def selectDFByType(cls, contractType, beginDate=None, endDate=None):
"""根据合约类型进行数据提取,TF01.CFE, TF02.CFE, TF00.CFE etc.
日期默认升序排列
beginDate 和 endDate都包括
"""
try:
sqlQuery = "select " + cls.columnString + " from " + cls.tableName
if beginDate is not None and endDate is None:
condition = " where type = %(type)s" + " where trade_date >= %(beginDate)s"
params = {"type": contractType, "beginDate": beginDate}
elif endDate is not None and beginDate is None:
condition = " where type = %(type)s" + " where trade_date <= %(endDate)s"
params = {"type": contractType, "endDate": endDate}
elif beginDate is not None and endDate is not None:
condition = " where type = %(type)s" + " where trade_date BETWEEN %(beginDate)s AND %(endDate)s"
params = {
"type": contractType,
"beginDate": beginDate,
"endDate": endDate
}
else:
condition = " where type = %(type)s"
params = {"type": contractType}
df = pd.read_sql(sqlQuery + condition,
engine,
params=params,
index_col=['trade_date'])
return df
except BaseException as e:
logger.info('selectDFByType fails!{}'.format(e))
return None
def compile(self):
filepaths = {}
start = time.time()
self.get_rule_path(filepaths, self.rule_path)
rules = yara.compile(filepaths=filepaths)
logger.info(f"Compile yara rules cost {time.time() - start:.4f}")
return rules
def _lookup_emails(db):
logger.info("Transform usernames to email addresses...")
non_email_users = 0
transformed_users = 0
removed_users = []
ldap = LdapWrapper.LdapWrapper()
with db.get_session() as session:
for user in session.query(User).filter(User.user.notlike('%@%')):
non_email_users += 1
email = ldap.get_email(user.user)
if email != "N/A":
email = email.decode('unicode-escape').lower()
existing_user = session.query(User).filter(
User.user == email).first()
if existing_user:
# If the user already exist, we need to move all entries to this user instead.
for defect in user.defect_mods:
defect.user = existing_user
for cm in user.change_metrics:
cm.user = existing_user
removed_users.append(user.id)
else:
transformed_users += 1
user.user = email
session.commit()
session.expire_all()
for id_ in removed_users:
session.delete(session.query(User).filter(User.id == id_).one())
logger.info("Found %d non email-users, transformed %d, removed %d",
non_email_users, transformed_users, len(removed_users))
def _lookup_emails(db):
logger.info("Transform usernames to email addresses...")
non_email_users = 0
transformed_users = 0
removed_users = []
ldap = LdapWrapper.LdapWrapper()
with db.get_session() as session:
for user in session.query(User).filter(User.user.notlike("%@%")):
non_email_users += 1
email = ldap.get_email(user.user)
if email != "N/A":
email = email.decode("unicode-escape").lower()
existing_user = session.query(User).filter(User.user == email).first()
if existing_user:
# If the user already exist, we need to move all entries to this user instead.
for defect in user.defect_mods:
defect.user = existing_user
for cm in user.change_metrics:
cm.user = existing_user
removed_users.append(user.id)
else:
transformed_users += 1
user.user = email
session.commit()
session.expire_all()
for id_ in removed_users:
session.delete(session.query(User).filter(User.id == id_).one())
logger.info(
"Found %d non email-users, transformed %d, removed %d", non_email_users, transformed_users, len(removed_users)
)
def scan(self, filepath):
rule_set = set()
def callback(data):
if not self.db.is_rule_exist(data['rule']):
_rule = YaraRule(data['rule'])
meta = data['meta']
if 'author' in meta:
_rule.author = meta['author']
if 'Author' in meta:
_rule.author = meta['Author']
if 'description' in meta:
_rule.description = meta['description']
if 'Description' in meta:
_rule.description = meta['Description']
if 'date' in meta:
_rule.date = (meta['date'] + "-01")[:10]
if 'Date' in meta:
_rule.date = (meta['Date'] + "-01")[:10]
if 'reference' in meta:
_rule.reference = meta['reference']
if 'Reference' in meta:
_rule.reference = meta['Reference']
self.db.save_item(_rule)
rule_set.add(data['rule'])
return yara.CALLBACK_CONTINUE
self.rules.match(filepath, callback=callback,
which_callbacks=yara.CALLBACK_MATCHES)
rules = []
for rule in rule_set:
rules.append(YaraEXEResult(rule=rule, md5=os.path.basename(filepath)))
logger.info(f"{filepath} match rules of {rule_set}")
self.db.save_items(rules)
def update(self, key, **kwargs):
try:
tmp = pickle.loads(self.session[key])
for col in kwargs.keys():
setattr(tmp, col, kwargs[col])
self.session[key] = pickle.dumps(tmp)
except:
logger.info("update error")
def InitFileKeysArray(self, fileKeys):
if (len(fileKeys) > 0):
fileKeysArray = fileKeys.split('#')
# 强制带上路径信息
for key in fileKeysArray:
keyStr = self.GetRemovedSpaceStr(key)
if keyStr != '':
logger.info("需要抓取文件名的关键字:%s", keyStr)
self.fileNameKeys.append(keyStr)
def InitKeyArray(self, keys):
self.keyWords.append('文件路径')
keyArray = keys.split('#')
# 强制带上路径信息
for key in keyArray:
keyStr = self.GetRemovedSpaceStr(key)
if keyStr != '':
logger.info("需要抓取关键字:%s", keyStr)
self.keyWords.append(keyStr)
def _remove_unwanted_files(db, files):
logger.info("Cleaning out unwanted files...")
