ardupilot/Tools/LogAnalyzer/tests/TestCompass.py

from LogAnalyzer import Test,TestResult
import DataflashLog

from functools import reduce
import math


class TestCompass(Test):
    '''test for compass offsets and throttle interference'''

    def __init__(self):
        Test.__init__(self)
        self.name = "Compass"

    def run(self, logdata, verbose):
        self.result = TestResult()
        self.result.status = TestResult.StatusType.GOOD

        def vec_len(x):
            return math.sqrt(x[0]**2+x[1]**2+x[2]**2)

        def FAIL():
            self.result.status = TestResult.StatusType.FAIL

        def WARN():
            if self.result.status != TestResult.StatusType.FAIL:
                self.result.status = TestResult.StatusType.WARN

        try:
            warnOffset = 300
            failOffset = 500
            param_offsets = (
                logdata.parameters["COMPASS_OFS_X"],
                logdata.parameters["COMPASS_OFS_Y"],
                logdata.parameters["COMPASS_OFS_Z"]
                )

            if vec_len(param_offsets) > failOffset:
                FAIL()
                self.result.statusMessage = "FAIL: Large compass offset params (X:%.2f, Y:%.2f, Z:%.2f)\n" % (param_offsets[0],param_offsets[1],param_offsets[2])
            elif vec_len(param_offsets) > warnOffset:
                WARN()
                self.result.statusMessage = "WARN: Large compass offset params (X:%.2f, Y:%.2f, Z:%.2f)\n" % (param_offsets[0],param_offsets[1],param_offsets[2])

            if "MAG" in logdata.channels:
                max_log_offsets = zip(
                    map(lambda x: x[1],logdata.channels["MAG"]["OfsX"].listData),
                    map(lambda x: x[1],logdata.channels["MAG"]["OfsY"].listData),
                    map(lambda x: x[1],logdata.channels["MAG"]["OfsZ"].listData)
                    )
                max_log_offsets = reduce(lambda x,y: x if vec_len(x) > vec_len(y) else y, max_log_offsets)

                if vec_len(max_log_offsets) > failOffset:
                    FAIL()
                    self.result.statusMessage += "FAIL: Large compass offset in MAG data (X:%.2f, Y:%.2f, Z:%.2f)\n" % (max_log_offsets[0],max_log_offsets[1],max_log_offsets[2])
                elif vec_len(max_log_offsets) > warnOffset:
                    WARN()
                    self.result.statusMessage += "WARN: Large compass offset in MAG data (X:%.2f, Y:%.2f, Z:%.2f)\n" % (max_log_offsets[0],max_log_offsets[1],max_log_offsets[2])

            # check for mag field length change, and length outside of recommended range
            if "MAG" in logdata.channels:
                percentDiffThresholdWARN = 0.25
                percentDiffThresholdFAIL = 0.35
                minMagFieldThreshold = 120.0
                maxMagFieldThreshold = 550.0
                index = 0
                length = len(logdata.channels["MAG"]["MagX"].listData)
                magField = []
                (minMagField, maxMagField) = (None,None)
                (minMagFieldLine, maxMagFieldLine) = (None,None)
                zerosFound = False
                while index<length:
                    mx = logdata.channels["MAG"]["MagX"].listData[index][1]
                    my = logdata.channels["MAG"]["MagY"].listData[index][1]
                    mz = logdata.channels["MAG"]["MagZ"].listData[index][1]
                    if ((mx==0) and (my==0) and (mz==0)): # sometimes they're zero, not sure why, same reason as why we get NaNs as offsets?
                        zerosFound = True
                    else:
                        mf = math.sqrt(mx*mx + my*my + mz*mz)
                        magField.append(mf)
                        if mf<minMagField:
                            minMagField = mf
                            minMagFieldLine = logdata.channels["MAG"]["MagX"].listData[index][0]
                        if mf>maxMagField:
                            maxMagField = mf
                            maxMagFieldLine = logdata.channels["MAG"]["MagX"].listData[index][0]
                        if index == 0:
                            (minMagField, maxMagField) = (mf,mf)
                    index += 1
                if minMagField is None:
                    FAIL()
                    self.result.statusMessage = self.result.statusMessage + "No valid mag data found\n"
                else:
                    percentDiff = (maxMagField-minMagField) / minMagField
                    if percentDiff > percentDiffThresholdFAIL:
                        FAIL()
                        self.result.statusMessage = self.result.statusMessage + "Large change in mag_field (%.2f%%)\n" % (percentDiff*100)
                    elif percentDiff > percentDiffThresholdWARN:
                        WARN()
                        self.result.statusMessage = self.result.statusMessage + "Moderate change in mag_field (%.2f%%)\n" % (percentDiff*100)
                    else:
                        self.result.statusMessage = self.result.statusMessage + "mag_field interference within limits (%.2f%%)\n" % (percentDiff*100)
                    if minMagField < minMagFieldThreshold:
                        self.result.statusMessage = self.result.statusMessage + "Min mag field length (%.2f) < recommended (%.2f)\n" % (minMagField,minMagFieldThreshold)
                    if maxMagField > maxMagFieldThreshold:
                        self.result.statusMessage = self.result.statusMessage + "Max mag field length (%.2f) > recommended (%.2f)\n" % (maxMagField,maxMagFieldThreshold)
                    if verbose:
                        self.result.statusMessage = self.result.statusMessage + "Min mag_field of %.2f on line %d\n" % (minMagField,minMagFieldLine)
                        self.result.statusMessage = self.result.statusMessage + "Max mag_field of %.2f on line %d\n" % (maxMagField,maxMagFieldLine)
                if zerosFound:
                    if self.result.status == TestResult.StatusType.GOOD:
                        WARN()
                    self.result.statusMessage = self.result.statusMessage + "All zeros found in MAG X/Y/Z log data\n"

