeroTask(),
            WaitTask(3),
            Finite(DownwardTarget(point=self.handlef, min_out=0.1)),
            ZeroTask(),
            DescendTask(HANDLE_GRAB_DEPTH_PRE),
            LogTask("Descending for pre-grab..."),
            Concurrent(OrientTask(lambda: self.removing_initial_hd),
                       Finite(DownwardTarget(point=self.handlef))),
            ZeroTask(),
            LogTask("Adjusting offset..."),
            TimedTask(RelPosTask(REMOVE_SURGE, REMOVE_SWAY), 8),
            # note that they are flipped here because the sub is rotated 90 when dropping/removing
            ZeroTask(),
            #DistSurgeTask(d=REMOVE_SURGE),
            #DistSwayTask(d=REMOVE_SWAY),
            DescendTask(HANDLE_GRAB_DEPTH),
            LogTask("grabbing handle"),
            ThunkTask(grab_handle),
            WaitTask(2),
            DescendTask(DISCARD_DEPTH))
Exemplo n.º 4
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class center(Task):
    def update_data(self):
        self.pipe_results = shm.pipe_results.get()

    def on_first_run(self):
        self.update_data()

        pipe_found = self.pipe_results.heuristic_score > 0

        self.centered_checker = ConsistencyCheck(8, 10)

        self.center = DownwardTarget(
            lambda self=self:
            (self.pipe_results.center_x, self.pipe_results.center_y),
            target=get_downward_camera_center,
            deadband=(30, 30),
            px=0.002,
            py=0.002,
            dx=0.002,
            dy=0.002,
            valid=pipe_found)
        #self.logi("Beginning to center on the pipe")

    def on_run(self):
        self.update_data()
        self.center()
        #self.logi("Results Y: {}".format(str(self.pipe_results.center_y)))
        #self.logi("Center: {}".format(str(get_downward_camera_center()[1])))

        if not check_seen():
            self.finish(success=False)

        if self.centered_checker.check(self.center.finished):
            self.center.stop()
            self.finish()
Exemplo n.º 5
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    def on_first_run(self):
        self.update_data()

        pipe_found = self.pipe_results.heuristic_score > 0

        self.centered_checker = ConsistencyCheck(8, 10)

        self.center = DownwardTarget(lambda self=self: (self.pipe_results.center_x, self.pipe_results.center_y),
                                     target=get_downward_camera_center,
                                     deadband=(30,30), px=0.002, py=0.002, dx=0.002, dy=0.002,
                                     valid=pipe_found)
Exemplo n.º 6
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    def on_first_run(self):
        self.update_data()

        self.align = Heading(
            lambda: self.pipe_results.angle + shm.kalman.heading.get(),
            deadband=0.5)
        self.alignment_checker = ConsistencyCheck(19, 20)

        pipe_found = self.pipe_results.heuristic_score > 0

        self.center = DownwardTarget(lambda self=self:
                                     (self.pipe_results.center_x * 100, self.
                                      pipe_results.center_y * 100),
                                     target=(0, 0),
                                     deadband=(1, 1),
                                     px=0.03,
                                     py=0.03,
                                     dx=0.01,
                                     dy=0.01,
                                     valid=pipe_found)

        self.logi("Beginning to align to the pipe's heading")

        c_center = "Camera Center: " + str((.5, .5))
        self.logi("Pipe center" + str(self.pipe_results.center_x) + " " +
                  str(self.pipe_results.center_y))
        self.logi(c_center)
Exemplo n.º 7
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    def on_first_run(self, results):
        self.update_data(results)

        path_found = self.path_results.visible > 0

        self.centered_checker = ConsistencyCheck(8, 10)

        self.center = DownwardTarget(
            lambda self=self:
            (self.path_results.center_x, self.path_results.center_y),
            target=(0, 0),
            deadband=(.05, .05),
            px=0.5,
            py=0.5,
            dx=0.02,
            dy=0.02,
            valid=path_found)
Exemplo n.º 8
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    def set_DROPPING(self, target, xp, yp):
        self.state = State.DROPPING
        self.drop_target = target
        self.drop_start = time.time()

        target_group = None
        if target is Goal.PRIMARY:
            target_group = DROP_PRIMARY_GROUP
        else:
            target_group = DROP_SECONDARY_GROUP

