def PopulateResultData(self):
try:
iniFileDict = BetterConfigParser()
confFileDict = BetterConfigParser()
iniFileSearchString = self.RawTestSessionDataPath + "/configfiles/*.ini"
iniFiles = glob.glob(iniFileSearchString)
if len(iniFiles) == 1:
iniFileDict.read(iniFiles[0])
confFileSearchString = self.RawTestSessionDataPath + "/configfiles/*.conf"
confFiles = glob.glob(confFileSearchString)
if len(confFiles) == 1:
confFileDict.read(confFiles[0])
try:
self.ResultData['KeyValueDictPairs']['TestCenter'][
'Value'] = iniFileDict.get('OperationDetails',
'TestCenter')
except:
pass
try:
self.ResultData['KeyValueDictPairs']['Hostname'][
'Value'] = iniFileDict.get('OperationDetails', 'Hostname')
except:
pass
except:
print "no .conf/.ini file found in 'configfiles' directory!"
pass
def PopulateResultData(self):
try:
iniFileDict = BetterConfigParser()
confFileDict = BetterConfigParser()
iniFileSearchString = self.RawTestSessionDataPath + "/../configfiles/*.ini"
iniFiles = glob.glob(iniFileSearchString)
if len(iniFiles) == 1:
iniFileDict.read(iniFiles[0])
confFileSearchString = self.RawTestSessionDataPath + "/../configfiles/*.conf"
confFiles = glob.glob(confFileSearchString)
if len(confFiles) == 1:
confFileDict.read(confFiles[0])
try:
self.ResultData['KeyValueDictPairs']['TestCenter']['Value'] = iniFileDict.get('OperationDetails', 'TestCenter')
except:
pass
try:
self.ResultData['KeyValueDictPairs']['Hostname']['Value'] = iniFileDict.get('OperationDetails', 'Hostname')
except:
pass
except:
print "no .conf/.ini file found in 'configfiles' directory!"
pass
def ReadModuleVersion(self):
if self.verbose:
print 'Read configParameters'
self.check_Test_Software()
config_format = self.HistoDict.get('ConfigParameters', 'configFormat')
fileNames = self.HistoDict.get('ConfigParameters', 'configParameters').split(',')
version = 'none'
nRocs = 0
halfModule = 0
if config_format == 'dat':
lines = []
for filename in fileNames:
fileName = '%s/%s' % (self.RawTestSessionDataPath, filename)
try:
f = open(fileName)
lines.extend(f.readlines())
f.close()
except:
warnings.warn('cannot open config parameters dat file {file}'.format(file=fileName))
version = 'none'
for line in lines:
if line.strip().startswith('rocType'):
version = line.split(' ')[-1]
elif line.strip().startswith('nRocs'):
nRocs = int(line.split(' ')[-1])
if self.verbose: print '\tnRocs: %s' % nRocs
elif line.strip().startswith('halfModule'):
halfModule = int(line.split(' ')[-1])
if self.verbose: print '\thalfModule: %s' % halfModule
elif config_format == 'cfg':
config = BetterConfigParser()
for filename in fileNames:
fileName = '%s/%s' % (self.RawTestSessionDataPath, filename)
config.read(fileName)
try:
version = config.get('ROC', 'type')
except (KeyError,ConfigParser.NoOptionError,ConfigParser.NoSectionError):
warnings.warn('cannot find version name {section}'.format(section=config.sections()))
if 'ROC' in config.sections():
warnings.warn('cannot find type in ROC-section: {options}'.format(options=config.options('ROC')))
version = 'none'
try:
nRocs = config.getint('Module', 'rocs')
except (KeyError,ConfigParser.NoOptionError,ConfigParser.NoSectionError):
nRocs = 0
try:
halfModule = config.get('Module', 'halfModule')
except (KeyError,ConfigParser.NoOptionError,ConfigParser.NoSectionError):
halfModule = 0
version = version.rstrip('\n')
if self.verbose:
print 'Version: ', version
print 'nRocs: ', nRocs
print 'halfModule: ', halfModule
self.version = version
self.nRocs = nRocs
self.halfModule = halfModule
return version, nRocs, halfModule
def check_Test_Software(self):
if self.check_Test_Software_Pyxar():
self.testSoftware = 'pyxar'
elif self.check_Test_Software_Pxar():
self.testSoftware = 'pxar'
else:
self.testSoftware = 'psi46expert'
self.HistoDict = BetterConfigParser()
fileName = 'Configuration/Software/%s.cfg' % self.testSoftware
self.HistoDict.read(fileName)
fileName = 'Configuration/Software/global.cfg'
self.HistoDict.read(fileName)
def check_Test_Software(self):
if self.check_Test_Software_Pyxar():
self.testSoftware = 'pyxar'
elif self.check_Test_Software_Pxar():
self.testSoftware = 'pxar'
else:
data = glob.glob(self.RawTestSessionDataPath + '/*[p,P][x,X][a,A][r,R]*.*') + \
glob.glob(self.RawTestSessionDataPath + '/*/*[p,P][x,X][a,A][r,R]*.*')
if len(data):
self.testSoftware = 'pxar'
else:
#self.testSoftware = 'psi46expert'
self.testSoftware = 'pxar'
self.HistoDict = BetterConfigParser()
fileName = 'Configuration/Software/%s.cfg' % self.testSoftware
self.HistoDict.read(fileName)
fileName = 'Configuration/Software/global.cfg'
self.HistoDict.read(fileName)
def check_Test_Software(self):
# file = self.RawTestSessionDataPath + '/test.cfg'
# print file
self.RawTestSessionDataPath = os.path.abspath(self.RawTestSessionDataPath)
files = glob.glob(self.RawTestSessionDataPath + '/test.cfg') + \
glob.glob(self.RawTestSessionDataPath + '/*/test.cfg')
# print 'pyxar:',files
if len(files) > 0:
self.testSoftware = 'pyxar'
else:
data = glob.glob(self.RawTestSessionDataPath + '/*[p,P][x,X][a,A][r,R]*.*') + \
glob.glob(self.RawTestSessionDataPath + '/*/*[p,P][x,X][a,A][r,R]*.*')
if len(data):
self.testSoftware = 'pxar'
else:
self.testSoftware = 'psi46expert'
self.HistoDict = BetterConfigParser()
fileName = 'Configuration/Software/%s.cfg' % self.testSoftware
self.HistoDict.read(fileName)
fileName = 'Configuration/Software/global.cfg'
self.HistoDict.read(fileName)
def PopulateResultData(self):
SysConfiguration = ConfigParser.ConfigParser()
SysConfiguration.read(['Configuration/SystemConfiguration.cfg'])
ParallelProcessing = False
LimitProcesses = None
try:
if int(SysConfiguration.get('SystemConfiguration', 'ParallelProcessing').strip())>0:
ParallelProcessing = True
except:
print "no 'ParallelProcessing' option found, running sequentially..."
pass
try:
if int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())>0:
LimitProcesses = int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())
except:
pass
nRocs = self.ParentObject.Attributes['NumberOfChips']
directory = self.ParentObject.Attributes['SCurvePaths']['HRSCurves_{Rate}'.format(Rate=self.Attributes['Rate'])]
refit = self.TestResultEnvironmentObject.Configuration['Fitting']['refit']
print 'SCurve fitting...'
HistoDict = BetterConfigParser()
HistoDict.add_section('SCurveFitting')
HistoDict.set('SCurveFitting','nTrigs', str(10))
HistoDict.set('SCurveFitting','dir', '')
HistoDict.set('SCurveFitting','ignoreValidityCheck', '1')
HistoDict.set('SCurveFitting','inputFileName', self.ParentObject.ParentObject.HistoDict.get('HighRate', 'SCurveDataFileName'))
ePerVcal = self.TestResultEnvironmentObject.GradingParameters['StandardVcal2ElectronConversionFactor']
# compare current fit revision with saved revision
FitRevDict = BetterConfigParser()
fitRevFileName = directory + "/fits.rev"
if os.path.isfile(fitRevFileName):
try:
FitRevDict.read(fitRevFileName)
# if fit procedure changed -> refit
if self.FitRevisionScurves > int(FitRevDict.get('FitRevisions', 'SCurves')):
print "info: fit procedure has changed, re-fitting..."
refit = True
# if last fitting was not done completely (eg. STRG+C while fit...) -> refit
if FitRevDict.get('Fit', 'Complete').strip().lower() != 'true':
print "info: last fit was incomplete! re-fitting..."
refit = True
except:
print "warning: could not read fit revision file!"
else:
FitRevDict.add_section('FitRevisions')
FitRevDict.add_section('Fit')
# unset complete flag in file
FitRevDict.set('Fit','Complete', 'false')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
# do fitting
fitter = SCurve_Fitting(refit=refit, HistoDict=HistoDict, ePerVcal=ePerVcal, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllSCurve(directory, nRocs)
# update saved revision
FitRevDict.set('FitRevisions','SCurves', str(self.FitRevisionScurves))
# set complete flag in file
FitRevDict.set('Fit','Complete', 'true')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
def PopulateResultData(self):
SysConfiguration = ConfigParser.ConfigParser()
SysConfiguration.read(['Configuration/SystemConfiguration.cfg'])
ParallelProcessing = False
LimitProcesses = None
try:
if int(SysConfiguration.get('SystemConfiguration', 'ParallelProcessing').strip())>0:
ParallelProcessing = True
except:
print "no 'ParallelProcessing' option found, running sequentially..."
pass
try:
if int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())>0:
LimitProcesses = int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())
except:
pass
print 'do fitting...'
nRocs = self.Attributes['NumberOfChips']
directory = self.RawTestSessionDataPath
refit = self.TestResultEnvironmentObject.Configuration['Fitting']['refit']
refitScurves = refit
refitPHlin = refit
refitPHtan = refit
# compare current fit revision with saved revision
FitRevDict = BetterConfigParser()
fitRevFileName = directory + "/fits.rev"
if os.path.isfile(fitRevFileName):
try:
FitRevDict.read(fitRevFileName)
# if fit procedure changed -> refit
if self.FitRevisionScurves > int(FitRevDict.get('FitRevisions', 'SCurves')):
print "info: fit procedure has changed, re-fitting scurves..."
refitScurves = True
if self.FitRevisionPHlin > int(FitRevDict.get('FitRevisions', 'PHlin')):
print "info: fit procedure has changed, re-fitting ph lin..."
refitPHlin = True
if self.FitRevisionPHtan > int(FitRevDict.get('FitRevisions', 'PHtan')):
print "info: fit procedure has changed, re-fitting ph tan..."
refitPHtan = True
# if last fitting was not done completely (eg. STRG+C while fit...) -> refit
if FitRevDict.get('Fit', 'Complete').strip().lower() != 'true':
print "info: last fit was incomplete! re-fitting all..."
refitScurves = True
refitPHlin = True
refitPHtan = True
except:
print "warning: could not read fit revision file!"
else:
FitRevDict.add_section('FitRevisions')
FitRevDict.add_section('Fit')
# unset complete flag in file
FitRevDict.set('Fit','Complete', 'false')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
print 'SCurve fitting...'
ePerVcal = self.TestResultEnvironmentObject.GradingParameters['StandardVcal2ElectronConversionFactor']
fitter = SCurve_Fitting(refit=refitScurves, HistoDict=self.ParentObject.HistoDict,ePerVcal=ePerVcal, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllSCurve(directory,nRocs)
print 'linear PH fitting...'
fitter = PH_Fitting(fitMode=0, refit=refitPHlin, HistoDict=self.ParentObject.HistoDict, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllPHCurves(directory,nRocs)
print 'tanh PH fitting...'