            else:
                self.result.statusMessage = self.result.statusMessage + "No MAG data, unable to test mag_field interference\n"

        except KeyError as e:
            self.result.status = TestResult.StatusType.FAIL
            self.result.statusMessage = str(e) + ' not found'
LogAnalyzer: Initial commit for discussion A lot of this is still stub code, but far enough along for discussion and feedback. Some good example tests are TestVibration and TestBrownout datatypes handled correctly now (previsouly all read as floats), added flag to skip bad input lines, now prints some general log info (size, duration, etc), added some basic performance timing, 2014-01-27 02:38:57 -04:00			`from LogAnalyzer import Test,TestResult`
			`import DataflashLog`

Tools: define reduce() for Python 3 `reduce()` is called on line 55. Python 3 dropped reduce() as a builtin. https://docs.python.org/3/whatsnew/3.0.html#builtins encourages the rewriting of reduce() calls as explicit for loops or list comprehensions but I am not confident to try that in this context. 2017-08-26 04:39:41 -03:00			`from functools import reduce`
LogAnalyzer: added --verbose flag, added test for MAG interference 2014-03-03 13:46:17 -04:00			`import math`

LogAnalyzer: Initial commit for discussion A lot of this is still stub code, but far enough along for discussion and feedback. Some good example tests are TestVibration and TestBrownout datatypes handled correctly now (previsouly all read as floats), added flag to skip bad input lines, now prints some general log info (size, duration, etc), added some basic performance timing, 2014-01-27 02:38:57 -04:00
			`class TestCompass(Test):`
LogAnalyzer: convert tabs to spaces (only) per coding conventions 2014-08-12 12:54:15 -03:00			`'''test for compass offsets and throttle interference'''`

			`def __init__(self):`
			`Test.__init__(self)`
			`self.name = "Compass"`

			`def run(self, logdata, verbose):`
			`self.result = TestResult()`
			`self.result.status = TestResult.StatusType.GOOD`

LogAnalyzer: updated testCompass to match our prearm check 2014-10-25 18:30:52 -03:00			`def vec_len(x):`
LogAnalyzer: fix for 64-bit ints Also, sqrt must come from math Also, d indicates a double (a Python float) 2015-10-13 20:13:50 -03:00			`return math.sqrt(x[0]2+x[1]2+x[2]**2)`
LogAnalyzer: updated testCompass to match our prearm check 2014-10-25 18:30:52 -03:00
			`def FAIL():`
			`self.result.status = TestResult.StatusType.FAIL`

			`def WARN():`
			`if self.result.status != TestResult.StatusType.FAIL:`
			`self.result.status = TestResult.StatusType.WARN`