        self.drop_target_group = target_group

        def targetf():
            target = target_group.get()
            if target.p >= VISIBLE_P_THRESH:
                log("targetf", "(%f, %f)" % (target.x, target.y))
                return (target.x, target.y)
            else:
                log("targetf", "FAILED TO SEE TARGET, providing center")
                return (shm.camera.downward_width.get() / 2,
                        shm.camera.downward_height.get() / 2)

        self.drop_initial_heading = shm.kalman.heading.get()

        self.drop_positioning_task = Sequential(
            LogTask("drop targeting..."),
            Finite(DownwardTarget(point=targetf, min_out=0.1)),
            LogTask("drop orienting..."),
            OrientTask(lambda: (self.drop_initial_heading + 90) % 360),
            LogTask("drop waiting..."),
            WaitTask(3),
            LogTask("drop retargeting..."),
            Finite(DownwardTarget(point=targetf, min_out=0.05)),
            LogTask("drop adjusting..."),
            TimedTask(RelPosTask(DROP_SURGE, DROP_SWAY), 8),
            ZeroTask(),
            #DistSurgeTask(DROP_SURGE),
            #DistSwayTask(DROP_SWAY),
            DescendTask(TARGET_DROP_DEPTH),
            DropTask(),
            WaitTask(3),
            TimedTask(RelPosTask(-DROP_SURGE, -DROP_SWAY), 8),
            OrientTask(lambda: self.drop_initial_heading),
        )
Exemplo n.º 9
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 def downward_target_task(pt=(0, 0), deadband=(0.1, 0.1), max_out=0.04):
     return DownwardTarget(
         point=(lambda: shm_group_getter().center_x.get(), lambda: shm_group_getter().center_y.get()),
         target=norm_to_vision_downward(*pt),
         deadband=norm_to_vision_downward(-1.0 + deadband[0], -1.0 + deadband[1]),
         px=0.0005,
         py=0.001,
         max_out=max_out,
     )
Exemplo n.º 10
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 def on_first_run(self, points_func, target=(0, 0), precision=0, *args, **kwargs):
     self.task = ConsistentTask(DownwardTarget(
         point=lambda: self.centroid(points_func),
         target=target,
         deadband=self.DEADBANDS[precision],
         px=self.PS[precision],
         py=self.PS[precision],
         dx=self.DS[precision],
         dy=self.DS[precision],
         max_out=self.MAX_SPEED,
     ))
Exemplo n.º 11
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def move_to_next_and_drop():
    return DelimitBecome(
        WithLazyProc(
            lambda: foldl(
                lambda a, l: a or l.y <= shm.camera.downward_height / 2, False,
                [g.get() for g in bin_groups]),
            lambda up: become(
                Sequential(
                    DistSurgeTask(1.0),
                    ZeroAfter(
                        TimedTask(DownwardTarget(point=most_central_bin_point),
                                  10)), drop_over_most_central())))),
Exemplo n.º 12
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    def on_first_run(self):
        self.update_data()

        pipe_found = self.pipe_results.heuristic_score > 0

        self.centered_checker = ConsistencyCheck(18, 20)

        self.center = DownwardTarget(lambda self=self: (self.pipe_results.center_x, self.pipe_results.center_y),
                                     target=lambda self=self: get_camera_center(self.pipe_results),
                                     deadband=(30,30), px=0.003, py=0.003, dx=0.001, dy=0.001,
                                     valid=pipe_found)
        self.logi("Beginning to center on the pipe")
Exemplo n.º 13
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    def on_first_run(self):
        self.update_data()

        self.align = Heading(lambda: self.pipe_results.angle + shm.kalman.heading.get(), deadband=0.5)
        self.alignment_checker = ConsistencyCheck(49, 50)

        pipe_found = self.pipe_results.heuristic_score > 0

        self.center = DownwardTarget(lambda self=self: (self.pipe_results.center_x, self.pipe_results.center_y),
                                     target=get_downward_camera_center,
                                     deadband=(10,10), px=0.001, py=0.001, dx=0.002, dy=0.002,
                                     valid=pipe_found)
Exemplo n.º 14
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class center(Task):
    def update_data(self):
        self.pipe_results = shm.pipe_results.get()

    def on_first_run(self):
        self.update_data()

        pipe_found = self.pipe_results.heuristic_score > 0

        self.centered_checker = ConsistencyCheck(18, 20)