removed_files = 0
with db.get_session() as session:
for file_ in FancyBar().iter(session.query(File)):
if file_.file not in files:
removed_files += 1
session.delete(file_)
session.commit()
logger.info("Removed %d files out of %d from db", removed_files, session.query(File).count())
def insertDF(cls, df):
try:
df.to_sql(cls.tableName,
engine,
flavor=None,
if_exists='append',
index=True)
return True
except BaseException as e:
logger.info('inset data fails!{}'.format(e))
raise e
def BuildDataFrame(self, outputFolderPath):
# for col, colValues in self.colValuesDict.items():
# for values in colValues:
# print("列名:", col, "列的值:", values)
# print("************************")
logger.info("Find Excel File Count: %d", len(self.excelDict))
logger.info("BuildDataFrame %d", len(self.colValuesDict))
if len(self.colValuesDict) > 0:
df = pd.DataFrame(self.colValuesDict)
outputPath = os.path.join(outputFolderPath, "output.xlsx")
df.to_excel(outputPath, index=False, columns=self.keyWords)
def download_emails_to_database():
# Download Emails
logger.info("Downloading emails to database.")
for message_id in list_message_ids():
try:
print "Trying to download message %s" % message_id
download_email(message_id)
print t.green("Sucessfully downloaded message %s" % message_id)
except Exception, e:
print t.red("Error downloading message: %s: %s" % (message_id, e))
# raise
print ""
def goToOutput(self):
if (self.checkInputValid()):
logger.info("开始抓取数据 ...")
dataHandler = dh.DataHandler()
dataHandler.InitFileKeysArray(self.fileKeysStr)
dataHandler.ReadFileFolder(self.resPath)
dataHandler.SearchContentFromFiles(self.keysStr)
dataHandler.BuildDataFrame(self.outputPath)
logger.info("生成数据结束 ...")
msgBox = QtWidgets.QMessageBox(self)
msgBox.about(self, "提示", "生成文件成功,Enjoy it!")
def _remove_unwanted_files(db, files):
logger.info("Cleaning out unwanted files...")
removed_files = 0
with db.get_session() as session:
for file_ in FancyBar().iter(session.query(File)):
if file_.file not in files:
removed_files += 1
session.delete(file_)
session.commit()
logger.info("Removed %d files out of %d from db", removed_files,
session.query(File).count())
def start(self):
count = 0
result = False
for code in self.codeList:
while count <= 5:
count += 1
result = self.loadByCode(code, self.freq)
if result:
count = 0
break
if not result:
logger.info(u"第 {count} 次导入{code}失败".format(count=count,
code=code))
def selectMaxDate(cls, target, column="code"):
"""返回datetime"""
exp = "%" + target + "%"
try:
s = text('SELECT max(trade_date) FROM ' + cls.tableName +
' where ' + column + ' like :exp')
s = s.bindparams(exp=exp)
res = engine.execute(s)
resData = res.fetchall()
if resData is not None and len(resData) > 0:
return resData[0][0]
else:
return None
except BaseException as e:
logger.info('selectMaxDate fails!{}'.format(e))
raise
def _lookup_defect_modifications(pool, walker, vcs, db, files, last_update):
logger.info("Looking up defect modifications...")
filemap = zip([vcs] * len(files), [last_update] * len(files), files)
with db.get_session() as session:
iter_ = FancyBar(max=len(filemap)).iter(pool.imap_unordered(worker(_get_defects), filemap))
for file_, defects in iter_:
for defect, entries in defects.iteritems():
for entry in entries:
for function in entry['functions']:
db.insert_defect_modification(session,
file_=walker.translate_env(file_),
version=entry['version'],
function=function,
defect_id=defect,
user=_translate_username(entry),
date_=entry['datetime'])
session.commit()
def get(self, *args, **kwargs):
try:
img, auth_code = create_validata_code()
img_mem = io.BytesIO()
img.save(img_mem, 'JPEG', quality=95)
# return self.render("login.html", img=img_mem.getvalue())
self.set_header('Content-Type', 'image/jpeg')
self.write(img_mem.getvalue())
#============================================
# 在没用redis作为session之前 我们必须要把验证码传入到cookie在返回给服务器
# 使用redis之后,我们只需要把auth_code放入对应的session中就好了
# 但是万万没想到的是,原来一行代码可以搞定的事情,现在变成了两行,哈哈
#self.set_secure_cookie('auth_code', auth_code)
self.session.save('auth', auth_code)
#============================================
img_mem.close()
except:
logger.info(traceback.format_exc())
def selectMaxDateByType(cls, simpleContractType):
"""返回datetime"""
exp = "%" + simpleContractType + "0%"
try:
s = text('SELECT max(trade_date) FROM ' + cls.tableName +
' where type like :exp')
s = s.bindparams(exp=exp)
conn = engine.connect()
res = conn.execute(s)
resData = res.fetchall()
if resData is not None and len(
resData) > 0 and resData[0] is not None:
return resData[0][0]
else:
return None
except BaseException as e:
logger.info('selectMaxDate fails!{}'.format(e))
return None
def _lookup_defect_modifications(pool, walker, vcs, db, files, last_update):
logger.info("Looking up defect modifications...")
filemap = zip([vcs] * len(files), [last_update] * len(files), files)
with db.get_session() as session:
iter_ = FancyBar(max=len(filemap)).iter(
pool.imap_unordered(worker(_get_defects), filemap))
for file_, defects in iter_:
for defect, entries in defects.iteritems():
for entry in entries:
for function in entry['functions']:
db.insert_defect_modification(
session,
file_=walker.translate_env(file_),
version=entry['version'],
function=function,
defect_id=defect,
user=_translate_username(entry),
date_=entry['datetime'])
session.commit()
def selectDFByCodeAndDateRange(cls,
code=None,
beginDate=None,
endDate=None,
columns=None):
"""提取时间选择区间,列名和产品代码提取DataFrame数据,包括开始时间和结束时间
"""
try:
conditionList = []
params = {}
if columns is None:
sqlQuery = "select " + cls.columnString + " from " + cls.tableName
else:
columnString = " trade_date," + ",".join(columns)
sqlQuery = "select " + columnString + " from " + cls.tableName
if code is not None:
conditionList.append(" code like " + "%(code)s")
params["code"] = "%" + code + "%"
if beginDate is not None and endDate is None:
conditionList.append(" trade_date >= %(beginDate)s")
params["beginDate"] = beginDate
elif endDate is not None and beginDate is None:
conditionList.append(" trade_date <= %(endDate)s")
params["endDate"] = endDate
elif beginDate is not None and endDate is not None:
conditionList.append(
" trade_date BETWEEN %(beginDate)s AND %(endDate)s")
params["beginDate"] = beginDate
params["endDate"] = endDate
condition = ""
if len(conditionList) != 0:
condition = " where " + conditionList[0]
for item in conditionList[1:len(conditionList)]:
condition += " and " + item
condition += " order by trade_date asc"
df = pd.read_sql(sqlQuery + condition,
engine,
params=params,
index_col=['trade_date'])
return df
except BaseException as e:
logger.info('selectDFByCodeAndDateRange fails!{}'.format(e))
return None
def reset_database():
# Delete 'emails.db' sqlite database
if os.path.exists('emails.db'):
os.remove('emails.db')
logger.info("Deleted database 'emails.db'")
# Re-create 'emails.db' sqlite database
db = SqliteDatabase('emails.db')
logger.info("Created database 'emails.db'")
Email.create_table()
SenderMetadata.create_table()
Comment.create_table()
Form.create_table()
Category.create_table()
Category(name="Meetings").save()
Category(name="Opinions").save()
Category(name="Question").save()
Category(name="Action").save()
Category(name="Thank You").save()
def _scrape_meta_defects(db, custom_bts_scraper):
start = datetime.now()
logger.info("Scraping Bug tracker...")
