本文整理汇总了Python中mission.framework.helpers.ConsistencyCheck类的典型用法代码示例。如果您正苦于以下问题:Python ConsistencyCheck类的具体用法?Python ConsistencyCheck怎么用?Python ConsistencyCheck使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了ConsistencyCheck类的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: IdentifyGate
class IdentifyGate(Task):
"""
Finish when we can see a good enough amount of the gate
"""
min_bbar_width = 0.15
def on_first_run(self, vision):
self.seen_cons_check = ConsistencyCheck(4, 5)
def on_run(self, vision):
self.seen_cons_check.add(vision.bottom is not None and \
# (vision.left is not None or vision.right is not None) and \
bbar_width_ratio(vision) >= self.min_bbar_width)
if self.seen_cons_check.check():
self.finish()
开发者ID:jheidel,项目名称:software,代码行数:15,代码来源:navigate.py
示例2: align
class align(Task):
def update_data(self):
self.pipe_results = shm.pipe_results.get()
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, self.pipe_results.center_y),
target=lambda self=self: get_camera_center(self.pipe_results),
deadband=(20,20), px=0.003, py=0.003, dx=0.001, dy=0.001,
valid=pipe_found)
self.logi("Beginning to align to the pipe's heading")
def on_run(self):
self.update_data()
self.align()
self.center()
if self.alignment_checker.check(self.align.finished):
self.finish()
开发者ID:icyflame,项目名称:software,代码行数:27,代码来源:pipe.py
示例3: IdentifyBins
class IdentifyBins(Task):
"""Identifies which bin to drop markers into, centers over it
Start: Both bins visible in downward cam
Finish: Centered over chosen bin
"""
def on_first_run(self, bin_group, heading=None, *args, **kwargs):
self.logi("Centering over bins...")
self.logv("Starting IdentifyBins task")
self.task = DownwardTarget(px=0.0025, py=0.0025)
self.align_checker = ConsistencyCheck(6, 6)
# TODO start alignment task.
self.init_time = self.this_run_time
self.bin_group = bin_group
if bin1.covered == FAST_RUN:
self.target_bin = bin1
else:
self.target_bin = bin2
def on_run(self, bin_group, heading=None):
self.bin1_results = self.bin_group.get()
target = get_camera_center(self.bin1_results)
# TODO Increase deadband as time increases.
self.task((self.bin1_results.x, self.bin1_results.y), target=target, deadband=(25, 25), valid=lambda: self.bin1_results.probability > 0.0)
if self.task.finished:
if heading is None:
target_heading = shm.kalman.heading.get() + self.bin1_results.angle
else:
target_heading = heading()
align_task = Heading(target_heading, deadband=0.5)
align_task()
if self.align_checker.check(align_task.finished):
VelocityX(0)()
VelocityY(0)()
self.finish()
else:
self.align_checker.clear()
def on_finish(self):
self.logi("Centered!")
