mirror of https://github.com/Desuuuu/klipper.git
motan: Add support for analyzing "angle" sensor data
Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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@ -157,6 +157,10 @@ class DataLogger:
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aname = cfgname.split()[-1]
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aname = cfgname.split()[-1]
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self.send_subscribe("adxl345:" + aname, "adxl345/dump_adxl345",
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self.send_subscribe("adxl345:" + aname, "adxl345/dump_adxl345",
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{"sensor": aname})
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{"sensor": aname})
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if cfgname.startswith("angle "):
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aname = cfgname.split()[1]
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self.send_subscribe("angle:" + aname, "angle/dump_angle",
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{"sensor": aname})
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def handle_dump(self, msg, raw_msg):
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def handle_dump(self, msg, raw_msg):
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msg_id = msg["id"]
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msg_id = msg["id"]
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if "result" not in msg:
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if "result" not in msg:
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@ -374,6 +374,67 @@ class HandleADXL345:
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self.data_pos += 1
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self.data_pos += 1
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LogHandlers["adxl345"] = HandleADXL345
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LogHandlers["adxl345"] = HandleADXL345
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# Extract positions from magnetic angle sensor
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class HandleAngle:
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SubscriptionIdParts = 2
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ParametersMin = ParametersMax = 1
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DataSets = [
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('angle(<name>)', 'Angle sensor position'),
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]
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def __init__(self, lmanager, name, name_parts):
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self.name = name
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self.angle_name = name_parts[1]
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self.jdispatch = lmanager.get_jdispatch()
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self.next_angle_time = self.last_angle_time = 0.
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self.next_angle = self.last_angle = 0.
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self.cur_data = []
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self.data_pos = 0
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self.position_offset = 0.
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self.angle_dist = 1.
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# Determine angle distance from associated stepper's rotation_distance
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config = lmanager.get_initial_status()['configfile']['settings']
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aname = 'angle %s' % (self.angle_name,)
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stepper_name = config.get(aname, {}).get('stepper')
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if stepper_name is not None:
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sconfig = config.get(stepper_name, {})
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rotation_distance = sconfig.get('rotation_distance', 1.)
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gear_ratio = sconfig.get('gear_ratio', ())
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if type(gear_ratio) == str: # XXX
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gear_ratio = [[float(v.strip()) for v in gr.split(':')]
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for gr in gear_ratio.split(',')]
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for n, d in gear_ratio:
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rotation_distance *= d / n
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self.angle_dist = rotation_distance / 65536.
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def get_label(self):
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label = '%s position' % (self.angle_name,)
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return {'label': label, 'units': 'Position\n(mm)'}
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def pull_data(self, req_time):
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while 1:
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if req_time <= self.next_angle_time:
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pdiff = self.next_angle - self.last_angle
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tdiff = self.next_angle_time - self.last_angle_time
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rtdiff = req_time - self.last_angle_time
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po = rtdiff * pdiff / tdiff
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return ((self.last_angle + po) * self.angle_dist
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+ self.position_offset)
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if self.data_pos >= len(self.cur_data):
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# Read next data block
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jmsg = self.jdispatch.pull_msg(req_time, self.name)
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if jmsg is None:
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return (self.next_angle * self.angle_dist
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+ self.position_offset)
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self.cur_data = jmsg['data']
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position_offset = jmsg.get('position_offset')
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if position_offset is not None:
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self.position_offset = position_offset
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self.data_pos = 0
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continue
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self.last_angle = self.next_angle
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self.last_angle_time = self.next_angle_time
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self.next_angle_time, self.next_angle = self.cur_data[self.data_pos]
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self.data_pos += 1
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LogHandlers["angle"] = HandleAngle
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######################################################################
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######################################################################
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# Log reading
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# Log reading
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