defects = CustomBugTracker.call_custom_bug_tracker(custom_bts_scraper)
with db.get_session() as session:
DefectMeta.__table__.drop(db.engine, checkfirst=True)
DefectMeta.__table__.create(db.engine, checkfirst=False)
session.commit()
for defect in FancyBar("Inserting:").iter(defects):
if defect["product"] is not None:
defect_meta = db.get_or_create(session, DefectMeta, id=defect["id"])
defect_meta.submitted_on = defect["submitted_on"]
defect_meta.severity = defect["severity"]
defect_meta.product = defect["product"]
defect_meta.answer_code = defect["answer_code"]
defect_meta.fault_code = defect["fault_code"]
session.commit()
logger.info("Finished scraping BTS in %s" % (datetime.now() - start))
def keyboardCommands(self):
# get current key
currentKey = self.keyboard.getKey()
if DEBUG and (currentKey == ord('s') or currentKey == ord('S')):
logger.debug("Current status: " + str(self.status))
# press P to find parking lot
if currentKey == ord('p') or currentKey == ord('P'):
logger.info("Looking for a parking lot")
self.setStatus(Status.SEARCHING_PARK)
# press M to manual control
elif currentKey == ord('m') or currentKey == ord('M'):
logger.info("Manual")
self.setStatus(Status.MANUAL)
# press A to auto control
elif currentKey == ord('a') or currentKey == ord('A'):
logger.info("Auto")
self.setStatus(Status.FORWARD)
# return current key to allow other controls
return currentKey
def download_all_to_database():
# # Delete 'emails.db' sqlite database
# if os.path.exists('emails.db'):
# os.remove('emails.db')
# logger.info("Deleted database 'emails.db'")
# # Re-create 'emails.db' sqlite database
# db = SqliteDatabase('emails.db')
# logger.info("Created database 'emails.db'")
# Email.create_table()
# SenderMetadata.create_table()
# Download Emails
logger.info("Downloading emails to database.")
for message_id in list_message_ids():
try:
download_email(message_id)
except Exception, e:
print t.red("Error downloading message: %s" % message_id)
# print t.red(e)
raise
print ""
def download_all_to_database():
# # Delete 'emails.db' sqlite database
# if os.path.exists('emails.db'):
# os.remove('emails.db')
# logger.info("Deleted database 'emails.db'")
# # Re-create 'emails.db' sqlite database
# db = SqliteDatabase('emails.db')
# logger.info("Created database 'emails.db'")
# Email.create_table()
# SenderMetadata.create_table()
# Download Emails
logger.info("Downloading emails to database.")
for message_id in list_message_ids():
try:
download_email(message_id)
except Exception, e:
print t.red("Error downloading message: %s" % message_id)
# print t.red(e)
raise
print ""
def _scrape_meta_defects(db, custom_bts_scraper):
start = datetime.now()
logger.info("Scraping Bug tracker...")
defects = CustomBugTracker.call_custom_bug_tracker(custom_bts_scraper)
with db.get_session() as session:
DefectMeta.__table__.drop(db.engine, checkfirst=True)
DefectMeta.__table__.create(db.engine, checkfirst=False)
session.commit()
for defect in FancyBar('Inserting:').iter(defects):
if defect['product'] is not None:
defect_meta = db.get_or_create(session,
DefectMeta,
id=defect['id'])
defect_meta.submitted_on = defect['submitted_on']
defect_meta.severity = defect['severity']
defect_meta.product = defect['product']
defect_meta.answer_code = defect['answer_code']
defect_meta.fault_code = defect['fault_code']
session.commit()
logger.info("Finished scraping BTS in %s" % (datetime.now() - start))
def updatePath(self):
if self.isEnabled():
logger.info("Computing new path..")
p = self.positioning.getPosition()
o = self.positioning.getOrientation()
nearest = Map.getNearestWalkablePosition(p, o)
if nearest != None:
p = nearest
x = p.getX()
y = p.getY()
if o == Orientation.NORD:
Map.setNewObstacle(Position(x - 1, y))
if o == Orientation.EAST:
Map.setNewObstacle(Position(x, y + 1))
if o == Orientation.SOUTH:
Map.setNewObstacle(Position(x + 1, y))
if o == Orientation.WEST:
Map.setNewObstacle(Position(x, y - 1))
if DEBUG:
Map.printMap()
self.currentPath = self.pathPlanner.getFastestRoute()
self.actualTurn = 0
def _lookup_maintainers(pool, db, maintainerobj):
logger.info("Updating maintainers...")
with db.get_session() as session:
file_tuples = db.get_file_ids_and_abspaths(session)
logger.debug("Remove subsystem mappings..")
for file_ in session.query(File):
file_.subsystem = None
session.commit()
Subsystem.__table__.drop(db.engine, checkfirst=True)
Subsystem.__table__.create(db.engine, checkfirst=False)
logger.debug("Populating maintainers table...")