self.logv('IdentifyBins task finished in {} seconds!'.format(
self.this_run_time - self.init_time))
开发者ID:zhaohongqiang,项目名称:software,代码行数:47,代码来源:bins.py
示例4: CheckBinsInSight
class CheckBinsInSight(Task):
""" Checks if the desired bin is in sight of the camera
Used in SearchBinsTask as MasterConcurrent's end condition"""
def on_first_run(self, *args, **kwargs):
self.logv("Checking if bins in sight")
self.init_time = self.this_run_time
self.seen_checker1 = ConsistencyCheck(6, 8)
self.seen_checker2 = ConsistencyCheck(6, 8)
def on_run(self):
cover_results = cover.get()
yellow_results = yellow1.get()
if self.seen_checker1.check(cover_results.probability > 0.0) or \
self.seen_checker2.check(yellow_results.probability > 0.0):
self.finish()
def on_finish(self):
self.logv('CheckBinsInSight task finished in {} seconds!'.format(
self.this_run_time - self.init_time))
开发者ID:jheidel,项目名称:software,代码行数:19,代码来源:bins.py
示例5: SearchFor
class SearchFor(Task):
def on_first_run(self, search_task, visible, consistent_frames=(3, 5)):
self.found_checker = ConsistencyCheck(*consistent_frames)
def on_run(self, search_task, visible, consistent_frames=(3, 5)):
visible = call_if_function(visible)
if self.found_checker.check(visible):
self.finish()
else:
search_task()
开发者ID:icyflame,项目名称:software,代码行数:10,代码来源:search.py
示例6: Buoy
class Buoy(Task):
"""
Wrapper around the BuoyRam class that will specifically ram a red or green
buoy
"""
def __init__(self, buoy, *args, **kwargs):
super().__init__(*args, **kwargs)
# Instantiate the BuoyRam task
self.buoy = buoy
self.align_task = AlignTarget(self.location_validator,
AssumeBuoy(self.location_validator),
(self.buoy.center_x.get, self.buoy.center_y.get), self.buoy)
self.ram_task = BuoyRam(self.location_validator,
(self.buoy.center_x.get, self.buoy.center_y.get), self.buoy,
self.collision_validator, self.align_task)
self.seen_frames_checker = ConsistencyCheck(5, 5)
self.last_percent_frame = 0
self.PERCENT_FRAME_THRESHOLD = 10
self.PERCENT_FRAME_DELTA_THRESHOLD = 10
self.TIMEOUT = 100
def on_first_run(self):
self.logv("Starting {} task".format(self.__class__.__name__))
def on_run(self):
# Perform BuoyRam task
if self.this_run_time - self.first_run_time > self.TIMEOUT:
self.finish()
self.loge("Buoy ({}) timed out!".format(self.buoy))
return
self.ram_task()
if self.ram_task.finished:
self.finish()
def on_finish(self):
self.logv("Buoy ({}) task finished in {} seconds!".format(
self.buoy, self.this_run_time - self.first_run_time))
Zero()()
def location_validator(self):
# TODO even more robust location validator
return self.seen_frames_checker.check(self.buoy.probability.get() != 0)
def collision_validator(self):
# TODO even more robust collision validator
if not shm.gpio.wall_1.get():
self.logi("Detected buoy ram using touch sensor!")
return True
current = self.buoy.percent_frame.get()
if current >= self.PERCENT_FRAME_THRESHOLD:
if abs(self.last_percent_frame - current) <= self.PERCENT_FRAME_DELTA_THRESHOLD:
return True
self.last_percent_frame = current
return False
开发者ID:jheidel,项目名称:software,代码行数:55,代码来源:buoys.py
示例7: __init__
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.locator_task = LocateBuoy(self.location_validator)
self.locator_task = AssumeBuoy(self.location_validator)
self.align_task = AlignTarget(self.location_validator,
self.locator_task, (yellow_buoy_results.top_x.get,
yellow_buoy_results.top_y.get), yellow_buoy_results, forward_target_p=0.002)
self.concurrent_align_task = AlignTarget(self.location_validator,
self.locator_task, (yellow_buoy_results.top_x.get,
yellow_buoy_results.top_y.get), yellow_buoy_results, forward_target_p=0.002)
self.MAX_RAM_SPEED = 0.6
self.ram_speed = self.MAX_RAM_SPEED
self.ram_task = RamTarget(self.location_validator,
self.collision_validator, self.locator_task,
self.concurrent_align_task, ram_speed=lambda: self.ram_speed)
self.ready_to_ram_checker = ConsistencyCheck(40, 40)