LogAnalyzer: Report missing parameters as test failures 2014-08-12 12:58:02 -03:00			`try:`
LogAnalyzer: updated testCompass to match our prearm check 2014-10-25 18:30:52 -03:00			`warnOffset = 300`
			`failOffset = 500`
			`param_offsets = (`
			`logdata.parameters["COMPASS_OFS_X"],`
			`logdata.parameters["COMPASS_OFS_Y"],`
			`logdata.parameters["COMPASS_OFS_Z"]`
			`)`

			`if vec_len(param_offsets) > failOffset:`
			`FAIL()`
			`self.result.statusMessage = "FAIL: Large compass offset params (X:%.2f, Y:%.2f, Z:%.2f)\n" % (param_offsets[0],param_offsets[1],param_offsets[2])`
			`elif vec_len(param_offsets) > warnOffset:`
			`WARN()`
			`self.result.statusMessage = "WARN: Large compass offset params (X:%.2f, Y:%.2f, Z:%.2f)\n" % (param_offsets[0],param_offsets[1],param_offsets[2])`

LogAnalyzer: Report missing parameters as test failures 2014-08-12 12:58:02 -03:00			`if "MAG" in logdata.channels:`
LogAnalyzer: updated testCompass to match our prearm check 2014-10-25 18:30:52 -03:00			`max_log_offsets = zip(`
			`map(lambda x: x[1],logdata.channels["MAG"]["OfsX"].listData),`
			`map(lambda x: x[1],logdata.channels["MAG"]["OfsY"].listData),`
			`map(lambda x: x[1],logdata.channels["MAG"]["OfsZ"].listData)`
			`)`
			`max_log_offsets = reduce(lambda x,y: x if vec_len(x) > vec_len(y) else y, max_log_offsets)`