        self.center = DownwardTarget(lambda self=self: (self.pipe_results.center_x, self.pipe_results.center_y),
                                     target=get_downward_camera_center,
                                     deadband=(30,30), px=0.003, py=0.003, dx=0.001, dy=0.001,
                                     valid=pipe_found)
        self.logi("Beginning to center on the pipe")

    def on_run(self):
        self.update_data()
        self.center()

        if self.centered_checker.check(self.center.finished):
            self.center.stop()
            self.finish()
Exemplo n.º 15
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def drop_over_most_central():
    WithLazyProc(
        lambda: (most_central_bin_heading_abs(), shm.kalman.heading.get()),
        lambda x: become(
            Sequential(
                LogTask("drop orienting..."),
                OrientTask(lambda:
                           (x[0] + 90) % 360), LogTask("drop waiting..."),
                WaitTask(2), LogTask("drop retargeting..."),
                ZeroAfter(
                    Finite(
                        DownwardTarget(point=most_central_bin_point,
                                       min_out=0.05))),
                LogTask("drop adjusting..."),
                ZeroAfter(TimedTask(RelPosTask(DROP_SURGE, DROP_SWAY), 5)),
                DescendTask(TARGET_DROP_DEPTH), ThunkTask(drop_dropper),
                WaitTask(2),
                ZeroAfter(TimedTask(RelPosTask(-DROP_SURGE, -DROP_SWAY), 5)),
                OrientTask(lambda: x[1]))))
Exemplo n.º 16
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        self._finish()


QuickBins = Catch(
    lambda e: logged("Exception, dropping both droppers!", drop_both_droppers),
    Timeout(
        120,
        Sequential(
            DescendTask(SEARCH_ALIGN_DEPTH),
            Until(lambda: shm.desires.speed.set(0.1),
                  lambda: contour_count() >= 2 or handle_visible(),
                  lambda: shm.desires.speed.set(0)),
            Sequential(
                LazyIf(
                    handle_visible,
                    TimedTask(DownwardTarget(point=handle_point), 10),
                    TimedTask(DownwardTarget(point=most_central_bin_point),
                              10)),
                LazyIf(
                    handle_visible,
                    Sequential(
                        LogTask("going for handle"), ThunkTask(lower_grabber),
                        ZeroAfter(WithLazy(handle_heading_abs, OrientTask)),
                        WaitTask(3),
                        ZeroAfter(
                            TimedTask(DownwardTarget(point=handle_point), 10)),
                        DescendTask(HANDLE_GRAB_DEPTH_PRE),
                        LogTask("Descending for pre-grab..."),
                        ZeroAfter(
                            Concurrent(
                                WithLazy(handle_heading_abs, OrientTask),
Exemplo n.º 17
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        # TODO this might not be working
        print(angle_1, angle_2, diff)

        if self.angle_1_checker.check(
                diff > 0 ^ (angle_1 < angle_2) ^ (not bend_right)):
            self.finish()
        if self.angle_2_checker.check(
                diff < 0 ^ (angle_1 < angle_2) ^ (not bend_right)):
            self.finish(success=False)


PipeAlign = lambda heading: Concurrent(
    DownwardTarget(lambda: (shm.path_results.center_x.get(),
                            shm.path_results.center_y.get()),
                   target=(0, -.25),
                   deadband=(.1, .1),
                   px=0.5,
                   py=0.5), Log("Centered on Pipe!"),
    FunctionTask(lambda: shm.navigation_desires.heading.set(
        -180 / 3.14 * heading.get() + shm.kalman.heading.get())))

FollowPipe = lambda h1, h2: Sequential(
    PipeAlign(h1),
    Zero(),
    Log("Aligned To Pipe!"),
    DownwardTarget(lambda: (shm.path_results.center_x.get(),
                            shm.path_results.center_y.get()),
                   target=(0, 0),
                   deadband=(.1, .1),
                   px=0.5,
                   py=0.5),
Exemplo n.º 18
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#!/usr/bin/env python3.4

from mission.framework.combinators import Sequential, Concurrent
from mission.framework.movement import Depth
from mission.framework.targeting import DownwardTarget, HeadingTarget
from shm import shape_handle, shape_lightning, shape_banana, shape_soda, shape_bijection

CenterCover = Sequential(
    Depth(1),
    Concurrent(
        DownwardTarget((shape_handle.x.get, shape_handle.y.get),
                       target=(200, 200),
                       deadband=(0, 0))))