self.seen_frames_checker = ConsistencyCheck(5, 5)
SCUTTLE_TIME = 2.0
BUOY_MOUNTING_DISTANCE = 0.55
self.scuttle = Sequential(Log("Rising to prepare for scuttle"),
RelativeToInitialDepth(-0.2, error=0.02),
Log("Moving on top of Yellow Buoy"),
MoveX(BUOY_MOUNTING_DISTANCE),
Log("Beginning %0.2f second scuttle!" % SCUTTLE_TIME),
MasterConcurrent(Timer(SCUTTLE_TIME), VelocityX(1.0), RelativeToInitialDepth(3.0, error=0.03)),
Log("Scuttle complete. Returning to targeting position."),
Depth(1.0)
# GoToPosition(lambda: self.target_position[0], lambda: self.target_position[1], depth=lambda: self.target_depth)
)
self.tasks = Sequential(self.locator_task, self.align_task,
self.ram_task, self.scuttle)
#self.last_percent_frame = 0
#self.PERCENT_FRAME_DELTA_THRESHOLD = 10
self.PERCENT_FRAME_THRESHOLD = 2
self.PERCENT_FRAME_SLOWDOWN_THRESHOLD = 0.4
self.TIMEOUT = 100
开发者ID:jheidel,项目名称:software,代码行数:42,代码来源:buoys.py
示例8: ConsistentTask
class ConsistentTask(Task):
"""
Checks to make sure a non-finite task consistently is finished
"""
def on_first_run(self, task, success=18, total=20, *args, **kwargs):
self.cons_check = ConsistencyCheck(success, total)
def on_run(self, task, *args, **kwargs):
task()
if self.cons_check.check(task.finished):
self.finish()
开发者ID:jheidel,项目名称:software,代码行数:11,代码来源:recovery.py
示例9: on_first_run
def on_first_run(self, altitude, *args, **kwargs):
self.min_speed = 0.008
self.min_delta = 0.1
self.deque_size = 20
self.success = False
self.altitude_task = Altitude(altitude, p=0.3)
self.stop_cons_check = ConsistencyCheck(3, 3)
self.readings = deque()
self.initial_altitude = shm.dvl.savg_altitude.get()
self.last_altitude = self.initial_altitude
开发者ID:icyflame,项目名称:software,代码行数:11,代码来源:recovery.py
示例10: align
class align(Task):
def on_first_run(self):
self.align = PIDLoop(output_function=RelativeToCurrentHeading(), target=0, input_value=lambda: shm.pipe_results.angle.get(), negate=True, deadband=1)
self.alignment_checker = ConsistencyCheck(19, 20)
self.logi("Beginning to align to the pipe's heading")
def on_run(self):
self.align()
if self.alignment_checker.check(self.align.finished):
self.finish()
开发者ID:zhaohongqiang,项目名称:software,代码行数:12,代码来源:pipe.py
示例11: on_first_run
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")
开发者ID:icyflame,项目名称:software,代码行数:12,代码来源:pipe.py
示例12: on_first_run
def on_first_run(self, run_type, heading=None, uncovered_bin_vector=None):
self.logi("Centering over bins...")
self.logv("Starting IdentifyBins task")
self.center_valid = False
self.center_coords = (0, 0)
self.task = DownwardTarget(px=0.0025, py=0.0025,
point=lambda: self.center_coords,
valid=lambda: self.center_valid)
self.center_checker = ConsistencyCheck(15, 17)
self.align_checker = ConsistencyCheck(6, 6)
# TODO start alignment task.
self.init_time = self.this_run_time
self.uncovered_bin_vector = None
self.seen_two = False
cam = get_downward_camera()
self.cover_tracker = Tracker(cam['width'] * 0.15)
self.yellow_tracker = Tracker(cam['width'] * 0.15)
开发者ID:jheidel,项目名称:software,代码行数:22,代码来源:bins.py
示例13: on_first_run
def on_first_run(self, bin_group, heading=None, *args, **kwargs):
self.logi("Centering over bins...")
self.logv("Starting IdentifyBins task")
self.task = DownwardTarget(px=0.0025, py=0.0025)
self.align_checker = ConsistencyCheck(6, 6)
# TODO start alignment task.
self.init_time = self.this_run_time
self.bin_group = bin_group
if bin1.covered == FAST_RUN:
self.target_bin = bin1
else:
self.target_bin = bin2
开发者ID:zhaohongqiang,项目名称:software,代码行数:14,代码来源:bins.py
示例14: AlignTarget
class AlignTarget(Task):
"""
Aligns using ForwardTarget on a target coordinate, while ensuring that the
target is visible
"""
def __init__(self, validator, locator_task, target_coords, vision_group, forward_target_p=0.003, *args, **kwargs):
"""
validator - a function that returns True when the target is visible and False
otherwise.