fitter = PH_Fitting(fitMode=3, refit=refitPHtan, HistoDict=self.ParentObject.HistoDict, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllPHCurves(directory,nRocs)
# update saved revisions
FitRevDict.set('FitRevisions','SCurves', str(self.FitRevisionScurves))
FitRevDict.set('FitRevisions','PHlin', str(self.FitRevisionPHlin))
FitRevDict.set('FitRevisions','PHtan', str(self.FitRevisionPHtan))
# unset complete flag in file
FitRevDict.set('Fit','Complete', 'true')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
print 'done'
class GeneralTestResult(object):
nRows = 80
nCols = 52
nTotalChips = 16
MoReWebVersion = 'unknown MoReWeb version'
'''
Initialization function
@param ParentObject Reference to the Parent Object
@param InitialModulePath Starting point of modules
'''
def __init__(self, TestResultEnvironmentObject, ParentObject=None, InitialModulePath=None,
InitialFinalResultsStoragePath=None, InitialAttributes=None, Key=None, DisplayOptions=None):
ROOTConfiguration.initialise_ROOT()
self.verbose = False
# Name of the Test Result, only a-zA-Z0-9_
self.Name = ''
# Name of the test result without prefixes
self.NameSingle = ''
self.Key = ''
# Title displayed in HTML, etc
self.Title = ''
# options which might be transfered to Attributes?
self.testSoftware = None
self.HistoDict = None
self.version = None
self.nRocs = 0
self.halfModule = 0
self.CommentFromFile = None
self.AddCommentsToKeyValueDictPairs = False
if Key:
self.Key = Key
# Attributes like Date, etc.
self.Attributes = {
# Date as UNIX timestamp, if 0, the date of the parent object is taken
'TestDate': 0,
# Type of the tested object
'TestedObjectType': '',
# ID of the tested object
'TestedObjectID': '',
# Key for custom storage path
'StorageKey': '',
# subDirectory of the test result root-files
'TestResultSubDirectory': '',
}
self.Show = True
self.Enabled = True
self.SavePlotFile = True
self.GzipSVG = TestResultEnvironmentObject.Configuration['GzipSVG']
self.DefaultImageFormat = TestResultEnvironmentObject.Configuration['DefaultImageFormat'].strip().lower()
if TestResultEnvironmentObject.Configuration.has_key('AdditionalImageFormats'):
self.AdditionalImageFormats = TestResultEnvironmentObject.Configuration['AdditionalImageFormats'].strip().lower().split(',')
else:
self.AdditionalImageFormats = ['root', 'pdf']
if TestResultEnvironmentObject.Configuration.has_key('OverviewHTMLLink'):
self.OverviewHTMLLink = TestResultEnvironmentObject.Configuration['OverviewHTMLLink']
else:
self.OverviewHTMLLink = None
# Path for current test to folder with root-files
self.RawTestSessionDataPath = ''
# Path for current test result files (html, svg, etc)
self.FinalResultsStoragePath = ''
# File handle (might be used by sub results)
self.FileHandle = 0
# Reference to ROOT canvas
self.Canvas = None
# Display Properties as in the ResultData.SubTestResultDictList
self.DisplayOptions = {
'Order': 0,
'Width': 1,
'GroupWithNext': False,
}
# Result array
self.ResultData = {
# Key / ValueDict (dict with {Value, Unit, Label}, if Label not specified, the key is used as label) Pairs
# 'KeyValueDictPairs':{
# 'MyKey':{
# 'Value':'25',
# 'NumericValue':25,
# 'Unit': 'kg',
# 'Label': 'My Key'
# }
# }
'KeyValueDictPairs': {},
# List of keys for sorting
'KeyList': [],
# Plot data
'Plot': {
'Enabled': 0,
'ROOTObject': None,
'Caption': '',
'ImageFile': '',
'Format': self.DefaultImageFormat,
'AdditionalFormats':self.AdditionalImageFormats,
'ImageFilePDF':'',
},
# SubTest Results
'SubTestResults': {},
# List of {Key, Module} dict for sorting and special attributes
'SubTestResultDictList': [],
# 'SubTestResultDictList':{
# {
# 'Key':'Noise'
# 'Module':'Noise',
# 'TestResultObject':object,
# 'InitialAttributes':{'StorageKey':'Blub'},
# 'DisplayOptions':{'Order':1, 'Width':1,'GroupWithNext':False},
# }
# }
# hidden data, might be needed by other test results but is not displayed
'HiddenData': {},
# a data table if needed
'Table': {
'HEADER': [],
'BODY': [],
'FOOTER': [],
}
}
# Reference to parent object
self.ParentObject = None
# Reference to the Test Result Environment
self.TestResultEnvironmentObject = None
self.TestResultEnvironmentObject = TestResultEnvironmentObject
self.Canvas = self.TestResultEnvironmentObject.Canvas
self.RawTestSessionDataPath = self.TestResultEnvironmentObject.ModuleDataDirectory
if ParentObject:
self.ParentObject = ParentObject
self.RawTestSessionDataPath = self.ParentObject.RawTestSessionDataPath
if InitialAttributes:
self.Attributes.update(InitialAttributes)
if DisplayOptions:
self.DisplayOptions.update(DisplayOptions)
if self.Attributes['TestResultSubDirectory']:
self.RawTestSessionDataPath += '/' + self.Attributes['TestResultSubDirectory']
self.CustomInit()
if not self.Title:
self.Title = self.NameSingle
# Module Path
self.ModulePath = self.NameSingle
if InitialModulePath:
self.ModulePath = InitialModulePath
if InitialFinalResultsStoragePath:
self.FinalResultsStoragePath = InitialFinalResultsStoragePath
self.RelativeFinalResultsStoragePath = ''
if self.ParentObject:
self.FinalResultsStoragePath = self.ParentObject.FinalResultsStoragePath
self.RelativeFinalResultsStoragePath = self.ParentObject.RelativeFinalResultsStoragePath
self.ModulePath = self.ParentObject.ModulePath + '.' + self.ModulePath
if self.Attributes['StorageKey']:
self.FinalResultsStoragePath += '/' + self.Attributes['StorageKey']
self.RelativeFinalResultsStoragePath += '/' + self.Attributes['StorageKey']
else:
self.FinalResultsStoragePath += '/' + self.NameSingle
self.RelativeFinalResultsStoragePath += '/' + self.NameSingle
self.SetFinalResultsStoragePath()
if not os.path.exists(self.FinalResultsStoragePath):
os.makedirs(self.FinalResultsStoragePath)
# Load all sub test results in correct order
i2 = len(self.ResultData['SubTestResultDictList'])
for i in self.ResultData['SubTestResultDictList']:
if i.has_key('Module'):
SubModule = i['Module']
else:
SubModule = i['Key']
i['Module'] = SubModule
if i.has_key('InitialAttributes'):
pass
else:
i['InitialAttributes'] = {}
# set the test date for all test results
i['InitialAttributes'].update({
'TestDate': self.Attributes['TestDate']
})
# Ensure all keys of display properties are set
DisplayOptions = {
'Order': i2,
'Width': 1,
'Show': True,
'GroupWithNext': False,
}
if i.has_key('DisplayOptions'):
DisplayOptions.update(i['DisplayOptions'])
i['DisplayOptions'] = DisplayOptions
importdir = self.ModulePath + '.' + SubModule
try:
# print 'import ',importdir,SubModule
f = __import__(importdir + '.' + SubModule, fromlist=[importdir + '.' + 'TestResult'])
except ImportError as inst:
# print 'could not ',importdir+'.'+SubModule,SubModule
# print 'type',type(inst)
# print 'inst',inst
f = __import__(importdir + '.TestResult', fromlist=[''])
print 'imported', f, 'please change name of file'
pass
self.ResultData['SubTestResults'][i['Key']] = f.TestResult(
self.TestResultEnvironmentObject,
self,
None,
None,
i['InitialAttributes'],
i['Key'],
i['DisplayOptions']
)
i['TestResultObject'] = self.ResultData['SubTestResults'][i['Key']]
i2 += 1
def check_Test_Software_Pyxar(self):
self.RawTestSessionDataPath = os.path.abspath(self.RawTestSessionDataPath)
files = glob.glob(self.RawTestSessionDataPath + '/test.cfg') + \
glob.glob(self.RawTestSessionDataPath + '/*/test.cfg')
return len(files) > 0
def check_Test_Software_Pxar(self):
data = glob.glob(self.RawTestSessionDataPath + '/*[p,P][x,X][a,A][r,R]*.*') + \
glob.glob(self.RawTestSessionDataPath + '/*/*[p,P][x,X][a,A][r,R]*.*')
if len(data):
return True
LogFileNames = glob.glob(self.RawTestSessionDataPath + '/*.log') + glob.glob(self.RawTestSessionDataPath + '/*/*.log')
for LogFileName in LogFileNames:
LogFile = open(LogFileName, "r")
FirstLine = LogFile.readline()
LogFile.close()
if FirstLine.lower().find("welcome to pxar") > -1:
return True
return False
def check_Test_Software(self):
if self.check_Test_Software_Pyxar():
self.testSoftware = 'pyxar'
elif self.check_Test_Software_Pxar():
self.testSoftware = 'pxar'
else:
data = glob.glob(self.RawTestSessionDataPath + '/*[p,P][x,X][a,A][r,R]*.*') + \
glob.glob(self.RawTestSessionDataPath + '/*/*[p,P][x,X][a,A][r,R]*.*')
if len(data):
self.testSoftware = 'pxar'
else:
#self.testSoftware = 'psi46expert'
self.testSoftware = 'pxar'
self.HistoDict = BetterConfigParser()
fileName = 'Configuration/Software/%s.cfg' % self.testSoftware
self.HistoDict.read(fileName)
fileName = 'Configuration/Software/global.cfg'
self.HistoDict.read(fileName)
def check_for_comments(self):
dir_name = os.path.abspath(self.RawTestSessionDataPath)
comment_files = glob.glob(dir_name + '/comment*')
comment = ''
comment_short = ''
for filename in comment_files:
comment += '{filename}:\n'.format(filename=filename.split('/')[-1])
with file(filename) as f:
s = f.read()
comment += s + '\n\n'
comment_short += s + ' '
# if self.ResultData:
# if not 'KeyVaueDictPairs' in self.ResultData:
# self.ResultData['KeyValueDictPairs'] = {}
#
# if not 'KeyValueList' in self.ResultData:
# self.ResultData['KeyValueList'] = []
if self.verbose:
print 'checking', self.RawTestSessionDataPath, comment_files
if comment != '':
if self.verbose:
print 'added comment', comment, 'to ', self.Name
if self.AddCommentsToKeyValueDictPairs:
self.ResultData['KeyValueDictPairs']['Comment'] = {
'Value': comment,
'Style': 'font-weight:bold;color:red;' if '!' in comment else 'font-weight:bold;',
}
self.ResultData['KeyList'].append('Comment')
self.CommentFromFile = comment_short
def check_for_manualGrade(self):
self.RawTestSessionDataPath = os.path.abspath(self.RawTestSessionDataPath)
gradefilename = self.RawTestSessionDataPath + '/grade.txt'
print "checking for manual grading in '%s'"%gradefilename
grade = ''
if os.path.isfile(gradefilename):
try:
gradefile = open(gradefilename)
except:
warnings.warn('cannot open manual grade file {file}'.format(file=gradefilename))
grade = gradefile.read().strip()
gradefile.close()
# grade can be given either as number 1,2,3 or as letter A,B,C
GradeNames = ['A','B','C']
if grade in GradeNames:
grade = 1 + GradeNames.index(grade)
print "Reading a manual grade "+str(grade)+" specified by the user in "+str(gradefilename)
else:
print " => not found."