CenterLightning = Sequential(
    Depth(1),
    Concurrent(DownwardTarget((shape_lightning.x.get, shape_lightning.y.get))))
CenterBanana = Sequential(
    Depth(1),
    Concurrent(DownwardTarget((shape_banana.x.get, shape_banana.y.get))))
CenterSoda = Sequential(
    Depth(1), Concurrent(DownwardTarget((shape_soda.x.get, shape_soda.y.get))))
CenterBijection = Sequential(
    Depth(1),
    Concurrent(DownwardTarget((shape_bijection.x.get, shape_bijection.y.get))))
Exemplo n.º 19
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    Log("Picked Up"),
    cons(Heading(45)),
    Log("Turned to hardcoded heading"),
    drop_all,
    Log("Dropped"),
)


left = make_bin_chooser(True)
right = make_bin_chooser(False)

center_left = cons (
    DownwardTarget(
        point=(lambda: left().center_x.get(), lambda: left().center_y.get()),
        target=norm_to_vision_downward(0, 0),
        deadband=norm_to_vision_downward(-0.9, -0.9),
        px=0.0005,
        py=0.001,
        max_out=0.5,
    ),
    debug=True
)

center_right = cons(
    DownwardTarget(
        point=(lambda: right().center_x.get(), lambda: right().center_y.get()),
        target=norm_to_vision_downward(0, 0),
        deadband=norm_to_vision_downward(-0.9, -0.9),
        px=0.0005,
        py=0.001,
        max_out=0.5,
    ),
Exemplo n.º 20
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    def run(self, todo):
        log("SearchAlignedTask", "searching in aligned mode...")
        if self.continuing:
            if time.time() - self.period_start >= 1:
                self._finish()
                shm.desires.sway_speed.set(0)
                self.continuing = False
            return

        if (Goal.PRIMARY in todo and DROP_PRIMARY_GROUP.p.get() >= VISIBLE_P_THRESH) \
                or (Goal.SECONDARY in todo and DROP_SECONDARY_GROUP.p.get() >= VISIBLE_P_THRESH):
            log("SearchAlignedTask",
                "saw something, continuing for a bit just in case!")
            # this is to account for the roll changes caused by sway
            self.continuing = True
            self.period_start = time.time()
            return

        shm.desires.depth.set(SEARCH_ALIGN_DEPTH)

        if self.turning:
            log("SearchAlignedTask", "turning around...")
            if time.time() - self.period_start >= 1:
                shm.desires.sway_speed.set(0)
                shm.desires.speed.set(0)
                self.turning = False
                self.period_start = time.time()
                self.posx = not self.posx

        if not self.turning:
            if time.time() - self.period_start >= SEARCH_ALIGN_PERIOD_S * (
                    0.5 if self.first else 1):
                self.turning = True
                self.period_start = time.time()
                self.first = False
                return

            most = None
            mostx = -10 if self.posx else 100000000000
            for shape in [
                    s for s in shape_groups if s.p.get() >= VISIBLE_P_THRESH
            ]:
                if self.posx:
                    if shape.x.get() > mostx:
                        most = shape
                        mostx = shape.x.get()
                else:
                    if shape.x.get() < mostx:
                        most = shape
                        mostx = shape.x.get()

            if most is None:
                log("SearchAlignedTask/diagnostic", "setting fake most!")
                most = FakeXY(
                    shm.camera.downward_width.get() / 2 + 200 *
                    (1 if self.posx else -1),
                    shm.camera.downward_height.get() / 2)
            else:
                log("SearchAlignedTask/diagnostic",
                    "most: %d, %d" % (most.x.get(), most.y.get()))

            if most is not None and most is not self.target_shape:
                self.target_shape = most
                self.task = DownwardTarget(point=lambda:
                                           (most.x.get(), most.y.get()),
                                           min_out=0.1)

            if self.task is None:
                if self.posx:
                    shm.desires.sway_speed.set(SEARCH_ALIGN_SPEED)
                else:
                    shm.desires.sway_speed.set(-SEARCH_ALIGN_SPEED)
            else:
                self.task()
Exemplo n.º 21
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                visiblef,
                consistent_frames=(15, 19)
            ),
            Zero(),
            Depth(INITIAL_DEPTH, error=0.2))

SearchAnyVampire = lambda: Search(any_visible)

close_to = lambda point1, point2, dbx=20, dby=20: abs(point1[0]-point2[0]) < dbx and abs(point1[1]-point2[1]) < dby