locator_task - a task that locates the target
target_coords - the coordinates of the target with which to align
"""
super().__init__(*args, **kwargs)
self.validator = validator
self.locator_task = locator_task
def get_center():
return get_forward_camera_center()
self.target_task = ForwardTarget(target_coords, target=get_center,
px=forward_target_p, dx=forward_target_p/3,
py=forward_target_p, dy=forward_target_p/3, deadband=(30, 30))
self.target_checker = ConsistencyCheck(10, 10)
self.TIMEOUT = 60
def on_first_run(self):
self.logv("Starting {} task".format(self.__class__.__name__))
def on_run(self):
if self.this_run_time - self.first_run_time > self.TIMEOUT:
self.finish()
self.loge("{} timed out!".format(self.__class__.__name__))
return
self.logv("Running {}".format(self.__class__.__name__))
if self.validator():
self.target_task()
else:
self.locator_task()
if self.target_checker.check(self.target_task.finished):
self.finish()
def on_finish(self):
self.logv('{} task finished in {} seconds!'.format(
self.__class__.__name__,
self.this_run_time - self.first_run_time))
开发者ID:jheidel,项目名称:software,代码行数:45,代码来源:buoys.py
示例15: AltitudeUntilStop
class AltitudeUntilStop(Task):
"""
Attempt to move to the target altitude until the sub gets stuck
"""
def on_first_run(self, altitude, *args, **kwargs):
self.min_speed = 0.008
self.min_delta = 0.1
self.deque_size = 20
self.success = False
self.altitude_task = Altitude(altitude, p=0.3)
self.stop_cons_check = ConsistencyCheck(3, 3)
self.readings = deque()
self.initial_altitude = shm.dvl.savg_altitude.get()
self.last_altitude = self.initial_altitude
def on_run(self, altitude, *args, **kwargs):
if not self.altitude_task.has_ever_finished:
self.altitude_task()
current_altitude = shm.dvl.savg_altitude.get()
self.readings.append((current_altitude, time.time()))
if len(self.readings) > self.deque_size:
self.readings.popleft()
if abs(current_altitude - self.initial_altitude) >= self.min_delta and \
len(self.readings) >= self.deque_size:
delta_altitude = self.readings[-1][0] - self.readings[0][0]
delta_time = self.readings[-1][1] - self.readings[0][1]
speed = abs(delta_altitude / delta_time)
if self.stop_cons_check.check(speed < self.min_speed):
self.logi('Stopped changing altitude, finishing')
self.success = True
self.finish()
else:
self.loge('Bounding altitude reached')
self.finish()
开发者ID:icyflame,项目名称:software,代码行数:37,代码来源:recovery.py
示例16: center
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()
开发者ID:jheidel,项目名称:software,代码行数:24,代码来源:pipe.py
示例17: __init__
def __init__(self, seen_cons_check=(2, 3), unseen_cons_check=(5, 6)):
self.last_obj = None
self.tracking = False
self.seen_cons_check = ConsistencyCheck(*seen_cons_check)
self.unseen_cons_check = ConsistencyCheck(*unseen_cons_check)
开发者ID:icyflame,项目名称:software,代码行数:5,代码来源:track.py
示例18: ScuttleYellowBuoy
class ScuttleYellowBuoy(Task):
"""
Locates and scuttles a yellow buoy by dragging it down.
Precondition: The yellow buoy is located at a position in front of the
position of the submarine.
Postcondition: The submarine will have dragged down the yellow buoy, and the
submarine will be positioned above the yellow buoy.
