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ardupilot/Tools/LogAnalyzer/tests/TestAutotune.py

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from LogAnalyzer import Test,TestResult
import DataflashLog
# from ArduCopter/defines.h
AUTOTUNE_INITIALISED = 30
AUTOTUNE_OFF = 31
AUTOTUNE_RESTART = 32
AUTOTUNE_SUCCESS = 33
AUTOTUNE_FAILED = 34
AUTOTUNE_REACHED_LIMIT = 35
AUTOTUNE_PILOT_TESTING = 36
AUTOTUNE_SAVEDGAINS = 37
AUTOTUNE_EVENTS = frozenset([AUTOTUNE_INITIALISED,
AUTOTUNE_OFF,
AUTOTUNE_RESTART,
AUTOTUNE_SUCCESS,
AUTOTUNE_FAILED,
AUTOTUNE_REACHED_LIMIT,
AUTOTUNE_PILOT_TESTING,
AUTOTUNE_SAVEDGAINS])
class TestAutotune(Test):
'''test for autotune success (copter only)'''
class AutotuneSession(object):
def __init__(self, events):
self.events = events
@property
def linestart(self):
return self.events[0][0]
@property
def linestop(self):
return self.events[-1][0]
@property
def success(self):
return AUTOTUNE_SUCCESS in [i for _,i in self.events]
@property
def failure(self):
return AUTOTUNE_FAILED in [i for _,i in self.events]
@property
def limit(self):
return AUTOTUNE_REACHED_LIMIT in [i for _,i in self.events]
def __repr__(self):
return "<AutotuneSession {}-{}>".format(self.linestart,self.linestop)
def __init__(self):
Test.__init__(self)
self.name = "Autotune"
def run(self, logdata, verbose):
self.result = TestResult()
self.result.status = TestResult.StatusType.GOOD
if logdata.vehicleType != "ArduCopter":
self.result.status = TestResult.StatusType.NA
return
for i in ['EV','ATDE','ATUN']:
r = False
if not i in logdata.channels:
self.result.status = TestResult.StatusType.UNKNOWN
self.result.statusMessage = "No {} log data".format(i)
r = True
if r:
return
events = filter(lambda x: x[1] in AUTOTUNE_EVENTS, logdata.channels["EV"]["Id"].listData)
attempts = []
j = None
for i in range(0,len(events)):
line,ev = events[i]
if ev == AUTOTUNE_INITIALISED:
if j is not None:
attempts.append(TestAutotune.AutotuneSession(events[j:i]))
j = i
# last attempt
if j is not None:
attempts.append(TestAutotune.AutotuneSession(events[j:]))
for a in attempts:
# this should not be necessary!
def class_from_channel(c):
members = dict({'__init__':lambda x: setattr(x,i,None) for i in logdata.channels[c]})
cls = type(\
'Channel__{:s}'.format(c),
(object,),
members
)
return cls
# last wins
if a.success:
self.result.status = TestResult.StatusType.GOOD
s = "[+]"
elif a.failure:
self.result.status = TestResult.StatusType.FAIL
s = "[-]"
else:
self.result.status = TestResult.StatusType.UNKNOWN
s = "[?]"
s += " Autotune {}-{}\n".format(a.linestart,a.linestop)
self.result.statusMessage += s
if verbose:
linenext = a.linestart + 1
while linenext < a.linestop:
try:
line = logdata.channels['ATUN']['RateMax'].getNearestValueFwd(linenext)[1]
if line > a.linestop:
break
except:
break
atun = class_from_channel('ATUN')()
for key in logdata.channels['ATUN']:
setattr(atun, key, logdata.channels['ATUN'][key].getNearestValueFwd(linenext)[0])
linenext = logdata.channels['ATUN'][key].getNearestValueFwd(linenext)[1] + 1
self.result.statusMessage += 'ATUN Axis:{atun.Axis} TuneStep:{atun.TuneStep} RateMin:{atun.RateMin:5.0f} RateMax:{atun.RateMax:5.0f} RPGain:{atun.RPGain:1.4f} RDGain:{atun.RDGain:1.4f} SPGain:{atun.SPGain:1.1f} (@line:{l})\n'.format(l=linenext,s=s, atun=atun)
self.result.statusMessage += '\n'
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