Center = lambda centerf, visiblef, db=15, px=0.001, py=0.001, dx=0.00005, dy=0.00005: Sequential(
            Log('Centering'),
            MasterConcurrent(
                Consistent(lambda: close_to(centerf(), CAM_CENTER,  db), count=2.5, total=3.0, invert=False, result=True),
                Consistent(visiblef, count=2.5, total=3.0, invert=True, result=False),
                While(lambda: DownwardTarget(point=centerf, target=CAM_CENTER, deadband=(0, 0), px=px, py=py), True),
                AlwaysLog(lambda: 'center = {}, target = {}'.format(centerf(), CAM_CENTER))))

CenterAny = lambda: Center(center_any, any_visible)

# Descend = lambda depth=DEPTH, db=0.1, size_thresh=SIZE_THRESH: Sequential(  # TODO: FIND THE ACTUAL DEPTH1!!
#             Log('Descent into Madness'),
#             MasterConcurrent(  # TODO: TIMEOUT
#                 Consistent(lambda: abs(shm.kalman.depth.get() - depth) < db or size() > size_thresh, count=2.3, total=3, invert=False, result=True),
#                 Depth(depth)),  # TODO: BigDepth?
#             Zero())

close_to = lambda point1, point2, db=20: abs(point1[0]-point2[0]) < db and abs(point1[1]-point2[1]) < db

Align = lambda centerf, anglef, visiblef, closedb=10, aligndb=7: Sequential(
            Log('Aligning'),
Exemplo n.º 22
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def size():
    return shm.recovery_garlic.size.get()


Search = lambda: Sequential(  # TODO: TIMEOUT?
    Log('Searching'),
    SearchFor(SwaySearch(width=2.5, stride=2),
              visible,
              consistent_frames=(5, 7)), Zero())

Center = lambda db=40, px=0.0008, py=0.0008: Sequential(
    Log('Centering'),
    MasterConcurrent(
        DownwardTarget(
            point=center, target=CAM_CENTER, deadband=(db, db), px=px, py=py),
        AlwaysLog(lambda: 'center = {}, target = {}'.format(
            center(), CAM_CENTER))))

Descend = lambda depth=DEPTH, db=0.1, size_thresh=SIZE_THRESH: Sequential(  # TODO: FIND THE ACTUAL DEPTH1!!
    Log('Descent into Madness'),
    MasterConcurrent(  # TODO: TIMEOUT
        Consistent(lambda: abs(shm.kalman.depth.get() - depth) < db or size() >
                   size_thresh,
                   count=2.3,
                   total=3,
                   invert=False,
                   result=True), Depth(depth)),  # TODO: BigDepth?
    Zero())

close_to = lambda point1, point2, db=10: abs(point1[0] - point2[
Exemplo n.º 23
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 def set_SURVEYING(self):
     self.state = State.SURVEYING
     self.survey_task = Concurrent(
         DownwardTarget(point=center_approx, min_out=0.1), SurveyTask())
     self.survey_start = time.time()
Exemplo n.º 24
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DEPTH_TARGET_ALIGN_BIN = settings.depth_realign
DEPTH_TARGET_DROP = settings.depth_drop

CAM_CENTER = (cameras['downward']['width'] / 2,
              cameras['downward']['height'] / 2)

BIN_CENTER = [shm.bins_vision.center_x, shm.bins_vision.center_y]
#GREEN_CENTER = [shm.bins_green0.centroid_x, shm.bins_green0.centroid_y]
GREEN_CENTER = BIN_CENTER
GREEN_ANGLE = shm.bins_green0.angle

HEADING_OFFSET = settings.heading_offset

align_roulette_center = lambda db=20, p=0.0005: DownwardTarget(
    (BIN_CENTER[0].get, BIN_CENTER[1].get),
    target=CAM_CENTER,
    px=p,
    py=p,
    deadband=(db, db))
align_green_angle = lambda db=10, p=0.8: DownwardAlign(
    lambda: GREEN_ANGLE.get() + HEADING_OFFSET, target=0, deadband=db, p=p)

DropBall = lambda: FireBlue()

Search = lambda: SearchFor(
    SaneHeadingSearch(),
    shm.bins_vision.board_visible.get,
    consistent_frames=(1 * 60, 1.5 * 60
                       )  # multiply by 60 to specify in seconds
)