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.locator_task = LocateBuoy(self.location_validator)
self.locator_task = AssumeBuoy(self.location_validator)
self.align_task = AlignTarget(self.location_validator,
self.locator_task, (yellow_buoy_results.top_x.get,
yellow_buoy_results.top_y.get), yellow_buoy_results, forward_target_p=0.002)
self.concurrent_align_task = AlignTarget(self.location_validator,
self.locator_task, (yellow_buoy_results.top_x.get,
yellow_buoy_results.top_y.get), yellow_buoy_results, forward_target_p=0.002)
self.MAX_RAM_SPEED = 0.6
self.ram_speed = self.MAX_RAM_SPEED
self.ram_task = RamTarget(self.location_validator,
self.collision_validator, self.locator_task,
self.concurrent_align_task, ram_speed=lambda: self.ram_speed)
self.ready_to_ram_checker = ConsistencyCheck(40, 40)
self.seen_frames_checker = ConsistencyCheck(5, 5)
SCUTTLE_TIME = 2.0
BUOY_MOUNTING_DISTANCE = 0.55
self.scuttle = Sequential(Log("Rising to prepare for scuttle"),
RelativeToInitialDepth(-0.2, error=0.02),
Log("Moving on top of Yellow Buoy"),
MoveX(BUOY_MOUNTING_DISTANCE),
Log("Beginning %0.2f second scuttle!" % SCUTTLE_TIME),
MasterConcurrent(Timer(SCUTTLE_TIME), VelocityX(1.0), RelativeToInitialDepth(3.0, error=0.03)),
Log("Scuttle complete. Returning to targeting position."),
Depth(1.0)
# GoToPosition(lambda: self.target_position[0], lambda: self.target_position[1], depth=lambda: self.target_depth)
)
self.tasks = Sequential(self.locator_task, self.align_task,
self.ram_task, self.scuttle)
#self.last_percent_frame = 0
#self.PERCENT_FRAME_DELTA_THRESHOLD = 10
self.PERCENT_FRAME_THRESHOLD = 2
self.PERCENT_FRAME_SLOWDOWN_THRESHOLD = 0.4
self.TIMEOUT = 100
def on_first_run(self):
self.logv("Starting {} task".format(self.__class__.__name__))
def on_run(self):
# Locate the yellow buoy
# Align with the yellow buoy
# Move forward until collision with the buoy (using RamTarget)
# Descend to drag buoy downwards
if self.this_run_time - self.first_run_time > self.TIMEOUT:
self.finish()
self.loge("{} timed out!".format(self.__class__.__name__))
return
self.tasks()
if self.tasks.finished:
self.finish()
def on_finish(self):
self.logv('{} task finished in {} seconds!'.format(
self.__class__.__name__,
self.this_run_time - self.first_run_time))
Zero()()
def location_validator(self):
# TODO even more robust location validator
return self.seen_frames_checker.check(yellow_buoy_results.probability.get() != 0)
def collision_validator(self):
# TODO even more robust collision validator
current = yellow_buoy_results.percent_frame.get()
aligned = self.concurrent_align_task.finished
max_ram_speed = self.MAX_RAM_SPEED
if not aligned:
max_ram_speed /= 3
self.ram_speed = scaled_speed(final_value=self.PERCENT_FRAME_THRESHOLD + 1,
initial_value=self.PERCENT_FRAME_SLOWDOWN_THRESHOLD,
final_speed=0.0, initial_speed=max_ram_speed,
current_value=current)
if self.ready_to_ram_checker.check(current >= self.PERCENT_FRAME_THRESHOLD and \
aligned):
self.target_position = get_sub_position()
self.target_depth = shm.kalman.depth.get()
self.logi("Close enough to yellow buoy to scuttle!")
return True
#if yellow_buoy_results.center_y.get() > (shm.camera.forward_height.get() - 10) \
#.........这里部分代码省略.........