for maintainer_info in maintainerobj.get_maintainer_list():
db.insert_subsystem_entry(
session,
subsystem=maintainer_info["subsystem"],
status=maintainer_info["status"],
maintainers=[
maint for maint, _ in maintainer_info["maintainer"]
])
session.commit()
logger.debug("Looking up maintainer for all files")
filemap = zip([maintainerobj] * len(file_tuples), file_tuples)
count_some_maintainer = 0
iter_ = FancyBar(max=len(filemap)).iter(
pool.imap_unordered(worker(_get_maintainers), filemap))
for file_tuple, maintainer_dicts in iter_:
if maintainer_dicts is not None:
count_some_maintainer += 1
file_id = file_tuple[0]
for maintainer_dict in maintainer_dicts:
db.update_file_entry(
session,
file_id=file_id,
subsystem_name=maintainer_dict["subsystem"])
session.commit()
logger.info("Amount of files with a maintainer: %d",
count_some_maintainer)
logger.info("Amount of files without a maintainer: %d",
len(file_tuples) - count_some_maintainer)
def updateCommands(self):
# get current key
currentKey = self.keyboard.getKey()
# press P to find parking lot
if self.keyboard.isKeyPressed(currentKey, 'p'):
logger.info("Looking for a parking lot")
self.motionStatus = PARKING
# press M to manual control
elif self.keyboard.isKeyPressed(currentKey, 'm'):
logger.info("Manual")
self.motionStatus = MANUAL
# press A to auto control
elif self.keyboard.isKeyPressed(currentKey, 'a'):
logger.info("Auto")
self.motionStatus = PATH_FOLLOWING
# return current key to allow other controls
return currentKey
def download_all_to_database():
# Delete 'emails.db' sqlite database
if os.path.exists('emails.db'):
os.remove('emails.db')
logger.info("Deleted database 'emails.db'")
# Re-create 'emails.db' sqlite database
db = SqliteDatabase('emails.db')
logger.info("Created database 'emails.db'")
Email.create_table()
SenderMetadata.create_table()
# Download Emails
logger.info("Downloading emails to database.")
for message_id in list_message_ids():
try:
download_email(message_id)
except Exception as e:
print(t.red("Error downloading message: %s" % message_id))
print(t.red(str(e)))
raise
print("")
def _lookup_maintainers(pool, db, maintainerobj):
logger.info("Updating maintainers...")
with db.get_session() as session:
file_tuples = db.get_file_ids_and_abspaths(session)
logger.debug("Remove subsystem mappings..")
for file_ in session.query(File):
file_.subsystem = None
session.commit()
Subsystem.__table__.drop(db.engine, checkfirst=True)
Subsystem.__table__.create(db.engine, checkfirst=False)
logger.debug("Populating maintainers table...")
for maintainer_info in maintainerobj.get_maintainer_list():
db.insert_subsystem_entry(
session,
subsystem=maintainer_info["subsystem"],
status=maintainer_info["status"],
maintainers=[maint for maint, _ in maintainer_info["maintainer"]],
)
session.commit()
logger.debug("Looking up maintainer for all files")
filemap = zip([maintainerobj] * len(file_tuples), file_tuples)
count_some_maintainer = 0
iter_ = FancyBar(max=len(filemap)).iter(pool.imap_unordered(worker(_get_maintainers), filemap))
for file_tuple, maintainer_dicts in iter_:
if maintainer_dicts is not None:
count_some_maintainer += 1
file_id = file_tuple[0]
for maintainer_dict in maintainer_dicts:
db.update_file_entry(session, file_id=file_id, subsystem_name=maintainer_dict["subsystem"])
session.commit()
logger.info("Amount of files with a maintainer: %d", count_some_maintainer)
logger.info("Amount of files without a maintainer: %d", len(file_tuples) - count_some_maintainer)
def run(self):
logger.info("Running..")
leftIsEmpty = False # flag used to detect left parking lot
rightIsEmpty = False # flag used to detect right parking lot
leftStartingPosition = 0.0 # length of the left parking lot
rightStartingPosition = 0.0 # length of the right parking lot
sideOfParkingLot = 0 # indicates the side of the parking lot found: -1 left, 1 right, 0 not found yet
actualTurn = 0
while self.driver.step() != -1:
## here goes code that should be executed each step ##
# get actual compass value
#compassValues = self.compass.getValues()
#logger.debug("COMPASS: "******"INIT status")
# set wheel angle
self.setAngle(0.0)
# set starting speed
self.setSpeed(0.5)
# set new status
self.setStatus(Status.TURN)
# skip to next cycle to ensure everything is working fine
continue
# FOLLOW LINE STATUS
if self.status == Status.FOLLOW_LINE:
# set cruise speed
self.setSpeed(0.5)
# compute new angle
newAngle = self.lineFollower.getNewSteeringAngle()
# logger.debug("new steering angle: " + str(newAngle))
# set new steering angle
if newAngle != UNKNOWN:
self.setAngle(newAngle)
else:
self.setStatus(Status.TURN)
# TURN STATUS
if self.status == Status.TURN:
if actualTurn < len(self.turns):
turn = self.turns[actualTurn]
self.setAngle(0.5 * turn * MAX_ANGLE)
else:
self.setStatus(Status.STOP)
# compute new angle
newAngle = self.lineFollower.getNewSteeringAngle()
# if line is found
if newAngle != UNKNOWN:
self.setStatus(Status.FOLLOW_LINE)
actualTurn += 1
continue
# FORWARD STATUS
if self.status == Status.FORWARD:
# logger.debug("FORWARD status")
# set cruise speed
self.setSpeed(0.2)
# avoing obstacles
ds = self.distanceSensors
# get distance sensors values
frontLeftSensor = ds.frontLeft.getValue()