return grade
def ReadModuleVersion(self):
if self.verbose:
print 'Read configParameters'
self.check_Test_Software()
config_format = self.HistoDict.get('ConfigParameters', 'configFormat')
fileNames = self.HistoDict.get('ConfigParameters', 'configParameters').split(',')
version = 'none'
nRocs = 0
halfModule = 0
if config_format == 'dat':
lines = []
for filename in fileNames:
fileName = '%s/%s' % (self.RawTestSessionDataPath, filename)
try:
f = open(fileName)
lines.extend(f.readlines())
f.close()
except:
warnings.warn('cannot open config parameters dat file {file}'.format(file=fileName))
version = 'none'
for line in lines:
if line.strip().startswith('rocType'):
version = line.split(' ')[-1]
elif line.strip().startswith('nRocs'):
nRocs = int(line.split(' ')[-1])
if self.verbose: print '\tnRocs: %s' % nRocs
elif line.strip().startswith('halfModule'):
halfModule = int(line.split(' ')[-1])
if self.verbose: print '\thalfModule: %s' % halfModule
elif config_format == 'cfg':
config = BetterConfigParser()
for filename in fileNames:
fileName = '%s/%s' % (self.RawTestSessionDataPath, filename)
config.read(fileName)
try:
version = config.get('ROC', 'type')
except (KeyError,ConfigParser.NoOptionError,ConfigParser.NoSectionError):
warnings.warn('cannot find version name {section}'.format(section=config.sections()))
if 'ROC' in config.sections():
warnings.warn('cannot find type in ROC-section: {options}'.format(options=config.options('ROC')))
version = 'none'
try:
nRocs = config.getint('Module', 'rocs')
except (KeyError,ConfigParser.NoOptionError,ConfigParser.NoSectionError):
nRocs = 0
try:
halfModule = config.get('Module', 'halfModule')
except (KeyError,ConfigParser.NoOptionError,ConfigParser.NoSectionError):
halfModule = 0
version = version.rstrip('\n')
if self.verbose:
print 'Version: ', version
print 'nRocs: ', nRocs
print 'halfModule: ', halfModule
self.version = version
self.nRocs = nRocs
self.halfModule = halfModule
return version, nRocs, halfModule
'''
Populates all necessary data
@final
'''
def PopulateAllData(self):
self.OpenFileHandle()
for i in self.ResultData['SubTestResultDictList']:
if i['TestResultObject'].Enabled:
self.SetCanvasSize()
try:
i['TestResultObject'].PopulateAllData()
# i['TestResultObject'].check_for_comments()
except Exception as inst:
exc_type, exc_obj, exc_tb = sys.exc_info()
# Start red color
sys.stdout.write("\x1b[31m")
sys.stdout.flush()
# Print error message
print '\x1b[31mException while processing', i['TestResultObject'].FinalResultsStoragePath
# Print traceback
traceback.print_exception(exc_type, exc_obj, exc_tb)
# Stop red color
sys.stdout.write("\x1b[0m")
sys.stdout.flush()
self.TestResultEnvironmentObject.ErrorList.append(
{'ModulePath': i['TestResultObject'].ModulePath,
'ErrorCode': inst,
'FinalResultsStoragePath': i['TestResultObject'].FinalResultsStoragePath}
)
# todo Felix: handel exceptions
self.SetCanvasSize()
try:
self.PopulateResultData()
#self.SaveCanvas()
self.check_for_comments()
except Exception as inst:
exc_type, exc_obj, exc_tb = sys.exc_info()
# Start red color
sys.stdout.write("\x1b[31m")
sys.stdout.flush()
print '\x1b[31mException while processing', self.FinalResultsStoragePath
# Print traceback
traceback.print_exception(exc_type, exc_obj, exc_tb)
# Stop red color
sys.stdout.write("\x1b[0m")
sys.stdout.flush()
self.TestResultEnvironmentObject.ErrorList.append(
{'ModulePath': self.ModulePath,
'ErrorCode': inst,
'FinalResultsStoragePath': self.FinalResultsStoragePath}
# 'FinalResultsStoragePath':i['TestResultObject'].FinalResultsStoragePath}
)
def AnalyzeLogfiles(self, logfiles, DetectMessages, ErrorNames):
KeyValueDictPairs = {}
KeyList = []
ErrorObjects = []
if not type(logfiles) is list:
logfilesList = [logfiles]
else:
logfilesList = logfiles
for logfile in logfilesList:
if logfile:
with open(logfile, 'r') as logfile:
for line in logfile:
ErrorObject = {}
if 'WARNING:' in line and not 'Not unmasking DUT' in line:
ErrorObject['type'] = 'warning'
if 'ERROR:' in line:
ErrorObject['type'] = 'error'
if 'CRITICAL:' in line:
ErrorObject['type'] = 'critical'
ErrorObject['channel'] = None
lineParts = line.strip().split()
if 'Channel' in lineParts:
pos = lineParts.index('Channel')
if pos < len(lineParts) - 1:
try:
ErrorObject['channel'] = int(lineParts[pos+1])
except:
pass
if ErrorObject.has_key('type'):
Found = False
for errorname, keywords in DetectMessages.iteritems():
for keyword in keywords:
if keyword in line:
ErrorObject['subtype'] = errorname
Found = True
break
if not Found:
ErrorObject['subtype'] = 'other'
ErrorObjects.append(ErrorObject)
KeyValueDictPairs['nCriticals'] = {'Label': '# Criticals', 'Value': '%d'%len([True for ErrorObject in ErrorObjects if ErrorObject['type'] == 'critical'])}
KeyValueDictPairs['nErrors'] = {'Label': '# Errors', 'Value': '%d'%len([True for ErrorObject in ErrorObjects if ErrorObject['type'] == 'error'])}
KeyValueDictPairs['nWarnings'] = {'Label': '# Warnings', 'Value': '%d'%len([True for ErrorObject in ErrorObjects if ErrorObject['type'] == 'warning'])}
for ch in range(4):
KeyValueDictPairs['channel_%d_count'%ch] = {'Label': 'Channel %d'%ch, 'Value': '%d'%len([True for ErrorObject in ErrorObjects if ErrorObject['channel'] == ch])}
for errorSubtype, keywords in DetectMessages.iteritems():
KeyValueDictPairs['message_%s_count'%errorSubtype] = {'Label': ErrorNames[errorSubtype] if errorSubtype in ErrorNames else errorSubtype, 'Value': '%d'%len([True for ErrorObject in ErrorObjects if ErrorObject['subtype'] == errorSubtype])}
KeyList = (['nCriticals', 'nErrors', 'nWarnings', 'channel_0_count', 'channel_1_count', 'channel_2_count', 'channel_3_count', 'message_tokenchain_count',
'message_eventid_count', 'message_readback_count', 'message_notokenpass_count', 'message_datasize_count', 'message_missingevents_count', 'message_usbtimeout_count', 'message_deser400_count', 'message_daqerror_count'])
return {'KeyValueDictPairs': KeyValueDictPairs, 'KeyList': KeyList}
'''
Manually close all file handles of the sub tests
@final
'''
def CloseSubTestResultFileHandles(self, Level=0):
for i in self.ResultData['SubTestResultDictList']:
if i['TestResultObject'].Enabled:
i['TestResultObject'].CloseSubTestResultFileHandles(Level + 1)
if Level:
if self.FileHandle:
if not type(self.FileHandle) == list:
self.FileHandle = [self.FileHandle]
for SingleFileHandle in self.FileHandle:
try:
if "ROOT.TFile" in repr(SingleFileHandle):
if self.verbose:
print '\x1b[35mclose ROOT file "%s" ...\x1b[0m'%repr(SingleFileHandle)
SingleFileHandle.Close()
else:
if self.verbose:
print '\x1b[32mclose file "%s" ...\x1b[0m'%repr(SingleFileHandle)
SingleFileHandle.close()
except:
print '\x1b[33m warning: can not close file "%s" \x1b[0m'%repr(SingleFileHandle)
'''
Reads all attributes and writes it to the memory
'''
def CustomInit(self):
pass
'''
Opens a file handle just before populating data
'''
def OpenFileHandle(self):
pass
'''
Create a unique ID for creating root histograms
'''
def GetUniqueID(self):
return self.TestResultEnvironmentObject.GetUniqueID(self.NameSingle)
'''
Sets the storage path
'''
def SetFinalResultsStoragePath(self):
pass
def CanvasSize(self, canvas):
canvas.SetCanvasSize(
self.DisplayOptions['Width'] * self.TestResultEnvironmentObject.Configuration['DefaultValues'][
'CanvasWidth'],
self.TestResultEnvironmentObject.Configuration['DefaultValues']['CanvasHeight']
)
canvas.Draw()
canvas.Update()
return canvas
'''
Sets the canvas size
'''
def SetCanvasSize(self):
self.Canvas = self.CanvasSize(self.Canvas)
# self.Canvas.SetCanvasSize(
# self.DisplayOptions['Width']*self.TestResultEnvironmentObject.Configuration['DefaultValues']['CanvasWidth'],
# self.TestResultEnvironmentObject.Configuration['DefaultValues']['CanvasHeight']
# )
# self.Canvas.Draw()
# self.Canvas.Update()
'''
Saving the Canvas
'''
def SaveCanvas(self):
if self.SavePlotFile:
if self.Canvas:
self.Canvas.SaveAs(self.GetPlotFileName())
if not self.ResultData['Plot']['Caption']:
self.ResultData['Plot']['Caption'] = self.Title
for Suffix in self.ResultData['Plot']['AdditionalFormats']:
if Suffix == 'pdf':
self.ResultData['Plot']['ImageFilePDF'] = self.GetPlotFileName(Suffix)
if self.ResultData['Plot']['ROOTObject']:
self.ResultData['Plot']['ROOTObject'].SetTitle(self.ResultData['Plot']['Caption'])
self.Canvas.SaveAs(self.GetPlotFileName(Suffix))
self.ResultData['Plot']['Enabled'] = 1
self.ResultData['Plot']['ImageFile'] = self.GetPlotFileName()
'''
Generate the filename including the full path to the plot file according to the format
'''
def GetPlotFileName(self,Suffix=''):
if Suffix == '':
Suffix = self.ResultData['Plot']['Format']
return self.FinalResultsStoragePath + '/' + self.NameSingle + '.' + Suffix
'''
Get the sub test result list in the display order
'''
def GetSortedSubTestResultDictList(self):
# sort sub test results according to display order
return sorted(
self.ResultData['SubTestResultDictList'],
key=lambda i: i['DisplayOptions']['Order']
)
'''
Reads all test results and writes it to the memory
'''
def PopulateResultData(self):
pass
'''
Generates all output files
'''
def GenerateFinalOutput(self):
for i in self.ResultData['SubTestResults']:
self.ResultData['SubTestResults'][i].GenerateFinalOutput()
self.GenerateDataFiles()
'''
Generate files like Key/Value pairs in JSON format, ASCII-files, HTML-files, etc.
@final
'''
def GenerateDataFiles(self):
self.GenerateDataFileHTML()
self.GenerateDataFileJSON()
'''
Generate HTML file
@final
'''
def GenerateDataFileHTML(self):
HtmlParser = self.TestResultEnvironmentObject.HtmlParser
HTMLFileName = 'TestResult.html'
FinalHTML = ''
HTMLTemplate = self.TestResultEnvironmentObject.TestResultHTMLTemplate
FinalHTML = HTMLTemplate
Levels = self.ModulePath[:].split('.')