开发者ID:jheidel,项目名称:software,代码行数:101,代码来源:buoys.py
示例19: IdentifyBins
class IdentifyBins(Task):
""" Identifies which bin to drop markers into, centers over it """
def on_first_run(self, run_type, heading=None, uncovered_bin_vector=None):
self.logi("Centering over bins...")
self.logv("Starting IdentifyBins task")
self.center_valid = False
self.center_coords = (0, 0)
self.task = DownwardTarget(px=0.0025, py=0.0025,
point=lambda: self.center_coords,
valid=lambda: self.center_valid)
self.center_checker = ConsistencyCheck(15, 17)
self.align_checker = ConsistencyCheck(6, 6)
# TODO start alignment task.
self.init_time = self.this_run_time
self.uncovered_bin_vector = None
self.seen_two = False
cam = get_downward_camera()
self.cover_tracker = Tracker(cam['width'] * 0.15)
self.yellow_tracker = Tracker(cam['width'] * 0.15)
def on_run(self, run_type, heading=None, uncovered_bin_vector=None):
yellows = [TrackedBin(b.center_x, b.center_y) if b.probability > 0.0 else None for b in [yellow1.get(), yellow2.get()] ]
cover_g = cover.get()
covert = TrackedBin(cover_g.center_x, cover_g.center_y) if cover_g.probability > 0.0 else None
self.consistent_bins = self.yellow_tracker.track(*yellows)
self.consistent_cover = self.cover_tracker.track(covert, None)
def calculate_bin_vector(bin1, bin2):
body_frame = [(bin1.x, bin1.y), (bin2.x, bin2.y)]
world_frame = [np.array(rotate(body, -shm.kalman.heading.get())) for body in body_frame]
bin2bin = world_frame[1] - world_frame[0]
return bin2bin / np.linalg.norm(bin2bin)
if any(self.consistent_cover) and any(self.consistent_bins):
if run_type == "cover":
good_cover = self.consistent_cover[0]
if good_cover is None:
good_cover = self.consistent_cover[1]
good_yellow = self.consistent_bins[0]
if good_yellow is None:
good_yellow = self.consistent_bins[1]
bin2cover_hat = calculate_bin_vector(good_yellow, good_cover)
if self.uncovered_bin_vector is None:
# TODO Take average here.
self.uncovered_bin_vector = bin2cover_hat
self.logi("Discovered cover to bin world vector %0.2f %0.2f" % \
(self.uncovered_bin_vector[0], self.uncovered_bin_vector[1]))
if run_type == "cover":
cands = self.consistent_cover + self.consistent_bins
else:
if all(self.consistent_bins) and uncovered_bin_vector is not None:
bin2bin = calculate_bin_vector(self.consistent_bins[0], self.consistent_bins[1])
if bin2bin.dot(uncovered_bin_vector()) > 0:
index = 1
else:
index = 0
if not self.seen_two:
self.seen_two = True
self.uncovered_ind = index
self.logi("Chose bin with index %d: current coords %d %d" % \
(self.uncovered_ind, self.consistent_bins[self.uncovered_ind].x, self.consistent_bins[self.uncovered_ind].y))
else:
if self.uncovered_ind == index:
self.logv("Confirmed uncovered bin has index %d" % index)
else:
self.logi("WARNING: Detected new uncovered bin index %d!" % index)
if not self.seen_two:
self.logv("Did not find two yellow!")
cands = self.consistent_bins + self.consistent_cover
else:
cands = [self.consistent_bins[self.uncovered_ind], self.consistent_bins[1 - self.uncovered_ind]] + self.consistent_cover
for i, cand in enumerate(cands):
if cand is not None:
self.logv("Found good bin of index %d" % i)
self.center_valid = True
self.center_coords = cand.x, cand.y
break
else:
self.logv("No good bins found to center on!")
self.center_valid = False
# Assumes cover and contours from same camera
target = get_downward_camera_center()
# TODO Increase deadband as time increases.
self.task(target=target, deadband=(25, 25))
if self.center_checker.check(self.task.finished):
if run_type == "cover" or heading is None:
#.........这里部分代码省略.........
开发者ID:jheidel,项目名称:software,代码行数:101,代码来源:bins.py
示例20: on_first_run
def on_first_run(self, search_task, visible, consistent_frames=(3, 5)):
self.found_checker = ConsistencyCheck(*consistent_frames)
开发者ID:icyflame,项目名称:software,代码行数:2,代码来源:search.py
注:本文中的mission.framework.helpers.ConsistencyCheck类示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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