frontRightSensor = ds.frontRight.getValue()
sideLeftSensor = ds.sideLeft.getValue()
sideRightSensor = ds.sideRight.getValue()
# set values of thresholds
tolerance = 10
sideThreshold = 950
# check if front left obstacle, turn right
if frontLeftSensor > frontRightSensor + tolerance:
self.setAngle(RIGHT * frontLeftSensor / 500.0 * MAX_ANGLE)
# logger.debug("Steering angle: " + str(RIGHT * frontLeftSensor / 1000.0 * MAX_ANGLE))
logger.debug("Steering angle: " + str(self.angle))
# check if front right obstacle, turn left
elif frontRightSensor > frontLeftSensor + tolerance:
self.setAngle(LEFT * frontRightSensor / 500.0 * MAX_ANGLE)
# logger.debug("Steering angle: " + str(LEFT * frontRightSensor / 1000.0 * MAX_ANGLE))
logger.debug("Steering angle: " + str(self.angle))
# check if side left obstacle, turn slight right
elif sideLeftSensor > sideThreshold:
self.setAngle(RIGHT * sideLeftSensor / 4000.0 * MAX_ANGLE)
# check if side right obstacle, turn slight left
elif sideRightSensor > sideThreshold:
self.setAngle(LEFT * sideRightSensor / 4000.0 * MAX_ANGLE)
# if no obstacle go straight
else:
self.setAngle(self.angle / 1.5)
# SEARCHING_PARK STATUS
if self.status == Status.SEARCHING_PARK:
# set slow speed
self.setSpeed(0.2)
# set straight wheels
self.setAngle(0.0)
# get distance and position sensors
ds = self.distanceSensors
ps = self.positionSensors
#log info for debug
logger.debug("Left Distance Sensor: " +
str(ds.sideLeft.getValue()))
logger.debug("Left Position Sensor: " +
str(ps.frontLeft.getValue()) + " rad")
logger.debug("Left Wheel Length: " +
str(self.leftWheelDistance) + " m")
logger.debug("Starting position: " +
str(leftStartingPosition) + " m")
logger.debug("Parking Lot Length: " +
str(self.leftWheelDistance -
leftStartingPosition) + " m")
sideThreshold = 650
leftSensorValue = ds.sideLeft.getValue()
rightSensorValue = ds.sideRight.getValue()
# checking parking lot on the LEFT side
if leftSensorValue < sideThreshold and not leftIsEmpty:
leftIsEmpty = True
leftStartingPosition = self.leftWheelDistance # 100
elif leftSensorValue > sideThreshold and leftIsEmpty:
leftIsEmpty = False
elif leftIsEmpty and self.leftWheelDistance - leftStartingPosition > LENGTH + LENGTH / 3:
leftStartingPosition = self.leftWheelDistance # 200 - 100
sideOfParkingLot = LEFT
self.setStatus(Status.FORWARD2)
# checking parking lot on the RIGHT side
if rightSensorValue < sideThreshold and not rightIsEmpty:
rightIsEmpty = True
rightStartingPosition = self.rightWheelDistance
elif rightSensorValue > sideThreshold and rightIsEmpty:
rightIsEmpty = False
elif rightIsEmpty and self.rightWheelDistance - rightStartingPosition > LENGTH + LENGTH / 3:
rightStartingPosition = self.rightWheelDistance
sideOfParkingLot = RIGHT
self.setStatus(Status.FORWARD2)
# this ensure that the parking manoeuvre starts after going forward and not as soon as the parking lot is detected
if self.status == Status.FORWARD2:
distance = 0.19
if sideOfParkingLot == LEFT:
if self.leftWheelDistance - leftStartingPosition > distance:
self.status = Status.PARKING
elif sideOfParkingLot == RIGHT:
if self.rightWheelDistance - rightStartingPosition > distance:
self.status = Status.PARKING
else:
logger.warning(
"Parking lot not found! I don't know if right or left."
)
self.setStatus(Status.SEARCHING_PARK)
# starting the parking manoeuvre
if self.status == Status.PARKING:
if sideOfParkingLot != LEFT and sideOfParkingLot != RIGHT:
logger.error("side of parking lot unknown.")
exit(1)
# stop the vehicle, turn the wheels and go back
self.setSpeed(0.0)
self.setAngle(sideOfParkingLot * MAX_ANGLE)
self.setSpeed(-0.1)
# when should it turn the other way
backThreshold = 400
ds = self.distanceSensors
rear = ds.back.getValue()
logger.debug("Back sensor: " + str(rear))
if rear > backThreshold:
self.status = Status.PARKING2
if self.status == Status.PARKING2:
self.setAngle(-1 * sideOfParkingLot * MAX_ANGLE)
threshold = 945
rear = self.distanceSensors.back.getValue()
if rear > threshold:
self.setStatus(Status.CENTER)
if self.status == Status.CENTER:
self.setAngle(0.0)
self.setSpeed(0.2)
rear = self.distanceSensors.back.getValue()
front = self.distanceSensors.frontCenter.getValue()
if rear - front < 20:
self.setStatus(Status.STOP)
if self.status == Status.STOP:
self.setSpeed(0.0)
self.setAngle(0.0)
# if obstacle is cleared go forward
if not self.avoidObstacle(
) and self.prevStatus == Status.PARKING2:
self.setStatus(Status.FORWARD)
if self.status == Status.MANUAL:
# get current state
speed = self.speed
angle = self.angle
# logger.debug("Current Key: " + str(currentKey))
# keyboard controlls
# accelerate
if currentKey == self.keyboard.UP:
if speed < 0:
speed += 0.02
else:
speed += 0.008
# break
elif currentKey == self.keyboard.DOWN:
if speed > 0:
speed -= 0.02
else:
speed -= 0.008
# turn left
elif currentKey == self.keyboard.LEFT:
angle -= 0.01
# turn right
elif currentKey == self.keyboard.RIGHT:
angle += 0.01
# handbreak
elif currentKey == ord(' '):
speed /= 4
# update state
self.setSpeed(speed)
self.setAngle(angle)
def create(cls, **query):
inst = cls(**query)
inst.save(force_insert=True)
inst._prepare_instance()
logger.info("Created Email %s", inst.message_id)
return inst
def create(cls, **query):
inst = cls(**query)