# Stylesheet
StylesheetHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###HEAD_STYLESHEET_TEMPLATE###')
StylesheetHTML = HtmlParser.substituteMarkerArray(
StylesheetHTMLTemplate,
{
'###STYLESHEET###': self.TestResultEnvironmentObject.MainStylesheet +
self.TestResultEnvironmentObject.TestResultStylesheet,
}
)
FinalHTML = HtmlParser.substituteSubpart(
FinalHTML,
'###HEAD_STYLESHEETS###',
StylesheetHTML
)
FinalHTML = HtmlParser.substituteSubpart(
FinalHTML,
'###HEAD_STYLESHEET_TEMPLATE###',
''
)
# Clickpath
ClickPathEntries = []
ClickPathEntryTemplate = HtmlParser.getSubpart(HTMLTemplate, '###CLICKPATH_ENTRY###')
LevelPath = ''
i = 0
tmpTestResultObject = self
for Level in Levels[2:]:
LevelPath = '../' * i
ClickPathEntries.append(HtmlParser.substituteMarkerArray(
ClickPathEntryTemplate,
{
'###URL###': HtmlParser.MaskHTML(LevelPath + HTMLFileName),
'###LABEL###': HtmlParser.MaskHTML(tmpTestResultObject.Title)
}
))
if self.ParentObject:
tmpTestResultObject = tmpTestResultObject.ParentObject
i += 1
if not self.OverviewHTMLLink:
OverviewHTMLLink = os.path.relpath(self.TestResultEnvironmentObject.GlobalOverviewPath + '/Overview.html',
self.FinalResultsStoragePath)
else:
OverviewHTMLLink = self.OverviewHTMLLink
ClickPathEntries.append(HtmlParser.substituteMarkerArray(
ClickPathEntryTemplate,
{
'###URL###': HtmlParser.MaskHTML(OverviewHTMLLink),
'###LABEL###': 'Overview'
}
))
ClickPathEntries.reverse()
CSSClasses = ''
# Result Data
FinalHTML = HtmlParser.substituteSubpartArray(
FinalHTML,
{
'###CLICKPATH_ENTRY###': ''.join(ClickPathEntries),
'###RESULTDATA###': self.GenerateResultDataHTML(self, 0, self.DisplayOptions),
'###ADDITIONALCSSCLASSES###': CSSClasses,
}
)
# Do it again for the ghost
FinalHTML = HtmlParser.substituteSubpartArray(
FinalHTML,
{
'###CLICKPATH_ENTRY###': ''.join(ClickPathEntries),
}
)
f = open(self.FinalResultsStoragePath + '/' + HTMLFileName, 'w')
f.write(FinalHTML)
f.close()
'''
Generate Result Data HTML for usage in HTML files
@final
'''
def GenerateResultDataHTML(self, TestResultObject, RecursionLevel, DisplayOptions):
HtmlParser = self.TestResultEnvironmentObject.HtmlParser
HTMLTemplate = self.TestResultEnvironmentObject.TestResultHTMLTemplate
ResultDataHTML = HtmlParser.getSubpart(HTMLTemplate, '###RESULTDATA###')
HTMLFileName = 'TestResult.html'
CSSClasses = self.NameSingle
ResultDataHTML = HtmlParser.substituteMarker(ResultDataHTML,
'###RESULTDATAADDITIONALCSSCLASSES###',
HtmlParser.MaskHTML(CSSClasses)
)
RecursionRelativePath = ''
if RecursionLevel > 0:
PathParts = TestResultObject.FinalResultsStoragePath.split('/')
# print PathParts
RecursionRelativePath = PathParts[-1] + '/'
# Title
if not TestResultObject.Title:
TestResultObject.Title = TestResultObject.NameSingle
MyObjectTestDate = ''
VersionInfo = ''
if RecursionLevel == 0 and TestResultObject.Attributes['TestDate']:
MyObjectTestDate = 'Test Date: ' + datetime.datetime.fromtimestamp(
float(TestResultObject.Attributes['TestDate'])).strftime("%Y-%m-%d %H:%M") + '<br><span style="font-size:10.5pt;" title="' + self.TestResultEnvironmentObject.MoReWebVersion + '">Analysis date: ' + datetime.datetime.now().strftime("%Y-%m-%d %H:%M") + '</span>'
VersionInfo = self.TestResultEnvironmentObject.MoReWebVersion + " on branch " + self.TestResultEnvironmentObject.MoReWebBranch
MainTestResultAdditionalClasses = ''
if RecursionLevel == 0:
MainTestResultAdditionalClasses += 'MainTestResult Group'
if self.DisplayOptions['Width'] > 1:
MainTestResultAdditionalClasses += ' Width' + str(self.DisplayOptions['Width'])
ResultDataHTML = HtmlParser.substituteMarkerArray(
ResultDataHTML,
{
'###TITLE###': HtmlParser.MaskHTML(TestResultObject.Title),
'###TESTDATE###': MyObjectTestDate,
'###MAINTESTRESULTADDITIONALCLASSES###': MainTestResultAdditionalClasses,
'###VERSIONINFO###': VersionInfo,
}
)
# Plot
PlotHTML = ''
if TestResultObject.ResultData['Plot']['Enabled']:
PlotHTML = HtmlParser.getSubpart(HTMLTemplate, '###PLOT###')
PlotHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###PLOT###')
PlotImageHTML = HtmlParser.getSubpart(PlotHTMLTemplate, '###PLOT_IMAGE###')
'''PlotImageHTML = {
'SVG':'',
'PNG':''
}
if TestResultObject.ResultData['Plot']['Format'] == 'svg':
PlotImageHTML['SVG'] = HtmlParser.getSubpart(PlotHTMLTemplate, '###PLOT_IMAGE_SVG###')
elif TestResultObject.ResultData['Plot']['Format'] == 'png':
PlotImageHTML['PNG'] = HtmlParser.getSubpart(PlotHTMLTemplate, '###PLOT_IMAGE_PNG###')
for i in PlotImageHTML:
'''
# file operations for svg
if TestResultObject.ResultData['Plot']['Format'] == 'svg' and RecursionLevel == 0 and self.SavePlotFile:
f = open(TestResultObject.ResultData['Plot']['ImageFile'], 'r')
SVGContent = f.read()
f.close()
# fix an error in chrome / safari when displaying resized svg
if SVGContent.find('<svg preserveAspectRatio') == -1:
SVGContent = SVGContent.replace('<svg', '<svg preserveAspectRatio="xMinYMin"', 1)
# remove an invalid space in attribute width and height
SVGContent = SVGContent.replace('width=" ', 'width="')
SVGContent = SVGContent.replace('height=" ', 'height="')
SVGContent = SVGContent.replace('x=" ', 'x="')
SVGContent = SVGContent.replace('y=" ', 'y="')
SVGContent = SVGContent.replace('r=" ', 'r="')
SVGContent = SVGContent.replace('=" ', '="')
SVGContent = SVGContent.replace('̒', '°')
if self.GzipSVG and TestResultObject.ResultData['Plot']['ImageFile'].find('.svgz') == -1:
os.remove(TestResultObject.ResultData['Plot']['ImageFile'])
TestResultObject.ResultData['Plot']['ImageFile'] += 'z'
f = gzip.GzipFile(TestResultObject.ResultData['Plot']['ImageFile'], 'w')
else:
f = open(TestResultObject.ResultData['Plot']['ImageFile'], 'w')
if os.path.exists(TestResultObject.ResultData['Plot']['ImageFile'] + 'z'):
os.remove(TestResultObject.ResultData['Plot']['ImageFile'] + 'z')
f.write(SVGContent)
f.close()
if not TestResultObject.ResultData['Plot']['Caption']:
TestResultObject.ResultData['Plot']['Caption'] = TestResultObject.Title
try:
PlotImageHTML = HtmlParser.substituteMarkerArray(
PlotImageHTML,
{
'###FILENAME###': HtmlParser.MaskHTML(
RecursionRelativePath + os.path.basename(TestResultObject.ResultData['Plot']['ImageFile'])),
'###PDFFILENAME###': HtmlParser.MaskHTML(
RecursionRelativePath + os.path.basename(TestResultObject.ResultData['Plot']['ImageFilePDF'])),
'###IMAGELARGECONTAINERID###': HtmlParser.MaskHTML(
TestResultObject.Name + '_' + TestResultObject.Key),
'###MARGIN_TOP###': str(int(-800. / float(
DisplayOptions['Width'] * self.TestResultEnvironmentObject.Configuration['DefaultValues'][
'CanvasWidth']) *
float(
self.TestResultEnvironmentObject.Configuration['DefaultValues'][
'CanvasHeight']) / 2.)),
'###TITLE###': TestResultObject.ResultData['Plot']['Caption'],
'###WIDTH###': str(DisplayOptions['Width']),
'###HEIGHT###': str(1),
}
)
except TypeError:
print TestResultObject.Name, '_', TestResultObject.Key
raise TypeError('Canntot convert, ' + str(TestResultObject.Name) + str(TestResultObject.Key))
# PlotHTML = HtmlParser.substituteSubpart(PlotHTML, '###PLOT_IMAGE_'+i+'###', PlotImageHTML)
PlotHTML = HtmlParser.substituteSubpart(PlotHTML, '###PLOT_IMAGE###', PlotImageHTML)
ResultDataHTML = HtmlParser.substituteSubpart(ResultDataHTML, '###PLOT###', PlotHTML)
# Key Value Dict Pairs
KeyValueDictPairsRowHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###KEYVALUEDICTPAIRS_ROW###')
KeyValueDictPairsRows = ''
for i in TestResultObject.ResultData['KeyList']:
if not TestResultObject.ResultData['KeyValueDictPairs'].has_key(i):
warnings.warn('Cannot find Key: {Key} in {Name}'.format(Key=i,Name=self.Name))
continue
if not TestResultObject.ResultData['KeyValueDictPairs'][i].has_key('Unit'):
TestResultObject.ResultData['KeyValueDictPairs'][i]['Unit'] = ''
html_value = HtmlParser.MaskHTML(str(TestResultObject.ResultData['KeyValueDictPairs'][i]['Value']))
if TestResultObject.ResultData['KeyValueDictPairs'][i].has_key('Sigma'):
TestResultObject.ResultData['KeyValueDictPairs'][i]['SigmaOutput'] = ' +/- %s' % \
TestResultObject.ResultData[
'KeyValueDictPairs'][i][
'Sigma']
html_value += ' ± ' + HtmlParser.MaskHTML(
str(TestResultObject.ResultData['KeyValueDictPairs'][i]['Sigma']))
else:
TestResultObject.ResultData['KeyValueDictPairs'][i]['SigmaOutput'] = ''
if not TestResultObject.ResultData['KeyValueDictPairs'][i].has_key('Label'):
TestResultObject.ResultData['KeyValueDictPairs'][i]['Label'] = i
KeyValueDictPairsRows += HtmlParser.substituteMarkerArray(
KeyValueDictPairsRowHTMLTemplate,
{
'###KEY###': HtmlParser.MaskHTML(i),
'###LABEL###': HtmlParser.MaskHTML(
TestResultObject.ResultData['KeyValueDictPairs'][i]['Label']
),
'###VALUE###': html_value,
'###UNIT###': HtmlParser.MaskHTML(
TestResultObject.ResultData['KeyValueDictPairs'][i]['Unit']
),
}
)
ResultDataHTML = HtmlParser.substituteSubpart(ResultDataHTML,
'###KEYVALUEDICTPAIRS_ROW###',
KeyValueDictPairsRows)
# Table
TableHTML = ''
if RecursionLevel == 0 or True:
TableHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###TABLE###')
TableHTML = HtmlParser.GenerateTableHTML(TableHTMLTemplate, TestResultObject.ResultData['Table'], {
'###ADDITIONALCSSCLASS###': '',
'###ID###': 'Table',
})
ResultDataHTML = HtmlParser.substituteSubpart(ResultDataHTML,
'###TABLE###',
TableHTML)
# Sub Test Results
SubTestResultListHTML = ''
if RecursionLevel == 0:
GroupWithNext = False
i2 = 0
for i in TestResultObject.GetSortedSubTestResultDictList():