Full = lambda: Retry(
Exemplo n.º 25
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            abs(shm.path_results.center_x.get() - v[0]) < deadband and \
            abs(shm.path_results.center_y.get() - v[1]) < deadband


PipeAlign = lambda heading, trg, dst, deadband: Sequential(
    Log("PipeAlign start"),
    MasterConcurrent(
        While(
            lambda: Sequential(
                Log("attempt asdasd"),
                Concurrent(
                    DownwardTarget(lambda: (shm.path_results.center_x.get(),
                                            shm.path_results.center_y.get()),
                                   target=(lambda: heading_to_vector(heading())
                                           * -dst),
                                   deadband=(deadband, deadband),
                                   px=1,
                                   py=1,
                                   ix=.05,
                                   iy=.05),
                    While(
                        lambda: Sequential(
                            FunctionTask(lambda: shm.navigation_desires
                                         .heading.set((shm.kalman.heading.get(
                                         ) - .95 * math.degrees(
                                             heading_sub_degrees(
                                                 trg, heading(), math.pi * 2)))
                                                      % 360)
                                         if shm.path_results.num_lines.get(
                                         ) == 2 else None),
                            #Log('{:03d} '.format(int(shm.navigation_desires.heading.get())) + s2(int(math.degrees(trg)), int(math.degrees(heading())), int(shm.desires.heading.get())) if shm.path_results.num_lines.get() == 2 else 'X'),
Exemplo n.º 26
0
def PipeAlign(get_center,
              heading_vect,
              heading,
              get_visible,
              trg,
              dst,
              deadband,
              angle_range=math.pi * 2,
              abs_offset=(0, 0)):
    return Sequential(
        Log("PipeAlign start"),
        MasterConcurrent(
            Consistent(lambda: is_done(heading_vect, heading, get_center, trg,
                                       dst, deadband, abs_offset),
                       count=.5,
                       total=.75,
                       invert=False,
                       result=True),
            While(
                lambda: Sequential(
                    #Log("attempt asdasd"),
                    Concurrent(
                        DownwardTarget(
                            lambda: get_center(),
                            target=lambda:
                            (np.float64([heading_vect()]).view(np.complex128) *
                             -dst).view(np.float64)[0] + abs_offset,
                            deadband=(deadband, deadband),
                            px=2,
                            py=2,
                            dx=.5,
                            dy=.5  #, ix=.15, iy=.15
                        ),
                        While(
                            lambda: Sequential(
                                FunctionTask(
                                    lambda: shm.navigation_desires.heading.set(
                                        (shm.kalman.heading.get(
                                        ) - .95 * math.degrees(
                                            heading_sub_degrees(
                                                trg, heading(), angle_range))
                                         ) % 360) if get_visible() else None),
                                #Log('{:03d} '.format(int(shm.navigation_desires.heading.get())) + s2(int(math.degrees(trg)), int(math.degrees(heading())), int(shm.desires.heading.get()))),
                                Timer(.05)),
                            lambda: abs(
                                heading_sub_degrees(trg, heading(), math.pi * 2
                                                    )) > math.radians(5)
                        )  #, count=6, total=8, invert=False, result=True),
                    )),
                lambda:
                True  #lambda: abs(heading_sub_degrees(trg, heading(), math.pi*2)) > math.radians(5) or abs(shm.path_results.center_x.get()) > .08 or abs(shm.path_results.center_y.get()) > .08
            ),

            #, count=3, total=4, invert=False, result=True),
            #While(lambda: Log("V: {} h: {} d: {} x: {} y: {} c: {}".format(shm.path_results.num_lines.get(), heading(), math.degrees(heading_sub_degrees(trg, heading(), math.pi*2)), shm.path_results.center_x.get(), shm.path_results.center_y.get(), heading_to_vector(heading()) * dst)), lambda: True),
            #While(lambda: Log(s(int(math.degrees(heading_sub_degrees(trg, heading(), math.pi*2))) + 180)), lambda: True),
            #While(lambda: Log(s2(int(math.degrees(trg)), int(math.degrees(heading()))) if shm.path_results.num_lines.get() == 2 else 'X'), lambda: True),
        ),
        Log("Centered on Pipe in PipeAlign!"),
        #FunctionTask(lambda: shm.navigation_desires.heading.set(-180/math.pi*heading()+shm.kalman.heading.get()))
    )