inst.save(force_insert=True)
inst._prepare_instance()
logger.info("Created Email %s", inst.message_id)
return inst
def _main():
args, config = _parse_args()
"""
#####################################################
Config
#####################################################
"""
config_engine_url = config.get('Analyze', 'engine_url', '')
config_mirror_engine_url = config.get('Analyze', 'mirror_engine_url', None)
config_custom_bts_scraper = config.get('Analyze', 'custom_bts_scraper',
None)
config_threads = config.getint('Analyze', 'threads')
config_lookup_email = config.getboolean('Analyze', 'lookup_email')
config_loglevel = config.getloglevel('Analyze', 'log_level')
config_logpath = config.get('Analyze', 'log_path')
config_logformat = config.get('Analyze', 'log_format')
config_transformerdict = config.getdict('Analyze', 'code_transformer', ())
config_mirror = args.mirror
config_update_repo = args.update_repo
config_scrape_bts = args.scrape_bts
if args.files:
config_debugging_single_file = True
else:
config_debugging_single_file = False
logger.setup_logger(format_=config_logformat,
level=config_loglevel,
filename=config_logpath)
logger.banner("Running " + os.path.basename(__file__))
logger.info("Options:")
logger.info(" Database: %s",
config_engine_url[:config_engine_url.find(':')])
logger.info(" threads: %s", config_threads)
logger.info(" lookup_email: %s", config_lookup_email)
if config_mirror and config_mirror_engine_url is not None:
# Do not print the engine_url since it may contain user/pass
logger.info(" DB mirroring: Yes")
logger.info(" scrape bug tracking system: %s", config_scrape_bts)
logger.info(" Update repo prior to analysis: %s", config_update_repo)
os.nice(10)
"""
#####################################################
Setup instances
#####################################################
"""
vcs = VcsWrapper.VcsFactory(config=config, shared_dict_ctor=Manager().dict)
maintainerobj = Maintainers.Maintainers(
config.get('General', 'maintainers'))
walker = SrcRootWalker.SrcRootWalker(
config.getlist('Analyze', 'include_patterns'),
config.getlist('Analyze', 'exclude_patterns', ()))
db = MetricsDb.MetricsDb(config_engine_url)
pool = Pool(processes=config_threads)
last_metric_update = None
"""
#####################################################
Update repo
#####################################################
"""
if config_update_repo:
logger.info('Updating repo prior to analysis...')
vcs.update_repo()
logger.info('Updating repo done')
start = datetime.now()
"""
#####################################################
Scrape Bug Tracking System for defects and add to metrics.db
#####################################################
"""
if config_scrape_bts and config_custom_bts_scraper is not None:
_scrape_meta_defects(db, config_custom_bts_scraper)
"""
#####################################################
Start analysis
#####################################################
"""
if config_lookup_email:
_lookup_emails(db)
else:
logger.info("Looking up files to analyze...")
if config_debugging_single_file:
all_files = args.files
else:
last_metric_update = db.get_eav_value('last_metric_update')
if last_metric_update is not None:
# subtract an extra day to make sure that we dont miss anything during the overlap of the analysis
last_metric_update = last_metric_update - timedelta(days=1)
all_files = walker.find_all_files_in_srcroots()
logger.info("Found %s files!", len(all_files))
if len(all_files) != 0:
_lookup_defect_modifications(pool, walker, vcs, db, all_files,
last_metric_update)
_lookup_metrics(pool, walker, vcs, db, all_files,
last_metric_update, config_transformerdict)
if not config_debugging_single_file:
logger.info("Doing db cleanup...")
_remove_unwanted_files(
db, {walker.translate_env(file_): None
for file_ in all_files})
_lookup_maintainers(pool, db, maintainerobj)
logger.info("Finished analysis phase in %s" % (datetime.now() - start))
if not config_debugging_single_file:
db.set_eav_value('last_metric_update', start)
"""
#####################################################
Mirroring
#####################################################
"""
if config_mirror and config_mirror_engine_url is not None:
logger.info(
"Mirroring %s -> %s",
config_engine_url[:config_engine_url.find(':')],
config_mirror_engine_url[:config_mirror_engine_url.find(':')])
start = datetime.now()
MetricsDb.MetricsDb(config_mirror_engine_url).copy_from_db(db)
logger.info("Finished mirroring phase in %s" %
(datetime.now() - start))
def _lookup_metrics(pool, walker, vcs, db, files, last_update,
config_transformerdict):
logger.info("Looking up metrics...")
file_map = zip([vcs] * len(files), [last_update] * len(files), files)
version_map = []
logger.info(" Looking up all VCS versions...")
iter_ = FancyBar(max=len(file_map)).iter(
pool.imap_unordered(worker(_get_lsv), file_map))
for file_, contributions in iter_:
for contrib_index, contrib in enumerate(contributions):
prev_version = contributions[
contrib_index - 1]['version'] if contrib_index > 0 else None
filext = os.path.splitext(file_)[1]
version_map.append((file_, contrib, prev_version, vcs,
config_transformerdict.get(filext, None)))
logger.info(" Looking up all metrics...")