if i['TestResultObject'].DisplayOptions['Show']:
GroupCSSClass = ''
if i2 % 5 == 0:
GroupCSSClass += ' WidthNthChild5n'
if i2 % 4 == 0:
GroupCSSClass += ' WidthNthChild4n'
if i2 % 3 == 0:
GroupCSSClass += ' WidthNthChild3n'
if i2 % 2 == 0:
GroupCSSClass += ' WidthNthChild2n'
if i['TestResultObject'].DisplayOptions['Width'] > 1:
GroupCSSClass += ' Width' + str(i['TestResultObject'].DisplayOptions['Width'])
if not GroupWithNext:
SubTestResultListHTML += HtmlParser.substituteMarker(
HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTGROUP_START###'),
'###SUBTESTRESULTGROUP_ADDITIONALCSSCLASSES###',
HtmlParser.MaskHTML(GroupCSSClass)
)
# only increase the width counter for a group start
i2 += i['TestResultObject'].DisplayOptions['Width']
SubTestResultListHTML += self.GenerateResultDataHTML(i['TestResultObject'], RecursionLevel + 1,
i['TestResultObject'].DisplayOptions)
if not i['TestResultObject'].DisplayOptions['GroupWithNext']:
# if the last element was in a group but the current not, close the group
SubTestResultListHTML += HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTGROUP_END###')
GroupWithNext = i['DisplayOptions']['GroupWithNext']
# if the last element was in a group, close the group
if GroupWithNext:
SubTestResultListHTML += HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTGROUP_END###')
else:
SubTestResultListItemHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTLIST_ITEM###')
SubTestResultListHTML = HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTLIST###')
SubTestResultListItems = ''
# Overview link
SubTestResultOverviewLinkHTML = HtmlParser.getSubpart(SubTestResultListHTML, '###OVERVIEW_LINK###')
if TestResultObject.ResultData['SubTestResultDictList']:
SubTestResultOverviewLinkHTML = HtmlParser.substituteMarkerArray(
SubTestResultOverviewLinkHTML,
{
'###URL###': HtmlParser.MaskHTML(
os.path.basename(TestResultObject.FinalResultsStoragePath) + '/' + HTMLFileName
),
}
)
else:
SubTestResultOverviewLinkHTML = ''
# Subtests
for i in TestResultObject.GetSortedSubTestResultDictList():
if i['DisplayOptions']['Show']:
SubTestResultListItems += HtmlParser.substituteMarkerArray(
SubTestResultListItemHTMLTemplate,
{
'###URL###': HtmlParser.MaskHTML(
os.path.basename(TestResultObject.FinalResultsStoragePath) + '/' +
os.path.basename(i['TestResultObject'].FinalResultsStoragePath) + '/' + HTMLFileName
),
'###LABEL###': HtmlParser.MaskHTML(
i['TestResultObject'].Title
),
}
)
SubTestResultListHTML = HtmlParser.substituteSubpartArray(
SubTestResultListHTML,
{
'###SUBTESTRESULTLIST_ITEM###': SubTestResultListItems,
'###OVERVIEW_LINK###': SubTestResultOverviewLinkHTML,
}
)
if not SubTestResultListItems:
SubTestResultListHTML = ''
if 'HTMLContent' in TestResultObject.ResultData:
ResultDataHTML = ResultDataHTML + TestResultObject.ResultData['HTMLContent']
ResultDataHTML = HtmlParser.substituteSubpartArray(
ResultDataHTML,
{
'###SUBTESTRESULTLIST###': SubTestResultListHTML,
'###SUBTESTRESULTGROUP_START###': '',
'###SUBTESTRESULTGROUP_END###': '',
}
)
return ResultDataHTML
'''
Generate file from ResultData['KeyValueDictPairs'] Key/Value pairs in JSON format
@final
'''
def GenerateDataFileJSON(self):
data = None
key = None
DataKeys = ['KeyValueDictPairs', 'HiddenData']
for DataKey in DataKeys:
try:
data = self.ResultData[DataKey]
for key in data:
if type(data[key])==dict and data[key].has_key('Value'):
value = data[key]['Value']
if type(value) == set:
value = list(value)
data[key]['Value'] = value
elif type(data[key])==dict:
data[key] = list(data[key])
else:
data_value = data[key]
data[key] = {'Value': str(data_value)}
f = open(self.FinalResultsStoragePath + '/'+DataKey+'.json', 'w')
f.write(json.dumps(self.ResultData[DataKey], sort_keys=True, indent=4, separators=(',', ': '), cls=SetEncoder))
f.close()
except (KeyError,IOError,TypeError):
if data and key in data:
if type(data[key])==dict:
warnings.warn(
'Cannot create JSON for %s, %s' % (type(data[key]['Value']), str(self.ResultData[DataKey])))
else:
warnings.warn('Cannot create JSON for %s.' % (repr(data)))
else:
warnings.warn('Cannot create JSON for %s.' % (repr(data)))
'''
Generate file from ResultData['KeyValueDictPairs'] Key/Value pairs in ASCII format
@final
'''
def GenerateDataFileASCII(self):
pass
'''
Write all test results to the database
'''
def WriteToDatabase(self, ParentID=0):
ColumnMapping = {}
ID = 0
ID = self.CustomWriteToDatabase(ParentID)
WriteToDBSuccess = True
for i in self.ResultData['SubTestResults']:
try:
SubtestWriteToDBSuccess = self.ResultData['SubTestResults'][i].WriteToDatabase(ID)
WriteToDBSuccess = WriteToDBSuccess and SubtestWriteToDBSuccess
except Exception as inst:
# Start red color
sys.stdout.write("\x1b[31m")
sys.stdout.flush()
print 'Error in subtest (write to database)', self.ResultData['SubTestResults'][i].ModulePath, \
self.ResultData['SubTestResults'][i].FinalResultsStoragePath
print inst
print inst.args
print sys.exc_info()[0]
print "\n\n------\n"
# Print traceback
exc_type, exc_obj, exc_tb = sys.exc_info()
traceback.print_exception(exc_type, exc_obj, exc_tb)
# Reset color
sys.stdout.write("\x1b[0m")
sys.stdout.flush()
WriteToDBSuccess = False
self.PostWriteToDatabase()
return WriteToDBSuccess
def CustomWriteToDatabase(self, ParentID):
pass
def PostWriteToDatabase(self):
pass
def __del__(self):
self.CloseSubTestResultFileHandles()
class GeneralTestResult:
nRows = 80
nCols = 52
nTotalChips = 16
'''
Initialization function
@param ParentObject Reference to the Parent Object
@param InitialModulePath Starting point of modules
'''
def __init__(self, TestResultEnvironmentObject, ParentObject=None, InitialModulePath=None,
InitialFinalResultsStoragePath=None, InitialAttributes=None, Key=None, DisplayOptions=None):
ROOTConfiguration.initialise_ROOT()
self.verbose = False
# Name of the Test Result, only a-zA-Z0-9_
self.Name = ''
# Name of the test result without prefixes
self.NameSingle = ''
self.Key = ''
# Title displayed in HTML, etc
self.Title = ''
if Key:
self.Key = Key
# Attributes like Date, etc.
self.Attributes = {
# Date as UNIX timestamp, if 0, the date of the parent object is taken
'TestDate': 0,
# Type of the tested object
'TestedObjectType': '',
# ID of the tested object
'TestedObjectID': '',
# Key for custom storage path
'StorageKey': '',
# subDirectory of the test result root-files
'TestResultSubDirectory': '',
}
self.Show = True
self.Enabled = True
self.SavePlotFile = True
self.GzipSVG = TestResultEnvironmentObject.Configuration['GzipSVG']
self.DefaultImageFormat = TestResultEnvironmentObject.Configuration['DefaultImageFormat'].strip().lower()
if TestResultEnvironmentObject.Configuration.has_key('OverviewHTMLLink'):
self.OverviewHTMLLink = TestResultEnvironmentObject.Configuration['OverviewHTMLLink']
else:
self.OverviewHTMLLink = None
# Path for current test to folder with root-files
self.RawTestSessionDataPath = ''
# Path for current test result files (html, svg, etc)
self.FinalResultsStoragePath = ''
# File handle (might be used by sub results)
self.FileHandle = 0
# Reference to ROOT canvas
self.Canvas = None
# Display Properties as in the ResultData.SubTestResultDictList
self.DisplayOptions = {
'Order': 0,
'Width': 1,
'GroupWithNext': False,
}
# Result array
self.ResultData = {
# Key / ValueDict (dict with {Value, Unit, Label}, if Label not specified, the key is used as label) Pairs
# 'KeyValueDictPairs':{
# 'MyKey':{
# 'Value':25,
# 'Unit': 'kg',
# 'Label': 'My Key'
# }
# }
'KeyValueDictPairs': {},
# List of keys for sorting
'KeyList': [],
# Plot data
'Plot': {
'Enabled': 0,
'ROOTObject': None,
'Caption': '',
'ImageFile': '',
'Format': self.DefaultImageFormat #svg
},
# SubTest Results
'SubTestResults': {},
# List of {Key, Module} dict for sorting and special attributes
'SubTestResultDictList': [],
# 'SubTestResultDictList':{
# {
# 'Key':'Noise'
# 'Module':'Noise',
# 'TestResultObject':object,
# 'InitialAttributes':{'StorageKey':'Blub'},
# 'DisplayOptions':{'Order':1, 'Width':1,'GroupWithNext':False},
# }
# }
# hidden data, might be needed by other test results but is not displayed
'HiddenData': {},
# a data table if needed
'Table': {
'HEADER': [],
'BODY': [],
'FOOTER': [],
}
}
# Reference to parent object
self.ParentObject = None
# Reference to the Test Result Environment
self.TestResultEnvironmentObject = None
self.TestResultEnvironmentObject = TestResultEnvironmentObject
self.Canvas = self.TestResultEnvironmentObject.Canvas
self.RawTestSessionDataPath = self.TestResultEnvironmentObject.ModuleDataDirectory
if ParentObject:
self.ParentObject = ParentObject
self.RawTestSessionDataPath = self.ParentObject.RawTestSessionDataPath
if InitialAttributes:
self.Attributes.update(InitialAttributes)
if DisplayOptions:
self.DisplayOptions.update(DisplayOptions)
if self.Attributes['TestResultSubDirectory']:
self.RawTestSessionDataPath += '/' + self.Attributes['TestResultSubDirectory']
self.CustomInit();
if not self.Title:
self.Title = self.NameSingle
# Module Path
self.ModulePath = self.NameSingle
if InitialModulePath:
self.ModulePath = InitialModulePath
if InitialFinalResultsStoragePath:
self.FinalResultsStoragePath = InitialFinalResultsStoragePath
self.RelativeFinalResultsStoragePath = ''
if self.ParentObject:
self.FinalResultsStoragePath = self.ParentObject.FinalResultsStoragePath
