ardupilot/Tools/LogAnalyzer/tests/TestPitchRollCoupling.py

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# AP_FLAKE8_CLEAN
import collections
import DataflashLog
from LogAnalyzer import Test, TestResult
from VehicleType import VehicleType
class TestPitchRollCoupling(Test):
'''test for divergence between input and output pitch/roll, i.e. mechanical failure or bad PID tuning'''
# TODO: currently we're only checking for roll/pitch outside of max lean angle, will come back later to analyze
# roll/pitch in versus out values
def __init__(self):
Test.__init__(self)
self.name = "Pitch/Roll"
def run(self, logdata, verbose):
self.result = TestResult()
self.result.status = TestResult.StatusType.GOOD
if logdata.vehicleType != VehicleType.Copter:
self.result.status = TestResult.StatusType.NA
return
if "ATT" not in logdata.channels:
self.result.status = TestResult.StatusType.UNKNOWN
self.result.statusMessage = "No ATT log data"
return
if "CTUN" not in logdata.channels:
self.result.status = TestResult.StatusType.UNKNOWN
self.result.statusMessage = "No CTUN log data"
return
if "BarAlt" in logdata.channels['CTUN']:
self.ctun_baralt_att = 'BarAlt'
else:
self.ctun_baralt_att = 'BAlt'
# figure out where each mode begins and ends, so we can treat auto and manual modes differently and ignore
# acro/tune modes
autoModes = [
"RTL",
"AUTO",
"LAND",
"LOITER",
"GUIDED",
"CIRCLE",
"OF_LOITER",
"POSHOLD",
"BRAKE",
"AVOID_ADSB",
"GUIDED_NOGPS",
"SMARTRTL",
]
# use CTUN RollIn/DesRoll + PitchIn/DesPitch
manualModes = ["STABILIZE", "DRIFT", "ALTHOLD", "ALT_HOLD", "POSHOLD"]
# ignore data from these modes:
ignoreModes = [
"ACRO",
"SPORT",
"FLIP",
"AUTOTUNE",
"",
"THROW",
]
autoSegments = [] # list of (startLine,endLine) pairs
manualSegments = [] # list of (startLine,endLine) pairs
orderedModes = collections.OrderedDict(sorted(logdata.modeChanges.items(), key=lambda t: t[0]))
isAuto = False # we always start in a manual control mode
prevLine = 0
mode = ""
for line, modepair in orderedModes.items():
mode = modepair[0].upper()
if prevLine == 0:
prevLine = line
if mode in autoModes:
if not isAuto:
manualSegments.append((prevLine, line - 1))
prevLine = line
isAuto = True
elif mode in manualModes:
if isAuto:
autoSegments.append((prevLine, line - 1))
prevLine = line
isAuto = False
elif mode in ignoreModes:
if isAuto:
autoSegments.append((prevLine, line - 1))
else:
manualSegments.append((prevLine, line - 1))
prevLine = 0
else:
raise Exception("Unknown mode in TestPitchRollCoupling: %s" % mode)
# and handle the last segment, which doesn't have an ending
if mode in autoModes:
autoSegments.append((prevLine, logdata.lineCount))
elif mode in manualModes:
manualSegments.append((prevLine, logdata.lineCount))
# figure out max lean angle, the ANGLE_MAX param was added in AC3.1
maxLeanAngle = 45.0
if "ANGLE_MAX" in logdata.parameters:
maxLeanAngle = logdata.parameters["ANGLE_MAX"] / 100.0
maxLeanAngleBuffer = 10 # allow a buffer margin
# ignore anything below this altitude, to discard any data while not flying
minAltThreshold = 2.0
# look through manual+auto flight segments
# TODO: filter to ignore single points outside range?
(maxRoll, maxRollLine) = (0.0, 0)
(maxPitch, maxPitchLine) = (0.0, 0)
for (startLine, endLine) in manualSegments + autoSegments:
# quick up-front test, only fallover into more complex line-by-line check if max()>threshold
rollSeg = logdata.channels["ATT"]["Roll"].getSegment(startLine, endLine)
pitchSeg = logdata.channels["ATT"]["Pitch"].getSegment(startLine, endLine)
if not rollSeg.dictData and not pitchSeg.dictData:
continue
# check max roll+pitch for any time where relative altitude is above minAltThreshold
roll = max(abs(rollSeg.min()), abs(rollSeg.max()))
pitch = max(abs(pitchSeg.min()), abs(pitchSeg.max()))
if (roll > (maxLeanAngle + maxLeanAngleBuffer) and abs(roll) > abs(maxRoll)) or (
pitch > (maxLeanAngle + maxLeanAngleBuffer) and abs(pitch) > abs(maxPitch)
):
lit = DataflashLog.LogIterator(logdata, startLine)
assert lit.currentLine == startLine
while lit.currentLine <= endLine:
relativeAlt = lit["CTUN"][self.ctun_baralt_att]
if relativeAlt > minAltThreshold:
roll = lit["ATT"]["Roll"]
pitch = lit["ATT"]["Pitch"]
if abs(roll) > (maxLeanAngle + maxLeanAngleBuffer) and abs(roll) > abs(maxRoll):
maxRoll = roll
maxRollLine = lit.currentLine
if abs(pitch) > (maxLeanAngle + maxLeanAngleBuffer) and abs(pitch) > abs(maxPitch):
maxPitch = pitch
maxPitchLine = lit.currentLine
next(lit)
# check for breaking max lean angles
if maxRoll and abs(maxRoll) > abs(maxPitch):
self.result.status = TestResult.StatusType.FAIL
self.result.statusMessage = "Roll (%.2f, line %d) > maximum lean angle (%.2f)" % (
maxRoll,
maxRollLine,
maxLeanAngle,
)
return
if maxPitch:
self.result.status = TestResult.StatusType.FAIL
self.result.statusMessage = "Pitch (%.2f, line %d) > maximum lean angle (%.2f)" % (
maxPitch,
maxPitchLine,
maxLeanAngle,
)
return
# TODO: use numpy/scipy to check Roll+RollIn curves for fitness (ignore where we're not airborne)
# ...