with db.get_session() as session:
iter_ = FancyBar(max=len(version_map)).iter(
pool.imap_unordered(worker(_get_metrics), version_map))
for file_, contrib in iter_:
'''
Results are coming in, insert results into database
We avoid doing this inside the process pool due to that sqlite is not threadsafe
'''
version = contrib['version']
date_ = contrib['datetime']
user = _translate_username(contrib)
translated_file = walker.translate_env(file_)
complexity = contrib['complexity']
changerates = contrib['changerates']
for function, (added, changed, deleted,
nloc) in changerates.iteritems():
if function not in complexity:
if file_.endswith((".c", ".cc", ".cpp", ".h", ".hpp")):
logger.debug(
"%s Could not find complexity function %s", file_,
function)
logger.debug("%s Available functions:",
os.path.basename(file_))
for func in complexity.iterkeys():
logger.debug("%s", func)
cyclomatic_complexity = None
tokens = None
parameter_count = None
else:
cyclomatic_complexity, tokens, parameter_count = complexity[
function]
db.insert_change_metric(
session,
file_=translated_file,
version=version,
function=function,
date_=date_,
user=user,
added=added,
changed=changed,
deleted=deleted,
nloc=nloc,
cyclomatic_complexity=cyclomatic_complexity,
token_count=tokens,
parameter_count=parameter_count)
session.commit()
def updateSpeedAndAngle(self):
isLineLost = self.lineFollower.isLineLost()
currentPath = self.currentPath
logger.debug("Current Status: " + str(self.status) + " prev Status: " +
str(self.prevStatus))
lineFollowerAngle = self.lineFollower.getNewSteeringAngle()
if currentPath != UNKNOWN and self.actualTurn == 0:
if self.currentPath[self.actualTurn] == U_TURN:
self.setStatus(U_TURN)
self.actualTurn += 1
elif self.status == FOLLOW_LINE:
self.steeringAngle = lineFollowerAngle
if self.isGoalReach():
self.setStatus(STOP)
if isLineLost and currentPath == UNKNOWN:
self.speed = 0.0
elif isLineLost and currentPath != UNKNOWN and Map.findNearestIntersection(
self.positioning.getPosition(), 1) != -1:
#if self.prevStatus != SEARCH_LINE:
self.setStatus(TURN)
elif isLineLost and Map.findNearestIntersection(
self.positioning.getPosition()) == -1:
self.setStatus(SEARCH_LINE)
elif self.status == TURN:
if currentPath != UNKNOWN and self.actualTurn < len(currentPath):
turn = currentPath[self.actualTurn]
self.steeringAngle = 0.57 * turn
else:
self.currentPath = UNKNOWN
if not isLineLost:
self.actualTurn += 1
self.setStatus(FOLLOW_LINE)
elif self.status == SEARCH_LINE:
self.steeringAngle = self.lineFollower.getSteeringAngleLineSearching(
)
if not isLineLost:
logger.debug("Line was lost and i found it!")
self.setStatus(FOLLOW_LINE)
threshold = 500
angle = 0.5
logger.debug("FRONT LEFT: ")
if self.distanceSensors.frontLeft.getValue() > threshold:
self.lineFollower.resetLastLineKnownZone(angle)
elif self.distanceSensors.frontRight.getValue() > threshold:
self.lineFollower.resetLastLineKnownZone(-angle)
elif self.status == U_TURN:
logger.debug("Actual orientation: " +
str(self.positioning.getOrientation()) +
" goal orientation: " +
str(self.uTurnGoalOrientation))
self.sensors = self.distanceSensors
logger.debug("U_TURN: Status: " + str(self.uTurnStatus))
if self.uTurnStatus == UNKNOWN:
# check if we can do U turn
self.uTurnStatus = 1
self.steeringAngle = 1
self.uTurnGoalOrientation = Orientation(
(self.positioning.inaccurateOrientation + 2) % 4)
if self.uTurnStatus == 1:
if self.sensors.frontDistance(
950) or self.positioning.getOrientation() == (
(self.uTurnGoalOrientation + 1) %
4) or self.positioning.getOrientation() == (
(self.uTurnGoalOrientation - 1) % 4):
logger.debug(
"U_TURN: First step complete, going back (Status 1)")
self.speed = -0.2
self.steeringAngle = -1 * self.steeringAngle
self.uTurnStatus = 3
self.uTurnStartingMeter = self.positioning.getActualDistance(
)
else:
self.speed = 0.2
self.steeringAngle = 1
elif self.uTurnStatus == 2:
if self.sensors.frontDistance(950):
logger.debug(
"U_TURN: First step complete, going back (status 2)")
self.speed = -0.2
self.steeringAngle = -1 * self.steeringAngle
self.uTurnStatus += 1
self.uTurnStartingMeter = self.positioning.getActualDistance(
)
if self.positioning.getOrientation(
) == self.uTurnGoalOrientation:
self.uTurnStatus += 2
elif self.uTurnStatus == 3:
if self.sensors.backDistance(950):
logger.debug(
"U_TURN: Obstacle founded behind, going forward")
self.speed = 0.2
self.steeringAngle = -1 * self.steeringAngle
self.uTurnStatus -= 1
if self.positioning.getOrientation(
) == self.uTurnGoalOrientation:
self.uTurnStatus += 1
else:
logger.debug("U_TURN: Maneuver complete")
logger.debug("U_TURN: Distance: " +
str(self.positioning.getActualDistance() -
self.uTurnStartingMeter))
distanzaPercorsa = self.positioning.getActualDistance(
) - self.uTurnStartingMeter
if distanzaPercorsa >= 0:
self.steeringAngle = -0.5 * self.steeringAngle
elif abs(distanzaPercorsa) > 0.07:
self.steeringAngle = -0.1 * self.steeringAngle
else:
self.steeringAngle = -0.2 * self.steeringAngle
# if Map.getValue(self.positioning.getPosition()) == Map.C:
self.steeringAngle *= -5
logger.debug("U_TURN: Distance: " + str(distanzaPercorsa) +
", sterring angle: " + str(self.steeringAngle))
self.speed = 0.5
self.uTurnStatus = UNKNOWN
self.uTurnGoalOrientation = UNKNOWN
self.uTurnStartingMeter = UNKNOWN
self.lineFollower.resetLastLineKnownZone(self.steeringAngle)
self.setStatus(SEARCH_LINE)
elif self.status == STOP:
self.speed = 0.0
logger.info("Destination Reached")
# logger.debug("Steerign angle: " + str(self.steeringAngle) + " STATUS: " + str(self.status))
elif self.isGoalReach() and isLineLost and currentPath == UNKNOWN:
self.speed = 0.0
elif not isLineLost:
self.steeringAngle = self.lineFollower.getNewSteeringAngle()
# self.actualTurn += 1
elif isLineLost and currentPath != UNKNOWN:
if self.actualTurn < len(currentPath):
turn = currentPath[self.actualTurn]