self.RelativeFinalResultsStoragePath = self.ParentObject.RelativeFinalResultsStoragePath
self.ModulePath = self.ParentObject.ModulePath + '.' + self.ModulePath
if self.Attributes['StorageKey']:
self.FinalResultsStoragePath += '/' + self.Attributes['StorageKey']
self.RelativeFinalResultsStoragePath += '/' + self.Attributes['StorageKey']
else:
self.FinalResultsStoragePath += '/' + self.NameSingle
self.RelativeFinalResultsStoragePath += '/' + self.NameSingle
self.SetFinalResultsStoragePath()
if not os.path.exists(self.FinalResultsStoragePath):
os.makedirs(self.FinalResultsStoragePath)
# Load all sub test results in correct order
i2 = len(self.ResultData['SubTestResultDictList'])
for i in self.ResultData['SubTestResultDictList']:
if i.has_key('Module'):
SubModule = i['Module']
else:
SubModule = i['Key']
i['Module'] = SubModule
if i.has_key('InitialAttributes'):
pass
else:
i['InitialAttributes'] = {}
# set the test date for all test results
i['InitialAttributes'].update({
'TestDate': self.Attributes['TestDate']
})
# Ensure all keys of display properties are set
DisplayOptions = {
'Order': i2,
'Width': 1,
'Show': True,
'GroupWithNext': False,
}
if i.has_key('DisplayOptions'):
DisplayOptions.update(i['DisplayOptions'])
i['DisplayOptions'] = DisplayOptions
try:
importdir = self.ModulePath + '.' + SubModule
# print 'import ',importdir,SubModule
f = __import__(importdir + '.' + SubModule, fromlist=[importdir + '.' + 'TestResult'])
except Exception as inst:
# print 'could not ',importdir+'.'+SubModule,SubModule
# print 'type',type(inst)
# print 'inst',inst
f = __import__(importdir + '.TestResult', fromlist=[''])
print 'imported', f, 'please change name of file'
pass
self.ResultData['SubTestResults'][i['Key']] = f.TestResult(
self.TestResultEnvironmentObject,
self,
None,
None,
i['InitialAttributes'],
i['Key'],
i['DisplayOptions']
)
i['TestResultObject'] = self.ResultData['SubTestResults'][i['Key']]
i2 += 1
def check_Test_Software(self):
# file = self.RawTestSessionDataPath + '/test.cfg'
# print file
self.RawTestSessionDataPath = os.path.abspath(self.RawTestSessionDataPath)
files = glob.glob(self.RawTestSessionDataPath + '/test.cfg') + \
glob.glob(self.RawTestSessionDataPath + '/*/test.cfg')
# print 'pyxar:',files
if len(files) > 0:
self.testSoftware = 'pyxar'
else:
data = glob.glob(self.RawTestSessionDataPath + '/*[p,P][x,X][a,A][r,R]*.*') + \
glob.glob(self.RawTestSessionDataPath + '/*/*[p,P][x,X][a,A][r,R]*.*')
if len(data):
self.testSoftware = 'pxar'
else:
self.testSoftware = 'psi46expert'
self.HistoDict = BetterConfigParser()
fileName = 'Configuration/Software/%s.cfg' % self.testSoftware
self.HistoDict.read(fileName)
fileName = 'Configuration/Software/global.cfg'
self.HistoDict.read(fileName)
def check_for_comments(self):
dir = os.path.abspath(self.RawTestSessionDataPath)
comment_files = glob.glob(dir + '/comment*')
comment = ''
for filename in comment_files:
comment += '{filename}:\n'.format(filename=filename.split('/')[-1])
with file(filename) as f:
s = f.read()
comment += s + '\n\n'
# if self.ResultData:
# if not 'KeyVaueDictPairs' in self.ResultData:
# self.ResultData['KeyValueDictPairs'] = {}
#
# if not 'KeyValueList' in self.ResultData:
# self.ResultData['KeyValueList'] = []
if self.verbose:
print 'checking', self.RawTestSessionDataPath, comment_files
if comment != '':
if self.verbose:
print 'added comment', comment, 'to ', self.Name
self.ResultData['KeyValueDictPairs']['Comment'] = {
'Value': comment,
}
self.ResultData['KeyList'].append('Comment')
def ReadModuleVersion(self):
if self.verbose:
print 'Read configParameters'
self.check_Test_Software()
format = self.HistoDict.get('ConfigParameters', 'configFormat')
fileNames = self.HistoDict.get('ConfigParameters', 'configParameters').split(',')
if format == 'dat':
lines = []
for filename in fileNames:
fileName = '%s/%s' % (self.RawTestSessionDataPath, filename)
f = open(fileName)
lines.extend(f.readlines())
f.close()
version = 'none'
for line in lines:
if line.strip().startswith('rocType'):
version = line.split(' ')[-1]
elif line.strip().startswith('nRocs'):
nRocs = int(line.split(' ')[-1])
if self.verbose: print '\tnRocs: %s' % nRocs
elif line.strip().startswith('halfModule'):
halfModule = int(line.split(' ')[-1])
if self.verbose: print '\thalfModule: %s' % halfModule
elif format == 'cfg':
config = BetterConfigParser()
for filename in fileNames:
fileName = '%s/%s' % (self.RawTestSessionDataPath, filename)
config.read(fileName)
try:
version = config.get('ROC', 'type')
except:
warnings.warn('cannot find version name {section}'.format(section=config.sections()))
if 'ROC' in config.sections():
warnings.warn('cannot find version ROC-section {section}'.format(section=config.options('ROC')))
version = 'none'
try:
nRocs = config.getint('Module', 'rocs')
except:
nRocs = 0
try:
halfModule = config.get('Module', 'halfModule')
except:
halfModule = 0
version = version.rstrip('\n')
if self.verbose:
print 'Version: ', version
print 'nRocs: ', nRocs
print 'halfModule: ', halfModule
self.version = version
self.nRocs = nRocs
self.halfModule = halfModule
return (version, nRocs, halfModule)
'''
Populates all necessary data
@final
'''
def PopulateAllData(self):
self.OpenFileHandle();
for i in self.ResultData['SubTestResultDictList']:
if i['TestResultObject'].Enabled:
self.SetCanvasSize()
try:
i['TestResultObject'].PopulateAllData()
# i['TestResultObject'].check_for_comments()
except Exception as inst:
exc_type, exc_obj, exc_tb = sys.exc_info()
# Start red color
sys.stdout.write("\x1b[31m")
sys.stdout.flush()
# Print error message
print '\x1b[31mException while processing', i['TestResultObject'].FinalResultsStoragePath
# Print traceback
traceback.print_exception(exc_type, exc_obj, exc_tb)
# Stop red color
sys.stdout.write("\x1b[0m")
sys.stdout.flush()
self.TestResultEnvironmentObject.ErrorList.append(
{'ModulePath': i['TestResultObject'].ModulePath,
'ErrorCode': inst,
'FinalResultsStoragePath': i['TestResultObject'].FinalResultsStoragePath}
)
# todo Felix: handel exceptions
self.SetCanvasSize()
try:
self.PopulateResultData()
self.check_for_comments()
except Exception as inst:
exc_type, exc_obj, exc_tb = sys.exc_info()
# Start red color
sys.stdout.write("\x1b[31m")
sys.stdout.flush()
print '\x1b[31mException while processing', self.FinalResultsStoragePath
# Print traceback
traceback.print_exception(exc_type, exc_obj, exc_tb)
# Stop red color
sys.stdout.write("\x1b[0m")
sys.stdout.flush()
self.TestResultEnvironmentObject.ErrorList.append(
{'ModulePath': self.ModulePath,
'ErrorCode': inst,
'FinalResultsStoragePath': self.FinalResultsStoragePath}
# 'FinalResultsStoragePath':i['TestResultObject'].FinalResultsStoragePath}
)
'''
Manually close all file handles of the sub tests
@final
'''
def CloseSubTestResultFileHandles(self, Level=0):
for i in self.ResultData['SubTestResultDictList']:
if i['TestResultObject'].Enabled:
i['TestResultObject'].CloseSubTestResultFileHandles(Level + 1)
if Level:
if self.FileHandle:
try:
self.FileHandle.close()
except:
try:
self.FileHandle.Close()
except:
pass
'''
Reads all attributes and writes it to the memory
'''
def CustomInit(self):
pass
'''
Opens a file handle just before populating data
'''
def OpenFileHandle(self):
pass
'''
Create a unique ID for creating root histograms
'''
def GetUniqueID(self):
return self.TestResultEnvironmentObject.GetUniqueID(self.NameSingle)
'''
Sets the storage path
'''
def SetFinalResultsStoragePath(self):
pass
def CanvasSize(self, canvas):
canvas.SetCanvasSize(
self.DisplayOptions['Width'] * self.TestResultEnvironmentObject.Configuration['DefaultValues'][
'CanvasWidth'],
self.TestResultEnvironmentObject.Configuration['DefaultValues']['CanvasHeight']
)
canvas.Draw()
canvas.Update()
return canvas
'''
Sets the canvas size
'''
def SetCanvasSize(self):
self.Canvas = self.CanvasSize(self.Canvas)
# self.Canvas.SetCanvasSize(
# self.DisplayOptions['Width']*self.TestResultEnvironmentObject.Configuration['DefaultValues']['CanvasWidth'],
# self.TestResultEnvironmentObject.Configuration['DefaultValues']['CanvasHeight']
# )
# self.Canvas.Draw()
# self.Canvas.Update()
'''
Generate the filename including the full path to the plot file according to the format
'''
def GetPlotFileName(self):
Suffix = self.ResultData['Plot']['Format']
return self.FinalResultsStoragePath + '/' + self.NameSingle + '.' + Suffix
'''
Get the sub test result list in the display order
'''
def GetSortedSubTestResultDictList(self):
# sort sub test results according to display order
return sorted(
self.ResultData['SubTestResultDictList'],
key=lambda i: i['DisplayOptions']['Order']
)
'''
Reads all test results and writes it to the memory
'''
def PopulateResultData(self):
pass
'''
Generates all output files
'''
def GenerateFinalOutput(self):
for i in self.ResultData['SubTestResults']:
self.ResultData['SubTestResults'][i].GenerateFinalOutput()
self.GenerateDataFiles()
'''
Generate files like Key/Value pairs in JSON format, ASCII-files, HTML-files, etc.
@final
'''
def GenerateDataFiles(self):
self.GenerateDataFileHTML()
self.GenerateDataFileJSON()
'''
Generate HTML file
@final
'''
def GenerateDataFileHTML(self):
HtmlParser = self.TestResultEnvironmentObject.HtmlParser
HTMLFileName = 'TestResult.html'
FinalHTML = ''
HTMLTemplate = self.TestResultEnvironmentObject.TestResultHTMLTemplate
FinalHTML = HTMLTemplate
Levels = self.ModulePath[:].split('.')
