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120 lines
6.2 KiB
120 lines
6.2 KiB
from LogAnalyzer import Test,TestResult |
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import DataflashLog |
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from functools import reduce |
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import math |
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class TestCompass(Test): |
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'''test for compass offsets and throttle interference''' |
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def __init__(self): |
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Test.__init__(self) |
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self.name = "Compass" |
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def run(self, logdata, verbose): |
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self.result = TestResult() |
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self.result.status = TestResult.StatusType.GOOD |
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def vec_len(x): |
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return math.sqrt(x[0]**2+x[1]**2+x[2]**2) |
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def FAIL(): |
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self.result.status = TestResult.StatusType.FAIL |
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def WARN(): |
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if self.result.status != TestResult.StatusType.FAIL: |
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self.result.status = TestResult.StatusType.WARN |
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try: |
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warnOffset = 300 |
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failOffset = 500 |
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param_offsets = ( |
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logdata.parameters["COMPASS_OFS_X"], |
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logdata.parameters["COMPASS_OFS_Y"], |
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logdata.parameters["COMPASS_OFS_Z"] |
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) |
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if vec_len(param_offsets) > failOffset: |
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FAIL() |
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self.result.statusMessage = "FAIL: Large compass offset params (X:%.2f, Y:%.2f, Z:%.2f)\n" % (param_offsets[0],param_offsets[1],param_offsets[2]) |
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elif vec_len(param_offsets) > warnOffset: |
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WARN() |
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self.result.statusMessage = "WARN: Large compass offset params (X:%.2f, Y:%.2f, Z:%.2f)\n" % (param_offsets[0],param_offsets[1],param_offsets[2]) |
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if "MAG" in logdata.channels: |
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max_log_offsets = zip( |
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map(lambda x: x[1],logdata.channels["MAG"]["OfsX"].listData), |
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map(lambda x: x[1],logdata.channels["MAG"]["OfsY"].listData), |
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map(lambda x: x[1],logdata.channels["MAG"]["OfsZ"].listData) |
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) |
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max_log_offsets = reduce(lambda x,y: x if vec_len(x) > vec_len(y) else y, max_log_offsets) |
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if vec_len(max_log_offsets) > failOffset: |
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FAIL() |
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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]) |
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elif vec_len(max_log_offsets) > warnOffset: |
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WARN() |
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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]) |
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# check for mag field length change, and length outside of recommended range |
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if "MAG" in logdata.channels: |
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percentDiffThresholdWARN = 0.25 |
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percentDiffThresholdFAIL = 0.35 |
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minMagFieldThreshold = 120.0 |
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maxMagFieldThreshold = 550.0 |
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index = 0 |
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length = len(logdata.channels["MAG"]["MagX"].listData) |
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magField = [] |
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(minMagField, maxMagField) = (None,None) |
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(minMagFieldLine, maxMagFieldLine) = (None,None) |
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zerosFound = False |
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while index<length: |
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mx = logdata.channels["MAG"]["MagX"].listData[index][1] |
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my = logdata.channels["MAG"]["MagY"].listData[index][1] |
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mz = logdata.channels["MAG"]["MagZ"].listData[index][1] |
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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? |
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zerosFound = True |
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else: |
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mf = math.sqrt(mx*mx + my*my + mz*mz) |
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magField.append(mf) |
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if mf<minMagField: |
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minMagField = mf |
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minMagFieldLine = logdata.channels["MAG"]["MagX"].listData[index][0] |
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if mf>maxMagField: |
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maxMagField = mf |
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maxMagFieldLine = logdata.channels["MAG"]["MagX"].listData[index][0] |
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if index == 0: |
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(minMagField, maxMagField) = (mf,mf) |
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index += 1 |
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if minMagField is None: |
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FAIL() |
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self.result.statusMessage = self.result.statusMessage + "No valid mag data found\n" |
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else: |
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percentDiff = (maxMagField-minMagField) / minMagField |
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if percentDiff > percentDiffThresholdFAIL: |
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FAIL() |
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self.result.statusMessage = self.result.statusMessage + "Large change in mag_field (%.2f%%)\n" % (percentDiff*100) |
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elif percentDiff > percentDiffThresholdWARN: |
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WARN() |
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self.result.statusMessage = self.result.statusMessage + "Moderate change in mag_field (%.2f%%)\n" % (percentDiff*100) |
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else: |
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self.result.statusMessage = self.result.statusMessage + "mag_field interference within limits (%.2f%%)\n" % (percentDiff*100) |
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if minMagField < minMagFieldThreshold: |
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self.result.statusMessage = self.result.statusMessage + "Min mag field length (%.2f) < recommended (%.2f)\n" % (minMagField,minMagFieldThreshold) |
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if maxMagField > maxMagFieldThreshold: |
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self.result.statusMessage = self.result.statusMessage + "Max mag field length (%.2f) > recommended (%.2f)\n" % (maxMagField,maxMagFieldThreshold) |
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if verbose: |
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self.result.statusMessage = self.result.statusMessage + "Min mag_field of %.2f on line %d\n" % (minMagField,minMagFieldLine) |
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self.result.statusMessage = self.result.statusMessage + "Max mag_field of %.2f on line %d\n" % (maxMagField,maxMagFieldLine) |
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if zerosFound: |
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if self.result.status == TestResult.StatusType.GOOD: |
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WARN() |
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self.result.statusMessage = self.result.statusMessage + "All zeros found in MAG X/Y/Z log data\n" |
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else: |
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self.result.statusMessage = self.result.statusMessage + "No MAG data, unable to test mag_field interference\n" |
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except KeyError as e: |
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self.result.status = TestResult.StatusType.FAIL |
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self.result.statusMessage = str(e) + ' not found'
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