			`if vec_len(max_log_offsets) > failOffset:`
			`FAIL()`
			`self.result.statusMessage += "FAIL: Large compass offset in MAG data (X:%.2f, Y:%.2f, Z:%.2f)\n" % (max_log_offsets[0],max_log_offsets[1],max_log_offsets[2])`
			`elif vec_len(max_log_offsets) > warnOffset:`
			`WARN()`
			`self.result.statusMessage += "WARN: Large compass offset in MAG data (X:%.2f, Y:%.2f, Z:%.2f)\n" % (max_log_offsets[0],max_log_offsets[1],max_log_offsets[2])`
LogAnalyzer: Report missing parameters as test failures 2014-08-12 12:58:02 -03:00
			`# check for mag field length change, and length outside of recommended range`
			`if "MAG" in logdata.channels:`
			`percentDiffThresholdWARN = 0.25`
			`percentDiffThresholdFAIL = 0.35`
			`minMagFieldThreshold = 120.0`
			`maxMagFieldThreshold = 550.0`
			`index = 0`
			`length = len(logdata.channels["MAG"]["MagX"].listData)`
			`magField = []`
			`(minMagField, maxMagField) = (None,None)`
			`(minMagFieldLine, maxMagFieldLine) = (None,None)`
			`zerosFound = False`
			`while index<length:`
			`mx = logdata.channels["MAG"]["MagX"].listData[index][1]`
			`my = logdata.channels["MAG"]["MagY"].listData[index][1]`
			`mz = logdata.channels["MAG"]["MagZ"].listData[index][1]`
			`if ((mx==0) and (my==0) and (mz==0)): # sometimes they're zero, not sure why, same reason as why we get NaNs as offsets?`
			`zerosFound = True`
			`else:`
			`mf = math.sqrt(mxmx + mymy + mz*mz)`
			`magField.append(mf)`
			`if mf<minMagField:`
			`minMagField = mf`
			`minMagFieldLine = logdata.channels["MAG"]["MagX"].listData[index][0]`
			`if mf>maxMagField:`
			`maxMagField = mf`
			`maxMagFieldLine = logdata.channels["MAG"]["MagX"].listData[index][0]`
			`if index == 0:`
			`(minMagField, maxMagField) = (mf,mf)`
			`index += 1`
Tools: LogAnalyzer: fix bugs, handle newer log formats Tools: LogAnalyzer: avoid fatal error if mag data is all zeros Tools: LogAnalyzer: correct comparisons against logdata.vehicleType Tools: LogAnalyzer: handle logs with TimeUS in place of TimeMS Tools: LogAnalyzer: handle logs with CTUN.ThO in place of CTUN.ThrOut Tools: LogAnalyzer: correct motor average value 2017-09-23 22:51:51 -03:00			`if minMagField is None:`
LogAnalyzer: updated testCompass to match our prearm check 2014-10-25 18:30:52 -03:00			`FAIL()`
Tools: LogAnalyzer: fix bugs, handle newer log formats Tools: LogAnalyzer: avoid fatal error if mag data is all zeros Tools: LogAnalyzer: correct comparisons against logdata.vehicleType Tools: LogAnalyzer: handle logs with TimeUS in place of TimeMS Tools: LogAnalyzer: handle logs with CTUN.ThO in place of CTUN.ThrOut Tools: LogAnalyzer: correct motor average value 2017-09-23 22:51:51 -03:00			`self.result.statusMessage = self.result.statusMessage + "No valid mag data found\n"`
LogAnalyzer: convert tabs to spaces (only) per coding conventions 2014-08-12 12:54:15 -03:00			`else:`
Tools: LogAnalyzer: fix bugs, handle newer log formats Tools: LogAnalyzer: avoid fatal error if mag data is all zeros Tools: LogAnalyzer: correct comparisons against logdata.vehicleType Tools: LogAnalyzer: handle logs with TimeUS in place of TimeMS Tools: LogAnalyzer: handle logs with CTUN.ThO in place of CTUN.ThrOut Tools: LogAnalyzer: correct motor average value 2017-09-23 22:51:51 -03:00			`percentDiff = (maxMagField-minMagField) / minMagField`
			`if percentDiff > percentDiffThresholdFAIL:`
			`FAIL()`
			`self.result.statusMessage = self.result.statusMessage + "Large change in mag_field (%.2f%%)\n" % (percentDiff*100)`
			`elif percentDiff > percentDiffThresholdWARN:`
			`WARN()`
			`self.result.statusMessage = self.result.statusMessage + "Moderate change in mag_field (%.2f%%)\n" % (percentDiff*100)`
			`else:`
			`self.result.statusMessage = self.result.statusMessage + "mag_field interference within limits (%.2f%%)\n" % (percentDiff*100)`
			`if minMagField < minMagFieldThreshold:`
			`self.result.statusMessage = self.result.statusMessage + "Min mag field length (%.2f) < recommended (%.2f)\n" % (minMagField,minMagFieldThreshold)`
			`if maxMagField > maxMagFieldThreshold:`
			`self.result.statusMessage = self.result.statusMessage + "Max mag field length (%.2f) > recommended (%.2f)\n" % (maxMagField,maxMagFieldThreshold)`
			`if verbose:`
			`self.result.statusMessage = self.result.statusMessage + "Min mag_field of %.2f on line %d\n" % (minMagField,minMagFieldLine)`
			`self.result.statusMessage = self.result.statusMessage + "Max mag_field of %.2f on line %d\n" % (maxMagField,maxMagFieldLine)`
LogAnalyzer: Report missing parameters as test failures 2014-08-12 12:58:02 -03:00			`if zerosFound:`
Tools: LogAnalyzer: fix bugs, handle newer log formats Tools: LogAnalyzer: avoid fatal error if mag data is all zeros Tools: LogAnalyzer: correct comparisons against logdata.vehicleType Tools: LogAnalyzer: handle logs with TimeUS in place of TimeMS Tools: LogAnalyzer: handle logs with CTUN.ThO in place of CTUN.ThrOut Tools: LogAnalyzer: correct motor average value 2017-09-23 22:51:51 -03:00			`if self.result.status == TestResult.StatusType.GOOD:`
			`WARN()`
LogAnalyzer: Report missing parameters as test failures 2014-08-12 12:58:02 -03:00			`self.result.statusMessage = self.result.statusMessage + "All zeros found in MAG X/Y/Z log data\n"`

LogAnalyzer: convert tabs to spaces (only) per coding conventions 2014-08-12 12:54:15 -03:00			`else:`
LogAnalyzer: Report missing parameters as test failures 2014-08-12 12:58:02 -03:00			`self.result.statusMessage = self.result.statusMessage + "No MAG data, unable to test mag_field interference\n"`

			`except KeyError as e:`
			`self.result.status = TestResult.StatusType.FAIL`
			`self.result.statusMessage = str(e) + ' not found'`