# Stylesheet
StylesheetHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###HEAD_STYLESHEET_TEMPLATE###')
StylesheetHTML = HtmlParser.substituteMarkerArray(
StylesheetHTMLTemplate,
{
'###STYLESHEET###': self.TestResultEnvironmentObject.MainStylesheet +
self.TestResultEnvironmentObject.TestResultStylesheet,
}
)
FinalHTML = HtmlParser.substituteSubpart(
FinalHTML,
'###HEAD_STYLESHEETS###',
StylesheetHTML
)
FinalHTML = HtmlParser.substituteSubpart(
FinalHTML,
'###HEAD_STYLESHEET_TEMPLATE###',
''
)
# Clickpath
ClickPathEntries = []
ClickPathEntryTemplate = HtmlParser.getSubpart(HTMLTemplate, '###CLICKPATH_ENTRY###')
LevelPath = ''
i = 0
tmpTestResultObject = self
for Level in Levels[2:]:
LevelPath = '../' * i
ClickPathEntries.append(HtmlParser.substituteMarkerArray(
ClickPathEntryTemplate,
{
'###URL###': HtmlParser.MaskHTML(LevelPath + HTMLFileName),
'###LABEL###': HtmlParser.MaskHTML(tmpTestResultObject.Title)
}
))
if self.ParentObject:
tmpTestResultObject = tmpTestResultObject.ParentObject
i += 1
if not self.OverviewHTMLLink:
OverviewHTMLLink = os.path.relpath(self.TestResultEnvironmentObject.GlobalOverviewPath + '/Overview.html',
self.FinalResultsStoragePath)
else:
OverviewHTMLLink = self.OverviewHTMLLink
ClickPathEntries.append(HtmlParser.substituteMarkerArray(
ClickPathEntryTemplate,
{
'###URL###': HtmlParser.MaskHTML(OverviewHTMLLink),
'###LABEL###': 'Overview'
}
))
ClickPathEntries.reverse()
CSSClasses = ''
#Result Data
FinalHTML = HtmlParser.substituteSubpartArray(
FinalHTML,
{
'###CLICKPATH_ENTRY###': ''.join(ClickPathEntries),
'###RESULTDATA###': self.GenerateResultDataHTML(self, 0, self.DisplayOptions),
'###ADDITIONALCSSCLASSES###': CSSClasses,
}
)
# Do it again for the ghost
FinalHTML = HtmlParser.substituteSubpartArray(
FinalHTML,
{
'###CLICKPATH_ENTRY###': ''.join(ClickPathEntries),
}
)
f = open(self.FinalResultsStoragePath + '/' + HTMLFileName, 'w')
f.write(FinalHTML)
f.close()
'''
Generate Result Data HTML for usage in HTML files
@final
'''
def GenerateResultDataHTML(self, TestResultObject, RecursionLevel, DisplayOptions):
HtmlParser = self.TestResultEnvironmentObject.HtmlParser
HTMLTemplate = self.TestResultEnvironmentObject.TestResultHTMLTemplate
ResultDataHTML = HtmlParser.getSubpart(HTMLTemplate, '###RESULTDATA###')
HTMLFileName = 'TestResult.html'
CSSClasses = self.NameSingle
ResultDataHTML = HtmlParser.substituteMarker(ResultDataHTML,
'###RESULTDATAADDITIONALCSSCLASSES###',
HtmlParser.MaskHTML(CSSClasses)
)
RecursionRelativePath = ''
if RecursionLevel > 0:
PathParts = TestResultObject.FinalResultsStoragePath.split('/')
#print PathParts
RecursionRelativePath = PathParts[-1] + '/'
# Title
if not TestResultObject.Title:
TestResultObject.Title = TestResultObject.NameSingle
MyObjectTestDate = '';
if RecursionLevel == 0 and TestResultObject.Attributes['TestDate']:
MyObjectTestDate = 'Test Date: ' + datetime.datetime.fromtimestamp(
float(TestResultObject.Attributes['TestDate'])).strftime("%Y-%m-%d %H:%m")
MainTestResultAdditionalClasses = ''
if RecursionLevel == 0:
MainTestResultAdditionalClasses += 'MainTestResult Group'
if self.DisplayOptions['Width'] > 1:
MainTestResultAdditionalClasses += ' Width' + str(self.DisplayOptions['Width'])
ResultDataHTML = HtmlParser.substituteMarkerArray(
ResultDataHTML,
{
'###TITLE###': HtmlParser.MaskHTML(TestResultObject.Title),
'###TESTDATE###': MyObjectTestDate,
'###MAINTESTRESULTADDITIONALCLASSES###': MainTestResultAdditionalClasses,
}
)
# Plot
PlotHTML = ''
if TestResultObject.ResultData['Plot']['Enabled']:
PlotHTML = HtmlParser.getSubpart(HTMLTemplate, '###PLOT###')
PlotHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###PLOT###')
PlotImageHTML = HtmlParser.getSubpart(PlotHTMLTemplate, '###PLOT_IMAGE###')
'''PlotImageHTML = {
'SVG':'',
'PNG':''
}
if TestResultObject.ResultData['Plot']['Format'] == 'svg':
PlotImageHTML['SVG'] = HtmlParser.getSubpart(PlotHTMLTemplate, '###PLOT_IMAGE_SVG###')
elif TestResultObject.ResultData['Plot']['Format'] == 'png':
PlotImageHTML['PNG'] = HtmlParser.getSubpart(PlotHTMLTemplate, '###PLOT_IMAGE_PNG###')
for i in PlotImageHTML:
'''
# file operations for svg
if TestResultObject.ResultData['Plot']['Format'] == 'svg' and RecursionLevel == 0 and self.SavePlotFile:
f = open(TestResultObject.ResultData['Plot']['ImageFile'], 'r')
SVGContent = f.read()
f.close()
# fix an error in chrome / safari when displaying resized svg
if SVGContent.find('<svg preserveAspectRatio') == -1:
SVGContent = SVGContent.replace('<svg', '<svg preserveAspectRatio="xMinYMin"', 1)
# remove an invalid space in attribute width and height
SVGContent = SVGContent.replace('width=" ', 'width="')
SVGContent = SVGContent.replace('height=" ', 'height="')
SVGContent = SVGContent.replace('x=" ', 'x="')
SVGContent = SVGContent.replace('y=" ', 'y="')
SVGContent = SVGContent.replace('r=" ', 'r="')
SVGContent = SVGContent.replace('=" ', '="')
SVGContent = SVGContent.replace('̒', '°')
if self.GzipSVG and TestResultObject.ResultData['Plot']['ImageFile'].find('.svgz') == -1:
os.remove(TestResultObject.ResultData['Plot']['ImageFile'])
TestResultObject.ResultData['Plot']['ImageFile'] += 'z'
f = gzip.GzipFile(TestResultObject.ResultData['Plot']['ImageFile'], 'w')
else:
f = open(TestResultObject.ResultData['Plot']['ImageFile'], 'w')
if os.path.exists(TestResultObject.ResultData['Plot']['ImageFile'] + 'z'):
os.remove(TestResultObject.ResultData['Plot']['ImageFile'] + 'z')
f.write(SVGContent)
f.close()
if not TestResultObject.ResultData['Plot']['Caption']:
TestResultObject.ResultData['Plot']['Caption'] = TestResultObject.Title
try:
PlotImageHTML = HtmlParser.substituteMarkerArray(
PlotImageHTML,
{
'###FILENAME###': HtmlParser.MaskHTML(
RecursionRelativePath + os.path.basename(TestResultObject.ResultData['Plot']['ImageFile'])),
'###IMAGELARGECONTAINERID###': HtmlParser.MaskHTML(
TestResultObject.Name + '_' + TestResultObject.Key),
'###MARGIN_TOP###': str(int(-800. / float(
DisplayOptions['Width'] * self.TestResultEnvironmentObject.Configuration['DefaultValues'][
'CanvasWidth']) *
float(
self.TestResultEnvironmentObject.Configuration['DefaultValues'][
'CanvasHeight']) / 2.)),
'###TITLE###': TestResultObject.ResultData['Plot']['Caption'],
'###WIDTH###': str(DisplayOptions['Width']),
'###HEIGHT###': str(1),
}
)
except TypeError:
print TestResultObject.Name, '_', TestResultObject.Key
raise TypeError('Canntot convert, ' + str(TestResultObject.Name) + str(TestResultObject.Key))
#PlotHTML = HtmlParser.substituteSubpart(PlotHTML, '###PLOT_IMAGE_'+i+'###', PlotImageHTML)
PlotHTML = HtmlParser.substituteSubpart(PlotHTML, '###PLOT_IMAGE###', PlotImageHTML)
ResultDataHTML = HtmlParser.substituteSubpart(ResultDataHTML, '###PLOT###', PlotHTML)
#Key Value Dict Pairs
KeyValueDictPairsRowHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###KEYVALUEDICTPAIRS_ROW###')
KeyValueDictPairsRows = ''
for i in TestResultObject.ResultData['KeyList']:
if not TestResultObject.ResultData['KeyValueDictPairs'].has_key(i):
warnings.warn('Cannot find Key: {Key}'.format(Key=i))
continue
if not TestResultObject.ResultData['KeyValueDictPairs'][i].has_key('Unit'):
TestResultObject.ResultData['KeyValueDictPairs'][i]['Unit'] = ''
html_value = HtmlParser.MaskHTML(str(TestResultObject.ResultData['KeyValueDictPairs'][i]['Value']))
if TestResultObject.ResultData['KeyValueDictPairs'][i].has_key('Sigma'):
TestResultObject.ResultData['KeyValueDictPairs'][i]['SigmaOutput'] = ' +/- %s' % \
TestResultObject.ResultData[
'KeyValueDictPairs'][i][
'Sigma']
html_value += ' ± ' + HtmlParser.MaskHTML(
str(TestResultObject.ResultData['KeyValueDictPairs'][i]['Sigma']))
else:
TestResultObject.ResultData['KeyValueDictPairs'][i]['SigmaOutput'] = ''
if not TestResultObject.ResultData['KeyValueDictPairs'][i].has_key('Label'):
TestResultObject.ResultData['KeyValueDictPairs'][i]['Label'] = i
KeyValueDictPairsRows += HtmlParser.substituteMarkerArray(
KeyValueDictPairsRowHTMLTemplate,
{
'###KEY###': HtmlParser.MaskHTML(i),
'###LABEL###': HtmlParser.MaskHTML(
TestResultObject.ResultData['KeyValueDictPairs'][i]['Label']
),
'###VALUE###': html_value,
'###UNIT###': HtmlParser.MaskHTML(
TestResultObject.ResultData['KeyValueDictPairs'][i]['Unit']
),
}
)
ResultDataHTML = HtmlParser.substituteSubpart(ResultDataHTML,
'###KEYVALUEDICTPAIRS_ROW###',
KeyValueDictPairsRows)
#Table
TableHTML = ''
if RecursionLevel == 0 or True:
TableHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###TABLE###')
TableHTML = HtmlParser.GenerateTableHTML(TableHTMLTemplate, TestResultObject.ResultData['Table'], {
'###ADDITIONALCSSCLASS###': '',
'###ID###': 'Table',
})
ResultDataHTML = HtmlParser.substituteSubpart(ResultDataHTML,
'###TABLE###',
TableHTML)
# Sub Test Results
SubTestResultListHTML = ''
if RecursionLevel == 0:
GroupWithNext = False
i2 = 0
for i in TestResultObject.GetSortedSubTestResultDictList():
if i['TestResultObject'].DisplayOptions['Show']:
GroupCSSClass = ''
if i2 % 5 == 0:
GroupCSSClass += ' WidthNthChild5n'
if i2 % 4 == 0:
GroupCSSClass += ' WidthNthChild4n'
if i2 % 3 == 0:
GroupCSSClass += ' WidthNthChild3n'
if i2 % 2 == 0:
GroupCSSClass += ' WidthNthChild2n'
if i['TestResultObject'].DisplayOptions['Width'] > 1:
GroupCSSClass += ' Width' + str(i['TestResultObject'].DisplayOptions['Width'])
if not GroupWithNext:
SubTestResultListHTML += HtmlParser.substituteMarker(
HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTGROUP_START###'),
'###SUBTESTRESULTGROUP_ADDITIONALCSSCLASSES###',
HtmlParser.MaskHTML(GroupCSSClass)
)
# only increase the width counter for a group start
i2 += i['TestResultObject'].DisplayOptions['Width']
SubTestResultListHTML += self.GenerateResultDataHTML(i['TestResultObject'], RecursionLevel + 1,
i['TestResultObject'].DisplayOptions)
if not i['TestResultObject'].DisplayOptions['GroupWithNext']:
# if the last element was in a group but the current not, close the group
SubTestResultListHTML += HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTGROUP_END###')
GroupWithNext = i['DisplayOptions']['GroupWithNext']
# if the last element was in a group, close the group
if GroupWithNext:
SubTestResultListHTML += HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTGROUP_END###')
else:
SubTestResultListItemHTMLTemplate = HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTLIST_ITEM###')
SubTestResultListHTML = HtmlParser.getSubpart(HTMLTemplate, '###SUBTESTRESULTLIST###')
SubTestResultListItems = ''
# Overview link
SubTestResultOverviewLinkHTML = HtmlParser.getSubpart(SubTestResultListHTML, '###OVERVIEW_LINK###')
if TestResultObject.ResultData['SubTestResultDictList']:
SubTestResultOverviewLinkHTML = HtmlParser.substituteMarkerArray(