self.steeringAngle = 0.5 * turn
# what if U_TURN? Return it to motion to make u_turn?
else:
currentPath = UNKNOWN
elif isLineLost and currentPath == UNKNOWN:
# self.speed = 0.0
pass
def _main():
args, config = _parse_args()
"""
#####################################################
Config
#####################################################
"""
config_engine_url = config.get("Analyze", "engine_url", "")
config_mirror_engine_url = config.get("Analyze", "mirror_engine_url", None)
config_custom_bts_scraper = config.get("Analyze", "custom_bts_scraper", None)
config_threads = config.getint("Analyze", "threads")
config_lookup_email = config.getboolean("Analyze", "lookup_email")
config_loglevel = config.getloglevel("Analyze", "log_level")
config_logpath = config.get("Analyze", "log_path")
config_logformat = config.get("Analyze", "log_format")
config_transformerdict = config.getdict("Analyze", "code_transformer", ())
config_mirror = args.mirror
config_update_repo = args.update_repo
config_scrape_bts = args.scrape_bts
if args.files:
config_debugging_single_file = True
else:
config_debugging_single_file = False
logger.setup_logger(format_=config_logformat, level=config_loglevel, filename=config_logpath)
logger.banner("Running " + os.path.basename(__file__))
logger.info("Options:")
logger.info(" Database: %s", config_engine_url[: config_engine_url.find(":")])
logger.info(" threads: %s", config_threads)
logger.info(" lookup_email: %s", config_lookup_email)
if config_mirror and config_mirror_engine_url is not None:
# Do not print the engine_url since it may contain user/pass
logger.info(" DB mirroring: Yes")
logger.info(" scrape bug tracking system: %s", config_scrape_bts)
logger.info(" Update repo prior to analysis: %s", config_update_repo)
os.nice(10)
"""
#####################################################
Setup instances
#####################################################
"""
vcs = VcsWrapper.VcsFactory(config=config, shared_dict_ctor=Manager().dict)
maintainerobj = Maintainers.Maintainers(config.get("General", "maintainers"))
walker = SrcRootWalker.SrcRootWalker(
config.getlist("Analyze", "include_patterns"), config.getlist("Analyze", "exclude_patterns", ())
)
db = MetricsDb.MetricsDb(config_engine_url)
pool = Pool(processes=config_threads)
last_metric_update = None
"""
#####################################################
Update repo
#####################################################
"""
if config_update_repo:
logger.info("Updating repo prior to analysis...")
vcs.update_repo()
logger.info("Updating repo done")
start = datetime.now()
"""
#####################################################
Scrape Bug Tracking System for defects and add to metrics.db
#####################################################
"""
if config_scrape_bts and config_custom_bts_scraper is not None:
_scrape_meta_defects(db, config_custom_bts_scraper)
"""
#####################################################
Start analysis
#####################################################
"""
if config_lookup_email:
_lookup_emails(db)
else:
logger.info("Looking up files to analyze...")
if config_debugging_single_file:
all_files = args.files
else:
last_metric_update = db.get_eav_value("last_metric_update")
if last_metric_update is not None:
# subtract an extra day to make sure that we dont miss anything during the overlap of the analysis
last_metric_update = last_metric_update - timedelta(days=1)
all_files = walker.find_all_files_in_srcroots()
logger.info("Found %s files!", len(all_files))
if len(all_files) != 0:
_lookup_defect_modifications(pool, walker, vcs, db, all_files, last_metric_update)
_lookup_metrics(pool, walker, vcs, db, all_files, last_metric_update, config_transformerdict)
if not config_debugging_single_file:
logger.info("Doing db cleanup...")
_remove_unwanted_files(db, {walker.translate_env(file_): None for file_ in all_files})
_lookup_maintainers(pool, db, maintainerobj)
logger.info("Finished analysis phase in %s" % (datetime.now() - start))
if not config_debugging_single_file:
db.set_eav_value("last_metric_update", start)
"""
#####################################################
Mirroring
#####################################################
"""
if config_mirror and config_mirror_engine_url is not None:
logger.info(
"Mirroring %s -> %s",
config_engine_url[: config_engine_url.find(":")],
config_mirror_engine_url[: config_mirror_engine_url.find(":")],
)
start = datetime.now()
MetricsDb.MetricsDb(config_mirror_engine_url).copy_from_db(db)
logger.info("Finished mirroring phase in %s" % (datetime.now() - start))
def _lookup_metrics(pool, walker, vcs, db, files, last_update, config_transformerdict):
logger.info("Looking up metrics...")
file_map = zip([vcs] * len(files), [last_update] * len(files), files)
version_map = []
logger.info(" Looking up all VCS versions...")
iter_ = FancyBar(max=len(file_map)).iter(pool.imap_unordered(worker(_get_lsv), file_map))
for file_, contributions in iter_:
for contrib_index, contrib in enumerate(contributions):
prev_version = contributions[contrib_index - 1]["version"] if contrib_index > 0 else None
filext = os.path.splitext(file_)[1]
version_map.append((file_, contrib, prev_version, vcs, config_transformerdict.get(filext, None)))
logger.info(" Looking up all metrics...")
with db.get_session() as session:
iter_ = FancyBar(max=len(version_map)).iter(pool.imap_unordered(worker(_get_metrics), version_map))
for file_, contrib in iter_:
"""
Results are coming in, insert results into database
We avoid doing this inside the process pool due to that sqlite is not threadsafe
"""
version = contrib["version"]
date_ = contrib["datetime"]
user = _translate_username(contrib)
translated_file = walker.translate_env(file_)
complexity = contrib["complexity"]
changerates = contrib["changerates"]
for function, (added, changed, deleted, nloc) in changerates.iteritems():
if function not in complexity:
if file_.endswith((".c", ".cc", ".cpp", ".h", ".hpp")):
logger.debug("%s Could not find complexity function %s", file_, function)
logger.debug("%s Available functions:", os.path.basename(file_))
for func in complexity.iterkeys():
logger.debug("%s", func)
cyclomatic_complexity = None
tokens = None
parameter_count = None
else:
cyclomatic_complexity, tokens, parameter_count, max_nd, fin, fout = complexity[function]
db.insert_change_metric(
session,
file_=translated_file,
version=version,
function=function,
date_=date_,
user=user,
added=added,
changed=changed,
deleted=deleted,
nloc=nloc,
cyclomatic_complexity=cyclomatic_complexity,
token_count=tokens,
parameter_count=parameter_count,
max_nesting_depth=max_nd,
fan_in=fin,
fan_out=fout,
)
session.commit()
