# validated: 2017-12-26 DV f9bece2ffbf7 edu/wpi/first/wpilibj/AnalogGyro.java
#----------------------------------------------------------------------------
# Copyright (c) 2008-2017 FIRST. All Rights Reserved.
# Open Source Software - may be modified and shared by FRC teams. The code
# must be accompanied by the FIRST BSD license file in the root directory of
# the project.
#----------------------------------------------------------------------------
import hal
from .analoginput import AnalogInput
from .gyrobase import GyroBase
from .interfaces import PIDSource
__all__ = ["AnalogGyro"]
[docs]class AnalogGyro(GyroBase):
"""Interface to a gyro device via an :class:`.AnalogInput`
Use a rate gyro to return the robots heading relative to a starting
position. The Gyro class tracks the robots heading based on the starting
position. As the robot rotates the new heading is computed by integrating
the rate of rotation returned by the sensor. When the class is
instantiated, it does a short calibration routine where it samples the
gyro while at rest to determine the default offset. This is subtracted
from each sample to determine the heading.
.. not_implemented: initGyro
"""
kOversampleBits = 10
kAverageBits = 0
kSamplesPerSecond = 50.0
kCalibrationSampleTime = 5.0
kDefaultVoltsPerDegreePerSecond = 0.007
PIDSourceType = PIDSource.PIDSourceType
def __init__(self, channel, center=None, offset=None):
"""Gyro constructor.
Also initializes the gyro. Calibrate the gyro by running for a number
of samples and computing the center value. Then use the
center value as the Accumulator center value for subsequent
measurements. It's important to make sure that the robot is not
moving while the centering calculations are in progress, this is
typically done when the robot is first turned on while it's sitting
at rest before the competition starts.
:param channel: The analog channel index or AnalogInput object that
the gyro is connected to. Gyros can only be used on on-board channels 0-1.
:param center: Preset uncalibrated value to use as the accumulator center value
:type center: int
:param offset: Preset uncalibrated value to use as the gyro offset
:type offset: float
"""
super().__init__()
if not hasattr(channel, "initAccumulator"):
channel = AnalogInput(channel)
self.channelAllocated = True
self.addChild(channel)
else:
self.channelAllocated = False
self.analog = channel
self.gyroHandle = hal.initializeAnalogGyro(self.analog.port)
self.setDeadband(0.0)
hal.setupAnalogGyro(self.gyroHandle)
hal.report(hal.UsageReporting.kResourceType_Gyro, self.analog.getChannel())
self.setName("AnalogGyro", self.analog.getChannel())
if center is None or offset is None:
self.calibrate()
else:
hal.setAnalogGyroParameters(self.gyroHandle, self.kDefaultVoltsPerDegreePerSecond, offset, center)
self.reset()
[docs] def calibrate(self):
""":see: :meth:`.Gyro.calibrate`"""
hal.calibrateAnalogGyro(self.gyroHandle)
[docs] def reset(self):
""":see: :meth:`.Gyro.reset`"""
hal.resetAnalogGyro(self.gyroHandle)
[docs] def free(self):
""":see: :meth:`.Gyro.free`"""
super().free()
if self.analog is not None and self.channelAllocated:
self.analog.free()
self.analog = None
hal.freeAnalogGyro(self.gyroHandle)
self.gyroHandle = 0
[docs] def getAngle(self):
""":see: :meth:`.Gyro.getAngle`"""
if self.analog is None:
return 0.0
return hal.getAnalogGyroAngle(self.gyroHandle)
[docs] def getRate(self):
""":see: :meth:`.Gyro.getRate`"""
if self.analog is None:
return 0.0
else:
return hal.getAnalogGyroRate(self.gyroHandle)
[docs] def getOffset(self):
"""Return the gyro offset value set during calibration to
use as a future preset
:returns: the current offset value
"""
return hal.getAnalogGyroOffset(self.gyroHandle)
[docs] def getCenter(self):
"""Return the gyro center value set during calibration to
use as a future preset
:returns: the current center value
"""
return hal.getAnalogGyroCenter(self.gyroHandle)
[docs] def setSensitivity(self, voltsPerDegreePerSecond):
"""Set the gyro sensitivity. This takes the number of
volts/degree/second sensitivity of the gyro and uses it in subsequent
calculations to allow the code to work with multiple gyros. This value
is typically found in the gyro datasheet.
:param voltsPerDegreePerSecond:
The sensitivity in Volts/degree/second
:type voltsPerDegreePerSecond: float
"""
hal.setAnalogGyroVoltsPerDegreePerSecond(self.gyroHandle, voltsPerDegreePerSecond)
[docs] def setDeadband(self, volts):
"""Set the size of the neutral zone. Any voltage from the gyro less
than this amount from the center is considered stationary. Setting a
deadband will decrease the amount of drift when the gyro isn't
rotating, but will make it less accurate.
:param volts: The size of the deadband in volts
:type volts: float
"""
if self.analog is None:
return
hal.setAnalogGyroDeadband(self.gyroHandle, volts)