SubTestResultOverviewLinkHTML,
{
'###URL###': HtmlParser.MaskHTML(
os.path.basename(TestResultObject.FinalResultsStoragePath) + '/' + HTMLFileName
),
}
)
else:
SubTestResultOverviewLinkHTML = ''
# Subtests
for i in TestResultObject.GetSortedSubTestResultDictList():
if i['DisplayOptions']['Show']:
SubTestResultListItems += HtmlParser.substituteMarkerArray(
SubTestResultListItemHTMLTemplate,
{
'###URL###': HtmlParser.MaskHTML(
os.path.basename(TestResultObject.FinalResultsStoragePath) + '/' +
os.path.basename(i['TestResultObject'].FinalResultsStoragePath) + '/' + HTMLFileName
),
'###LABEL###': HtmlParser.MaskHTML(
i['TestResultObject'].Title
),
}
)
SubTestResultListHTML = HtmlParser.substituteSubpartArray(
SubTestResultListHTML,
{
'###SUBTESTRESULTLIST_ITEM###': SubTestResultListItems,
'###OVERVIEW_LINK###': SubTestResultOverviewLinkHTML,
}
)
if not SubTestResultListItems:
SubTestResultListHTML = ''
ResultDataHTML = HtmlParser.substituteSubpartArray(
ResultDataHTML,
{
'###SUBTESTRESULTLIST###': SubTestResultListHTML,
'###SUBTESTRESULTGROUP_START###': '',
'###SUBTESTRESULTGROUP_END###': '',
}
)
return ResultDataHTML
'''
Generate file from ResultData['KeyValueDictPairs'] Key/Value pairs in JSON format
@final
'''
def GenerateDataFileJSON(self):
try:
data = self.ResultData['KeyValueDictPairs']
for key in data:
#{'NotAlivePixels': {'SigmaOutput': '', 'Unit': '', 'Value': Set([(0, 21, 31)]), 'Label': 'Pixels'}, 'MaskDefects': {'SigmaOutput': '', 'Unit': '', 'Value': Set([]), 'Label': 'Pixels'}, 'NoisyPixels': {'SigmaOutput': '', 'Unit': '', 'Value': Set([]), 'Label': 'Pixels'}, 'DeadPixels': {'SigmaOutput': '', 'Unit': '', 'Value': Set([(0, 21, 31)]), 'Label': 'Pixels'}, 'InefficentPixels': {'SigmaOutput': '', 'Unit': '', 'Value': Set([]), 'Label': 'Pixels'}}
if data[key].has_key('Value'):
value = data[key]['Value']
if type(value) == set:
value = list(value)
data[key]['Value'] = value
pass
#self.ResultData['KeyValueDictPairs']
f = open(self.FinalResultsStoragePath + '/KeyValueDictPairs.json', 'w')
f.write(json.dumps(self.ResultData['KeyValueDictPairs'], sort_keys=True, indent=4, separators=(',', ': ')))
f.close()
except:
print 'Cannot create JSON for %s, %s' % (type(data[key]['Value']), self.ResultData['KeyValueDictPairs'])
'''
Generate file from ResultData['KeyValueDictPairs'] Key/Value pairs in ASCII format
@final
'''
def GenerateDataFileASCII(self):
pass
'''
Write all test results to the database
'''
def WriteToDatabase(self, ParentID=0):
ColumnMapping = {}
ID = 0
ID = self.CustomWriteToDatabase(ParentID)
for i in self.ResultData['SubTestResults']:
try:
self.ResultData['SubTestResults'][i].WriteToDatabase(ID)
except Exception as inst:
print 'Error in subtest (write to database)', self.ResultData['SubTestResults'][i].ModulePath, \
self.ResultData['SubTestResults'][i].FinalResultsStoragePath
print inst
print inst.args
print sys.exc_info()[0]
print "\n\n------\n"
self.PostWriteToDatabase()
def CustomWriteToDatabase(self, ParentID):
pass
def PostWriteToDatabase(self):
pass
def __del__(self):
self.CloseSubTestResultFileHandles()
def PopulateResultData(self):
SysConfiguration = ConfigParser.ConfigParser()
SysConfiguration.read(['Configuration/SystemConfiguration.cfg'])
ParallelProcessing = False
LimitProcesses = None
try:
if int(SysConfiguration.get('SystemConfiguration', 'ParallelProcessing').strip())>0:
ParallelProcessing = True
except:
print "no 'ParallelProcessing' option found, running sequentially..."
pass
try:
if int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())>0:
LimitProcesses = int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())
except:
pass
print 'do fitting...'
nRocs = self.Attributes['NumberOfChips']
directory = self.RawTestSessionDataPath
refit = self.TestResultEnvironmentObject.Configuration['Fitting']['refit']
refitScurves = refit
refitPHlin = refit
refitPHtan = refit
# compare current fit revision with saved revision
FitRevDict = BetterConfigParser()
fitRevFileName = directory + "/fits.rev"
if os.path.isfile(fitRevFileName):
try:
FitRevDict.read(fitRevFileName)
# if fit procedure changed -> refit
if self.FitRevisionScurves > int(FitRevDict.get('FitRevisions', 'SCurves')):
print "info: fit procedure has changed, re-fitting scurves..."
refitScurves = True
if self.FitRevisionPHlin > int(FitRevDict.get('FitRevisions', 'PHlin')):
print "info: fit procedure has changed, re-fitting ph lin..."
refitPHlin = True
if self.FitRevisionPHtan > int(FitRevDict.get('FitRevisions', 'PHtan')):
print "info: fit procedure has changed, re-fitting ph tan..."
refitPHtan = True
# if last fitting was not done completely (eg. STRG+C while fit...) -> refit
if FitRevDict.get('Fit', 'Complete').strip().lower() != 'true':
print "info: last fit was incomplete! re-fitting all..."
refitScurves = True
refitPHlin = True
refitPHtan = True
except:
print "warning: could not read fit revision file! => needs re-fitting"
refitScurves = True
refitPHlin = True
refitPHtan = True
else:
FitRevDict.add_section('FitRevisions')
FitRevDict.add_section('Fit')
print "info: this folder has never been analyzed with a recent version of MoReWeb => needs re-fitting"
refitScurves = True
refitPHlin = True
refitPHtan = True
# unset complete flag in file
FitRevDict.set('Fit','Complete', 'false')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
print 'SCurve fitting...'
ePerVcal = self.TestResultEnvironmentObject.GradingParameters['StandardVcal2ElectronConversionFactor']
fitter = SCurve_Fitting(refit=refitScurves, HistoDict=self.ParentObject.HistoDict,ePerVcal=ePerVcal, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllSCurve(directory,nRocs)
print 'linear PH fitting...'
fitter = PH_Fitting(fitMode=0, refit=refitPHlin, HistoDict=self.ParentObject.HistoDict, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllPHCurves(directory,nRocs)
print 'tanh PH fitting...'
fitter = PH_Fitting(fitMode=3, refit=refitPHtan, HistoDict=self.ParentObject.HistoDict, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllPHCurves(directory,nRocs)
# update saved revisions
FitRevDict.set('FitRevisions','SCurves', str(self.FitRevisionScurves))
FitRevDict.set('FitRevisions','PHlin', str(self.FitRevisionPHlin))
FitRevDict.set('FitRevisions','PHtan', str(self.FitRevisionPHtan))
# unset complete flag in file
FitRevDict.set('Fit','Complete', 'true')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
print 'done'
def PopulateResultData(self):
SysConfiguration = ConfigParser.ConfigParser()
SysConfiguration.read(['Configuration/SystemConfiguration.cfg'])
ParallelProcessing = False
LimitProcesses = None
try:
if int(SysConfiguration.get('SystemConfiguration', 'ParallelProcessing').strip())>0:
ParallelProcessing = True
except:
print "no 'ParallelProcessing' option found, running sequentially..."
pass
try:
if int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())>0:
LimitProcesses = int(SysConfiguration.get('SystemConfiguration', 'LimitProcesses').strip())
except:
pass
nRocs = self.ParentObject.Attributes['NumberOfChips']
directory = self.ParentObject.Attributes['SCurvePaths']['HRSCurves_{Rate}'.format(Rate=self.Attributes['Rate'])]
refit = self.TestResultEnvironmentObject.Configuration['Fitting']['refit']
print 'SCurve fitting...'
HistoDict = BetterConfigParser()
HistoDict.add_section('SCurveFitting')
HistoDict.set('SCurveFitting','nTrigs', str(10))
HistoDict.set('SCurveFitting','dir', '')
HistoDict.set('SCurveFitting','ignoreValidityCheck', '1')
HistoDict.set('SCurveFitting','inputFileName', self.ParentObject.ParentObject.HistoDict.get('HighRate', 'SCurveDataFileName'))
ePerVcal = self.TestResultEnvironmentObject.GradingParameters['StandardVcal2ElectronConversionFactor']
fitter = SCurve_Fitting(refit,HistoDict = HistoDict,ePerVcal=ePerVcal, ParallelProcessing=ParallelProcessing, LimitProcesses=LimitProcesses)
fitter.FitAllSCurve(directory, nRocs)
def PopulateResultData(self):
SysConfiguration = ConfigParser.ConfigParser()
SysConfiguration.read(['Configuration/SystemConfiguration.cfg'])
ParallelProcessing = False
LimitProcesses = None
try:
if int(
SysConfiguration.get('SystemConfiguration',
'ParallelProcessing').strip()) > 0:
ParallelProcessing = True
except:
print "no 'ParallelProcessing' option found, running sequentially..."
pass
try:
if int(
SysConfiguration.get('SystemConfiguration',
'LimitProcesses').strip()) > 0:
LimitProcesses = int(
SysConfiguration.get('SystemConfiguration',
'LimitProcesses').strip())
except:
pass
nRocs = self.ParentObject.Attributes['NumberOfChips']
directory = self.ParentObject.Attributes['SCurvePaths'][
'HRSCurves_{Rate}'.format(Rate=self.Attributes['Rate'])]
refit = self.TestResultEnvironmentObject.Configuration['Fitting'][
'refit']
print 'SCurve fitting...'
HistoDict = BetterConfigParser()
HistoDict.add_section('SCurveFitting')
HistoDict.set('SCurveFitting', 'nTrigs', str(10))
HistoDict.set('SCurveFitting', 'dir', '')
HistoDict.set('SCurveFitting', 'ignoreValidityCheck', '1')
HistoDict.set(
'SCurveFitting', 'inputFileName',
self.ParentObject.ParentObject.HistoDict.get(
'HighRate', 'SCurveDataFileName'))
ePerVcal = self.TestResultEnvironmentObject.GradingParameters[
'StandardVcal2ElectronConversionFactor']
# compare current fit revision with saved revision
FitRevDict = BetterConfigParser()
fitRevFileName = directory + "/fits.rev"
if os.path.isfile(fitRevFileName):
try:
FitRevDict.read(fitRevFileName)
# if fit procedure changed -> refit
if self.FitRevisionScurves > int(
FitRevDict.get('FitRevisions', 'SCurves')):
print "info: fit procedure has changed, re-fitting..."
refit = True
# if last fitting was not done completely (eg. STRG+C while fit...) -> refit
if FitRevDict.get('Fit', 'Complete').strip().lower() != 'true':
print "info: last fit was incomplete! re-fitting..."
refit = True
except:
print "warning: could not read fit revision file! => needs re-fitting"
refit = True
else:
FitRevDict.add_section('FitRevisions')
FitRevDict.add_section('Fit')
print "info: never analyzed with recent version of MoReWeb => needs re-fitting"
refit = True
# unset complete flag in file
FitRevDict.set('Fit', 'Complete', 'false')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
# do fitting
fitter = SCurve_Fitting(refit=refit,
HistoDict=HistoDict,
ePerVcal=ePerVcal,
ParallelProcessing=ParallelProcessing,
LimitProcesses=LimitProcesses)
fitter.FitAllSCurve(directory, nRocs)
# update saved revision
FitRevDict.set('FitRevisions', 'SCurves', str(self.FitRevisionScurves))
# set complete flag in file
FitRevDict.set('Fit', 'Complete', 'true')
with open(fitRevFileName, 'wb') as fitRevFile:
FitRevDict.write(fitRevFile)
